Fixation and wound protection device

专利摘要:

公开号:ES2619567T9
申请号:ES12855779.0T
申请日:2012-02-16
公开日:2017-07-18
发明作者:Erhu TANG；Yina TANG；Qiongchen Jiang
申请人:Erhu TANG；Yina TANG；Qiongchen Jiang；
IPC主号:

专利说明:

Fixation and wound protection device
Cross reference to related requests
This application claims the benefit of the international PCT application No. PCT / CN2012 / 071199, filed on February 16, 2012, which claims the benefit of Chinese patent application No. 201110403898.3 filed on December 7, 2011, now Chinese Patent No. CN 102429769B.
Field of patent application
The present patent application refers to the field of medical assistance devices and technologies, and more specifically to a wound fixation and protection device.
Background
In people's lives, due to damage caused by many factors, the human body can suffer wounds such as injuries from external injury, surgical wounds, infusion wounds, etc. Once a wound has been suffered, it should be protected and taken care of so that serious complications caused by wound infections can be prevented. Therefore, excellent technologies and products for wound protection and care are critically important for accelerating wound healing. Currently, in clinical medicine, a wound is protected and cared primarily through wound dressings. Such products mainly include hydrolyzed nonwoven fabrics, transparent thin film dressings, foam dressings, hydrocolloid dressings, functional dressings, etc. To achieve better results, different types of dressings are used to protect and care for different types of wounds. If the methods, technologies and products of protection and care are inappropriate, the damage to the wound will be aggravated. Therefore, attention should be paid to the aggravation of wound damage caused by current wound protection and care technologies and products during wound protection and care, or to not achieve optimal protection and care effects caused by functional defects of the products. To create new products with better healing effects, based on the characteristics of the wounds to be taken care of, a simple classification is performed, while the advantages and disadvantages of conventional technologies and products in protection and protection are analyzed and compared. Wound care.
The first type of wounds is that produced with infusion catheters. In the care of such wounds, such as wounds with central venous catheters, centered peripherally inserted catheters and vein retention needle catheters, in addition to the catheter must be securely fixed, it is necessary to protect the wound especially prevent infection, and in some cases, it is necessary for the catheter to be retained for a few months to cure the disease. Currently, the clinically preferred method is to use transparent thin film dressing (PU film) to directly cover the infusion wound and fix the catheter, with the advantages of:
one. The dressing is superfine and transparent, so that the state of development of the wound can be observed at any time;
2. Excellent flexibility and adaptability with the skin. Once the dressing is fixed to the skin, it is difficult to separate the dressing and the skin.
Therefore, compared to dressings composed of other materials, such a dressing is safer and less likely to detach from catheter fixation and infusion wound protection. However, the dressing has the following disadvantages:
one. Due to its good flexibility, together with a wrinkle produced by the movement of the superficial skin, the dressing will generate the same wrinkle produced by the movement and cannot prevent the wrinkle produced by the movement of the skin. As a result, when the superficial skin generates a wrinkle caused by movement under an external force or caused by a movement of the body, the catheter will have a displacement thereby damaging the infusion wound;
2. The adhesive is sealed over the infusion wound, which can cause allergy in the wound or skin around the wound and generate inflammatory responses such as contact dermatitis;
3. The dressing is not permeable to sweat, so sweat can accumulate in the wound or under the thin film, which can easily cause wound infections, including serious secondary complications such as phlebitis or bloodstream infection;
Four. It is necessary to change the dressing in 3 to 6 days. Do not change the dressing and subsequently disinfect the wound


for a period longer than this which can cause infection. WO2004 / 041064 A2 discloses such a dressing with a patch base layer and an absorbent layer.
The second type of wounds are regular wounds such as surgical wounds, injuries from external injury, etc. Clinically, these types of wounds are usually treated by using non-woven cloths hydrolyzed with pads or fillers, foam dressings, hydrocolloid dressings, etc., to care for and protect the wounds. These types of dressings have the following advantages:
one. Dressings have strong absorbency. They can absorb wound exudation and prevent the spread of the infection zone.
2. There is no adhesive in direct contact with the wound.
3. Hydrocolloid dressings can keep wound tissues moist and accelerate healing.
However, such dressings have the following disadvantages:
one. The dressings are not transparent (the hydrocolloid is translucent), as a result, the developmental state of the wound cannot be observed at any time.
2. Compared to transparent thin film dressings, dressings of this type have less flexibility and adaptability, and stronger hardness and stiffness. Under tension, the dressing can be detached from the surface of the skin, thereby having a lower fixing capacity. When the dressing adapts to wounds in joint parts of the body where wrinkles caused by the movement can be easily generated, or when the patient is sweating as a result of the movement, the dressing can easily come off.
3. The dressings have poor impermeability, or it is not impermeable at all. The adhesive layer of the dressing can easily peel off the skin when in contact with water.
Four. When the superficial skin of the wound has a wrinkle caused by the movement, there may be friction caused by the relative displacement between the superficial skin of the wound and the pad or padding as well as the dressing with which the wound directly contacts, of so that additional damage to the tissues of the wound can be caused, especially for wounds in mobile joint parts of the body.
In addition, the above-mentioned dressings are in direct contact with and covered with pressure on the wound, and therefore can conglutinate with the secretion of the wound tissue. When the dressing is changed, additional damage to the wound tissue may be caused. Although technical non-conglutination processing is applied to the part of the dressing that comes into contact with the wound, the non-conglutination is only relative. At the same time, when a wound disinfection process is performed from time to time, all of the above-mentioned dressings have to be completely changed.
In addition to the technologies mentioned above, some dressings have now appeared that prevent tissue adhesion or “contactless” wound protection and care devices such as “covers,” “frames,” and other wound care and protection technologies, but these Tissue anti-adhesion materials cannot completely prevent tissue adhesion, nor inflammatory reactions or rejection of tissue against foreign bodies. In addition, wound protection and care devices such as "decks" and "frames" have complex structures. In the absence of an effective fixation method, such devices are difficult to fix and can easily move causing additional damage to the wound. Such devices cannot be applied to the fixation of central venous catheters, peripherally inserted central catheters or vein retention needle catheters, nor to the protection and care of infusion wounds. In addition, the manufacture and application of such devices are relatively complicated. Therefore, it is difficult to widely promote the application of such devices clinically. EP 1 344 539 A2 discloses such a protector with an adhesive part and a coating.
In addition to the above disadvantages of conventional technologies and methods for wound protection and care, conventional technologies and methods cannot prevent the wound from tearing and tearing under external force or tension. Currently, there are no clinically effective methods or technologies to address tearing and tearing wounds, especially for surgical wounds and injuries from external injury to the abdomen and mobile joint parts. Tearing and tearing caused by cough, postoperative abdominal distention, forced urination and defecation, etc., can seriously affect wound healing and cause complications such as infection.
That the adhesion between a protective and wound care product and the skin surface is safe is also an important factor that determines the effect of wound protection and care. Therefore, the physiological characteristics of the human surface skin determine and influence the effects of the wound protection and care product. Human skin has the following physiological characteristics:


one. The skin is an organ that secretes sweat. The sweat that is secreted will reduce the adhesion capacity of the adhesive fixing and protection layer, and will even cause it to come off;
2. The skin has a relatively soft surface, which moves and produces wrinkles along its texture under an external force, especially in joint parts with movement functions. The older the age, the more wrinkles there are and the more easily wrinkles occur. Therefore, when an adhesive layer of rigid fixation and protection that can barely be wrinkled relatively or that cannot be wrinkled adheres to the surface of the skin, and when the adhesion surface is subjected to a tension produced by wrinkles caused by movement that are being created under an external force, it will first resist the tension of the wrinkles produced by the movement to limit the displacement and the formation of wrinkles on the surface of the skin. When the adhesion force is not sufficient to resist tension, the adhesion surface will peel off and detach. Therefore, when only the rigid fixation adhesive layer is used to bond and hold an object on the surface of the skin, the advantage is that it can resist the tension of the wrinkles produced by the movement of the skin to limit the wrinkles produced by the movement on the adhesion surface or the surface of the skin surrounded by the opening thereof. However, the disadvantage is due to the fact that the adhesion force with the skin is required to resist the tension of the wrinkles produced by the movement of the skin, when the adhesion force is not sufficient to resist the tension of the wrinkles produced by the movement of the skin, or when the tension increases with the adhesive surface, the rigid adhesive and rigid protective layer will peel off and detach. On the other hand, when a flexible adhesive and protective adhesive layer adheres to the surface of the skin, since it is soft, ultra-thin and has good adaptability, it can generate the same wrinkles produced by the movement as the wrinkles produced by the movement of Skin textures, maintain a good adherent state with the skin under any condition of wrinkles caused by movement. Therefore, the tension of the wrinkles produced by the movement of the skin is not against the adhesion force. When a flexible adhesive and protective adhesive layer is used to fix and protect medical items or wounds to the skin surface, the advantage is that the adhesion is tight and secure, and even when there is sweat, it will not come off easily. The disadvantage of this is that the medical articles or the wound that are being fixed or that is protecting the adhesive fixing and protection layer generate displacements and wrinkles produced by the movement together with the wrinkles produced by the movement of the skin surface. For a catheter fixation with an infusion opening
or a fixation with a wound dressing, the catheter in the infusion opening will move while the surface of the wound will generate wrinkles caused by movement. As a result, additional damage to the wound will be caused while frictions by relative displacement between the wound and the dressing will damage the wound tissue.
3. The allergic constitution skin wounds will be allergic to the adhesive layer, which leads to inflammation and infection. Therefore, it is necessary to prevent the adhesive layer from adhering directly to infusion wounds, surgical wounds and trauma wounds.
Therefore, considering the advantages and disadvantages of the methods and products mentioned above that are being applied to protect and care for wounds, according to the physiological characteristics of the skin, it is necessary to develop a new method or product that inherits and integrates the advantages of conventional technologies and overcome the disadvantages, and create a new method and product of adhesion, protection and fixation that suits the physiological characteristics of the skin. Enhanced technologies, methods or products must meet the following requirements:
one. be able to effectively prevent wounds (including surgical suture wounds, trauma injuries, infusion wounds and some high tension wounds) from tearing and tearing;
2. be able to come into contact with the wound secretion in permeation mode, instead of coming into contact tightly and with pressure with the wound secretion, so that the product can effectively absorb the secretion fluid from the necrotic tissue of the wound and prevent regional spread, without or with little conglutination with the tissue of the wound;
3. to allow the wound to be open and visible so that the state of development of the wound can be observed at any time;
Four. be able to securely attach and adhere to the skin around the wound and fix the infusion catheter, simply using only transparent thin film dressings, without joining wounds or wounds by infusion by adhesives, while they are transparent and visible to it weather;
5. to be able to limit additional damage to the wound caused by wrinkles caused by the movement of the superficial skin of the wound and the displacement of the catheter, especially for wounds and wounds by infusion on mobile joint body parts or with relatively many wrinkles on the skin ;
6. based on the requirements of the characteristics of the wound, being able to completely prevent the surface of the wound from coming into contact with any foreign body (including the dressing itself) to prevent the wound from having foreign body rejection responses and inflammation;


7. if necessary, medical and physical treatment of debridement, disinfection, drainage and regional treatment can be performed on the wound without changing the entire wound protection and care product;
8. while protecting the wound, being able to securely fix the wound-related catheter so that the catheter cannot easily detach, simply by using the transparent film dressing alone, preventing the movement of the catheter on the skin surface when used Transparent thin film dressing alone, and prevent the infusion wound from being damaged by catheter displacement.
9. if necessary, be impermeable, permissible to air and be able to stay away from contamination of the external environment;
10. be able to reduce the frequency of changing products for wound care or reduce medical costs.
Summary
An object of the present patent application is to provide a wound fixation and protection device to improve the fixation and protection effect for surgical wounds, trauma injuries and infusion wounds, facilitate wound healing and guarantee the effect of clinical treatment. .
To solve the problems, the present patent application provides: a wound fixation and protection device that includes at least one fixation and protection layer with an opening; and an opening and closing element arranged in the fixing and protection layer with the opening. The opening is defined in the fixing and protection layer and is configured to extend between an upper and a lower plane of the fixing and protection layer along a longitudinal direction, and to surround a wound therein so that the fixing and protection layer with the opening limits an increase in tension in the wound and a wrinkle caused by the movement of the skin in the wound. The fixing and protection layer with the opening includes a flexible fixing and protection layer with an opening and a rigid fixing and protection layer with an opening, a cavity being defined in the rigid fixing and protection layer with the opening. The cavity in the rigid fixing and protection layer with the opening is configured to connect an upper surface and a lower surface of the rigid fixing and protection layer with the opening throughout the rigid fixing and protection layer with the opening. The flexible fixing and protection layer and the rigid protection and fixing layer are joined together and aligned by the openings. The flexible fixing and protection layer with the opening is arranged below or above the rigid fixing and protection layer with the opening, extending an outer limit of the flexible fixing and protection layer beyond an outer limit of the layer rigid fixation and protection. The entire surface of the rigid fixing and protection layer with the opening is covered by the flexible fixing and protection layer with the opening, or the entire surface of the rigid fixing and protection layer with the opening is attached to a middle part of an upper surface of the flexible fixing and protection layer with the opening. The opening and closing element is detachably fixed with the fixing and protection layer with the opening.
The wound fixing and protection device may further include an adhesive layer, the adhesive layer being arranged on a surface of the fixing and protection layer with the opening.
The wound fixing and protection device may further include a pad, the pad being arranged on a lower surface of the opening and closing element and being configured to be accommodated by the opening of the fixing and protection layer with the opening.
The opening and closing element may include a protruding wing arranged at an edge thereof.
A passage that connects the cavity with the outside can be defined in the rigid fixing and protection layer with the opening, the step being configured to allow an object to enter or exit the cavity.
The longitudinal cross-section of the rigid fixing and protection layer with the opening can have a trapezoidal shape.
A U-shaped cut can be defined at an outer edge of the fixing and protection layer with the opening.
The wound fixing and protection device may further include a support element, the support element being fixed with at least a top part of the fixing and protection layer with the opening. The support element may be a support bar, a support chip, a support block or a support frame.
An outer edge of the fixing and protection layer with the opening can be connected to the opening through a slit.
In this technical solution, the opening surrounds the surgical wound, the external injury wound and the infusion wound therein so that the fixing and protection layer with the opening limits an increase in tension in the


wound and a wrinkle caused by the movement of the skin in the wound, prevents tearing and tearing of the wound, and prevents damage to the wound caused by wrinkles caused by the movement of the skin of the wound and friction by relative displacement between the wound, the dressing and the catheter, thereby improving the protective effects of the wound and infusion wound, facilitating wound healing, effectively preventing infection of the infusion wound and guaranteeing the treatment effect clinical, especially for high-tension surgical wounds in the abdomen, wounds in mobile joint parts of the body and patients who need long-term infusion therapy through venous catheters. In this technical solution, a cavity is formed in the fixing and protection layer with the opening. Through the adjustment of the thickness of the fixing and protection layer with the opening, or the height or volume of the cavity, the dressing covering the wound comes into contact with the secretion of the wound in permeation mode, and absorbs liquid exudate from the wound, preventing further damage to the wound as a result of allergic responses caused by contact with adhesives and the conglutination between the dressing and the secretion of the wound caused by using dressings to press and come into contact with the wound and by the direct binding to infusion wounds in conventional technologies, and keeping the wound and the infusion wound in an opening cavity where no foreign object can touch them (including the dressing) to prevent contact inflammation.
The fixing and protection layer with the opening is composed or partially composed of transparent thin film materials (PU film), which is transparent, impermeable, air permeable and with good flexibility and adaptability. The characteristics of this material are: the material can generate the same wrinkles produced by the movement as the wrinkles generated by the skin texture, retain good flexibility and adaptability and adhere securely to the wound, the skin around the wound by infusion, and covering the catheter so that neither he nor the catheter can easily separate and detach from the surface of the skin. You can also attach other objects to your surface more safely. In addition, the resistance of this structure is much stronger than the direct attachment to the skin. Covers such as plastic, silicon gel, foam, hydrocolloid, nonwoven fabric, etc., make it not easy for the entire fixing layer to separate and detach from the skin surface. The fixation is safer, thus protecting the wound and the infusion wound more effectively.
The fixing and protection layer with the opening is composed or partially composed of materials such as silicon gel, plastic, foam, hydrocolloid, multi-layer compressed thickened nonwoven fabric, etc. Compared to transparent thin films (PU film), this material has a relatively stronger stiffness with the characteristics of: the material does not generate wrinkles caused by movement when the skin adheres to wrinkles with its texture, and can effectively limit the wound surrounded by the opening and the cavity formed by the opening, the wrinkles produced by the movement of the superficial skin in the infusion wound during the movement of the body or under the traction of an external force, the increase of tension in the wound , thereby preventing tearing and tearing of the wound, preventing damage caused to the wound by wrinkles caused by the movement of the wound and friction by relative displacement between the wound and the dressing, limiting the wrinkles produced by the movement produced by the catheter that is attached, the surface of the skin and other protective layers, and preventing the catheter from moving and damaging and the wound.
The fixing and protection layer with the opening includes a flexible fixing and protection layer with an opening and a rigid fixing and protection layer with an opening. A cavity is defined in the rigid fixing and protection layer with the opening. In this technical solution, since fixing and protection layers with openings of different material characteristics are used, respective protection and wound fixing characteristics are expressed. The flexible fixation and protection layer with the opening, being a feature that is ultra-thin, after joining the skin, can generate the same wrinkles produced by the movement as the surface skin wrinkles with its texture, and preferably is composed of film thin transparent (PU film). The rigid fixing and protection layer with the opening, compared to the flexible fixing and protection layer with the opening, is more rigid and thick. After joining the surface of the skin, it does not generate the same wrinkles produced by the movement as the surface skin wrinkles with its texture, and does not generate wrinkles. The materials for it can be chosen based on different characteristics of the wound, it can be a soft material to satisfy the comfort of the skin, or they can be a hard, inelastic, difficult to deform material, such as plastic, silicon gel, foam, hydrocolloid, non-woven fabric, etc., provided that it does not generate the same wrinkles produced by the movement as the wrinkles of the superficial skin with its texture after joining the skin. When the skin to which the flexible fixing and protection layer joins the opening generates wrinkles caused by movement under an external force, there is almost no tension on the adhesive surface between the flexible fixing and protection layer with the opening and the skin. Therefore, regardless of whether the skin generates wrinkles caused by movement, sweat
or it is soaked with water, the flexible fixing and protection layer with the opening will not separate from the surface of the skin or detach. When the rigid fixing and protection layer with the opening joins the surface of the skin, the rigid fixing and protection layer with the opening will resist the tension produced by wrinkles and skin deformation, will limit skin wrinkles , and when the displacement force of the wrinkles produced by the movement of the skin is greater than the adhesive force generated by the rigid fixing and protection layer with the opening that remains on the skin, the flexible rigid fixing and protection layer with the opening will separate and detach, which is easier to occur when the skin sweats or is soaked with water. However, when the rigid fixing and protection layer with the opening adheres to the flexible fixing and protection layer with the opening that has been attached to the skin, the adhesive force will be greatly enhanced and will be sufficient to resist the


tension produced on the adhesive surface by wrinkles produced by the movement of the flexible fixing and protection layer with the opening and the skin so that the rigid fixing and protection layer with the opening will not separate or detach from the surface of the flexible fixing and protection layer with the opening, and will not affect the secure adhesion between the flexible fixing and protection layer with the opening and the skin surface. At the same time, the rigid fixing and protection layer with the opening can limit the wrinkles produced by the movement of the flexible fixing and protection layer with the opening that adheres thereto, fixing the movement of the medical articles, and the wrinkles caused by the movement of the skin from the surface of the wound surrounded by the opening, thereby preventing damage to the skin from wrinkles caused by the movement of the skin from the surface of the wound, limiting the increase of tension in the wound, preventing tearing and tearing of the wound, and preventing damage to the wound from infusion caused by the displacement of the catheter. Furthermore, since the outer limit of the flexible fixing and protection layer with the opening is always greater than the outer limit of the rigid fixing and protection layer with the opening, the outer limit that adheres to the skin is the layer of Flexible fixation and protection, so that it generates the same wrinkles produced by the movement as the surface skin wrinkles with their texture. Although the same wrinkles occur, it will not separate, take off or detach. Therefore, by cooperative union of the flexible fixing and protection layer with the opening and the rigid fixing and protection layer with the opening and using them to protect and fix wounds and catheters, they will be fixed very securely and not easily separated nor detach from the skin, and they will be very stable and it is not easy for movement to occur. The entire device for fixing and protecting wounds to the skin around the wound will be securely and stably fixed so that the optimal effect of protecting the wound is achieved and the requirements for wound care and fixation of medical articles are met. (for example, catheters). In this technical solution, since a cavity is formed within the flexible rigid fixing and protection layer with the opening, establishing a different thickness of the rigid fixing and protection layer with the opening or a different height and volume of the cavity , only surface contact in permeation mode is allowed between the wound surface secretion and the dressing covering to facilitate absorption of the wound discharge, which also prevents the wound surface from coming into contact or press for any foreign object (including the dressing or other covering objects), prevents damage to the wound from friction due to relative displacement between the wound and the dressing covering or the fixation and protection layer, and prevents produce additional damage to the wound due to allergic responses of contact with adhesive and conglutination between the dressing and the secretion of the wound caused by r the use of dressings that press on and come into contact with the wound and bind directly to infusion wounds as in conventional technology.
Preferably, an adhesive layer is disposed on a surface of the fixing and protection layer with the opening. Through the adhesive layer, the fixing and protection layer with the opening is fixed on the surface of the skin around the wound or around the infusion wound, and the fixing and protection layers are joined and fixed together. .
Preferably, the flexible fixing and protection layer with the opening is configured to follow the wrinkles produced by the movement of the surface skin texture to which the flexible fixing and protection layer adheres and produce the same wrinkles produced by the movement . The rigid fixing and protection layer with the opening is configured to limit the wrinkles produced by the movement of the skin to which it adheres, the wrinkles produced by the movement of the flexible fixing and protection layer with the opening, the tearing of the wound surrounded by the opening and the wrinkles produced by the movement of the superficial skin of the wound. As a result, the flexible fixing and protection layer with the opening does not separate or detach from the surface of the skin under tension tension caused by the movement of the skin, and is securely fixed. The rigid fixing and protection layer with the opening can limit the wrinkles produced by the movement of the skin and the flexible fixing and protection layer with the opening to which it adheres, and the wrinkles produced by the tearing movement of the skin. wound and the superficial skin of the wound surrounded by the opening. Therefore, it can limit the increase in tension in the wound, prevent the wound from tearing or tearing, prevent damage to the wound from wrinkles caused by the movement of the superficial skin of the wound, prevent it from produce damage to the wound due to the relative displacement between the wound and the dressing covering or the fixing and protection layer, preventing damage to the wound due to infusion due to the displacement of the catheter. By cooperatively joining the flexible fixing and protection layer with the opening and the flexible rigid fixing and protection layer with the opening, it is not easy for the entire wound fixation and protection device to detach from the skin or cause displacement, and the fixation average articles such as central venous catheters, peripherally inserted central catheters and vein retention needle catheters, wound drainage tube, dialysis catheter, etc. they will not move, protecting and thereby securely fixing wounds and securely fixing all types of medical catheters.
The flexible fixing and protection layer and the rigid protection and fixing layer are joined together and aligned by the openings.
Preferably, a fixing and protection layer with a pad and / or a fixing and protection layer without a pad is (s) disposed above the fixing and protection layer with the opening. Such fixing and protection layers may be of transparent, non-transparent, flexible and / or rigid materials, and are configured to close the opening and additionally fix or fix the fixing and protection layer with the opening on the skin around the wound. The pad is configured to absorb the exudate fluid in the wound.


An opening and closing element is arranged in the fixing and protection layer with the opening. The opening and closing element is configured to open or close the opening. Preferably, a pad is disposed on the lower surface of the opening and closing element and is configured to be accommodated by the opening. The pad can be any type of functional pad, such as a highly absorbent pad, antiseptic pad, wetting pad, etc.
The opening and closing element is detachably fixed with the fixing and protection layer with the opening. Such a configuration makes it convenient to open and close the opening repeatedly and for a doctor to treat the wound at any time depending on the situation of the wound.
Preferably, the opening and closing element includes a protruding wing disposed at an edge thereof. The configuration of the protruding wing makes it more convenient to exert force to pull the opening and closing element to save effort and time in the use of the device.
Preferably, a passage connecting the cavity with the outside is defined in the rigid fixing and protection layer with the opening, the step being configured to allow an object to enter or exit the cavity. The passage is configured to allow medical catheters such as central venous catheters and wound drainage tubes to pass through.
Preferably, the longitudinal cross section of the rigid fixing and protection layer with the opening has a trapezoidal shape. The configuration in this technical solution makes other dressing objects and / or that cover, cover and better bond the fixing and protection layer to the skin around the wound to achieve the optimum effect of conformity and fixation.
The flexible fixing and protection layer with the opening is arranged below or above the rigid fixing and protection layer with the opening, extending an outer limit of the flexible fixing and protection layer beyond an outer limit of the layer rigid fixation and protection. When the flexible fixation and protection layer is arranged below the rigid fixation and protection layer and on the surface of the skin in the wound, the rigid fixation and protection layer with the opening joins directly to the top of the flexible fixing and protection layer with the opening. Such a configuration is safe and stable, making it not easy to detach and cannot move, and making the items be fixed in a stable and safe manner. Since the outer limit of the flexible fixing and protection layer with the opening extends beyond the outer limit of the rigid fixing and protection layer with the opening, nothing of the fixing and protection layer due to be detached or detached to sweat and soaked with water.
Preferably, a U-shaped cut is defined at an outer edge of the fixing and protection layer with the opening. Through the configured U-shaped cut, the fixation layer more effectively fixes medical tubes such as vein retention needle catheters, drainage catheters, etc., through the adhesive layer.
Preferably, the wound fixation and protection device further includes a support element. The support element is fixed with at least one upper part of the fixing and protection layer with the opening. The support element is configured to maintain and support the dressing covering, the opening and closing element and other objects that cover in the opening, so that they will not deform or sink.
Preferably, the support element is a support bar, a support chip, a support block or a support frame.
Preferably, the fixing and protection layer with the opening is a combination of multiple layers of different materials. The combination may include highly absorbent materials, antiseptic materials, wetting materials and iophore carrying materials. Different functional materials can be configured according to the requirements so that an aseptic, antiseptic internal environment is formed that promotes growth or promotes healing in the cavity of the fixation and protection layer with the opening.
Preferably, an outer edge of the fixing and protection layer with the opening is connected to the opening through a slit. Through the slit, the opening or the cavity can surround the infusion wound above the skin and below the catheter, and make the upper surface of the fixation and protection layer with the opening function as a support pad of the catheter
Compared to conventional technology, the present patent application configures at least one fixing and protection layer with an opening, which fixes and protects the wound and the infusion wound in an opening that limits the increase in tension and wrinkles produced by the movement of the superficial skin of the wound, preventing the wound from tearing and tearing, preventing damage to the wound caused by wrinkles caused by the movement of the skin in the wound and by the relative displacement between the wound and the dressing or catheter, filling the gaps of conventional technology. In addition, by adjusting the thickness of the fixing and protection layer with the opening or the height and volume of the cavity, the absorption dressing that is covered or other objects that


they cover come into contact with the secretion on the surface of the wound in permeation mode, or the wound is maintained in a state in which no foreign object can come into contact with the wound, effectively overcoming the problems of regional skin allergy, accumulation of sweat on the infusion wound under the thin film, etc., when the transparent thin film dressing including allergenic adhesives is used to directly bond and cover the infusion wound of the central venous catheter as in conventional technologies, and thereby preventing the inflammatory response, reducing the possibility of complication of catheter-related bloodstream infections (CRBSI) once the catheter is placed in the vessel, preventing the obstruction of regional blood circulation produced using the cover or frame with small contact areas as provided in conventional technologies to press di rightly the skin around the wound; preventing adhesives from coming into contact with the wound and the skin around the wound to reduce the appearance of allergic skin responses, and preventing the rejection of foreign bodies and the obstruction of blood circulation around the wound caused by coming into contact and directly press the wound, according to the requirements for patients with allergic constitution; and effectively preventing further damage to the conglutination wound between the dressing and the secretion of the wound.
In addition, the fixing and protection layer with the opening includes a flexible fixing and protection layer with an opening and a rigid fixing and protection layer with an opening. The flexible fixing and protection layer with the opening is configured to follow the wrinkles produced by the movement generated by the skin along texture and to generate the same wrinkles produced by the movement, while the rigid fixing and protection layer with The opening is configured to limit wrinkles caused by the movement of the skin to which it adheres, of the flexible fixing and protection layer with the opening, and of the superficial skin in the wound surrounded by the opening or cavity, and the increased tension in the wound, thereby preventing the wound from tearing and tearing. By combining and using fixing and protection layers of two different material characteristics, the advantages are maintained and the disadvantages are overcome. Therefore, compared to conventional technologies, this technology allows the device to be fixed securely on the skin around the wound, which does not come off easily and also to prevent the device and the objects to be fixed, such such as catheters and dressings, move on the skin, effectively overcoming the problem that the catheter damages the infusion wound caused by wrinkles caused by the movement of the skin or that the catheter is pulled by tension when use only a flexible fixation and protection layer such as a transparent thin film (PU film) to fix and protect an infusion wound as in conventional technology, and effectively overcome the problem that the fixation and protection layer detaches from the skin around the wound caused by situations such as skin tension, sweat, soaked with water etc., when only one apos is used Rigid fixing layer such as a non-woven fabric, foam, etc. to fix the wound and the infusion wound as in conventional technologies. At the same time, this technology also overcomes the disadvantages of lacking an effective fixing method and that the structure is complex for wound fixation and protection devices such as the cover or the frame in conventional technologies.
In addition, an opening and closing element that can be opened and closed repeatedly is arranged on the fixing and protection layer with the opening. The opening and closing element is configured to open or close the opening or the cavity. Such a structure makes it convenient for a medical or nursing staff to treat the wound or wound by infusion, such as by debridement, repeated disinfection, drainage, and by the application of antiseptic drugs that promote growth to the wound without change the entire fixing and protection device. Therefore, such protective devices can be used for a long time and medical cost is saved.
In addition, the opening and closing element is composed of transparent materials so that the wound and the infusion wound are transparent and visible, and the medical and nursing staff or the patient himself can observe the state of development of the wound and the Infusion wound at any time without opening the opening and closing element.
In addition, the fixing and protection layer with the opening is a combination of multiple layers of different materials. Different materials have different functionalities and play different roles in protecting the wound, improving the protective effect. For example, a cavity formed by a fixation and protection layer with an opening that carries an iodophore can provide an antiseptic environment to the wound and its periphery. A cavity formed by a layer of fixation and protection with an opening that carries hydrocolloid can provide an environment of moisture to the wound to facilitate its growth and healing.
In addition, due to the opening and / or the passage that can be opened and closed in the technical solution, through the opening or the passage that can be opened and closed, treatment such as debridement, drainage, regional medication, regional physical treatment can be applied. , nutritional treatment, treatment with growth factors, treatment with negative pressure, etc. to infusion wounds and wounds that require different treatment methods, while a specific healing environment can be created for wounds of different characteristics, such as aerobic, anaerobic, dry, wet, sterile and antiseptic environments, to facilitate healing Quick wound.
Brief description of the drawings


Figure 1 is an illustrative diagram of a wound fixation and protection device not according to the present invention.
5 Figure 2 is a diagram illustrating the structure of a flexible fixing and protection layer with an opening.
Figure 3 is a perspective view of a wound fixation and protection device not according to the present invention.
10 Figure 4 is a diagram illustrating the structure of a fixing and protection layer with an opening shown in Figure 3.
Figure 5 is a perspective view of a wound fixation and protection device not according to the present invention.
15 Figure 6 is a diagram illustrating the structure of a fixing and protection layer with an opening shown in Figure 5.
Figure 7 is a perspective view of a wound fixation and protection device according to embodiment 4 of 20 of the present patent application.
Figure 8 is a perspective view of a wound fixation and protection device according to embodiment 5 of the present patent application.
Figure 9 is a perspective view of a wound fixation and protection device according to embodiment 6 of the present patent application.
Figure 10 is a diagram illustrating the structure of a rigid fixing and protection layer with an opening having a slit and a slit as shown in Figure 9.
Figure 11 is a perspective view of a wound fixation and protection device not according to the present invention.
Figure 12 is a perspective view of a wound fixation and protection device not according to the present invention.
Figure 13 is a diagram illustrating the structure of a flexible fixing and protection layer with an opening having a pad as shown in Figure 12.
Figure 14 is a perspective view of a wound fixation and protection device not according to the present invention.
Figure 15 is a diagram illustrating the structure of a fixing and protection layer with an opening shown in Figure 14.
Figure 16 is a diagram illustrating the structure of a rigid fixing and protection layer with an opening having a pad shown in Figure 14.
Figure 17 is a structural view of a wound fixation and protection device not according to the present invention.
Figure 18 is a diagram illustrating the structure of a rigid fixing and protection layer with an opening having a pad and an overhanging wing shown in Figure 17.
Figure 19 is a diagram illustrating the structure of a fixing and protection layer with an opening shown in Figure 17.
Figure 20 is a structural view of a wound fixation and protection device according to embodiment 11 of the present patent application.
60 Figure 21 is a diagram illustrating the structure of a rigid fixing and protection layer with an opening shown in Figure 20.
Figure 22 is a diagram illustrating the structure of a flexible fixing and protection layer with an opening 65 depicted in Figure 20.


Figure 23 is a perspective view of a wound fixation and protection device according to embodiment 12 of the present patent application.
Figure 24 is a diagram illustrating an opening and closing element with a pad as shown in Figure 23.
Figure 25 is a perspective view of a wound fixation and protection device according to embodiment 13 of the present patent application.
Figure 26 is an exploded view of a wound fixation and protection device according to embodiment 14 of the present patent application.
In the drawings, the drawing symbols are as follows:
1: fixing and protection layer with an opening
11: opening
12: U-shaped cut
13: step 1a: flexible fixing and protection layer with an opening 1b: rigid fixing and protection layer with an opening 1c: slit 1d: slit
2: opening and closing element
21: protruding wing
22: pad
3: flexible fixing and protection layer
31: pad
4: fixation layer and rigid protection
41: pad
42: protruding wing
5: support element
A: catheter
B: wound
Detailed description
The basic idea of the present patent application is to provide a wound fixation and protection device. Through the configuration of a fixing and protection layer with an opening, the opening in the fixing and protection layer being defined and being configured to extend between an upper plane and a lower plane of the fixing and protection layer, being surrounded a wound or an infusion wound by the opening or being inside a cavity formed by the opening, the following objectives and functions are achieved:
one. Through the fixing and protection layer with the opening, the opening or cavity is used to fix and protect the wound so that the fixing and protection layer with the opening limits an increase in tension in the wound and a wrinkle produced by the movement of the superficial skin in the wound, thereby preventing tearing and tearing of the wound.
2. The fixing and protection layer with the opening limits a wrinkle caused by the movement of the superficial skin


in the wound surrounded by the opening or the cavity, so that the damage caused to the wound by the wrinkle caused by the movement is prevented, and the damage caused to the wound by the friction by relative movement between the wound and the wound is prevented dressing without an opening in conventional technology.
3. The opening or cavity of the fixing and protection layer with the opening is configured to protect the wound. Therefore, even if the fixing and protection layer is composed of non-transparent materials, provided that a transparent and detachable opening and closing element is disposed on the upper plane of the opening, the skin will not be injured when the opening and closing element open, close or change. With such a configuration, the wound can be viewed at any time conveniently, and can be treated instantly without changing the entire device so that damage to the wound is prevented by moving the catheter and tearing to the skin during the device change and the cost is reduced.
Four. By adjusting the thickness of the fixing and protection layer with the opening, or the height or volume of the cavity, the distance or level of contact between the dressing on the wound or the fixing and protection layer can be set with a pad and the surface of the wound to prevent conglutination and obstruction of the circulation and bloodstream caused by the dressing directly and the contact and pressure tightly on the wound. It is also possible to configure an absorption dressing on a wound surface with a relatively large amount of secretion such as a permeation and absorption contact surface, to ensure that the dressing will not conglutinate with the wound tissue or cause additional damage while the dressing can absorb the secretion of the wound.
5. It prevents inflammation and wound infection caused by the accumulation of sweat under the thin film and irritation by the adhesive, which occurs when transparent thin film (PU film) is used to directly bond and cover infusion wounds in conventional clinical technologies.
6. Through the joining, the combination and the use of fixing and protection layers with openings composed of different materials, the advantages of each can be maintained while the disadvantages can be overcome. When the flexible fixing and protection layer is joined with the rigid protection and fixing layer while the rigid fixing and protection layer partially overlaps, and the limit of the flexible protection and fixing layer is always greater than the layer limit rigid fixation and protection, because only the flexible fixing and protection layer is attached to the skin as the limit of the fixing layer, its flexible adaptation advantage is maintained to the surface of the skin not being likely to peel off Don't let go. The middle part of the flexible protection and fixing layer joins the rigid protection and fixing layer, while the openings can be anywhere between the two layers. The openings in all layers are aligned with each other, while the wound is in the openings and the catheter being fixed is covered and attached to the skin. This configuration maintains the advantage of the rigid fixing and protection layer of not generating wrinkles caused by movement, and overcomes the problems of catheter displacement, skin wrinkles, wound wrinkles and relative displacement frictions between wounds and the dressing that covers the wound caused by wrinkles caused by the movement of the skin or the drag of an external force when there is only a flexible fixing and protection layer that covers and adheres to the catheter or the skin, or when only the opening of The flexible fixing and protection layer surrounds the wound. At the same time, the entire surface of the rigid fixing and protection layer is covered by the flexible fixing and protection layer or is only attached to a middle part of an upper surface of the flexible fixing and protection layer, so that overcomes the disadvantage of detachment and detachment easily due to sweat or increased tension of the wound when only the rigid fixing and protection layer adheres to the skin.
7. By combining and joining fixing and protection layers with openings of different material characteristics with wound dressings or fixing and protection layers of different material characteristics provided by conventional technology, the disadvantages of wound dressings or fixing layers are overcome. protection provided by conventional technologies while maintaining their advantages.
For a person skilled in the art to better understand the technical solutions of the present application, further detailed descriptions of the present patent application will be presented below with the illustrations of the drawings and various embodiments.
Referring to Figure 1 and Figure 2, a wound fixation and protection device not according to the present invention includes a fixation and protection layer 1 with an opening. An opening 11 is defined in the fixing and protection layer 1 and is configured to extend between an upper plane and a lower plane of the fixing and protection layer 1 along a longitudinal direction. The area of the opening 11 is compatible with the area of the wound or the infusion wound so that the wound or the infusion wound is surrounded by the opening 11 to limit an increase in tension in the wound, to prevent the wound tear or tear, and to limit a wrinkle caused by the movement of the skin in the wound and / or the opening of the wound.
An adhesive layer may be disposed on a lower surface of the fixing and protection layer with the opening, or the fixing and protection layer may be covered and joined with a dressing obtained by conventional technologies (such as a non-woven dressing with a pad or thin transparent film) and thus fix to the skin around the wound. The fixing and protection layer with the opening is relatively thick.


In another configuration, the fixing and protection layer with the opening includes a flexible fixing and protection layer with an opening and a rigid fixing and protection layer with an opening. The flexible fixing and protection layer with the opening can be a thin transparent film (PU film) and ultra thin. Referring to Figure 2, the flexible fixing and protection layer with the opening is configured to come into close contact with the skin, the object to be fixed, and the rigid fixing and protection layer with the opening and not detach easily. The rigid fixing and protection layer with the opening may be composed of plastic, silicon gel, thickened nonwoven fabric, foam and hydrocolloid, and may be generally relatively thick, referring to Figure 1. Generally, the fixing layer and rigid protection with the opening is relatively thick, while the opening forms a cavity with a certain height and volume to limit an increase in tension in the wound surrounded by the opening or the cavity and a wrinkle produced by the movement of the skin superficial, prevent the wound from tearing and tearing, prevent damage to the wound from wrinkles caused by the movement of the superficial skin of the wound and the displacement of the catheter being fixed, and prevent damage to occur the wound due to frictions due to relative displacement between the wound and the dressing. In addition, by adjusting the thickness of the fixing and protection layer with the opening, or the height or volume of the cavity, the distance or level of contact between the dressing on the wound or the fixing layer and protection with a pad and the surface of the wound to avoid the conglutination and obstructions of the circulation and the bloodstream caused by the dressing directly and the contact and pressure tightly on the surface of the wound. It is also possible to configure an absorption dressing on a wound surface with a relatively large amount of secretion such as a permeation and absorption contact surface, to ensure that the dressing will not conglutinate with the wound tissue or cause additional damage while the dressing can absorb the secretion of the wound.
In this configuration, the opening of the fixing and protection layer with the opening is configured to protect the wound. Therefore, even if the fixing and protection layer is composed of a non-transparent material, provided that a transparent and detachable opening and closing element is disposed on the upper plane of the opening, the skin will not be injured when the opening element and Close open, close or change. With such a configuration, the wound can be viewed at any time conveniently, and can be treated instantly without changing the entire device so that damage to the wound is prevented by moving the catheter and tearing to the skin during Device change and cost is reduced. It prevents inflammation and wound infection caused by the accumulation of sweat under the thin film and irritation by the adhesive, which occurs when transparent thin film (PU film) is used to directly join and cover clinically infused wounds in conventional technology.
Referring to Fig. 3 and Fig. 4, a wound fixation and protection device not according to the present invention includes an attachment and protection layer 1 with an opening and an opening and closing element 2. The opening 11 of the fixation and protection layer is aligned with the infusion wound while covering and attaching to a catheter A on the skin. The opening and closing element 2 is configured to seal the opening 11, so that the infusion wound is sealed and separated from the outside. A U-shaped cut 12 is defined at an outer edge of the fixing and protection layer with the opening, and is configured to make the catheter being fixed better suited to the skin. The opening and closing element 2 is fixed with the fixing and protection layer with the opening through an adhesive layer, which is arranged on a lower edge of the opening and closing element. Under an external force, the opening and closing element is partially or completely separated, so that a cavity 11 is exposed to the outside. The opening and closing element 2 includes a protruding wing 21 arranged at an edge thereof. The configuration of this protruding wing makes it convenient for a human hand or a mechanical tool to exert force on the opening and closing element. In operation, the human hand can work on this protruding wing, and thereby lift and place the opening and closing element.
The fixing and protection layer with the opening is composed of an ultra-thin flexible material.
The opening and closing element 2 may be composed of a transparent or non-transparent material. There is no adhesive in the area corresponding to the sealed cavity, so that infection caused by direct irritation by the adhesive to the infusion wound is avoided. The protruding wing 21 is arranged at the edge of the opening and closing element 2 so that the opening of the fixing layer can be sealed and opened at any time conveniently and, the infusion wound can be treated without changing the layer of flexible fixation and protection with the opening, and damage to the infusion wound can be avoided as well as skin irritation caused by moving the catheter during change and take off. The operation of the wound fixation and protection device is simple, while reducing the frequency of the dressing and saving cost.
The catheter includes central venous catheters (CVC), peripherally inserted central catheters (PICC), vein retention needle catheters, drainage tubes, etc.
Referring to Figure 5 and Figure 6, the difference between this configuration and the previous configuration is that the fixing and protection layer 1 with the opening is composed of a rigid material such as plastic, silicon gel, foam, hydrocolloid, thickened nonwoven fabric, etc., and is relatively thick, which makes the opening 11 have a clear height and forms a cavity. A step 13 that connects the cavity with the outside is defined in layer 1


fixing and protection with the opening. A catheter A is arranged in step 13, and fixed to the skin through an adhesive layer on a lower surface of the fixing and protection layer 1 with the opening. The opening 11 surrounds the infusion wound and an opening and closing element 2 seals the opening from the top.
The opening 11 can surround the wound so that the surface of the wound and the skin around the wound are surrounded by the edge of the cavity 11, thereby tearing and tearing the wound can be effectively prevented, it can be prevented that the substantial part of the rigid fixing and protection layer with the opening comes into contact with the surface of the wound directly, and the wound is in a cavity formed by the opening where no object can touch. The rigid fixing and protection layer with the opening is configured to limit wrinkles caused by the movement of the superficial skin of the wound in the opening 11 or the cavity, to better protect the wound and eliminate contact and friction with foreign objects and contact inflammation responses. The opening and closing element 2 is composed of a transparent material to make it convenient to observe the situation of the wound and treat the wound at any time without changing the entire device.
Embodiment 4
Referring to Figure 7, which is different from the previous configurations, in this embodiment, the wound fixation and protection device includes an attachment and protection layer with an opening and an opening and closing element, in which the layer for fixing and protection with the opening includes a flexible fixing and protection layer 1a with an opening, a rigid fixing and protection layer 1b with an opening, and an opening and closing element 2. Through the cooperative use of the flexible fixing and protection layer 1a with the opening and the rigid fixing and protection layer 1b with the opening, the infusion wound is fixed and protected and the catheter is fixed. The opening of the flexible fixation and protection layer 1a is aligned with the infusion wound, and then the catheter A is covered and joins the skin around the wound so that the catheter A is fixed and the infusion wound is surrounded by the flexible fixing and protection layer 1a. The rigid fixing and protection layer 1b with the opening is joined and fixed to an upper surface of the flexible fixing and protection layer 1a with the opening, while the limit of the flexible fixing and protection layer 1a with the opening is greater than the limit of the rigid fixing and protection layer 1b with the opening. Therefore, for the entire device, only the flexible fixing and protection layer 1a is attached to the skin, the catheter A is attached and fixed between the skin and the flexible fixing and protection layer with the opening, the infusion wound it is in the opening or cavity formed by the two fixing and protection layers, and the opening and closing element seals the opening or cavity.
In this embodiment, since the flexible fixing and protection layer 1a with the opening and the rigid fixing and protection layer 1b with the opening are used cooperatively to fix and protect infusion wounds or regular wounds and to prevent tearing of the wound, the respective advantages of the flexible fixing and protection layer 1a with the opening and the rigid fixing and protection layer 1b with the opening are used, while the disadvantages thereof are overcome, the catheter fixation is safer , the infusion wound protection is more effective, the period of time during which the device will be used once is longer, the number of times the device is changed is less and cost is saved.
In this embodiment, the flexible fixing and protection layer 1a with the opening is joined with the rigid fixing and protection layer 1b with the opening although without completely overlapping the rigid fixing and protection layer 1b with the opening, and the boundary of the flexible fixing and protection layer 1a with the opening is always greater than the limit of the rigid fixing and protection layer 1b with the opening. Since only the flexible fixing and protection layer is attached to the skin as the limit of the fixing layer, the flexible protection and fixing layer adapts flexibly to the surface of the skin and does not peel off or detach easily . The middle part of the flexible fixing and protection layer 1a with the opening joins with the rigid fixing and protection layer 1b with the opening, while the infusion wound is in the cavity formed jointly by the two layers, and the catheter which is being fixed is covered and joins the skin. This configuration maintains the advantage of the rigid fixing and protection layer of not generating wrinkles caused by movement, and overcomes the problems of catheter A displacement, skin wrinkles, wound wrinkles and relative displacement frictions between the wound and the dressing covering the wound, caused by wrinkles caused by the movement of the skin or the dragging of an external force, when there is only a flexible fixing and protection layer 1a with the opening that covers and adheres to the catheter A or the skin, or when only the opening of the flexible fixing and protection layer 1a surrounds the wound, so that the infusion wound is not damaged in this way. At the same time, the entire surface of the rigid fixing and protection layer 1b with the opening joins a middle part of an upper surface of the flexible fixing and protection layer 1a with the opening, so that the disadvantage of peeling and detachment easily due to sweat or wound tension when only the rigid fixing and protection layer 1b with the opening adheres to the skin.
Embodiment 5
Referring to Figure 8, the difference between this embodiment and embodiment 4 is that the flexible fixing and protection layer with the opening and the rigid protection and fixing layer with the opening exchange their positions so that the fixing layer 1a and flexible protection with the opening is arranged in an upper position while the fixing layer 1b and rigid protection with the opening is arranged under the fixing layer 1a


and flexible protection with the opening. The opening and closing element 2 seals the opening of the flexible fixing and protection layer 1a with the opening. A structure and configuration of this type enhance the impermeability function.
Accomplishment 6
Referring to Figure 9 and Figure 10, the difference between this embodiment and embodiment 4 is that a slit 1c is provided on the surface of the opening edge of the rigid fixing and protection layer 1b with the opening. The slit 1c is configured to facilitate catheter placement. In addition, a through slot 1d is disposed between the boundary of the rigid fixing and protection layer 1b with the opening and the opening. Through the slit 1d, the rigid fixing and protection layer 1b with the opening surrounds the infusion wound between the skin and the catheter, so that the infusion wound is in the cavity formed by the opening, and the catheter is It has a rigid fixing and protection layer 1b with the opening through the slit, thereby preventing damage caused by the catheter that presses the skin for a long time, especially for the skin of children.
In this embodiment, the rigid fixing and protection layer 1b with the opening functions as a catheter support pad. The flexible fixing and protection layer 1a with the opening covers and joins the catheter and the rigid fixing and protection layer 1b with the opening. The boundary of the flexible fixing and protection layer 1a with the opening extends and adheres to the skin surface thereby securely fixing the entire device. The opening is sealed by the opening and closing element 2 from the top. Such a configuration also enhances the impermeability function although the other functions are the same as in embodiment 4.
Referring to Figure 11, in this configuration, the wound fixing and protection device includes a rigid fixing and protection layer 1 with an opening and a flexible fixing and protection layer 3 without an opening. This configuration is mainly used for the fixation and protection of wounds by infusion in the short term, and requires the change of the whole device when it is changed, being the advantage of it the strong waterproofing capacity. The other functions are the same as in embodiment 6.
Referring to Figure 12 and Figure 13, the difference between this configuration and the previous configuration is that in this configuration, the flexible fixing and protection layer 3 includes a pad 31. Through the pad 31 it absorbs exudate liquid and filtered blood from infusion wounds, the device can be applied to infusion wounds that have been recently established. The other functions are the same as in the previous configuration.
Referring to Figure 14, Figure 15 and Figure 16, a wound fixing and protection device not according to the present invention includes a flexible fixing and protection layer 1 with an opening and a rigid fixing and protection layer 4 with a pad The pad 41 is included in the rigid fixing and protection layer 4 and disposed in a lower part thereof. A slit 1d is defined between the opening 11 of the fixing and protection layer 1 and an edge thereof. The opening 11 of the fixing and protection layer 1 surrounds the infusion wound, and the fixing and protection layer 1 adheres to the skin. The catheter is arranged on an upper surface of the fixing and protection layer 1. The rigid fixing and protection layer 4 with the pad covers and joins the catheter to the upper surface of the fixing and protection layer 1 to fix the catheter. In this configuration, since the rigid fixing and protection layer 4 with the pad adheres to the upper part of the fixing and protection layer 1, it is more securely fixed than the case in conventional technology where only the 4 layer of fixation and rigid protection. The pad 41 of the rigid fixing and protection layer 4 with the pad is configured to absorb the exudate fluid from the wound and is mainly used to protect the infusion wound that has been recently perforated. An overhanging wing 42 is disposed in a corner of an outer boundary of the rigid protection and fixing layer 4, and is configured to detach and change the rigid protection and fixing layer. In this configuration, the rigid fixing and protection layer 4 is not transparent, but it allows the passage of air and can absorb exudate liquid so that infection caused by the accumulation of sweat in the wound is avoided in the case in which only use a thin transparent film for fixation and protection. This configuration can be applied mainly to protect newly established and short-term infusion wounds, and to fix the catheter in these cases.
Referring to Fig. 17, Fig. 18 and Fig. 19, a wound fixing and protection device not according to the present invention includes a fixing and protection layer 1 with an opening composed of a flexible material and a fixing layer 4 and rigid protection with a pad. The opening 11 of the flexible fixing and protection layer 1 is aligned with a wound B and adheres to the skin around the wound B. The rigid fixing and protection layer 4 with a pad then covers over the wound and joins with the fixing and protection layer 1 with the opening. In this configuration, the fixing and protection layer 1 improves the fixing security of the rigid protection and fixing layer 4 and the configuration is especially applicable to wounds in the movable joint parts. Skin wrinkles caused by any movement will not cause the wound fixation and protection device to separate or detach from the skin. An overhanging wing 42 is disposed on an edge of the rigid fixing and protection layer 4 and is configured to make it convenient to detach the rigid protection and fixing layer 4 and to change the rigid protection and fixing layer 4, while maintaining the flexible fixing and protection layer 1a with the opening without changing at the same time.


Embodiment 11
Referring to Figure 20, Figure 21 and Figure 22, a wound fixation and protection device according to this embodiment includes a fastener and protection layer with an opening and an opening and closing element 2. The fixing and protection layer with the opening includes a flexible fixing and protection layer 1a with an opening and a rigid fixing and protection layer 1b with an opening. In this embodiment, the opening of the rigid fixing and protection layer 1b adapts to a wound B, limits the increase in tension of the wound B, prevents the wound B from tearing and tearing, limits the damage of the wound caused by wrinkles caused by the movement of the superficial skin of the wound B, prevents the obstruction of blood circulation and inflammatory responses due to contact with foreign objects caused by a foreign object that presses and comes into close contact with the wound B. Through the transparent opening and closing element 2, the wound healing situation B can be monitored at any time, while debridement, disinfection, drainage, and regional medical and physical treatment to the wound B can be performed without change the entire fixing and protection device.
Embodiment 12
Referring to Figure 23 and Figure 24, the difference between this embodiment and embodiment 11 is that a pad 22 is disposed under a lower surface of the opening and closing element 2. Pad 22 has functions such as strong absorption and antibiosis capabilities. By adjusting the height or volume of the cavity of the rigid fixing and protection layer 1b with the opening, the distance or level of contact between the pad 22 in the cavity above the wound and the surface can be configured of the wound to avoid conglutination and obstructions of the circulation and blood supply caused by the pad 22 directly and the contact and pressure tightly on the surface of the wound. It is also possible to configure the pad 22 to be a permeation and absorption contact surface for the wound surface, to ensure that the pad 22 will not conglutinate with the wound tissue or cause additional damage while the pad 22 can absorb wound secretion. In this embodiment, the pad 22 arranged under the opening and closing element 2 is also suitable for fixing and protecting the infusion wounds and has the same functions. The other functions are the same as in embodiment 11.
Embodiment 13
Referring to Figure 25, in this embodiment a wound fixation and protection device includes an attachment and protection layer with an opening. The fixing and protection layer with the opening includes a flexible fixing and protection layer 1a with an opening, and a rigid fixing and protection layer 1b with an opening below the flexible fixing and protection layer 1a with the opening. The rigid fixing and protection layer 1b with the opening is in the form of a truncated cone. The flexible fixing and protection layer 1a with the opening covers and adheres to the skin. An opening and closing element 2 is arranged in the opening. This configuration, in addition to maintaining the functions that it must have, is mainly to make the flexible fixing and protection layer with the opening adapt to the skin surface and fix well to the skin of the wound, while increasing The height of the cavity. At the same time, the area at the bottom of the rigid fixing and protection layer with the opening is reduced and material costs are saved.
Embodiment 14
Referring to Figure 26, in this embodiment a wound fixation and protection device includes an attachment and protection layer with an opening. The fixing and protection layer with the opening includes two flexible fixing and protection layers 1a with openings, a rigid fixing and protection layer 1b with an opening, and an opening and closing element 2. A support element 5 is disposed on an upper part of the rigid fixing and protection layer 1b with the opening. The support element 5 is in the form of a bar and is disposed above the rigid fixing and protection layer 1b with the opening, extending to a side wall of the rigid fixing and protection layer with the opening and fixing thereto. The support element is composed of a material that has a certain stiffness and does not deform easily, such as silicon gel, PVC materials or other plastics. The objective of establishing the support element is to strengthen the fixation of the rigid fixing and protection layer with the opening, and prevent the opening and closing element from sinking and touching the wound. Especially for a relatively large wound surface, establishing the support element is particularly necessary.
In the above embodiments, the cavity in the rigid fixing and protection layer with the opening is configured to connect the upper surface and the lower surface of the rigid fixing and protection layer with the opening throughout the rigid fixing and protection layer with The opening.
Although the present patent application has been shown and described with particular references to various embodiments thereof, it is intended that the descriptions made to the embodiments illustrate the present invention. It should be noted that other various improvements or modifications can be made without departing from the scope of the present invention, and that these improvements and modifications are also within the scope of protection of the claims.

权利要求:
Claims (8)
[1]
1. Device for fixing and protecting wounds comprising:
5 at least one fixing and protection layer with an opening; Y
an opening and closing element (2) arranged in the fixing and protection layer with the opening; in which:
the opening is defined in the fixing and protection layer and is configured to extend between an upper plane and a lower plane of the fixing and protection layer along a longitudinal direction, and to surround a wound therein so that the fixing and protection layer with the opening limits an increase in tension in the wound and a wrinkle caused by the movement of the skin in the wound;
the fixing and protection layer with the opening comprises a flexible protection and fixing layer (1a, 3)
15 with an opening and a rigid fixing and protection layer (1b, 4) with an opening, a cavity being defined in the rigid fixing and protection layer (1b, 4) with the opening;
The cavity in the rigid fixing and protection layer (1b, 4) with the opening is configured to connect an upper surface and a lower surface of the rigid fixing and protection layer (1b, 4) with the opening throughout the layer ( 1b, 4) rigid fixing and protection with the opening;
the flexible fixing and protection layer (1a, 3) and the rigid protection and fixing layer (1b, 4) are joined together and aligned by the openings;
The flexible fixing and protection layer (1a, 3) with the opening is arranged below or above the rigid fixing and protection layer (1b, 4) with the opening, extending an outer boundary of the layer (1a, 3) flexible fixing and protection beyond an outer boundary of the rigid fixing and protection layer (1b, 4);
The entire surface of the rigid fixing and protection layer (1b, 4) with the opening is covered by the flexible fixing and protection layer (1a, 3) with the opening, or the entire surface of the layer (1b, 4) rigid fixing and protection with the opening is attached to a middle part of an upper surface of the flexible fixing and protection layer (1a, 3) with the opening; Y
The opening and closing element (2) is detachably fixed with the fixing and protection layer with the opening.
[2]
2. Device for fixing and protecting wounds according to claim 1, further comprising an adhesive layer, the adhesive layer being arranged on a surface of the fixing and protection layer with the opening.
[3]
3. Device for fixing and protecting wounds according to claim 1, further comprising a pad (22, 31, 41), the pad (22, 31, 41) being arranged on a lower surface of the opening and closing element (2) and being configured to stay through the opening of the fixing layer and
45 protection with the opening.
[4]
Four. Device for fixing and protecting wounds according to claim 1, wherein the opening and closing element (2) comprises a protruding wing (21, 42) arranged at an edge thereof.
[5]
5. Device for fixing and protecting wounds according to claim 1, wherein a passage (13) is defined which connects the cavity with the outside in the layer (1b, 4) of rigid fixing and protection with the opening, the passage being configured (13) to allow an object to enter or exit the cavity.
[6]
6. Device for fixing and protecting wounds according to claim 1, wherein the longitudinal cross-section 55 of the rigid fixing and protection layer (1b, 4) with the opening has a trapezoidal shape.
[7]
7. Device for fixing and protecting wounds according to claim 1, wherein a cut is defined
(12) U-shaped at an outer edge of the fixing and protection layer with the opening.
[8]
8. Device for fixing and protecting wounds according to claim 1, further comprising a support element (5), the support element (5) being fixed with at least an upper part of the fixing and protection layer with the opening , in which the support element (5) is a support bar, a support chip, a support block or a support frame.
65. Device for fixing and protecting wounds according to claim 1, wherein an outer edge of the fixing and protection layer with the opening is connected to the opening through a slit (1d).

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EP2982355B1|2018-12-19|Self-adhesive dressing

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WO2013082885A1|2013-06-13|Body surface skin object fixing and surface-skin-movement-incurred wrinkle limiting device

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EP3378451A1|2018-09-26|A sanitary dressing

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US20170027760A1|2017-02-02|Rhinoderm

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JP4335325B2|2009-09-30|Catheter fixation device

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CN213220014U|2021-05-18|A waterproof protection device for intravenous route portion

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CN213347375U|2021-06-04|Indwelling dialysis catheter protective cover

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US11000419B2|2021-05-11|Re-closable wound dressing

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CN215385177U|2022-01-04|Hydrocolloid dressing for fixing puncture catheter

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JP2006341114A|2006-12-21|Catheter fixing device

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US20150335863A1|2015-11-26|Catheter Safety Product

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WO2013082884A1|2013-06-13|Cut, catheter infusion wound protecting device wound,

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CA2812577A1|2013-10-19|Wound dressing

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WO2021074471A1|2021-04-22|Disposable antibacterial protector comprising copper wire

同族专利:

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公开号 | 公开日

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DK2789319T3|2017-03-27|

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WO2013082883A1|2013-06-13|

---

JP5784244B2|2015-09-24|

---

ES2619567T3|2017-06-26|

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EP2789319A4|2015-04-08|

---

AU2012350078B2|2015-09-17|

---

JP2015505689A|2015-02-26|

---

US20150025436A1|2015-01-22|

---

CN102429769B|2014-04-09|

---

US9554946B2|2017-01-31|

---

EP2789319A1|2014-10-15|

---

EP2789319B1|2016-12-21|

---

CN102429769A|2012-05-02|

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AU2012350078A1|2014-07-03|

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法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

CN201110403898.3A|CN102429769B|2011-12-07|2011-12-07|Protecting and fixing device for wound|

---

CN201110403898|2011-12-07|

---

PCT/CN2012/071199|WO2013082883A1|2011-12-07|2012-02-16|Wound protecting and fixing device|

---