巴西专利BR112012002523A2 HINGE FOR COLD ENVIRONMENTS, GATES GO AND COME OR SIMILAR.

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专利摘要:
hinge for cold environments, swing gates or the like The present invention refers to a hinge for cold environments, swing gates or the like, comprising a stationary support structure (s) and at least one door (a) between an open door position and a closed door position. the hinge comprises a box-like hinge body (3) and a pin (5) pivoted reciprocally to pivot about a first axis (x) between the closed door position and the open door position. closing means (1 °) are provided to automatically return the door (a), as well as a working fluid acting on them to hydraulically contrast its action. the closing means (10) comprise a unitary meat element (11) with said pin (5) interacting with a plunger element (12) housed in an operating chamber (25) defined within the similar hinge body (3) the box. the box-like hinge body (3) has an elongated shape to define a second axis (y) perpendicular to the first (x).
公开号:BR112012002523A2
申请号:R112012002523-6
申请日:2010-08-04
公开日:2020-02-11
发明作者:Bacchetti Luciano
申请人:Dianora Gosio；
IPC主号:

专利说明:

Descriptive Report of the Patent of Invention for HINGE FOR COLD ENVIRONMENTS, GATES OF GO AND COME OR SIMILAR.
FIELD OF THE INVENTION
The present invention is generally applicable in the technical field of closing hinges, and particularly relates to a hinge for cold environments, gates and hinges or the like.
BACKGROUND OF THE INVENTION
As is known, the closing hinges generally comprise a movable element, generally attached to a door or the like, pivoted on a fixed element, generally attached to the support frame of the same.
Furthermore, the closing means acting on the movable element to automatically return the door or the like to the closed position 15 are provided.
In the case of cold environments, swing gates or the like, which comprise a stationary support structure and at least one door that includes a substantially tubular frame to which the double glazed unit is attached, the hinges have both movable elements 20 and fixed visible from the outside, external to both the door and the support structure. Such a solution is uncomfortable, bulky, unsightly and not very effective.
In addition, the external position of these known hinges makes them extremely exposed to the risk of damage and wear.
From US7305797, US2004 / 206007 and
EP1997994 are known hinges in which the action of the closing means that ensure the return of the door to the closed position is not opposed. Consequently, there is a risk that the door will impact strongly against the support frame, damaging it.
From EP0407150, a door lock is known, which includes hydraulic damping means to counteract the action of the closing means. Such a known device has an extreme volume
2/21 high, therefore, it must necessarily be mounted on the floor.
The installation of this device therefore requires expensive and difficult floor breaking work, which must be done by qualified operators.
SUMMARY OF THE INVENTION
The aim of the present invention is to overcome at least partially the above drawbacks, providing a hinge having characteristics of high functionality, simplicity of construction and low cost.
Another objective of the invention is to provide a hinge for cold environments, swing gates, or the like, of extremely moderate volume.
Another objective of the invention is to provide a hinge for cold environments, gates devai and come or similar, which can be hidden by inserting it inside its tubular frame.
Another objective of the invention is to provide a hinge that ensures automatic closing of the door from the open position.
Another objective of the invention is to provide a hinge that ensures the controlled movement of the door on which it is mounted, when opening as well as when closing the door.
Another objective of the invention is to provide a hinge that is also capable of supporting very heavy doors and windows, without changing the behavior and without the need for any adjustment.
Another objective of the invention is to provide a hinge that has a minimum number of constituent parts.
Another objective of the invention is to provide a hinge capable of maintaining the exact closed position over time.
Another object of the invention is to provide an extremely secure hinge, which does not offer any resistance to close if pulled.
Another object of the invention is to provide a hinge that is extremely easy to install.
Such objectives, as well as others that will appear more clearly
3/21 t and hereinafter, are filled by a hinge according to claim 1.
The hinge according to the invention comprises a fixed element, suitable to be anchored to a stationary support structure of a swing gate, a cold environment or the like, and a movable element, suitable to be anchored to the movable door from the boo-come gate, cold environment or similar.
The movable element is pivotally coupled to the fixed element to rotate on a longitudinal axis between an open door position and a closed door position.
The hinge comprises closing means acting on a moving element to automatically return the door to the closed position.
In addition, the hinge comprises a working fluid, usually oil, acting on the closing means to hydraulically counteract its action, adjusting the rotation of the door shape from the open door position to the closed door position. The movable element, respectively the fixed element, can comprise a box-like hinge body defining an operating chamber and which can be elongated along an axis.
Thanks to the combination of aspects, the hinge can be hidden from view by inserting it in a tubular profile defining the door frame in a cold environment, a gate should come and go or similar, or within the door's stationary support structure.
The closing means and the hydraulically counter means are entirely housed in a single operating chamber, internal to the moving element or the fixed element.
Thanks to these aspects, the hinge will be very compact and effective, and with a strong aesthetic impact.
The closing means comprise a cam element, single with one between the fixed and movable element, which interacts with a plunger element, movable within other of the fixed and movable elements, and movable along an axis substantially perpendicular to the axis of rota4 / 21 tion between the fixed and mobile element.
Thanks to these aspects, the hinge will have a minimum number of constituent parts, with a greater volume advantage of the hinge.
In addition, by forming the lock in this way, the exact closing position can be maintained over time, and it is also safe.
Such modality will allow to obtain a hinge that assures the controlled movement of the door when opening, thus being highly safe and practical.
Due to volume reasons, the operating chamber defined by the box-like hinge body can include the meat element as well as the plunger element.
In order to minimize the vertical volume, the plunger element may have a thrust head shaped generally as a plate defining a plane substantially perpendicular to the axis of rotation of the fixed element and the movable element.
Appropriately, and regardless of the shape of the plunger element's thrust head, the latter can be configured to separate the operating chamber into an adjacent first and second variable volume compartments in reciprocal fluid communication, which can be assigned to have the maximum and minimum volume in correspondence with the closed door position and vice versa in the open door position the minimum and maximum volume.
Advantageously, and regardless of the shape of the plunger element drive head, the operating chamber may comprise control means for controlling the flow of the working fluid to allow it to flow from the first to the second compartments when opening the opening. door and from the second to the first compartments when the door is closed.
Thanks to these aspects, the hinge according to the invention will allow hydraulically control the rotation when closing very heavy doors, also minimizing the volume.
Advantageously, and regardless of the shape of the
5/21 thrust of the plunger element, the control means for controlling the flow of the working fluid may comprise a hydraulic circuit within the box-like hinge body for the controlled return flow of the working fluid from the second to the first variable volume compartment when the door is closed.
Thanks to these aspects, the hinge according to the invention will be extremely safe, because the reciprocal rotation movement of the fixed element and the movable element is free of closing. In fact, during the closing phase, the control means will adjust the return flow of the working fluid from the second to the first variable volume compartment independently from the reciprocal rotation of the fixed element and the moving element, so that a user will be free to close the door at any speed without any danger of breaking the hinge and / or the door.
Appropriately, and regardless of the shape of the plunger element drive head, the control means for controlling the flow of working fluid may further comprise first means for adjusting the flow of working fluid in the hydraulic circuit in a manner that to adjust the rotation speed of the door from the open position to the closed position.
On the other hand, regardless of the shape of the plunger element drive head and from the presence - or absence of the first adjustment means, the control means for controlling the flow of working fluid may comprise second means for adjusting the flow of working fluid in the hydraulic circuit, in order to adjust the torque with which the door reaches the closed position.
Suitably, these second adjustment means can be designed to give the door a locking action towards the closed position when the plunger element is in proximity to the extended end position.
In a preferred, but not exclusive, form, regardless of the force of the plunger element driving head, the hinge6 / 21 can comprise a first and a second hydraulic circuit.
In this embodiment, the first hydraulic circuit may comprise first means for adjusting the flow of the working fluid in such a way as to adjust the rotation speed of the door from the open position to the closed position, while the second hydraulic circuit can comprise second means to adjust the flow of the working fluid in the hydraulic circuit in order to adjust the torque with which the door reaches the closed position, preferably designed to give the door a locking action when the plunger element is in close proximity to the position of extended end.
Appropriately, the fluidic connection between the two circuits can be provided, so that the hinge has the same characteristics in both directions of opening the door.
Advantageously, the modalities of the invention are defined according to the independent claims.
BRIEF DESCRIPTION OF THE DRAWINGS
Other aspects and advantages of the invention will appear more evident when reading the detailed description of some preferred modalities, not exclusive of a hinge according to the invention, which are described as non-limiting examples with the help of the attached drawings, in which:
Figure 1 is a schematic view of an embodiment of hinge 1 mounted within the tubular frame T of a door A in a cold environment;
figure 2 is a schematic view of an embodiment of hinge 1 mounted within the tubular frame T of the stationary support structure S of a gate coming and going P, having a movable door A;
figure 3 is an exploded view of a first embodiment of hinge 1;
figure 4 is a sectional view, partially exploded of some details of the hinge of figure 3;
figure 5A is a sectional view of the hinge of figure 2 in the closed door position;
figure 5B is a sectional view of the hinge of figure 2 in the closed door position, taken along a plane VB-VB in figure 5A;
figure 6 is an exploded view of a second embodiment of hinge 1;
figure Ί is a sectional view, partially exploded of some details of the hinge in figure 6;
figure 8 is a sectional view of the hinge body 3 of the second embodiment of the hinge of figure 6, taken along a plane
VIII- VIII in figure 7;
Figure 9 is a sectional view of the hinge body 3 of the second embodiment of the hinge of Figure 6, taken along a plane
IX-IX in figure 8;
figures 10A, 10B and 10C are seen from the tubular element 55 belonging to the second modality of the hinge shown in figure 6, respectively, in axonometric projection, in the section along the XBXB plane and in the section along an XC-XC plane;
figures 11 A, 11B and 11C are seen from the piston element 12 belonging to the second modality of the hinge shown in figure 6, respectively, in axonometric projection, in the section along a plane XI B-XI B and in the section along a plan XI C-XI C;
figure 12A is a sectional view of the hinge embodiment of figure 6, in the open door position, in which the corresponding holes 59 and 22 'passing through the tubular element 55 and the plunger element 12 are reciprocally decoupled;
figure 12B is a sectional view of the hinge mode of figure 6, in an intermediate position between the open and closed door position, where the corresponding holes 59 and 22 'passing through the tubular element 55 and the plunger element 12 are reciprocally coupled, this latter position corresponding to the position in which door A locks in the direction of the closed position in the vicinity of the extended end position;
8/21 figure 12C is a sectional view of the hinge mode of figure 6, in the closed door position.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
With reference to the figures mentioned above, the hinge according to the invention, generally indicated by the number 1, is advantageously applicable to cold environments, external gates and similar applications, comprising a stationary support structure S and a door A, between an open door position and a closed door position.
Preferably, as shown in figures 1 and 2, hinge 1 can be partially or fully inserted in the tubular frame T of door A or of the support structure S. In this way, it will be possible to install hinge 1 easily and smoothly, avoiding the case of rupture works that are necessary with the known solutions.
Hinge 1 can be used individually, with a single hinge at the other end of door A, or in a combination of two or more of said hinges.
Figure 1 shows, as a simple non-limiting example of the invention, a modality of hinge 1, which is hidden from view by insertion in the tubular frame T of door A of cold environment C, which has a support structure S.
Figure 2 shows, as a simple non-limiting example of the invention, another modality of hinge 1, which is partially hidden from view by inserting into the tubular frame T the stationary support structure S of a gate that comes and goes P, having a movable door THE.
Although in such embodiments hinge 1 is inserted horizontally in frame T, it is understood that such hinge can also be inserted vertically in frame T.
Figures 3 to 5B show a first hinge embodiment according to the invention, particularly, but not exclusively suitable for cold environments, while Figures 6 to 13C show a second hinge embodiment according to the invention, particularly 9/21, but not exclusively suitable for swing gates.
Where not specified otherwise, in the description below the technical aspects common to all modalities will be indicated. Such common aspects can be conveniently designated by a unique reference number.
In particular, hinge 1 will comprise a box-like hinge body 3 pivotally coupled to a pin 5, so as to rotate about a first longitudinal axis X, which may be substantially vertical.
In the embodiment of figure 1, the box-like body 3 is anchored in the door A of the cold environment C to define the movable element of the hinge 1, while the pin 5 is anchored in the stationary support structure S of the hinge id to define the fixed element of the same.
Vice versa, in the form of figure 2, the box-like body 3 is anchored in the stationary support structure S of the deval portion and comes P to define the hinge element 1, while the pin 5 is anchored in the door A of the fixed element for define the moving element.
The pin 5, which can be elongated to define the X axis, can be partially inserted into the box-like hinge body 3, so as to have a first portion 6 resulting from said box-like hinge body and a second portion Ί internal body 3. The first and second portions can be monolithic, since they are both part of the same pin 5.
The first portion 6 can have a fastener 8 insertable in a counter-formed housing 9, perceived in the stationary support structure S in the example of figure 1 and in the door A in the example of figure 2.
In this way, when a user opens the door A of the cold environment C or of the gate, it comes and goes P, it will cause the hinge body 3 similar to the box and the pin 5 to rotate around the X axis.
In order to ensure automatic closing of door A once opened, closing means can be provided, usually indicated with 10, acting on the movable element of hinge 1 to automatically return door A to the closed position.
A working fluid, usually oil, acting on the closing means 10 to hydraulically counteract their action, can also be provided.
By properly controlling the action of the working fluid, it will be possible to control the rotation of door A from the open to the closed position. This will allow, for example, to prevent port A from strongly impacting the frame.
More generally, the hinge according to the invention ensures controlled movement of the door when opening as well as when closing.
In fact, upon opening, the controlled movement will prevent the door from opening suddenly, in order to design both the door itself and a possible user who is in the corresponding area of action. Suitably, the closing means 10 can comprise a meat element, generally designated by the number 11, unitary with the pin 5, and more precisely made in correspondence with the inner portion 7 of the pin 5.
As used in this document, the term flesh means a mechanical part, having any configuration, suitable for exchanging a circular motion in a rectilinear motion.
The meat element 11 will interact with a plunger element, designated by the number 12, movable slidably within the box-like hinge body 3.
More precisely, the plunger element 12 can slide along a second Y axis, which can be substantially perpendicular to the first X axis, horizontal in the present example, between a compressed end position, corresponding to the open door position, shown in the figures 5B and 12A, and an extended end position, corresponding to the closed door position, shown in figures 5A and 12C.
The plunger element 12 may have a drive head 13 in substantially plate-like shape, interacting with one
11/21 substantially counterformed seat 14 of the cam member 11. Suitably, the counterformed seat 14 can be made on the inner portion 7 of the pin 5.
Advantageously, the drive head 13 of the piston element 12 can define a plane w, substantially perpendicular to the first X axis.
Thanks to this configuration, the volume of the hinge body, in particular the vertical, will be greatly minimized. This will simplify the insertion of it in the frame T of the door A or of the stationary support structure S to hide from view.
In particular, the plunger head 13 similar to the plunger element plate 12 may have a flat top wall 15, a flat bottom wall 15 'and possibly a substantially flat front face 16.
In particular, the flat top and bottom walls 15, 15 'can be substantially parallel to the second Y axis, while the front face 16 can be parallel to the first axis, and can have a height h.
The counter-formed seat 14 may comprise a flat top wall 17 facing a flat bottom wall 17 'and possibly a substantially flat front contact surface 18, suitable for interacting and contacting the engagement with the front face 16 of the plunger 12.
It is understood that the drive head 13 can have any shape, as long as it is substantially plate-like, without departing from the scope of protection of the invention defined by the terms of the appended claims. For example, the drive head 13 can be substantially wedge-shaped, with the upper and lower walls 15, 15 'in convergence.
As shown in figures 5A and 12C, in the closed door position, that is, when the plunger 12 is in the extended end position, the front contact surface 18 of the counter-formed seat 14 of the meat 11 can be in contact and parallel with the face front 16 of the plunger head 13 of the piston 12.
12/21
Vice versa, as shown in figures 5B and 12A, in the open door position, that is, when the plunger 12 is in the compressed end position, the front contact surface 18 of the counter-formed seat 14 of the meat 11 can be perpendicular to the face front 16 of the plunger head 13 of the piston 12.
The front contact face 18 can be parallel to the first X axis, while the flat top and bottom walls 17, 17 'can be substantially parallel to the second Y axis, and can have a distance h'.
Advantageously, the height h of the front face 16 of the driving head 13 of the piston element 12 can be substantially coincident with the distance h 'between the upper and lower flat walls 17, 17' of the counter-formed seat of the cam 11, except for the clearance .
Suitably, the upper and lower flat walls 15, 15 'of the plunger head 13 of the plunger 12 can face the upper and lower flat walls 17, 17' of the counter-formed seat 14 of the cam 11.
The meat element 11 as well as the plunger element 12 can be housed in a single cylindrical operating chamber 25, made within the box-like hinge body 3 and so defined.
In addition, the box-like hinge body 3 has an elongated shape along the Y axis to allow its insertion in the tubular frame T of the door A or in the support structure S to make it not visible from the outside, as shown, respectively, in figures 1 and 2.
In other words, the box-like hinge body 3 can develop mainly in length along the Y axis, with the dimension of the length greater than the other two dimensions.
To promote the thrust of the piston head 13 against the counter-formed seat 14 of the pin 5, that is, to promote the interaction between the front face 16 and the contact surface 18, opposing elastic means can be provided, which can comprise, respectively , consist of a spring 19 acting on the piston element 12.
Suitably, the operating chamber 25 may comprise
13/21 a first generally cylindrical portion 32 having an axis coincident with the second Y axis, a second generally cylindrical portion 33 having an axis coincident with the first X axis and a third portion 34 generally similar to the parallelepiped interposed between the first two portions.
The first cylindrical portion 32, having an internal diameter D, can accommodate the spring 19. The second cylindrical portion 33 can accommodate the counter-formed seat 14 of the meat element 11. The third, 34, similar to the parallelepiped, can have a substantially coincident height h at height h of the drive head 13 of the plunger element 12 to accommodate the drive head.
The height h can be noticeably lower, for example, about half, of the inner diameter D of the first cylindrical portion 32, in order to allow the volume of the box-like hinge body 3 to be minimized. This will simplify the hiding place by inserting it in frame T of door A or of the stationary support structure S.
Advantageously, the contact surface 18 of the cam element 11 can be offset with respect to the X axis by a predetermined distance d, so that the front face 16 of the piston element 12 in its extended end position, shown in figures 5A and 12A, is positioned beyond said X axis.
Suitably, the surface 16 can have a distance d from the X axis that can be comprised between 1 mm and 6 mm, preferably comprised between 1 and 3 mm and even more preferably close to 2 mm. Thanks to these aspects, the movement of closing the hinge will be completely automatic. In other words, the plunger element 12 will start working after some degree of rotation, starting from the closed position.
Advantageously, the first modality of hinge 1, illustrated in figures 3 to 5B, may comprise mechanical locking means acting on the closing means 10 to counteract their action, so as to stop door A in the closed door position.
In this preferred but not exclusive modality, such means of
Mechanical lock 14/21 may consist of a locking element 20, unitary with pin 5, interacting with a tapping member 21, housed vertically in the box-like hinge body 3.
The relative position of the locking element 20 and the hitting member 21 can be just like the closed door. One position corresponds to the extended end position of the plunger 12. Furthermore, by properly adjusting the respective position of the locking element 20 and the tapping member 21, it will be possible to provide a right as well as a left hinge.
Advantageously, in both embodiments illustrated in the attached figures, the closing means 10 and the hydraulic damping fluid, generally oil, can be entirely housed in the operating chamber 25. The piston element 12 can comprise a substantially cylindrical rear portion 22 and a front portion defining the drive head 13.
As particularly visible in figures 5A, 12A, 12B and 12C, the cylindrical rear portion 22 is capable of separating the operating chamber 25 within a fluidly connected first and second variable volume compartments 23, 24. The contrast spring 19 can be housed in the first compartment 23.
As particularly visible in the figures, the first compartment 23 can have its maximum volume in correspondence with the closed door position and its minimum volume in correspondence with the open door position, and the opposite for the second compartment 24.
Advantageously, the operating chamber 25 can comprise control means to control the flow of the working fluid to allow the flow of the same from the first compartment 23 to the second 24 when opening the door A and to allow the flow of the same to from the second compartment 24 to the first 23 when the door is closed.
In both embodiments illustrated in the accompanying figures, such control means may comprise a check valve 26, designed 15/21 da to allow the flow of the working fluid from the first compartment 23 to the second compartment 24 through the orifice 27 passing through of the drive head 13 when opening door A, and to prevent the return flow of the working fluid when closing door A.
For this purpose, the check valve 26, interacting with the orifice 27 passing through, can be of the type of choke, with the choke 28 housed in the compartment 29 in correspondence with the entrance of the orifice passing through 27.
In this way, when the door is operated, that is, when it moves from the closed position shown in figures 5A and 12C to the open position shown in figures 5B and 12A, the working fluid flows from the first compartment 23 to the second compartment 24, causing the throttle element 28 to slide axially in the compartment 29 and then flow through the orifice 27 into the second compartment 24.
Vice versa, when the door is closed, that is, when it moves from the open position shown in figures 5B and 12A to the closed position shown in figures 5A and 12C, the throttle element 28 will slide axially in the direction opposite to the opening and prevent the return flow of the working fluid through the orifice 27.
In order to allow controlled fluid return from the working fluid from the second compartment 24 to the first compartment 23 when the door A is closed, the means for controlling the flow of the working fluid may comprise at least one first hydraulic circuit 50 interposed between the outer surface 30 of the upper cylindrical portion 22 of the piston element 12 and the inner surface 31 of the operating chamber 25.
Thanks to these aspects, the hinge will be extremely safe, because the reciprocal rotation movement of the fixed element and the movable element is free when closed. In fact, during the closing phase, the oil will flow from the second compartment 24 to the first 23, independently, from the reciprocal rotation speed of the fixed and mobile e16 / 21 elements.
In this way, a user will be free to close door A at any speed without any danger of breaking the hinge or door. On the other hand, the speed with which oil flows back into compartment 23 will be adjusted by adjusting the passage sections of the first hydraulic circuit 50.
In the first embodiment illustrated in figures 3 to 5B, the first hydraulic circuit 50 can be defined by the tubular interspace between the outer surface 50 of the cylindrical rear portion 22 of the cam element 12 and the inner surface 31 of the operating chamber 25.
To this end, the plunger element 12 can be housed with a predetermined clearance in the operating chamber 25. The size of the respective clearance between these two elements will substantially adjust the return speed of door A to its closed position. In this embodiment, at least one orifice 35 can be provided for filling the working fluid.
In the second embodiment illustrated in figures 6 to 12C, the return of door A to its closed position can occur in a substantially different way from the first embodiment.
As particularly visible in Figure 6, in this second embodiment, the means for controlling the flow of the working fluid may comprise a tubular element 55, interposed between the inner surface 31 of the operating chamber 25 and the cylindrical rear portion 22 of the control element. plunger 12.
The tubular member 55 may have an outer side surface 56 that includes a first substantially flat portion 57, made, for example, by milling.
Appropriately, therefore, the first hydraulic circuit 50 may comprise a first channel 60 which can be defined by the interspace between the inner surface 3 of the operating chamber 25 and the first flat portion 57 of the tubular element 55.
Advantageously, the flat portion 57 can extend to the entire
17/21 the length of the outer lateral surface 56 of the tubular element 55, so that the first channel 60 has an end in fluid communication with the first variable volume compartment 23. In order to facilitate the return flow of the working fluid in this In the last compartment, the flat portion 57 may comprise a cut 57 '.
In order for oil to flow through channel 60 and not elsewhere when door A is closed, the plunger element 12 can be firmly housed within the tubular element 55, while the latter can be firmly housed within the operating chamber 25. To this end, the respective tolerances between these elements will have to be very light.
Suitably, the control means for controlling the flow of the working fluid within the operating chamber 25 may comprise first adjusting means for adjusting the flow of the working fluid in the first hydraulic circuit 50, to adjust the rotation speed of port A to from the open to the closed position.
Advantageously, these first adjustment means in the first hydraulic circuit 50 may comprise at least a second internal operating chamber 65 within the box-like hinge body 3, which may have an inlet 66 fluidly connected to the second variable volume 24 and an outlet 67 fluidly connected with the first channel 60, which is in turn fluidly connected with the first variable volume 23.
The first hydraulic circuit 50 for the return flow of the working fluid from the second variable volume compartment 24 to the first variable volume compartment 23 can therefore consist of both compartments, as well as the first channel 60 and the second operating chamber 65.
Suitably, the latter can comprise a first adjusting screw 68, which can be operated by a key 69, housed in the second chamber 65 to obstruct the passage section of the inlet 66 and / or the outlet 67, thereby adjusting the speed of rotation from port A.
In the preferred, but not exclusive, mode illustrated in figu
18/21 ras 6 to 12C, the control means for controlling the flow of the working fluid may comprise a second hydraulic circuit 70, interposed between the outer surface 30 of the cylindrical rear portion 22 of the piston element 12 and the inner surface 31 of the operating chamber 25, such as the first hydraulic circuit 50.
Suitably, this second hydraulic circuit 70 can comprise a second channel 75, which can be defined by the interspace between the inner surface 31 of the operating chamber 25 and a second substantially flat portion 58 of the outer lateral surface 56 of the tubular element 55.
The first and second substantially flat portions 57, 58 of the outer lateral surface 56 of the tubular element 55 can be reciprocally opposed with respect to a plane TT 'passing through the first and second axes X, Y, such as the first and second channels 60 , 75.
The means for controlling the flow of the working fluid may further comprise second means for adjusting the flow of the working fluid in the second hydraulic circuit 70 so as to adjust the force by which door A reaches its closed position.
Preferably, such second adjustment means can be designed to impart a locking action to port A in the direction of the closed position when the plunger element is in proximity to the extended end position, as shown in figure 12B.
For this purpose, the second substantially flat portion 58 may extend for a part of the length of the outer lateral surface 56 of the tubular element 55.
Advantageously, the second substantially flat portion 58 may, in addition, comprise, in proximity to one of its ends, a single orifice passing through or door 59 facing the outer surface 30 of the cylindrical rear portion 22 of the piston element 12.
On the other hand, the cylindrical rear portion 22 of the plunger element 12 can have a second orifice passing through or port 22 ', movable between a first position, illustrated in figure 12A and corresponding to the
19/21 open door position (where the plunger element 12 is in proximity to its extended end position), where orifice 22 'is decoupled from the orifice passing through 59 of tubular element 55, and a second position, illustrated in figure 12B and in close proximity to the closed door position (where the plunger element 12 is in close proximity to its compressed end position), where orifice 22 'is coupled with the first orifice passing through 59 to selectively place in communication the second channel 75 fluidically with the first variable volume compartment 23, thus giving a locking action to port A in the direction of the closed position.
In other words, the reciprocal positions of the orifices passing through 59 and 22 made, respectively, in the tubular element 55 and in the cylindrical portion 22 of the plunger element 12, must be such that the inlet holes passing through are coupled when the element plunger 12, during its reciprocating movement along the Y axis, is in the proximity of the extended end position, as shown in figure 12B.
In fact, when the plunger element 12 is in its compressed end position, corresponding to the open door position, the two holes 59 and 22 'are reciprocally apart and uncoupled so that the working fluid flows into the second channel 75 in its return flow cycle towards the first compartment 23 is prevented by the other outer surface 30 of the cylindrical rear portion 22 of the piston element 12.
As soon as the two orifices 5 and 22 'are reciprocally coupled, as shown in figure 12B, this obstacle is removed, so that the fluid can suddenly fill the compartment 23 causing the impulsive push of the impulsion head 13 towards the counter-formed seat 14 , which gives the door a locking action in the direction of the closed position.
In order to adjust the pushing force that causes the locking action, the second hydraulic circuit 70 may comprise a third operating chamber 80 within the box-like hinge body 3.
20/21
This third chamber 80 can have an inlet 81 fluidly connected with the second variable volume compartment 24 and an outlet 82 fluidly connected with the second channel 75, which in turn is selectively placed in fluid communication by coupling the orifices 59 and 22 'of the tubular element 55 and the cylindrical portion of the plunger element 12.
The second hydraulic circuit 70 for returning the working fluid from the second variable volume compartment to the first compartment 23 can therefore consist of these two compartments, as well as the second channel 75 and the third operating chamber.
Suitably, the latter chamber may comprise a second adjustment screw 83, which can be operated by the same key 69 that operates the first adjustment screw 68.
The second adjusting screw 83 can be housed in the third operating chamber 80 to obstruct the passage section of the inlet 81 and / or the outlet 82, in order to adjust the force by which door A locks into its closed position.
Suitably, as shown in figure 8, the box-like hinge body 3 can comprise a third channel 90 for the fluid connection of the second operating chamber 65 and the third operating chamber 80. In particular, the third channel 90 can place in fluid communication between entrance 66 of the second chamber 65 and entrance 81 of the third chamber 80.
Thanks to this failure, hinge 1 will compensate for possible lack of balance in the oil circulation, so that hinge 1 works in the same way in both opening directions of door A.
From the above description, it is apparent that the hinge according to the invention fulfills the intended objectives.
The hinge according to the invention is susceptible to many changes and variations, all within the inventive concept expressed in the attached claims. All the particulars can be replaced by other technically equivalent elements, and the materials can be different from
21/21 according to needs, without departing from the scope of the invention.
Although the hinge has been particularly described with reference to the accompanying figures, the reference numbers used in the description and claims are used to improve the understanding of the invention and are not a limit to the claimed scope.

权利要求:
Claims (33)
[1]
1. Hinge for cold environments or back and forth gates, comprising a stationary support structure and at least one movable door between an open position and a closed position, the hinge comprising:
- a hinge body similar to the box anchored in one between the stationary support structure and the door and a pin defining a first longitudinal axis anchorable to another between the stationary support structure and the door, said pin and said hinge body similar to box being rotatably coupled reciprocally to rotate about said first axis between the open door position and the closed door position;
- closing means for the automatic return of the door from the open to the closed position;
- a working fluid acting on said closing means to hydraulically counteract their action, thus controlling the rotation of the door from the open position to the closed position;
wherein said closing means comprises a unitary cam element with said pin interacting with a movable piston element slidably in an operating chamber within said box-like hinge body along a second axis substantially perpendicular to said first axis between a compressed end position, corresponding to the open door position and an extended end position, corresponding to the closed door position, said piston element having a thrust head interacting with a substantially counter-formed seat of said meat element;
wherein said closing means and said working fluid are both entirely housed in said operating chamber;
wherein said box-like hinge body has an elongated shape to define said second axis, said drive head generally having a shape similar to the plate to define a plane substantially perpendicular to said first axis.
[2]
2/9
Hinge according to claim 1, wherein said plate-like drive head has a first coupling of the substantially flat upper and lower walls, said counterformed seat comprising a second coupling of the substantially flat upper and lower walls, the upper walls and lower of said first coupling facing the corresponding upper and lower walls of said second coupling.
[3]
Hinge according to claim 2, wherein the upper and lower flat walls of said first coupling and said second coupling are all substantially parallel to said second axis.
[4]
Hinge according to claim 3, wherein said drive head has a front face having a predetermined height that is substantially equal to the distance between said upper and lower flat walls of said counter-formed seat.
[5]
Hinge according to claim 4, wherein said front face is substantially flat and parallel to said first longitudinal axis and is susceptible to contact the engagement with a contact surface of said counter-formed seat that is substantially flat and parallel to said first longitudinal axis.
[6]
Hinge according to claim 5, wherein said front face and said contact surface are substantially parallel to each other in said closed door position and are substantially perpendicular to each other in said open door position.
[7]
Hinge according to any one of claims 1 to 6, wherein said closing means comprise elastic means in opposition acting on said piston element to promote the reciprocal interaction of said push head and said counter-formed seat, said operation comprising a first generally cylindrical portion having an axis coinciding with the second axis which houses said elastic counterposing means, a second generally cylindrical portion having an axis coinciding with said first axis which houses said counter-formed seat, and a third portion in the shape similar to parallelepiped,
3/9 interposed between the first two portions, which houses this thrust head.
[8]
Hinge according to claim 7, wherein said portion in the shape similar to the parallelepiped has a height less than the inner diameter of said first cylindrical portion.
[9]
Hinge according to any one of claims 1 to 8, wherein said pin is partially inserted into said hinge body similar to the box with a first portion resulting from said hinge body similar to the box for anchoring in the support structure stationary or on the door and a second portion within said hinge body similar to the box comprising said meat element.
[10]
Hinge according to any one of claims 1 to 9, wherein said contact surface of said meat element is offset with respect to said first longitudinal axis by a predetermined distance so that the front face of said plunger element in the extended end position the position is located beyond said first longitudinal axis.
[11]
Hinge according to claim 10, wherein said contact surface has a distance of said first longitudinal axis comprised between 1 mm and 6 mm, preferably comprised between 1 mm and 3 mm and even more preferably close to 2 mm.
[12]
Hinge according to any one of claims 1 to 11, comprising locking means acting on said closing means to counteract their action so as to block the door in said open position when said piston element is in said position compressed edge.
[13]
Hinge according to any one of claims 1 to 12, wherein said meat element comprises a substantially cylindrical rear portion and a frontal portion defining said drive head, said rear portion being designed to separate said operating chamber within a first and a second compartment of adjacent variable volume in reciprocal fluid communication.
4/9
[14]
14. Hinge according to claim 13, wherein said first and second compartments of variable volume are designed to have in correspondence with said closed door position, respectively, the maximum and minimum volume, said elastic means in opposition being located in said first compartment.
[15]
Hinge according to claim 13 or 14, wherein said operating chamber comprises control means for controlling the flow of the working fluid designed to allow the flow of said fluid from said first compartment to said second compartment when closing the door and to allow the return flow from said second compartment to said first compartment when closing the door.
[16]
16. Hinge according to claim 15, wherein said control means comprise an orifice passing through said impulsion head in order to fluidly communicate said first compartment and said second compartment and a check valve interacting with said orifice passing through in order to allow the flow of the working fluid from said first compartment to said second compartment when opening the door and to prevent the return flow thereof when closing the door.
[17]
Hinge according to claim 15 or claim 16, wherein said control means comprise at least one first hydraulic circuit interposed between the outer surface of said cylindrical rear portion of said plunger element of said inner surface of said operating chamber for the controlled return flow of said working fluid from the second compartment to said first compartment of variable volume when the door is closed.
[18]
Hinge according to claim 17, wherein said control means further comprise first means for adjusting the flow of the working fluid in said at least one first hydraulic circuit, so as to adjust the rotation speed of the door from the closed position to the open position.
5/9
[19]
19. Hinge according to claim 17 or 18, wherein said piston element is housed with a predetermined clearance in said operating chamber, said at least one first hydraulic circuit comprising the tubular interspace between the outer surface of said rear portion cylindrical of said piston element and the internal surface of said operating chamber.
[20]
20. Hinge according to claim 17 or 18, wherein said control means further comprise a tubular element interposed between the inner surface of said operating chamber and said cylindrical rear portion of said plunger element, said plunger element being firmly housed in said tubular element, said tubular element being firmly housed in said operating chamber.
[21]
21. Hinge according to claim 20, wherein said tubular element has an outer lateral surface that includes a first substantially flat portion, said at least one first hydraulic circuit including a first channel defined by the interspace between the inner surface of said chamber of operation and said substantially flat portion.
[22]
Hinge according to claim 21, wherein said first substantially flat portion extends over the entire length of said outer lateral surface of said tubular element so that said at least one first channel is in fluid communication with said first variable volume compartment.
[23]
23. Hinge according to claims 18 and 22, wherein said first means for adjusting the flow in said at least one first hydraulic circuit includes at least one second internal operating chamber for said hinge body similar to the box having a fluidly connected inlet with said second variable volume compartment and a fluidly connected outlet with said at least one first channel, said at least a second operating chamber comprising a first adjusting screw inserted in said second operating chamber to obstruct the passage section entry and / or exit, thus adjusting the rotation speed of the door from the closed position.
6/9 to the open position.
[24]
24. Hinge according to claim 15 or 16, wherein said control means comprise a second hydraulic circuit interposed between the outer surface of said cylindrical rear portion of said piston element and the inner surface of said operation chamber for the controlled flow return of said working fluid from said second compartment to said first variable volume compartment upon closing the door, said control means further comprising second means for adjusting the flow of the working fluid in said second hydraulic circuit, in order to adjust the force by which the door reaches the closed position.
[25]
Hinge according to claim 24 and any one of claims 20 to 23, wherein the outer side surface of said tubular element includes a second substantially flat portion, said second hydraulic circuit comprising a second channel interposed between the inner surface of said operating chamber and said second substantially flat portion.
[26]
26. The hinge according to claim 25, wherein said first substantially flat portion and second substantially flat portion of said outer lateral surface of said tubular element, respectively said first channel and said second channel, are reciprocally opposed with respect to a plane passing through said first axis and second axis.
[27]
27. The hinge according to claim 25 or 26, wherein said substantially flat second portion extends only for a part of the length of said outer lateral surface of said tubular element, the latter including a first orifice passing through in the vicinity of an end of said second substantially flat portion facing said outer surface of said cylindrical rear portion of said plunger element.
[28]
28. Hinge according to claim 24, wherein said second adjustment means in said second hydraulic circuit are designed
7/9 to provide a locking action on the door in the direction of the closed position when the plunger element is in proximity to the extended end position.
[29]
29. Hinge according to claims 27 and 28, wherein said cylindrical rear portion of said plunger element has a second hole passing through, said first and second holes passing through being reciprocally decoupled when said plunger element is in proximity to the compressed end position and reciprocally coupled when said plunger element is in proximity to the extended end position to selectively put in fluid communication the second channel with said first variable volume compartment, in order to confer the locking action on the door.
[30]
Hinge according to claim 29, wherein said second adjustment means in said second hydraulic circuit comprise at least a third operating chamber internal to said hinge body similar to the box that has an inlet fluidly connected to said second compartment of variable volume and a fluidly connected inlet with said at least a second channel, said second adjustment means comprising a second adjustment screw housed in said third operating chamber so as to obstruct the passage section of said inlet and / or said outlet , in order to adjust the force by which the locking action is given to the door.
[31]
31. Hinge according to claims 18 to 30, wherein said hinge body similar to the box comprises a third channel for the fluid connection of said second operating chamber and said third operating chamber.
[32]
32. Hinge for cold environments or back and forth gates, comprising a stationary support structure and at least one movable door between a closed position and an open position, the hinge comprising:
- a hinge body similar to the box anchored to one between the stationary support structure and the door and a pin defining a
8/9 the first longitudinal axis anchorable to another between the stationary support structure and the door, said pin and said hinge body similar to the box being rotating reciprocally coupled to rotate around said first axis between the open door position the closed door position;
- closing means for the automatic return of the door from the open position to the closed position;
- a working fluid acting on said closing means to hydraulically counteract their action, thus controlling the rotation of the door from the open position to the closed position;
wherein said closing means comprise a unitary cam element with said pin interacting with a movable piston element slidably in an operating chamber within said box-like hinge body along a second axis substantially perpendicular to said first axis between a compressed end position, corresponding to the open door position and an extended end position, corresponding to the closed door position, said piston element having a thrust head interacting with a substantially counter-formed seat of said meat element;
wherein said closing means and said working fluid are both entirely housed in said operating chamber;
wherein said plunger element comprises a substantially cylindrical rear portion and a front portion defining said drive head, said rear portion being designed to separate said operating chamber within a first and second compartments of variable volume in reciprocal fluid communication;
wherein said operating chamber comprises control means for controlling the flow of the working fluid designed to allow the flow of the working fluid from said first compartment to said second compartment when opening the door and to allow the flow return thereof said second compartment and said first compartment when the door is closed;
9/9 wherein said control means comprise at least one first hydraulic circuit interposed between the outer surface of said cylindrical rear portion of said piston element and said inner surface of said operating chamber for the controlled flow return of said fluid 5 work of said second compartment for said first compartment of variable volume when closing the door;
wherein said control means further comprises a tubular element interposed between the inner surface of said operating chamber and said cylindrical rear portion of said plunger element, said plunger element being firmly housed in said tubular element, said tubular element being firmly housed in said operating chamber.
[33]
33. Hinge according to claim 32, wherein said first and second compartments of variable volume are adjacent.

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BR112012002523A2|2020-02-11|HINGE FOR COLD ENVIRONMENTS, GATES GO AND COME OR SIMILAR.

ES2475315T3|2014-07-10|Closing hinge for doors, particularly for glass doors

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同族专利:

公开号 | 公开日

EA201270185A1|2012-07-30|

NZ592699A|2014-05-30|

EA019451B1|2014-03-31|

WO2011016000A1|2011-02-10|

CY1113382T1|2016-06-22|

US8191206B1|2012-06-05|

AU2010280342A1|2011-02-10|

HK1168640A1|2013-01-04|

JP2013501174A|2013-01-10|

AU2011202070A1|2011-05-26|

PT2324178E|2012-06-21|

ES2385789T3|2012-07-31|

SI2324178T1|2012-10-30|

NZ592703A|2012-11-30|

IT1395306B1|2012-09-05|

US20110219583A1|2011-09-15|

AU2010280342B2|2012-03-08|

CN102575492B|2014-11-12|

WO2011016000A4|2011-04-07|

EP2324178A1|2011-05-25|

CA2759099C|2013-01-22|

US20120124772A1|2012-05-24|

HRP20120474T1|2012-08-31|

UA101578C2|2013-04-10|

EP2397635A1|2011-12-21|

IL217961D0|2012-03-29|

CA2747421A1|2011-02-10|

EP2324178B1|2012-05-09|

CN102575492A|2012-07-11|

MX2012001550A|2012-06-13|

CA2759099A1|2011-02-10|

JP5274705B2|2013-08-28|

AU2011202070B2|2012-03-29|

DK2324178T3|2012-06-18|

PL2324178T3|2012-09-28|

US8943652B2|2015-02-03|

AT557155T|2012-05-15|

MY153345A|2015-01-29|

CA2747421C|2012-07-17|

EP2397635B1|2012-12-05|

ITVI20090211A1|2011-02-07|

JP2013079573A|2013-05-02|

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法律状态:
2020-02-27| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2020-03-10| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-09-08| B11B| Dismissal acc. art. 36, par 1 of ipl - no reply within 90 days to fullfil the necessary requirements|

2021-10-13| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

申请号 | 申请日 | 专利标题

ITVI2009A000211|2009-08-06|

ITVI2009A000211A|IT1395306B1|2009-08-06|2009-08-06|A HINGE FOR REFRIGERATED CELLS, PEDESTRIAN GATES OR SIMILAR|

PCT/IB2010/053535|WO2011016000A1|2009-08-06|2010-08-04|Hinge for cold rooms, swing gates or the like|

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