• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    System and procedure of union between elements of cylindrical type by means of adhesive. Joining system between at least a first and a second joining element by adhesive, said first joining element comprising a cylindrical projecting portion adapted to be inserted inside a cylindrical housing of said second joining element, said cylindrical projecting part comprising a groove arranged on its external surface for the provision of a bonding adhesive of said cylindrical projecting part inside said cylindrical housing, wherein said first joining element comprises a through hole linearly connected with said groove for the introduction of a adhesive by means of an adhesive injection tube, said groove extending along the outer surface of the cylindrical projecting part without reaching the end of said cylindrical projecting part. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2684624A1
    申请号:ES201700321
    申请日:2017-03-29
    公开日:2018-10-03
    发明作者:Juan ALARCÓN LORENTE
    申请人:Zenit Polimeros Y Composites Sl;
    IPC主号:
    专利说明:

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    System and procedure of union between elements of cylindrical type by means of adhesive.
    The present invention is related to the sector of the joints between cylindrical elements used in particular in connections between support elements (beam and column type) for scaffolding systems.
    Joining systems between cylindrical elements are known from the state of the art by the use of some type of adhesive that allows permanent bonding between the respective external and internal surfaces of the respective male and female cylindrical elements. In order to provide efficient and resistant adhesion between said connecting elements, it is essential to achieve an equitable distribution of the adhesive along and between the external and internal surfaces respectively of the cylindrical male and female connecting elements, providing a durable and resistant adhesion in time, avoiding the appearance of gaps without adhesive between the aforementioned surfaces of the respective elements that could cause the entry of some external agent, such as humidity, which could weaken the union between said elements. Adhesion systems known in the state of the art have so far failed to provide strong and durable adhesive bonds between cylindrical elements.
    The present invention discloses a joint system between cylindrical elements by means of adhesive, comprising:
    - At least a first and a second connecting element.
    - Said said first connecting element comprising at least one cylindrical protruding part adapted to fit tightly into the interior of at least one cylindrical housing of said second connecting element.
    - Said cylindrical projecting part comprising a groove disposed on its outer surface for the provision of a permanent bonding adhesive of said cylindrical projecting part inside said cylindrical housing.
    Said system is characterized in that said first connecting element comprises a through hole accessible from the outside and linearly connected with said groove for the introduction of an adhesive by means of an adhesive injection tube, said groove extending along the outer surface of the cylindrical projecting part without reaching the end of said cylindrical projecting part. As said groove does not extend to the end of said cylindrical projection part it is ensured that the adhesive is disposed only in the area of the cylindrical surface of the cylindrical projection part thus preventing the adhesive from flowing out of said outer surface of said cylindrical projection part . Preferably, the groove has a depth of between 2 to 3mm and the distance between the end of the groove and the end of the cylindrical projecting part is 5mm.
    Preferably, the groove extends parallel to the longitudinal axis of said cylindrical projecting part of the first connecting element.
    Preferably, the through hole is circular profile whose center is aligned with the midline of a reinforcing rib of the cylindrical through part on which the groove is arranged. In this way, the mechanical weakness of the area where the groove is arranged is minimized.
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    Preferably, the through hole is circular profile whose center is aligned with the middle line of the groove.
    Preferably, the adjoining edges of the groove have a rounded shape of 1mm, thus allowing the adhesive to flow out of the groove during the adhesion procedure which will be explained later.
    Preferably, said first connecting element comprises a handle part arranged in a manner integral with said cylindrical projecting part. Said handle part allows the first connection element to be grasped more comfortably during insertion thereof inside the housing of the second connection element and / or during the adhesion procedure which will be explained later.
    Similarly, the present invention also discloses a method of joining between cylindrical elements by adhesive of a system according to the present invention, comprising:
    - An initial step of introducing the cylindrical projecting part of the first connecting element into a cylindrical housing of at least one second connecting element.
    Additionally understanding the following stages:
    - Insertion of the adhesive injection tube through the through hole of the first connecting element until the end of the groove arranged on the outer surface of the cylindrical projecting part.
    - Injection of adhesive into the groove through the injection tube.
    - Rotation of the cylindrical projecting part.
    - Withdrawal of the injection tube while the adhesive is still injected into the groove and the cylindrical protrusion continues to rotate.
    Preferably, the steps of adhesive injection in the groove, rotation of the cylindrical projection and removal of the injection tube are carried out at the same time.
    Preferably, the steps of adhesive injection in the groove and removal of the injection tube are carried out at the same time.
    Preferably, the rotation of the cylindrical projecting part is carried out at a speed of between 20 and 120 revolutions per minute.
    Preferably, the withdrawal of the injection tube is carried out at a constant speed of 0.01 m / s.
    Preferably, the stage of rotation of the cylindrical projecting part is carried out by means of a handle part arranged in solidarity with said cylindrical projecting part.
    For a better understanding of the invention, some figures of two examples of embodiment of the pickup support for stringed musical instruments are attached by way of explanatory but not limiting example.
    Figure 1 shows a perspective view of the joint system between cylindrical elements by adhesive according to the present invention.
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    Figure 2 shows a perspective view of an embodiment of a first connecting element of a system according to the present invention.
    Figure 3 shows a detailed view of the cylindrical projecting part of the first connecting element of Figure 2.
    Figure 4 shows an enlarged view in detail of the cylindrical projecting part of Figure 3.
    Figure 5 shows a detailed rear view of the first connecting element of Figure 2.
    Figure 6 shows an enlarged view in detail of Figure 5.
    Figure 1 shows a connection system between cylindrical elements by adhesive according to the present invention. Said system is composed of at least a first -1- and a second -4- connecting element, the second -4- joining element being part of another element, such as an interconnector -3- of different elements of connection connecting, for example, horizontal connection elements with other vertical connection elements -5-. Said first connecting element -1- comprises at least one cylindrical projecting part -10- adapted to fit tightly into the interior of at least one cylindrical housing of said second connecting element -4-. Figure 1 illustrates the system with the cylindrical projecting part -10- of the first connecting elements -1- already inserted inside the cylindrical housing of said second connecting element -4-.
    Figure 2 shows only the first -1-connecting element, according to one embodiment, for the system according to the present invention. According to said embodiment, the cylindrical projecting part -10- of the first connecting element -1- comprises a groove -101- arranged on its outer surface for the arrangement of an adhesive, as will be seen later, for the permanent joining of said part cylindrical projection -10- inside said cylindrical housing of the second connecting element -4-. Said first connecting element -1- additionally comprises a through hole of proximal inlet -110- accessible from the outside and distal outlet -100- connected linearly with said groove -101- for the introduction of an adhesive by means of an injection tube -2- of adhesive comprising a proximal inlet -20- through which the adhesive is inserted (not illustrated) and a distal outlet -21- where the adhesive comes out. Optionally, said first connecting element -1- can comprise a handle part -11- arranged in a manner integral with said cylindrical projecting part -10- which allows the first joining element -1- to be more comfortably grasped during insertion thereof in the inside of the housing of the second connecting element -4- and / or during the adhesion procedure which will be explained later.
    As illustrated in Figures 1 to 4, the groove -101- extends along the outer surface of the cylindrical projecting part -10- without reaching the end thereof. Preferably, the groove has a depth of between 2 to 3mm and the distance between the end of the groove and the end of the cylindrical projecting part is 5mm. Preferably also, the groove extends parallel to the longitudinal axis of said cylindrical projection part -10- of the first connecting element -1-.
    As can be seen in Figures 5 and 6, the through hole (-100-, -110-) is preferably of circular profile whose center is aligned with the midline of the groove and / or with the midline of a reinforcing rib of the cylindrical through part -10- on which the groove-101- is arranged, thereby minimizing the mechanical weakness of the area where the groove -101- is maximized.
    Additionally, as illustrated in Figures 3 and 4, the groove -101- comprises adjacent edges (side edges -1000- and -1001-; and end edge -1002-) that preferably have
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    1mm rounded shape, thus allowing and facilitating the adhesive (not illustrated) to flow out of the groove -101- during the adhesion procedure that will be explained later.
    Next, a method (not illustrated) of adhesive bonding in a system according to the present invention will be explained.
    Initially, the process includes an initial step of introducing the cylindrical projecting part -10- of the first connecting element -1- into a cylindrical housing of the second joining element -4-.
    Subsequently, the method comprises the step of inserting the injection tube -2- of adhesive through the through hole (-100-, -110-) until the end of the groove -101- arranged on the outer surface of the cylindrical projecting part - 10-, so that the distal outlet -21- of said tube -2- is disposed at the end of said groove -101-. Subsequently, the injection of adhesive into the groove -101- is carried out through the proximal inlet -20- of the injection tube -2- and the rotation of the cylindrical projecting part -10- inside the housing is initiated of the second cylindrical element -4-, allowing an equitable distribution of the adhesive axially. As an example, the rotation of the cylindrical projecting part -10- can be carried out at a speed of between 20 and 120 revolutions per minute. Subsequently, the injection tube -2- is progressively removed while the adhesive is still injected into the groove-101- and the cylindrical projection part -10- continues to rotate, thus achieving an equitable and uniform distribution of the adhesive both in the axial and longitudinal axis of the cylindrical projection part -10- inside the housing of the second connecting element -4-, achieving a more resistant and durable union without empty spaces of adhesive between the cylindrical projection part -10- and the inner surface of the housing of the second connecting element -4-. As an example, the withdrawal of the injection tube can be carried out at a constant speed of 0.01 m / s.
    Preferably, the steps of adhesive injection in the groove -101-, axial rotation of the cylindrical projection part -10- and removal of the injection tube -2- are carried out all at once. However, different combinations of the mentioned steps can be carried out at different times.
    Optionally, the stage of rotation of the cylindrical projection part -10- can be carried out by means of a handle part -11- optionally arranged in solidarity with said cylindrical projection part -10-.
    While the invention has been presented and described with reference to an embodiment thereof with some optional element and therefore not essential to the invention, it will be understood that these are not limiting of the invention, so multiple constructive details could be variable. or others that may be evident to the technicians of the sector after interpreting the subject matter disclosed in the present description, claims and drawings. Thus, all variants and equivalents will be included within the scope of the present invention if they can be considered to be within the broadest scope of the following claims.
    权利要求:
    Claims (13)
    [1]
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    1. System of union between elements of cylindrical type by means of adhesive, comprising:
    - At least a first and a second connecting element.
    - Said said first connecting element comprising at least one cylindrical protruding part adapted to fit tightly into the interior of at least one cylindrical housing of said second connecting element.
    - Said cylindrical projecting part comprising a groove arranged on its outer surface for the provision of a permanent bonding adhesive of said cylindrical projecting part inside said cylindrical housing, characterized in that said first connecting element comprises a through hole accessible from the externally connected linearly with said groove for the introduction of an adhesive by means of an adhesive injection tube, said groove extending along the outer surface of the cylindrical projecting part without reaching the end of said cylindrical projecting part.
    [2]
    2. System according to claim 1, characterized in that the groove extends parallel to the longitudinal axis of said cylindrical projecting part of the first connecting element.
    [3]
    3. System according to any one of claims 1 to 2, characterized in that the through hole is circular profile whose center is aligned with the midline of a reinforcement rib of the cylindrical through part.
    [4]
    4. System according to any of claims 1 to 2, characterized in that the through hole is circular profile whose center is aligned with the middle line of the groove.
    [5]
    5. System according to any of claims 1 to 4, characterized in that the adjacent edges of the groove have a rounded shape of 1mm.
    [6]
    6. System according to any of the preceding claims, characterized in that the groove has a depth of between 2 to 3mm.
    [7]
    7. System according to any of the preceding claims, characterized in that the distance between the end of the groove and the end of the cylindrical projecting part is 5mm.
    [8]
    System according to any one of the preceding claims, characterized in that said first connecting element comprises a handle part disposed in solidarity with said cylindrical projecting part.
    [9]
    9. Method of joining between cylindrical elements by adhesive of a system according to any of claims 1 to 8, comprising:
    - An initial step of introducing the cylindrical projecting part of the first connecting element into a cylindrical housing of at least one second connecting element.
    Additionally understanding the following stages:
    - Insertion of the adhesive injection tube through the through hole of the first connecting element until the end of the groove arranged on the outer surface of the cylindrical projecting part.
    - Injection of adhesive into the groove through the injection tube.
    - Rotation of the cylindrical projecting part.
    5 - Removing the injection tube while continuing to inject the adhesive into the groove and
    the cylindrical projecting part is still rotating.
    [10]
    Method according to the preceding claim, characterized in that the stages of injection of adhesive into the groove, rotation of the cylindrical projecting part and removal of the tube from
    10 injection are carried out at once.
    [11]
    Method according to claim 9, characterized in that the steps of adhesive injection in the groove and removal of the injection tube are carried out at the same time.
    Method according to any of the preceding claims, characterized in that
    The rotation of the cylindrical projecting part is carried out at a speed of between 20 and 120 revolutions per minute.
    [13]
    13. Method according to any of the preceding claims, characterized in that the withdrawal of the injection tube is carried out at a constant speed of 0.01 m / s.
    [14]
    14. Method, according to any of the preceding claims, characterized in that the rotation stage of the cylindrical projecting part is carried out by means of a handle part arranged in solidarity with said cylindrical projecting part.
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    同族专利:
    公开号 | 公开日
    EP3604829A4|2020-12-02|
    EP3604829A1|2020-02-05|
    ES2684624B8|2019-10-16|
    CN110537029A|2019-12-03|
    WO2018178455A1|2018-10-04|
    US20210404498A1|2021-12-30|
    ES2684624B1|2019-06-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB1585163A|1976-06-24|1981-02-25|Gkn Transmissions Ltd|Universal joint and shaft assemblies|
    GB2012649A|1977-12-22|1979-08-01|Gkn Transmissions Ltd|Tubular shaft and universal joint assembly|
    US4722717A|1986-03-31|1988-02-02|General Signal Corp.|End connection for composite shafts|
    EP0253347A2|1986-07-14|1988-01-20|Genie Industries, Inc.|Scaffold system|
    FR2606124A1|1986-11-03|1988-05-06|Craie|Device and method for assembling framework elements such as uprights or cross-members with bonding|
    FR2830582A1|2001-10-09|2003-04-11|Peguform France|Method of manufacturing vehicle article comprising two adhered pieces comprises introducing gluing components between pieces and moving them relative to each other to distribute components|
    US20050271481A1|2002-09-06|2005-12-08|Dbt Gmbh|Method for joining the functional parts of hydraulic or pneumatic working devices, and joining connection|
    JP2013170672A|2012-02-22|2013-09-02|Mitsubishi Cable Ind Ltd|Fitting structure and method of manufacturing the same|
    NZ224675A|1987-05-26|1991-08-27|Syma Intercontinental Sa|Connecting element for scaffolding rod end|
    DE102004001388B4|2004-01-09|2005-12-29|Universität Kassel|Device for creating a plug-in connection by means of adhesive injection|
    TWI405657B|2007-02-09|2013-08-21|Sumitomo Heavy Industries|Screw and injection device|
    DE102009031188A1|2009-06-29|2010-12-30|Nie Wieder Bohren Ag|Mounting system for quick attachment of fasteners using light-curing adhesives|
    DE202010015746U1|2010-11-23|2011-12-05|Thomas Hausmann|Connecting device for connecting two preferably plate-like parts and needle with integrated abutment hook for such connecting devices|
    DE102014217724A1|2014-09-04|2016-03-10|Bayerische Motoren Werke Aktiengesellschaft|Adhesive distribution device and method for bonding hollow profiles with a Klebstoffverteilvorrichtung|
    CN104595589A|2015-01-09|2015-05-06|张雁|Small-caliber plastic rib spiral tube without adhesive-bonded joint and production process for small-caliber plastic rib spiral tube without adhesive-bonded joint|
    CN104747551B|2015-02-03|2017-11-24|新誉集团有限公司|A kind of gluing device that can be used under short space being glued and its application method|
    法律状态:
    2018-10-03| BA2A| Patent application published|Ref document number: 2684624 Country of ref document: ES Kind code of ref document: A1 Effective date: 20181003 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201700321A|ES2684624B8|2017-03-29|2017-03-29|System and procedure of union between elements of cylindrical type by means of adhesive|ES201700321A| ES2684624B8|2017-03-29|2017-03-29|System and procedure of union between elements of cylindrical type by means of adhesive|
    EP18775727.3A| EP3604829A4|2017-03-29|2018-03-23|Method and system for joining cylindrical elements by means of adhesive|
    US16/498,340| US20210404498A1|2017-03-29|2018-03-23|Method and system for joining cylindrical elements by means of adhesive|
    CN201880026758.9A| CN110537029A|2017-03-29|2018-03-23|For the method and system by adhesive combination cylindrical elements|
    PCT/ES2018/070234| WO2018178455A1|2017-03-29|2018-03-23|Method and system for joining cylindrical elements by means of adhesive|
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