CN210588027U - Tool for mounting side buckle - Google Patents

Tool for mounting side buckle Download PDF

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Publication number
CN210588027U
CN210588027U CN201921657649.5U CN201921657649U CN210588027U CN 210588027 U CN210588027 U CN 210588027U CN 201921657649 U CN201921657649 U CN 201921657649U CN 210588027 U CN210588027 U CN 210588027U
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cylinder
buckle
plate
positioning column
positioning
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CN201921657649.5U
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Chinese (zh)
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高芝芹
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Shanghai Plastic Nanjing Co ltd
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Shanghai Plastic Nanjing Co ltd
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Abstract

The utility model discloses a frock for installing side buckle, including cylinder, fixed plate, bearing, reference column, locating column board and buckle ejecting device, the cylinder body and the locating column board of cylinder are fixed on the operation panel, and the flexible end of cylinder is connected with the one end of fixed plate, and the fixed plate passes through the bearing to be connected with the locating column board, and reference column and buckle ejecting device are fixed on the fixed plate, and reference column and locating column board set up the one side at the fixed plate, and buckle ejecting device sets up on the other side of fixed plate; when the telescopic end of the cylinder is in a contraction state, the positioning column is located at the first position of the positioning column plate, after the telescopic end of the cylinder extends out, the fixing plate rotates around the bearing until the positioning column reaches the second position of the positioning column plate, and the fixing plate stops rotating; when the positioning columns are located at the first position and the second position of the positioning column plate, the positioning columns are tangent to the positioning column plate. The utility model discloses be convenient for operating personnel's observation and operation. The speed and the accuracy of putting the buckle into the buckle ejection device by an operator are effectively improved.

Description

Tool for mounting side buckle
Technical Field
The utility model relates to a buckle installation frock, in particular to with a frock that is used for installing the side buckle.
Background
During the production process of assembling some products, some buckles are often located on the side of the products, and during the installation of the buckles, the side buckles are usually installed into the products by the combined action of the air cylinder and the linear guide rail. As shown in figure 1, in the assembling process of an operator, firstly, the air cylinder is in a contraction state, the operator horizontally inserts the buckle into the driving block, then the air cylinder is started, and the buckle is installed into a product through the extension of the air cylinder and the combined action of the linear guide rail.
Although the installation method achieves the installation effect in the assembly production process, an operator horizontally places the buckle into the ejection structure, the vision has a blind area, the observation and the operation of the operator are not facilitated, sometimes, when the buckle is placed, the operator cannot insert the buckle into the driving block at an accurate speed, the product installation efficiency is influenced, and the installation error can be caused due to the fact that the position where the buckle is placed is uncertain.
SUMMERY OF THE UTILITY MODEL
The purpose of the invention is as follows: the utility model discloses to the problem that prior art exists, a frock for installing the side buckle that can effectively improve installation effectiveness and rate of accuracy is proposed.
The technical scheme is as follows: in order to achieve the purpose, the utility model provides a tool for installing a side buckle, which comprises a first cylinder, a fixed plate, a bearing, a positioning column plate and a buckle ejection device, wherein the cylinder body and the positioning column plate of the first cylinder are fixed on an operation table, the telescopic end of the first cylinder is connected with one end of the fixed plate, the fixed plate is connected with the positioning column plate through the bearing, the positioning column and the buckle ejection device are fixed on the fixed plate, the positioning column and the positioning column plate are arranged on one side of the fixed plate, and the buckle ejection device is arranged on the other side of the fixed plate; when the telescopic end of the first cylinder is in a contraction state, the positioning column is located at the first position of the positioning column plate, after the telescopic end of the first cylinder extends out, the fixing plate rotates around the bearing until the positioning column reaches the second position of the positioning column plate, and the fixing plate stops rotating; when the positioning columns are located at the first position and the second position of the positioning column plate, the positioning columns are tangent to the positioning column plate.
Further, the positioning column plate is stepped. This allows a more accurate determination of the angle of rotation.
Further, the ejection device includes: the cylinder barrel of guide block and second cylinder passes through the bolt fastening on the cylinder fixed block, the flexible end of second cylinder with drive block fixed connection, the drive block sets up the inside at the guide block.
Further, the ejection device further comprises a photoelectric sensor, and the photoelectric sensor is arranged on the outer wall of the guide block. Therefore, the phenomenon of missing installation of the buckle can be effectively avoided.
Further, the driving block of the ejection device comprises a body and a buckle supporting column arranged on the body, and magnets are arranged on the body on two sides of the buckle supporting column. Therefore, the buckle can be effectively fixed in the installation process.
The working principle is as follows: the utility model discloses a mutually supporting between fixed plate, reference column and the location post board to realize that buckle ejecting device can rotate required angle. Therefore, the buckle can be initially installed on the buckle ejection device under the vertical condition of the buckle ejection device, and the operation is more convenient.
Has the advantages that: compared with the prior art, the utility model provides a workman put into the buckle ejecting device because the level with the buckle in the frock clamp assembling process and the problem of the vision blind area that leads to, the operating personnel's of being convenient for observation and operation. The speed and the accuracy of putting the buckle into the buckle ejection device by an operator are effectively improved.
Drawings
FIG. 1 is a diagram illustrating a state of use of a buckle tooling in the prior art;
FIG. 2 is a schematic structural view of the present invention;
FIG. 3 is a schematic view of a fixation plate;
FIG. 4 is a schematic view of a bearing;
FIG. 5 is a schematic view of a locating stud plate;
FIG. 6 is a schematic view of a locating post;
FIG. 7 is a schematic view of a first cylinder;
fig. 8 is a schematic structural view of the buckle ejection device in embodiment 1 and embodiment 2;
FIG. 9 is a schematic view of the installation of the present invention during operation;
fig. 10 is a state diagram when the first cylinder is contracted in embodiment 1;
fig. 11 is a state diagram when the first cylinder is extended in embodiment 1;
fig. 12 is a schematic structural view of the clip ejecting apparatus in embodiment 3.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the examples of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example 1:
as shown in fig. 2-7, the utility model discloses a rotatory frock for installing side buckle, including first cylinder 1, fixed plate 2, bearing 3, reference column 4, location column board 5 and buckle ejecting device 6, wherein, the cylinder body and the location column board 5 of first cylinder 1 are fixed on the operation panel, fixed plate 2 is connected with the connector of first cylinder 1 front end self-bring, fixed plate 2 is connected with location column board 5 through bearing 3, wherein, bearing 3 includes bearing frame 301 and rotation axis 302, bearing frame 301 is fixed on fixed plate 2, rotation axis 302 passes fixed plate 2 and is connected with location column board 5; reference column 4 and buckle ejecting device 6 are fixed on fixed plate 2, and reference column 4 and location post board 5 set up the one side at fixed plate 2, and buckle ejecting device 6 and bearing frame 301 set up on the another side of fixed plate 2. As shown in fig. 8, the buckle ejection device 6 includes a guide block 601, a driving block 602, a second cylinder 603, a cylinder fixing block 604, a first linear guide rail 605, a photoelectric sensor 606, and a positioning plate 607, wherein the first linear guide rail 605 is fixed on the positioning plate 607 through a bolt, and the cylinder fixing block 604 is fixed on a slider of the first linear guide rail 605; the bolt sequentially passes through the guide block 601 and the screw holes on the second air cylinder 603 and is finally fixed in the screw hole on the air cylinder fixing block 604, and the guide block 601 is arranged above the second air cylinder 603; the telescopic end of the second cylinder 603 is fixedly connected with a driving block 602, and the driving block 602 is arranged inside the guide block 601; the photosensor 606 is disposed on the outer wall of the guide block 601. The positioning column plate 5 is in a step shape, wherein the rotating radius of the fixed plate rotating around the bearing is 32mm, and the step height of the positioning column plate is 15 mm. Wherein, the photoelectric sensor 606 adopts Panasonic EX-13SB-PN, the first cylinder adopts CM-173.8-DP (D-229) (F, D-231-1) of U.S. BIMBA; the second cylinder was used under EF-2020 of BIMBA, USA. When the flexible end of first cylinder 1 is in the shrink state, reference column 4 contacts with the upper surface of the lower ladder of location column plate 5, stretches out the back when the flexible end of first cylinder 1, and fixed plate 2 produces the power of an ascending motion under the promotion of first cylinder 1, and fixed plate 2 is rotatory clockwise around bearing 3, and after up to reference column 4 contacted the upper surface of the last ladder of location column plate 5, fixed plate 2 stopped rotating to make buckle ejecting device 6 rotate 90 degrees clockwise.
As shown in fig. 9, the operator will install the present invention to the position where the buckle needs to be installed. In the assembling process, as shown in fig. 10, firstly, the first cylinder 1 is in a contracted state, an operator vertically puts the buckle on the driving block 602 of the buckle ejection device 6, and detects whether the buckle is in a correct position through the photoelectric sensor 606 on the buckle ejection device 6, then starts the first cylinder 1, as shown in fig. 11, the buckle ejection device 6 rotates 90 degrees clockwise through the interaction of the extension of the first cylinder 1 and the bearing 3, in this process, the positioning of the rotation angle is completed through the interaction of the positioning plate 4 and the positioning column 5, and the magnet 608 on the buckle ejection device 6 attracts the buckle to avoid the buckle from falling. After the buckle ejection device 6 rotates to a desired position, the second cylinder 603 in the buckle ejection device 6 enters an extended state, so that the buckle is smoothly installed and enters a product.
Example 2:
as shown in fig. 2-7, the utility model discloses a rotatory frock for installing side buckle, including first cylinder 1, fixed plate 2, bearing 3, reference column 4, positioning column board 5 and buckle ejecting device 6, wherein, the cylinder body and the positioning column board 5 of cylinder 1 are fixed on the operation panel, fixed plate 2 is connected with the connector of first cylinder 1 front end self-bring, fixed plate 2 is connected with positioning column board 5 through bearing 3, wherein, bearing 3 includes bearing frame 301 and rotation axis 302, bearing frame 301 is fixed on fixed plate 2, rotation axis 302 passes fixed plate 2 and is connected with positioning column board 5; reference column 4 and buckle ejecting device 6 are fixed on fixed plate 2, and reference column 4 and location post board 5 set up the one side at fixed plate 2, and buckle ejecting device 6 and bearing frame 301 set up on the another side of fixed plate 2. As shown in fig. 8, the buckle ejection device 6 includes a guide block 601, a driving block 602, a second air cylinder 603, an air cylinder fixing block 604, a first linear guide rail 605, a photoelectric sensor 606 and a positioning plate 607, the first linear guide rail 605 is fixed on the positioning plate 607 through a bolt, the air cylinder fixing block 604 is fixed on a slide block of the first linear guide rail 605, the bolt sequentially passes through screw holes on the guide block 601 and the second air cylinder 603, and is finally fixed in a screw hole on the air cylinder fixing block 604, and the guide block 601 is disposed above the second air cylinder 603; the telescopic end of the second cylinder 603 is fixedly connected with a driving block 602, and the driving block 602 is arranged inside the guide block 601; the photosensor 606 is disposed on the outer wall of the guide block 601. The positioning column plate 5 is stepped, wherein the rotation radius of the fixed plate rotating around the bearing is 32mm, and the step height is 20 mm. Wherein, the photoelectric sensor 606 adopts Panasonic EX-13SB-PN, the first cylinder adopts CM-173.8-DP (D-229) (F, D-231-1) of U.S. BIMBA; the second cylinder was used under EF-2020 of BIMBA, USA. When the flexible end of first cylinder 1 is in the shrink state, reference column 4 contacts with the upper surface of the lower ladder of location column plate 5, stretches out the back when the flexible end of first cylinder 1, and fixed plate 2 produces the power of an ascending motion under the promotion of first cylinder 1, and fixed plate 2 is rotatory clockwise around bearing 3, and after until reference column 4 contacted the upper surface of the last ladder of location column plate 5, fixed plate 2 stopped rotating to make buckle ejecting device 6 rotate 60 degrees clockwise.
In the assembling process of an operator, firstly, the first air cylinder 1 is in a contraction state, the operator vertically places the buckle on the driving block 602 of the buckle ejection device 6, detects whether the buckle is in a correct position through the photoelectric sensor 606 on the buckle ejection device 6, then starts the first air cylinder 1, enables the buckle ejection device 6 to rotate clockwise by 60 degrees through the combined action of the extension of the first air cylinder 1 and the bearing 3, in the process, the positioning of the rotation angle is completed through the combined action of the positioning plate 4 and the positioning column 5, and the magnet 608 on the buckle ejection device 6 attracts the buckle to avoid the buckle from falling. After the buckle ejection device 6 rotates to a desired position, the second cylinder 603 in the buckle ejection device 6 enters an extended state, so that the buckle is smoothly installed and enters a product.
Example 3:
as shown in fig. 2-7, the utility model discloses a rotatory frock for installing side buckle, including first cylinder 1, fixed plate 2, bearing 3, reference column 4, location column board 5 and buckle ejecting device 6, wherein, the cylinder body and the location column board 5 of first cylinder 1 are fixed on the operation panel, fixed plate 2 is connected with the connector of first cylinder 1 front end self-bring, fixed plate 2 is connected with location column board 5 through bearing 3, wherein, bearing 3 includes bearing frame 301 and rotation axis 302, bearing frame 301 is fixed on fixed plate 2, rotation axis 302 passes fixed plate 2 and is connected with location column board 5; reference column 4 and buckle ejecting device 6 are fixed on fixed plate 2, and reference column 4 and location post board 5 set up the one side at fixed plate 2, and buckle ejecting device 6 and bearing frame 301 set up on the another side of fixed plate 2. As shown in fig. 12, the buckle ejection device 6 includes a guide block 601, a driving block 602, a second cylinder 603, a cylinder fixing block 604, a first linear guide rail 605 and a positioning plate 607, the first linear guide rail 605 is fixed on the positioning plate 607 through a bolt, the cylinder fixing block 604 is fixed on a slider of the first linear guide rail 605, the bolt sequentially passes through screw holes on the guide block 601 and the second cylinder 603, and is finally fixed in a screw hole on the cylinder fixing block 604, and the guide block 601 is disposed above the second cylinder 603; the telescopic end of the second cylinder 603 is fixedly connected with a driving block 602, and the driving block 602 is arranged inside the guide block 601. The positioning column plate 5 is stepped, wherein the rotation radius of the fixed plate rotating around the bearing is 32mm, and the step height is 32 mm. Wherein the first cylinder is CM-173.8-DP (D-229) (F, D-231-1) of BIMBA; the second cylinder was used under EF-2020 of BIMBA, USA. When the flexible end of first cylinder 1 is in the shrink state, reference column 4 contacts with the upper surface of the lower ladder of location column plate 5, stretches out the back when the flexible end of first cylinder 1, and fixed plate 2 produces the power of an ascending motion under the promotion of first cylinder 1, and fixed plate 2 is rotatory clockwise around bearing 3, and after until reference column 4 contacted the upper surface of the last ladder of location column plate 5, fixed plate 2 stopped rotating to make buckle ejecting device 6 rotate 45 degrees clockwise.
In the assembling process of an operator, firstly, the first cylinder 1 is in a contraction state, the operator vertically puts the buckle on the driving block 602 of the buckle ejection device 6, then starts the first cylinder 1, and makes the buckle ejection device 6 rotate clockwise by 45 degrees through the combined action of the extension of the first cylinder 1 and the bearing 3, in the process, the positioning of the rotation angle is completed through the combined action of the positioning plate 4 and the positioning column 5, and the magnet 608 on the buckle ejection device 6 attracts the buckle to avoid the buckle from falling. After the buckle ejection device 6 rotates to a desired position, the second cylinder 603 in the buckle ejection device 6 enters an extended state, so that the buckle is smoothly installed and enters a product.

Claims (5)

1. The utility model provides a frock for installing side buckle which characterized in that: the positioning device comprises a first air cylinder, a fixing plate, a bearing, a positioning column plate and a buckle ejection device, wherein the cylinder body and the positioning column plate of the first air cylinder are fixed on an operation table; when the telescopic end of the first cylinder is in a contraction state, the positioning column is located at the first position of the positioning column plate, after the telescopic end of the first cylinder extends out, the fixing plate rotates around the bearing until the positioning column reaches the second position of the positioning column plate, and the fixing plate stops rotating; when the positioning columns are located at the first position and the second position of the positioning column plate, the positioning columns are tangent to the positioning column plate.
2. The tool for mounting the side buckle according to claim 1, wherein: the positioning column plate is in a step shape.
3. The tool for mounting the side buckle according to claim 1, wherein: the ejection device includes: the cylinder barrel of guide block and second cylinder passes through the bolt fastening on the cylinder fixed block, the flexible end of second cylinder with drive block fixed connection, the drive block sets up the inside at the guide block.
4. The tool for mounting the side buckle according to claim 3, wherein: the ejection device further comprises a photoelectric sensor, and the photoelectric sensor is arranged on the outer wall of the guide block.
5. The tool for mounting the side buckle according to claim 3, wherein: the driving block of the ejection device comprises a body and a buckle supporting column arranged on the body, and magnets are arranged on the body on two sides of the buckle supporting column.
CN201921657649.5U 2019-09-30 2019-09-30 Tool for mounting side buckle Active CN210588027U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921657649.5U CN210588027U (en) 2019-09-30 2019-09-30 Tool for mounting side buckle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921657649.5U CN210588027U (en) 2019-09-30 2019-09-30 Tool for mounting side buckle

Publications (1)

Publication Number Publication Date
CN210588027U true CN210588027U (en) 2020-05-22

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ID=70720601

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921657649.5U Active CN210588027U (en) 2019-09-30 2019-09-30 Tool for mounting side buckle

Country Status (1)

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CN (1) CN210588027U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113857826A (en) * 2021-10-20 2021-12-31 儒拉玛特自动化技术(苏州)有限公司 C-shaped elastic buckle lateral pushing-in mounting mechanism

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113857826A (en) * 2021-10-20 2021-12-31 儒拉玛特自动化技术(苏州)有限公司 C-shaped elastic buckle lateral pushing-in mounting mechanism

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