CN215600164U - Wire arranging jig - Google Patents

Abstract

The utility model relates to a winding displacement tool belongs to the technical field of winding displacement processing, and it includes winding displacement mainboard and integration board, sets up the winding displacement groove of a plurality of quantity on the winding displacement mainboard, and the winding displacement groove is seted up along the width direction of winding displacement mainboard, has still seted up the standing groove on the winding displacement mainboard, and the standing groove is seted up along the length direction of winding displacement mainboard, and standing groove and winding displacement groove intercommunication, and the integration board is installed in the standing groove and can be dismantled with the winding displacement mainboard and be connected, and the integration board is used for bonding with the winding displacement. This application has the effect that has improved the head of winding displacement and has dipped in gluey efficiency.

Description

Wire arranging jig

Technical Field

The application relates to the field of winding displacement processing, especially relates to a winding displacement tool.

Background

The flat cable is mainly used for data transmission of movable parts and movable areas, for example, a mainboard inside a computer is connected with data lines of a hard disk and a CD-ROM, a mainboard of a mobile phone is connected with data lines of a display screen, and the data lines between connecting devices are collectively called the flat cable, and the flat cable is formed by combining a plurality of wires in parallel.

In the processing procedure of winding displacement, need to dip in the glue with the head of winding displacement alone, among the relevant art, generally have the staff to take single wire, then take single wire to dip in the glue.

In view of the above-mentioned related art, the inventor believes that there is a defect that the head of the flat cable is inefficient in dipping glue.

SUMMERY OF THE UTILITY MODEL

In order to improve the head of winding displacement and dip in the defect of gluing inefficiency, this application provides a winding displacement tool.

The application provides a winding displacement tool adopts following technical scheme:

the utility model provides a winding displacement tool, includes winding displacement mainboard and integration board, set up the winding displacement groove of a plurality of quantity on the winding displacement mainboard, the width direction of winding displacement mainboard is seted up along the winding displacement mainboard to the winding displacement groove, the standing groove has still been seted up on the winding displacement mainboard, the standing groove is seted up along the length direction of winding displacement mainboard, just standing groove and winding displacement groove intercommunication, the integration board is installed in the standing groove and can be dismantled with the winding displacement mainboard and be connected, the integration board is used for bonding with the winding displacement.

Through adopting above-mentioned technical scheme, when the head of winding displacement need dip in glue, place the standing groove of winding displacement mainboard with a winding displacement earlier, sort the winding displacement, the winding displacement groove can carry on spacingly to the line body of winding displacement, the condition of two adjacent winding displacement contacts has been reduced, the winding displacement can with the integration plate butt in addition, then fix the winding displacement on the integration plate through the sticky tape, can dismantle the integration plate from the winding displacement mainboard at last, the integration plate takes the winding displacement to go to dip in glue, the batch of having realized dipping in glue the winding displacement, the head that has improved the winding displacement dips in glue efficiency.

Optionally, still be provided with the locating component on the winding displacement mainboard, the locating component includes location diaphragm and location riser, the location diaphragm is connected with the winding displacement mainboard one end that is close to the integration board, the location riser is connected with the one end that the winding displacement mainboard was kept away from to the location diaphragm, set up the constant head tank that corresponds with the winding displacement groove on the location riser, the winding displacement mainboard was kept away from to the winding displacement one end through placing in the constant head tank and with location riser butt.

Through adopting above-mentioned technical scheme, the winding displacement groove of winding displacement mainboard is placed to the winding displacement, and the winding displacement is kept away from the one end of winding displacement mainboard and through placing in the constant head tank and with location riser butt for the winding displacement can be stable arrange on the winding displacement mainboard, and the location riser can align the one end of wire, has improved the follow-up quality that dips in the glue of winding displacement.

Optionally, a first adhesive layer is further disposed on the flat cable main board, the setting direction of the first adhesive layer is the setting direction of the placing groove, the first adhesive layer is connected with the flat cable main board by being disposed in the placing groove, and the first adhesive layer is used for adhering the integrated board.

Through adopting above-mentioned technical scheme, the integration board is fixed on the winding displacement mainboard through first adhesive linkage, has reduced the condition that the integration board rocked on the winding displacement mainboard, is convenient for fix the winding displacement on the integration board.

Optionally, the one end fixed connection that the winding displacement mainboard was kept away from to location riser and location diaphragm, just all be provided with the second adhesive linkage on location diaphragm and the location riser, the second adhesive linkage is used for the fixed winding displacement to keep away from the one end of winding displacement mainboard.

Through adopting above-mentioned technical scheme, winding displacement groove on the winding displacement mainboard can carry on spacingly to the line body of winding displacement, and the second adhesive linkage can be kept away from the one end of winding displacement groove with the winding displacement and fix, and second adhesive linkage and winding displacement groove mutually cooperate for the winding displacement can be stable place on the winding displacement mainboard, be convenient for fix the winding displacement on the integration board.

Optionally, the flat cable main board is further provided with a positioning plate, the positioning plate is arranged at the end of the flat cable main board, the positioning plate is arranged in the direction of arranging the flat cable grooves, the positioning plate is provided with a clamping groove facing one side of the placing groove, one end of the integration plate is abutted to the positioning plate by being arranged in the clamping groove, and the other end of the integration plate is abutted to the flat cable main board by being arranged in the placing groove

Through adopting above-mentioned technical scheme, the locating plate mainly used is to the location of whole plywood, and when the wiring mainboard was being installed to the integration board, the one end of integration board was through setting up in the draw-in groove and the butt on the locating plate, and the locating plate has played a location effect to whole plywood, has still realized in addition that the integration board can convenient and fast install on the wiring mainboard.

Optionally, a locking assembly is arranged on the flat cable main board, and the locking assembly comprises a locking pin and an elastic piece. The mounting groove that communicates with the standing groove is seted up towards one side of standing groove to the winding displacement mainboard, the fitting pin slides through setting up in the mounting groove and is connected with the winding displacement mainboard, one side of elastic component is through setting up in the mounting groove and with the winding displacement mainboard connection, and the opposite side is connected with one side that the standing groove was kept away from to the locking round pin piece, fitting pin and integration board joint.

Through adopting above-mentioned technical scheme, in the installation integration board, the integration board can the butt on the fitting pin, and the fitting pin is received the extrusion and can be removed to the direction that is close to the mounting groove, lets the position for the integration board, and simultaneously, the elastic component can be compressed, and when integration board and winding displacement mainboard butt, the fitting pin receives the elasticity of elastic component and resets, and with the integration board joint, can carry on spacingly to the integration board, fixes the integration board in the standing groove.

Optionally, the integration plate is further provided with a butt joint groove, and the locking pin is clamped with the integration plate by sliding into the butt joint groove.

Through adopting above-mentioned technical scheme, the butt groove can be to spacing effect of fitting pin for fitting pin can be more stable fix the integration plate in the standing groove.

Optionally, the positioning vertical plate is connected with the positioning transverse plate in a sliding manner, and the positioning vertical plate slides towards the direction close to or far away from the flat cable main board.

Through adopting above-mentioned technical scheme, the direction that the location riser is close to or keeps away from the winding displacement mainboard slides, can be applicable to the length that needs of the winding displacement of different specifications dip in glue through adjusting the distance between location riser and the winding displacement mainboard.

Optionally, the positioning vertical plate is provided with two parallel slide rails, the arrangement direction of the slide rails is consistent with the arrangement direction of the wire arrangement grooves, and the positioning transverse plate is provided with a slide block which is connected with the slide rails in a sliding manner.

Through adopting above-mentioned technical scheme, the location diaphragm can slide on the slide rail of location slide through the slider, adjusts the distance between location riser and the winding displacement mainboard, the slide rail of two other parallels for the location riser can be stabilized and slide on the location diaphragm.

Optionally, a fixing plate is further arranged on the positioning vertical plate, a positioning screw is connected to the fixing plate through threads, and one end, far away from the fixing plate, of the positioning screw is abutted to the positioning transverse plate.

Through adopting above-mentioned technical scheme, when adjusting the position of location riser on the location diaphragm, rotatory set screw for set screw butt is on the location diaphragm, is used for fixing the location riser on the location diaphragm.

In summary, the present application includes at least one of the following beneficial technical effects:

1. batch glue dipping of the flat cable is realized, and the glue dipping efficiency of the head of the flat cable is improved;

2. the flat cable can be stably arranged on the flat cable main board, and the positioning vertical plate can align one end of a wire, so that the subsequent glue dipping quality of the flat cable is improved;

3. the distance between the positioning vertical plate and the flat cable main plate can be adjusted to adapt to the length of the flat cables with different specifications needing to be dipped with glue.

Drawings

Fig. 1 is a schematic view of an overall structure of a flat cable fixture in embodiment 1 of the present application.

Fig. 2 is a schematic partial structure diagram of a flat cable fixture in embodiment 1 of the present application.

Fig. 3 is a schematic partial structure diagram of a flat cable fixture in embodiment 2 of the present application.

Fig. 4 is a schematic view of an overall structure of a locking assembly of a cable routing jig according to embodiment 2 of the present application.

Fig. 5 is a schematic partial structure view of an integration plate of a flat cable fixture in embodiment 2 of the present application.

Fig. 6 is a schematic partial structure view of a flat cable fixture in embodiment 2 of the present application, showing a card slot.

Description of reference numerals: 1. a flat cable main board; 11. a wire arrangement groove; 12. a placement groove; 13. a first adhesive layer; 14. positioning a plate; 141. a card slot; 15. mounting grooves; 2. an integration plate; 21. a butt joint groove; 3. a positioning assembly; 31. positioning a transverse plate; 311. a second adhesive layer; 312. a slide rail; 313. a sliding groove; 32. positioning a vertical plate; 321. positioning a groove; 322. a slider; 323. a fixing plate; 324. a set screw; 4. a locking assembly; 41. a locking pin; 42. an elastic member.

Detailed Description

The present application is described in further detail below with reference to the attached drawing figures.

The embodiment of the application discloses winding displacement tool.

Example 1

Referring to fig. 1 and 2, a winding displacement tool includes winding displacement mainboard 1 and integration board 2, and winding displacement mainboard 1's shape can be cuboid and square, and the winding displacement mainboard 1 that this embodiment adopted is the cuboid shape, and winding displacement mainboard 1 is formed by wooden material preparation. The flat cable main board 1 is provided with a plurality of flat cable grooves 11, and the opening direction of the flat cable grooves 11 is the width direction of the flat cable main board 1. The flat cable main board 1 is further provided with a placing groove 12, and the placing groove 12 is arranged in the length direction of the flat cable main board 1. The wire arranging grooves 11 are uniformly distributed on the upper surface of the wire arranging main board 1, and the wire arranging grooves 11 are communicated with the placing groove 12. The integration plate 2 is through placing in standing groove 12 and with 1 butt of winding displacement mainboard, need dip in the winding displacement groove 11 of glued winding displacement mainboard through placing winding displacement mainboard 1, sort the winding displacement, the winding displacement can with the integration plate 2 butt in addition, then fix the winding displacement on integration plate 2 through the sticky tape, can dismantle the integration plate 2 from winding displacement mainboard 1 at last, integration plate 2 takes the winding displacement to go to dip in glues, realized dipping in glue to the batch of winding displacement, improved the head to the winding displacement and dipped in gluey efficiency.

Still be provided with first adhesive linkage 13 on the winding displacement mainboard 1, first adhesive linkage 13 is through setting up in standing groove 12 and with winding displacement mainboard 1 butt, and the first adhesive linkage 13 that this embodiment adopted is the double faced adhesive tape of a plurality of quantity. The first adhesive layer 13 is mainly used for fixing the integration plate 2, one side of the integration plate 2 is adhered to the first adhesive layer 13, and the other side of the integration plate is abutted to the flat cable.

Still be provided with locating component 3 on the winding displacement mainboard 1, locating component 3 includes location diaphragm 31 and location riser 32, location diaphragm 31 and winding displacement mainboard 1 integrated into one piece, and location diaphragm 31 is located one side that is close to standing groove 12 on the winding displacement mainboard 1. The positioning vertical plate 32 is connected to the positioning transverse plate 31 by screws, and the positioning vertical plate 32 is located on one side of the positioning transverse plate 31 far away from the flat cable main board 1. The positioning riser 32 is further provided with positioning slots 321 with the same number as the wire arranging slots 11, and the positions of the positioning slots 321 correspond to the positions of the wire arranging slots 11. The second adhesive layer 311 is further adhered to the positioning transverse plate 31 and the positioning vertical plate 32, the second adhesive layer 311 adopted in this embodiment is a plurality of double-sided tapes, and the second adhesive layer 311 is used for adhering one end of the flat cable, which is far away from the flat cable groove 11, so as to fix the flat cable. In addition, the end of the flat cable far away from the flat cable main board 1 is bonded with the positioning vertical plate 32 by being placed in the positioning groove 321, so that the flat cable can be stably arranged on the flat cable main board 1, and the positioning vertical plate 32 can align one end of a conducting wire, thereby improving the subsequent glue dipping quality of the flat cable.

A positioning plate 14 is integrally formed on one side of the flat cable main board 1, and the arrangement direction of the positioning plate 14 is consistent with the arrangement direction of the flat cable groove 11. One end and the locating plate 14 butt of integration board 2, the other end through placing in standing groove 12 and bond with second adhesive linkage 311, locating plate 14 mainly used to the location to integration board 2 for integration board 2 can convenient and fast install on winding displacement mainboard 1.

The implementation principle of the embodiment 1 is as follows: when arranging the cable, firstly, one end of the integration plate 2 is abutted against the positioning plate 14, the other end is abutted against the cable main board 1 through the placing groove 12, and the integration plate 2 is adhered by the first adhesive layer 13 to fix the integration plate 2 on the cable main board 1. Then place the winding displacement in winding displacement groove 11, the winding displacement is kept away from one end of winding displacement groove 11 and is supported with location riser 32 through placing in standing groove 12, and second adhesive linkage 311 can bond the winding displacement and keep away from one end of winding displacement groove 11, glues the winding displacement of fixing on the integration plate 2 through the sticky tape at last, then takes off the integration plate 2 that has the winding displacement from winding displacement mainboard 1 and removes the viscose.

Example 2

Referring to fig. 3 and 4, the present embodiment is different from embodiment 1 in that a locking assembly 4 is disposed on the flat cable main board 1, the locking assembly 4 includes a locking pin 41 and an elastic member 42, the number of the locking assemblies 4 may be multiple, and the present embodiment employs two locking assemblies. The flat cable main board 1 is provided with a mounting groove 15, and the mounting groove 15 is communicated with the placing groove 12. The locking pin 41 is slidably connected to the flat cable main board 1 by being placed in the mounting groove 15, the elastic member 42 is located in the mounting groove 15, one side of the elastic member 42 is bonded to the flat cable main board 1, and the other side is bonded to the locking pin 41, wherein the elastic member 42 is a spring.

The end of the locking pin 41 far from the elastic element 42 is hemispherical, when the integration plate 2 is installed on the flat cable main board 1, the integration plate 2 will abut against the locking pin 41, the locking pin 41 is pressed by the integration plate 2, so that the locking pin 41 moves in the direction far from the integration plate 2, and at this time, the elastic element 42 is compressed. When the integration plate 2 abuts against the flat cable main board 1, the locking pin 41 is returned by the elastic force of the elastic member 42, so as to fix the integration plate 2 on the flat cable main board 1. When the integration plate 2 needs to be removed from the flat cable main board 1, the integration plate 2 abuts against the locking pin 41, the locking pin 41 is pressed by the integration plate 2, so that the locking pin 41 moves away from the integration plate 2, and at this time, the elastic member 42 is compressed. When the integration plate 2 is removed from the flat cable main plate 1, the locking pin 41 is returned by the elastic force of the elastic member 42.

The positioning transverse plate 31 is further provided with a sliding groove 313, the positioning transverse plate 31 is connected with two mutually parallel sliding rails 312 through screws, the arrangement direction of the sliding rails 312 is consistent with the arrangement direction of the placing groove 12, and the sliding rails 312 are arranged in the sliding groove 313 and connected with the positioning transverse plate 31. The positioning vertical plate 32 is further integrally formed with a sliding block 322 on one side facing the sliding rail 312, and the sliding block 322 is connected with the sliding rail 312 in a sliding manner, so that the positioning vertical plate 32 can slide on the positioning transverse plate 31, and the distance between the positioning vertical plate 32 and the flat cable main board 1 can be adjusted. The adhesive dipping device is suitable for the flat cables with different specifications and the lengths of the flat cables needing to be dipped with adhesive.

The positioning vertical plate 32 is further provided with a fixing plate 323, the fixing plate 323 is further in threaded connection with a positioning screw 324, and the positioning screw 324 passes through the fixing plate 323 and abuts against the positioning transverse plate 31. When the position of the positioning vertical plate 32 on the positioning transverse plate 31 is adjusted, the positioning screw 324 is rotated, so that the positioning screw 324 abuts against the positioning transverse plate 31 for fixing the positioning vertical plate 32 on the positioning transverse plate 31.

Referring to fig. 4 and 5, the side wall of the integration plate 2 is provided with an abutting groove 21 at a position corresponding to the locking pin 41, and the locking pin 41 abuts against the integration plate 2 through the abutting groove 21.

Referring to fig. 5 and 6, a locking groove 141 is further formed on the side of the positioning plate 14 facing the placement groove 12, one end of the integration plate 2 abuts against the positioning plate 14 by being disposed in the locking groove 141, and the other end abuts against the flat cable main plate 1 by the placement groove 12.

The implementation principle of the embodiment 2 is as follows: when the wire is wound, one end of the integration plate 2 needs to be abutted against the inside of the slot 141 of the positioning plate 14, the other end of the integration plate will be abutted against the locking pin 41, the locking pin 41 is pressed by the integration plate 2, so that the locking pin 41 moves in a direction away from the integration plate 2, and at this time, the elastic member 42 is compressed. When the integration plate 2 abuts against the flat cable main board 1, the locking pin 41 is elastically returned by the elastic member 42, and the locking pin 41 abuts against the integration plate 2 through the abutting groove 21 on the integration plate 2, so as to fix the integration plate 2 on the flat cable main board 1. Then the positioning riser 32 slides on the positioning transverse plate 31, the distance between the positioning riser 32 and the flat cable main board 1 is adjusted, and when the position of the positioning riser 32 on the positioning transverse plate 31 is adjusted, the positioning screw 324 is rotated, so that the positioning screw 324 abuts against the positioning transverse plate 31 for fixing the positioning riser 32 on the positioning transverse plate 31. Then, the flat cable is placed in the flat cable groove 11, one end of the flat cable, which is far away from the flat cable groove 11, is abutted against the positioning vertical plate 32 by being placed in the placing groove 12, and finally, the flat cable on the integration plate 2 is stuck and fixed through the adhesive tape. Then the integrated board 2 with the flat cable is removed from the flat cable main board 1 to remove the adhesive.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A winding displacement tool which characterized in that: including winding displacement mainboard (1) and integration board (2), set up winding displacement groove (11) of a plurality of quantity on winding displacement mainboard (1), winding displacement groove (11) are seted up along the width direction of winding displacement mainboard (1), standing groove (12) have still been seted up on winding displacement mainboard (1), standing groove (12) are seted up along the length direction of winding displacement mainboard (1), just standing groove (12) and winding displacement groove (11) intercommunication, integration board (2) are installed in standing groove (12) and can be dismantled with winding displacement mainboard (1) and be connected, integration board (2) are used for bonding with the winding displacement.

2. The traverse gauge of claim 1, wherein: still be provided with locating component (3) on winding displacement mainboard (1), locating component (3) are including location diaphragm (31) and location riser (32), location diaphragm (31) are connected with the one end of winding displacement mainboard (1), the one end that winding displacement mainboard (1) were kept away from with location diaphragm (31) is connected in location riser (32), set up constant head tank (321) that correspond with winding displacement groove (11) on location riser (32), the winding displacement is kept away from the one end of winding displacement mainboard (1) and is through placing in constant head tank (321) and with location riser (32) butt.

3. The traverse gauge of claim 1, wherein: the flat cable main board (1) is further provided with a first bonding layer (13), the arrangement direction of the first bonding layer (13) is the arrangement direction of the placing groove (12), the first bonding layer (13) is arranged in the placing groove (12) and connected with the flat cable main board (1), and the first bonding layer (13) is used for bonding the integrated board (2).

4. The traverse gauge of claim 2, wherein: the utility model discloses a flat cable connector, including location mainboard (1), location riser (32) and location diaphragm (31), just all be provided with second adhesive linkage (311) on location diaphragm (31) and location riser (32), second adhesive linkage (311) are used for fixed flat cable to keep away from the one end of flat cable mainboard (1).

5. The traverse gauge of claim 1, wherein: still be provided with locating plate (14) on winding displacement mainboard (1), locating plate (14) set up in the tip of winding displacement mainboard (1), just the direction that sets up of locating plate (14) is the direction of seting up of winding displacement groove (11), draw-in groove (141) have been seted up towards one side of standing groove (12) to locating plate (14), the one end of integration board (2) through setting up in draw-in groove (141) and with locating plate (14) butt, the other end through placing in standing groove (12) and with winding displacement mainboard (1) butt.

6. The traverse gauge of claim 2, wherein: be provided with locking Assembly (4) on winding displacement mainboard (1), locking Assembly (4) are including fitting pin (41) and elastic component (42), mounting groove (15) with standing groove (12) intercommunication is seted up towards one side of standing groove (12) to winding displacement mainboard (1), fitting pin (41) slide through setting up in mounting groove (15) and with winding displacement mainboard (1) and be connected, one side of elastic component (42) is connected with winding displacement mainboard (1) through setting up in mounting groove (15), and the opposite side is connected with one side that standing groove (12) were kept away from to fitting pin (41) piece, fitting pin (41) and integration plate (2) joint.

7. The traverse gauge of claim 6, wherein: the integrated plate (2) is further provided with a butt joint groove (21), and the locking pin (41) is clamped with the integrated plate (2) through sliding into the butt joint groove (21).

8. The traverse gauge of claim 2, wherein: the location riser (32) slide with location diaphragm (31) and be connected, location riser (32) slide to the direction of being close to or keeping away from winding displacement mainboard (1).

9. The traverse gauge of claim 7, wherein: the utility model discloses a fixing device for cable, including fixing a position, be provided with on location riser (32) two slide rails (312) that are parallel to each other, and the direction that sets up of slide rail (312) is unanimous with the direction of seting up of winding displacement groove (11), be provided with slider (322) on location diaphragm (31), slider (322) slide with slide rail (312) and are connected.

10. The traverse gauge of claim 9, wherein: still be provided with fixed plate (323) on location riser (32), threaded connection has set screw (324) on fixed plate (323), set screw (324) keep away from the one end and the location diaphragm (31) butt of fixed plate (323).

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