CN220324309U - Duplex position twines stitch device - Google Patents

Abstract

The utility model discloses a double-station stitch winding device which comprises a first jig, a second jig and a winding mechanism. The winding mechanism comprises a sliding seat, a first air cylinder, a mounting block, a first winding component, a second winding component, a driving component and a wire withdrawing component, wherein the sliding seat is used for being slidably mounted on external equipment, the first air cylinder is used for driving the sliding seat to slide, the mounting block is fixedly arranged on the sliding seat, the first winding component, the second winding component, the driving component and the wire withdrawing component are arranged on the mounting block, the first winding component and the second winding component are identical in structure, the first winding component comprises a first linear bearing arranged on the mounting block, a first sleeve sleeved in the first linear bearing, and a wire hanging groove communicated with an inner cavity of the first sleeve is formed in the first sleeve. The advantages are that: the two pins can be wound simultaneously, the winding efficiency is improved, meanwhile, the structural design of the first winding component and the second winding component is small in occupied area, and stable mounting of the wires and stability in winding can be guaranteed.

Description

Duplex position twines stitch device

Technical Field

The utility model relates to the field of stitch winding equipment, in particular to a double-station stitch winding device.

Background

In the electrical equipment, the coil is required to be wound around the pin, and then the coil and the pin are fixed by soldering, so that the pin is conducted with the coil. The existing stitch winding equipment adopts a single-station design on the structural design, so that the overall winding efficiency is low, the winding structure is complex, and the occupied area is large.

For example, chinese patent publication No. CN210443422U discloses an automated stitch winding apparatus. At least two station jigs are uniformly arranged in the circumferential direction of the station turntable, a winding cutting mechanism and a feeding mechanism are respectively arranged around the station turntable, wherein the winding cutting mechanism comprises a mounting seat and a winding assembly arranged on the mounting seat, the winding assembly comprises a mounting frame, a winding rod arranged on the mounting frame, a cutter arranged on one side of the winding rod and a second driving device for driving the winding rod to rotate, wherein the mounting seat is provided with a mounting plate and a third driving device for driving the mounting plate to move up and down, and the winding assembly is arranged on the mounting plate. The automatic stitch winding equipment can only wind a single stitch in actual use, has low working efficiency, is complex in whole equipment, occupies large area and causes the problem of unstable winding.

In view of this, it is necessary to provide a double-station stitch winding device.

Disclosure of Invention

The double-station stitch winding device provided by the utility model effectively solves the problems of low winding efficiency, large occupied area and unstable winding of the existing device.

The technical proposal adopted by the utility model is that

The utility model provides a duplex position twines stitch device, includes the winding mechanism that is arranged in installing first tool, no. two tools of product and is arranged in carrying out the twining stitch to the product in first tool and the No. two tools. The winding mechanism comprises a sliding seat, a first air cylinder, a mounting block, a first winding component, a second winding component, a driving component and a wire unwinding component, wherein the sliding seat is used for being slidably mounted on external equipment, the first air cylinder is used for driving the sliding seat to slide, the mounting block is fixedly arranged on the sliding seat, the first winding component, the second winding component, the driving component and the wire unwinding component are used for driving the first winding component and the second winding component to rotate, the first winding component and the second winding component are identical in structure, the first winding component comprises a first linear bearing arranged on the mounting block, a first sleeve is sleeved in the first linear bearing, and a wire hanging groove is formed in the first sleeve, and the inner cavity of the first sleeve is communicated with the wire hanging groove.

Further is: the driving assembly comprises a motor arranged on the sliding seat, a first driving wheel arranged at the output end of the motor, a second driving wheel respectively arranged on two first sleeves, and a driving belt wound on the first driving wheel and the second driving wheel.

Further is: the first sleeve opening is provided with a guide circular arc block, and the first sleeve opening is obliquely arranged.

Further is: the wire withdrawing assembly comprises a second sleeve sleeved on the first sleeves respectively, a connecting plate fixedly connected with the second sleeves and a second cylinder fixedly arranged on the mounting block and used for driving the connecting plate to slide relative to the first sleeve.

Further is: the wire hanging groove is obliquely arranged.

The utility model has the beneficial effects that: the two pins can be wound simultaneously, the winding efficiency is improved, meanwhile, the structural design of the first winding component and the second winding component is small in occupied area, and stable mounting of the wires and stability in winding can be guaranteed.

Drawings

Fig. 1 is an overall schematic diagram of a dual-station stitch winding device according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a dual-station stitch winding device provided by an embodiment of the present application for removing a first jig and a second jig.

Fig. 3 is an enlarged schematic view of the area a in fig. 2.

Fig. 4 is a schematic diagram of a double-station winding assembly provided in an embodiment of the present application.

Marked in the figure as: 1. a first jig; 2. a second jig; 3. a sliding seat; 4. a first air cylinder; 5. a mounting block; 6. a first winding component; 7. a second winding component; 8. a drive assembly; 9. a wire unwinding assembly; 61. a first sleeve; 62. a first linear bearing; 60. wire hanging groove; 81. a motor; 82. a first driving wheel; 83. a second driving wheel; 84. a drive belt; 63. a guide arc block; 91. a second sleeve; 92. a connecting plate; 93. and a second air cylinder.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

As shown in fig. 1, fig. 2 and fig. 3, the embodiment of the application provides a double-station stitch winding device, its structure includes a jig 1 for installing a product, no. 2 and a winding mechanism for winding stitches on the product in the jig 1 and No. 2, and its characterized in that: the winding mechanism comprises a sliding seat 3 which is used for being slidably mounted on external equipment, a first air cylinder 4 which is used for driving the sliding seat 3 to slide, a mounting block 5 which is fixedly arranged on the sliding seat 3, a first winding component 6 which is arranged on the mounting block 5, a second winding component 7, a driving component 8 which drives the first winding component 6 and the second winding component 7 to rotate, and a wire withdrawing component 9, wherein the first winding component 6 and the second winding component 7 are identical in structure, as shown in fig. 4, the first winding component 6 comprises a first linear bearing 62 which is arranged on the mounting block 5, a first sleeve 61 which is sleeved in the first linear bearing 62, and a wire registering groove 60 which is communicated with an inner cavity of the first sleeve 61 is arranged on the first sleeve 61.

In actual use, the thread ends of the wires are mounted on the thread hanging groove 60, then the first air cylinder 4 drives the sliding seat 3 to move towards the directions of the pins, so that the two pins respectively extend into the first sleeves 61, then the driving assembly 8 drives the first winding assembly 6 and the second winding assembly 7 to move, so that the first sleeves 61 rotate to wind the wires on the pins, and then the thread withdrawing assembly 9 cuts the wires from the first sleeves 61.

In the design, two pins can be wound simultaneously, the winding efficiency is improved, meanwhile, the structural designs of the first winding component 6 and the second winding component 7 are small in occupied area, and stable mounting of wires and stability in winding can be guaranteed.

Specifically: as shown in fig. 1 and 2, the driving assembly 8 includes a motor 81 disposed on the sliding seat 3, a first driving wheel 82 disposed at an output end of the motor 81, a second driving wheel 83 disposed on the first sleeve 61, and a driving belt 84 wound around the first driving wheel 82 and the second driving wheel 83.

In actual use, the motor 81 drives the first driving wheel 82 to rotate, so that the first driving wheel 82 drives the driving belt 84 to rotate, and the two second driving wheels 83 rotate, so as to drive the two first sleeves 61 to rotate.

In the design, the driving assembly 8 can simultaneously drive the first winding assembly 6 and the second winding assembly 7 to move, so that the cost and the equipment volume are saved.

Specifically: as shown in fig. 3, the opening of the first sleeve 61 is provided with a guiding circular arc block 63, and the opening of the first sleeve 61 is obliquely arranged.

During actual use, the guide edge is used for conducting the arc blocks to the pins when the first sleeve 61 moves, so that the pins quickly enter the inner cavity of the first sleeve 61.

In the above design, the structural design of the guiding edge is convenient for the stitch to enter the first sleeve 61, and the opening of the first sleeve 61 is obliquely arranged to be convenient for the state when the first sleeve 61 and the stitch relatively move.

Specifically: as shown in fig. 2, the wire unwinding assembly 9 includes a second sleeve 91 respectively sleeved on the first sleeves 61, a connecting plate 92 fixedly connected with the second sleeves 91, and a second cylinder 93 fixedly arranged on the mounting block 5 and used for driving the connecting plate 92 to slide relative to the first sleeves 61.

In actual use, the connecting plate 92 is driven to move towards one side of the stitch by the second air cylinder 93, so that the connecting plate 92 drives the two second sleeves 91 to synchronously move until the second sleeves 91 cut the wires in the wire hanging groove 60.

In the above design, the structural design of the wire withdrawal assembly 9 can effectively ensure that the wires are cut.

Specifically: as shown in fig. 3, the wire hanging groove 60 is inclined.

In actual use, the wire end of the wire is mounted in the wire hanging slot 60.

In the above design, the inclined arrangement of the wire hanging groove 60 can effectively ensure the mounting of the wire head.

It should be understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the utility model to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (5)

1. The utility model provides a duplex position twines stitch device, includes jig (1) No. one, no. two jigs (2) that are used for installing the product and is arranged in carrying out the winding mechanism who twines the stitch to the product in jig (1) No. two and No. two jigs (2), its characterized in that: the winding mechanism comprises a sliding seat (3) which is used for being slidably mounted on external equipment, a first air cylinder (4) which is used for driving the sliding seat (3) to slide, a mounting block (5) which is fixedly arranged on the sliding seat (3), a first winding component (6) which is arranged on the mounting block (5), a second winding component (7), a driving component (8) which drives the first winding component (6) and the second winding component (7) to rotate, and a wire unwinding component (9), wherein the first winding component (6) and the second winding component (7) are identical in structure, the first winding component (6) comprises a first linear bearing (62) which is arranged on the mounting block (5), and a first sleeve (61) which is sleeved in the first linear bearing (62), and a wire registering groove (60) which is communicated with an inner cavity of the first sleeve (61) is arranged on the first sleeve (61).

2. The double-station stitch-bonding device according to claim 1, wherein: the driving assembly (8) comprises a motor (81) arranged on the sliding seat (3), a first driving wheel (82) arranged at the output end of the motor (81), a second driving wheel (83) respectively arranged on the two first sleeves (61), and a driving belt (84) wound on the first driving wheel (82) and the second driving wheel (83).

3. The double-station stitch-bonding device according to claim 1, wherein: the first sleeve (61) is provided with a guide circular arc block (63) at an opening, and the first sleeve (61) is obliquely arranged at an opening.

4. The double-station stitch-bonding device according to claim 1, wherein: the wire withdrawing assembly (9) comprises a second sleeve (91) sleeved on the first sleeves (61), a connecting plate (92) fixedly connected with the second sleeves (91) and a second air cylinder (93) fixedly arranged on the mounting block (5) and used for driving the connecting plate (92) to slide relative to the first sleeves (61).

5. The double-station stitch-bonding device according to claim 1, wherein: the wire hanging groove (60) is obliquely arranged.