CN113751630B

CN113751630B - Lead shearing mechanism of transformer element winding machine and use method

Info

Publication number: CN113751630B
Application number: CN202111164323.0A
Authority: CN
Inventors: 刘洪蛟; 刘青云; 林冰宝
Original assignee: Changyang Anpinyuan Electronic Technology Co ltd
Current assignee: Changyang Anpinyuan Electronic Technology Co ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2024-05-28
Anticipated expiration: 2041-09-30
Also published as: CN113751630A

Abstract

The invention provides a lead shearing mechanism of a transformer element winding machine and a use method thereof, wherein a top plate is fixed at the top of a frame plate, guide rails are parallelly fixed at the top of the top plate, sliding plates are in sliding fit on the guide rails, and a sliding power device for driving the sliding plates to slide is arranged between the sliding plates and the top plate; the top of the sliding plate is fixed with a shearing cylinder through a cylinder mounting seat, a second piston rod of the shearing cylinder is connected with a plurality of scissor assemblies in parallel arrangement through a T-shaped seat in a matched mode, the scissor assemblies are arranged between a lower cutter seat and an upper cutter seat, and the lower cutter seat is fixed at the top of the sliding plate. The lead shearing mechanism can be used in the automatic winding production process of small transformer elements and is used for automatically shearing leads, and the driving mode of chute guiding is adopted, so that the meshing shearing precision of blades is ensured, and the shearing efficiency is improved.

Description

Lead shearing mechanism of transformer element winding machine and use method

Technical Field

The invention belongs to the field of small electronic element production equipment, and particularly relates to a lead shearing mechanism of a transformer element winding machine and a use method thereof.

Background

In the automatic production process of the small-sized electronic transformer element, the winding operation needs to be carried out on the small-sized electronic transformer element, and in the winding process, a scissors mechanism needs to be matched for cutting off the lead wires. At present, the adopted scissor mechanism is a scissor blade which is arranged in a crossing way, in the long-time use process, the two blades are easy to wear at the hinged part, so that gaps are formed between the two blades after folding, the shearing is incomplete, and the wire is wound automatically after the wire is wound.

Disclosure of Invention

In order to solve the technical problems, the invention provides the lead shearing mechanism of the transformer element winding machine and the use method thereof, and the lead shearing mechanism can be used in the automatic winding production process of a small transformer element and is used for automatically shearing leads.

In order to achieve the technical characteristics, the aim of the invention is realized in the following way: the lead shearing mechanism of the transformer element winding machine comprises symmetrically arranged frame plates, wherein top plates are fixed on the tops of the frame plates, guide rails are parallelly fixed on the tops of the top plates, sliding plates are in sliding fit on the guide rails, and a sliding power device for driving the sliding plates to slide is arranged between the sliding plates and the top plates; the top of the sliding plate is fixed with a shearing cylinder through a cylinder mounting seat, a second piston rod of the shearing cylinder is connected with a plurality of parallel arranged scissor assemblies in a matched mode through a T-shaped seat, the scissor assemblies are arranged between a lower cutter seat and an upper cutter seat, and the lower cutter seat is fixed at the top of the sliding plate.

The sliding power device comprises a cylinder fixing plate fixed at the bottom end of the top plate, a first cylinder is fixedly installed on the cylinder fixing plate, and the tail end of a first piston rod of the first cylinder is connected with the bottom end of the sliding plate through a connecting vertical plate.

One side of the top plate is provided with a rectangular groove matched with the connecting vertical plate.

And limit stops are arranged on two sides of one end of the tail of the sliding plate and are matched with a positioning block fixed at the top of the top plate.

The lower tool apron is fixed at the top end of the sliding plate through a positioning convex block.

The top of lower blade holder is fixed with the blade holder clamp plate, the blade holder clamp plate sets up the top at the scissors subassembly.

The scissors assembly comprises a first cutter handle, the first cutter handle is hinged between a lower cutter holder and an upper cutter holder through a first pin shaft, an inclined guide groove is formed in the tail portion of the first cutter handle, the inclined guide groove and a first sliding pin form sliding fit, the first sliding pin is fixedly arranged on a U-shaped seat, the U-shaped seat is arranged at the front end of a cutter body sliding seat, the cutter body sliding seat is fixedly connected with a T-shaped seat, a first shearing cutter is arranged at one end of the head of the first cutter handle, the first shearing cutter is matched with a second shearing cutter firstly, a second shearing cutter is arranged at the head of the second cutter handle, a folding line guide groove is formed in the tail portion of the second cutter handle, the folding line guide groove and the second sliding pin form sliding fit, the middle portion of the second cutter handle is hinged between the lower cutter holder and the upper cutter holder through a second pin shaft, and the second sliding pin is fixed on the U-shaped seat.

The top of first handle of a knife is located the top of first shearing sword and is provided with first clamp splice, the top of second handle of a knife is located the top of second shearing sword and is provided with the second clamp splice.

The sliding plate is supported at the top of the guide rail in a sliding manner through a sliding block.

The application method of the lead shearing mechanism of the transformer element winding machine comprises the following steps:

step one, fixing and installing a shearing mechanism:

the shearing mechanism is fixedly arranged on a frame of a winding machine through a frame plate;

Step two, overall adjustment of the position of the scissors assembly:

When shearing is needed, the shearing assembly is required to be opposite to the position to be sheared, a sliding power device is started at the moment, a first piston rod is driven by a first cylinder, a connecting vertical plate is driven by the first piston rod, the sliding plate is driven by the connecting vertical plate to slide along a guide rail, and then the whole shearing assembly is extended;

step three, driving the scissor assembly to realize the shearing of the lead wires:

In the shearing process, a shearing cylinder is started, the shearing cylinder drives a second piston rod, a T-shaped seat is driven by the second piston rod, a cutter body sliding seat is driven by the T-shaped seat, a U-shaped seat is driven by the cutter body sliding seat, a first sliding pin and a second sliding pin are simultaneously driven by the U-shaped seat, the first sliding pin and the second sliding pin are matched with an inclined guide groove and a broken line guide groove, a first cutter handle and a second cutter handle which are synchronously driven to be in sliding fit with the inclined guide groove and the broken line guide groove are synchronously driven, and then the first shearing action is realized by opening and closing of a first shearing cutter and a second shearing cutter at the heads of the first cutter handle and the second cutter handle;

Returning the scissors assembly:

After a group of leads are cut, the whole scissors assembly is returned.

The invention has the following beneficial effects:

1. The lead shearing mechanism can be used in the automatic winding production process of small transformer elements and is used for automatically shearing leads, and the driving mode of chute guiding is adopted, so that the meshing shearing precision of blades is ensured, and the shearing efficiency is improved.

2. The sliding power device can be used for providing power for integrally extending the sliding plate.

3. Through the cooperation between foretell limit stop and the locating piece, can play fine slip spacing effect to the slip board.

4. The tool apron pressing plate can be used for correspondingly fixing and installing the whole lower tool apron, so that the reliability of pressing and fixing of the tool apron pressing plate is ensured.

5. Corresponding shearing action can be realized through the scissors assembly, and further the shearing reliability is guaranteed.

6. Through the cooperation between foretell first clamp splice and the second clamp splice, can be used for pressing from both sides tightly to the line, and then guaranteed accurate shearing.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is a first perspective three-dimensional view of the present invention.

Fig. 2 is a second perspective three-dimensional view of the present invention.

Fig. 3 is a three-dimensional view of a third perspective of the present invention.

Fig. 4 is a three-dimensional view of the present invention from a first perspective with the upper tool holder removed.

Fig. 5 is a three-dimensional view of the present invention from a second perspective with the upper tool holder removed.

In the figure: the cutting tool comprises a frame plate 1, a positioning block 2, a top plate 3, a sliding block 4, a sliding plate 5, a guide rail 6, a cutting cylinder 7, a cylinder mounting seat 8, a baffle 9, a second piston rod 10, a tool body sliding seat 11, a T-shaped seat 12, an upper tool holder 13, a tool holder pressing plate 14, a scissor assembly 15, a lower tool holder 16, a positioning lug 17, a first cylinder 18, a cylinder fixing plate 19, a first piston rod 20, a connecting vertical plate 21, a rectangular groove 22, a limit stop 23, an inclined guide groove 24, a first sliding pin 25, a first tool holder 26, a first pin shaft 27, a first clamping block 28, a first cutting knife 29, a second cutting knife 30, a second clamping block 31, a second pin shaft 32, a second sliding pin, a folding line guide groove 34, a second tool holder 35 and a U-shaped seat 36.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1-5, the lead shearing mechanism of the transformer element winding machine comprises symmetrically arranged frame plates 1, wherein top plates 3 are fixed on the tops of the frame plates 1, guide rails 6 are fixed on the tops of the top plates 3 in parallel, sliding plates 5 are in sliding fit on the guide rails 6, and a sliding power device for driving the sliding plates 5 and the top plates 3 to slide is arranged between the sliding plates; the top of the sliding plate 5 is fixed with a shearing cylinder 7 through a cylinder mounting seat 8, a second piston rod 10 of the shearing cylinder 7 is connected with a plurality of parallel arranged scissor assemblies 15 in a matched mode through a T-shaped seat 12, the scissor assemblies 15 are arranged between a lower cutter seat 16 and an upper cutter seat 13, and the lower cutter seat 16 is fixed at the top of the sliding plate 5. The lead shearing mechanism can be used in the automatic winding production process of small transformer elements and is used for automatically shearing leads, and the driving mode of chute guiding is adopted, so that the meshing shearing precision of blades is ensured, and the shearing efficiency is improved. In the specific shearing operation process, the second piston rod 10 is driven by the shearing cylinder 7, the T-shaped seat 12 is driven by the second piston rod 10, the cutter body sliding seat 11 is driven by the T-shaped seat 12, and the scissors assembly 15 is driven by the cutter body sliding seat 11.

Further, the sliding power device comprises a cylinder fixing plate 19 fixed at the bottom end of the top plate 3, a first cylinder 18 is fixedly installed on the cylinder fixing plate 19, and the tail end of a first piston rod 20 of the first cylinder 18 is fixedly connected with the bottom end of the sliding plate 5 through a connecting vertical plate 21. The above-described slip power device can be used to provide power for the entire extension of the slip plate 5. In the working process, the first piston rod 20 is driven by the first cylinder 18, the connecting vertical plate 21 is driven by the first piston rod 20, and the sliding plate 5 is driven by the connecting vertical plate 21 to slide along the guide rail 6.

Further, a rectangular groove 22 for matching with the connecting vertical plate 21 is formed on one side of the top plate 3. The above-described rectangular groove 22 ensures that the connecting riser 21 can slide guided in its interior.

Further, two sides of one end of the tail of the sliding plate 5 are provided with limit stops 23, and the limit stops 23 are matched with the positioning blocks 2 fixed at the top of the top plate 3. Through the cooperation between the limit stop 23 and the positioning block 2, a good sliding limit effect can be achieved on the sliding plate 5.

Further, the lower tool holder 16 is fixed to the top end of the sliding plate 5 through a positioning protrusion 17. Through the cooperation between the above-mentioned positioning lug 17 and the lower blade holder 16, the reliability of the fixed installation of the lower blade holder 16 is ensured.

Further, a tool holder pressing plate 14 is fixed to the top of the lower tool holder 16, and the tool holder pressing plate 14 is disposed on the top of the scissors assembly 15. The above-described holder pressing plate 14 can be used for corresponding fixing and mounting of the entire lower holder 16, so that the reliability of the pressing and fixing thereof is ensured.

Further, the scissors assembly 15 includes a first knife handle 26, the first knife handle 26 is hinged between the lower knife holder 16 and the upper knife holder 13 through a first pin shaft 27, an inclined guide groove 24 is formed in the tail portion of the first knife handle 26, the inclined guide groove 24 and the first sliding pin 25 form sliding fit, the first sliding pin 25 is fixedly installed on a U-shaped seat 36, the U-shaped seat 36 is arranged at the front end of the knife body sliding seat 11, the knife body sliding seat 11 is fixedly connected with the T-shaped seat 12, a first shearing knife 29 is arranged at one end of the head of the first knife handle 26, the first shearing knife 29 is matched with a second shearing knife 30, the second shearing knife 30 is arranged at the head of a second knife handle 35, a folding line guide groove 34 is formed in the tail portion of the second knife handle 35, the folding line guide groove 34 and the second sliding pin 33 form sliding fit, the middle portion of the second knife handle 35 is hinged between the lower knife holder 16 and the upper knife holder 13 through a second pin shaft 32, and the second sliding pin 33 is fixedly arranged on the U-shaped seat 36. Corresponding shearing action can be realized through the shear assembly 15, so that the shearing reliability is ensured. In the working process, the first sliding pin 25 and the second sliding pin 33 are driven by the U-shaped seat 36, the first sliding pin 25 and the second sliding pin 33 are matched with the inclined guide groove 24 and the broken line guide groove 34, the first knife handle 26 and the second knife handle 35 which are synchronously driven to be in sliding fit with the inclined guide groove 24 and the broken line guide groove 34 are matched with the first sliding pin, and then the first shearing blade 29 and the second shearing blade 30 at the heads of the first knife handle 26 and the second knife handle 35 realize shearing action.

Further, a first clamping block 28 is arranged on the top of the first knife handle 26 and above the first shearing knife 29, and a second clamping block 31 is arranged on the top of the second knife handle 35 and above the second shearing knife 30. Through the cooperation between the first clamping block 28 and the second clamping block 31, the clamping device can be used for clamping wires, and accurate shearing is further ensured.

Further, the sliding plate 5 is slidably supported on the top of the guide rail 6 through the sliding block 4.

Example 2:

step one, fixing and installing a shearing mechanism:

The shearing mechanism is fixedly arranged on a frame of a winding machine through a frame plate 1;

Step two, overall adjustment of the position of the scissors assembly 15:

When shearing is required, the shearing assembly 15 is required to be opposite to the shearing position, a sliding power device is started at the moment, a first piston rod 20 is driven by a first cylinder 18, a connecting vertical plate 21 is driven by the first piston rod 20, the sliding plate 5 is driven by the connecting vertical plate 21 to slide along the guide rail 6, and then the whole shearing assembly 15 is extended;

step three, driving the scissors assembly 15 to realize the cutting of the lead wires:

In the shearing process, a shearing cylinder 7 is started, the shearing cylinder 7 drives a second piston rod 10, a T-shaped seat 12 is driven by the second piston rod 10, a cutter body sliding seat 11 is driven by the T-shaped seat 12, a U-shaped seat 36 is driven by the cutter body sliding seat 11, a first sliding pin 25 and a second sliding pin 33 are simultaneously driven by the U-shaped seat 36, the first sliding pin 25 and the second sliding pin 33 are matched with an inclined guide groove 24 and a broken line guide groove 34, a first cutter handle 26 and a second cutter handle 35 which are in sliding fit with the first cutter handle 26 and the second cutter handle 35 are synchronously driven, and a first shearing cutter 29 and a second shearing cutter 30 at the heads of the first cutter handle 26 and the second cutter handle 35 are opened and closed to realize shearing action;

Fourth, returning the scissors assembly 15:

after the cutting of a set of leads is completed, the entire scissor assembly 15 is returned.

The working process and principle of the invention are as follows:

Firstly, the shearing mechanism is fixed on a frame of a winding machine, then, the scissor assembly 15 is opposite to a position to be sheared, when shearing is required, a sliding power device is started, a first piston rod 20 is driven by a first air cylinder 18, a connecting vertical plate 21 is driven by the first piston rod 20, the sliding plate 5 is driven by the connecting vertical plate 21 to slide along a guide rail 6, and then the whole scissor assembly 15 is extended; the shearing cylinder 7 is started again, the shearing cylinder 7 drives the second piston rod 10, the T-shaped seat 12 is driven through the second piston rod 10, the cutter body sliding seat 11 is driven through the T-shaped seat 12, the cutter body sliding seat 11 is used for driving the cutter body sliding seat 15, the first sliding pin 25 and the second sliding pin 33 are simultaneously driven through the U-shaped seat 36, the first sliding pin 25 and the second sliding pin 33 are matched with the inclined guide groove 24 and the broken line guide groove 34, the synchronous driving and sliding fit of the first cutter handle 26 and the second cutter handle 35 is realized, and the cutting action is realized through the first cutting knife 29 and the second cutting knife 30 at the heads of the first cutter handle 26 and the second cutter handle 35.

Claims

1. The lead shearing mechanism of the winding machine of the transformer element is characterized in that: the sliding type automobile seat frame comprises symmetrically arranged frame plates (1), wherein top plates (3) are fixed at the tops of the frame plates (1), guide rails (6) are parallelly fixed at the tops of the top plates (3), sliding plates (5) are slidably matched on the guide rails (6), and sliding power devices for driving the sliding plates to slide are arranged between the sliding plates (5) and the top plates (3); the top of the sliding plate (5) is fixedly provided with a shearing cylinder (7) through a cylinder mounting seat (8), a second piston rod (10) of the shearing cylinder (7) is matched and connected with a plurality of scissor assemblies (15) which are arranged in parallel through a T-shaped seat (12), the scissor assemblies (15) are arranged between a lower cutter seat (16) and an upper cutter seat (13), and the lower cutter seat (16) is fixed at the top of the sliding plate (5);

The sliding power device comprises an air cylinder fixing plate (19) fixed at the bottom end of the top plate (3), a first air cylinder (18) is fixedly arranged on the air cylinder fixing plate (19), and the tail end of a first piston rod (20) of the first air cylinder (18) is fixedly connected with the bottom end of the sliding plate (5) through a connecting vertical plate (21);

The utility model provides a scissors subassembly (15) including first handle of a knife (26), first handle of a knife (26) articulates between lower blade holder (16) and last blade holder (13) through first round pin axle (27), the afterbody processing of first handle of a knife (26) has oblique guide way (24), oblique guide way (24) constitute sliding fit with first sliding pin (25), first sliding pin (25) fixed mounting has U type seat (36), U type seat (36) set up the front end at cutter body slide (11), cutter body slide (11) link to each other with T type seat (12) is fixed, the head one end of first handle of a knife (26) is provided with first shearing rule (29), first shearing rule (29) cooperate earlier with second shearing rule (30), second shearing rule (30) set up the head at second handle of a knife (35), the afterbody processing of second shearing rule (35) has broken line guide way (34), broken line guide way (34) and second sliding pin (33) are fixed between blade holder (33) and second blade holder (33) through fixed at the position of the round pin (33) on the second handle of a knife (13).

2. The lead shearing mechanism of a transformer component winding machine of claim 1, wherein: a rectangular groove (22) matched with the connecting vertical plate (21) is formed in one side of the top plate (3).

3. The lead shearing mechanism of a transformer component winding machine of claim 2, wherein: limit stops (23) are arranged on two sides of one end of the tail of the sliding plate (5), and the limit stops (23) are matched with a positioning block (2) fixed at the top of the top plate (3).

4. A lead shearing mechanism for a transformer component winding machine as set forth in claim 3, wherein: the lower tool apron (16) is fixed at the top end of the sliding plate (5) through a positioning lug (17).

5. The wire cutting mechanism of a transformer component winding machine of claim 4, wherein: the top of lower blade holder (16) is fixed with blade holder clamp plate (14), blade holder clamp plate (14) set up the top at scissors subassembly (15).

6. The wire cutting mechanism of a transformer component winding machine of claim 5, wherein: the top of first handle of a knife (26) and be located the top of first shearing sword (29) and be provided with first clamp splice (28), the top of second handle of a knife (35) and be located the top of second shearing sword (30) and be provided with second clamp splice (31).

7. The wire cutting mechanism of a transformer component winding machine of claim 6, wherein: the sliding plate (5) is supported at the top of the guide rail (6) in a sliding way through the sliding block (4).

8. The method of using the lead shearing mechanism of the transformer component winding machine of claim 7, comprising the steps of:

step one, fixing and installing a shearing mechanism:

the shearing mechanism is fixedly arranged on a frame of a winding machine through a frame plate (1);

step two, overall adjustment of the position of the scissors assembly (15):

When shearing is required, the shear assembly (15) is required to be opposite to the position to be sheared, a sliding power device is started at the moment, a first piston rod (20) is driven by a first cylinder (18), a connecting vertical plate (21) is driven by the first piston rod (20), and the sliding plate (5) is driven by the connecting vertical plate (21) to slide along the guide rail (6), so that the whole shear assembly (15) is extended;

Step three, driving a scissor assembly (15) to realize the shearing of the lead wires:

In the shearing process, a shearing cylinder (7) is started, the shearing cylinder (7) drives a second piston rod (10), a T-shaped seat (12) is driven through the second piston rod (10), a cutter body sliding seat (11) is driven through the T-shaped seat (12), a U-shaped seat (36) is driven through the cutter body sliding seat (11), a first sliding pin (25) and a second sliding pin (33) are driven through the U-shaped seat (36) at the same time, the first sliding pin (25) and the second sliding pin (33) are matched with an inclined guide groove (24) and a fold line guide groove (34), a first cutter handle (26) and a second cutter handle (35) which are synchronously driven to be in sliding fit with the inclined guide groove are matched with the inclined guide groove, and then a cutting action is realized through opening and closing of a first cutting knife (29) and a second cutting knife (30) at the heads of the first cutter handle (26) and the second cutter handle (35);

returning the scissors assembly (15):

After a group of leads is cut, the whole scissors assembly (15) is returned.