CN112951657A

CN112951657A - Copper wire is around rolling up device for relay production

Info

Publication number: CN112951657A
Application number: CN202110200778.7A
Authority: CN
Inventors: 周利琼
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-23
Filing date: 2021-02-23
Publication date: 2021-06-11

Abstract

The invention relates to a winding device, in particular to a copper wire winding device for relay production. The invention provides a copper wire winding device for relay production, which can automatically arrange copper wires and is convenient to collect when the copper wires are wound. The invention provides a copper wire winding device for relay production, which comprises: a side plate is arranged on one side of the bottom frame; the bottom frame close to one side of the side plate is provided with a winding mechanism; the bottom frame is provided with a reversing mechanism which is matched with the winding mechanism; the moving mechanism is arranged on the bottom frame and matched with the reversing mechanism. The copper wire is wound by rotating the winding mechanism, the reversing mechanism is driven to rotate by rotating the winding mechanism, and the moving mechanism is driven to move left and right by rotating the reversing mechanism to arrange the copper wire.

Description

Copper wire is around rolling up device for relay production

Technical Field

The invention relates to a winding device, in particular to a copper wire winding device for relay production.

Background

The relay is an electric control device, when the change of input quantity is up to the regulation requirement, the controlled quantity is changed into a predefined step change in the electric output circuit, it has the interaction relation between control system and controlled system, and is usually used in automatic control circuit, it is an "automatic switch" which actually uses small current to control large current operation, so that it can play the role of automatic regulation, safety protection and switching circuit in the circuit.

The copper wire needs to be wound in the relay production process, and during winding, the coil of copper wire must be wound neatly, arrange and level, and most of windings can not arrange the copper wire in order, and this coil that just leads to a lot of copper wires is not wound neatly for the relay volume of producing is not up to standard.

Therefore, the need to design a relay production copper wire winding device which can automatically arrange the copper wires and is convenient to collect when the copper wires are wound is needed, so as to solve the problems.

Disclosure of Invention

The invention aims to overcome the defects that most of winding equipment cannot arrange copper wires in order, so that coils of a plurality of copper wires are not wound in order, and the produced relay quantity does not reach the standard.

The technical scheme is as follows: a copper wire is around package for relay production includes: a side plate is arranged on one side of the bottom frame; the bottom frame close to one side of the side plate is provided with a winding mechanism; the bottom frame is provided with a reversing mechanism which is matched with the winding mechanism; the moving mechanism is arranged on the bottom frame and matched with the reversing mechanism.

As an improvement of the above aspect, the winding mechanism includes: the first bearing seat is arranged on the underframe close to one side of the side plate; the first rotating shaft is rotatably arranged on the first bearing block; the first rotating shaft is provided with a winding wheel; the fixing seat is arranged on the underframe close to one side of the side plate; the servo motor is arranged on the fixing seat, and an output shaft of the servo motor is connected with one end of the first rotating shaft through a coupler.

As an improvement of the above aspect, the reversing mechanism includes: the chassis is provided with a second bearing seat; the second rotating shaft is rotatably arranged on the second bearing block; the bevel gear set is arranged between one end of the first rotating shaft and one end of the second rotating shaft and consists of two bevel gears, one bevel gear is arranged at one end of the first rotating shaft, the other bevel gear is arranged at one end of the second rotating shaft, and the two bevel gears are meshed with each other; the other end of the second rotating shaft is provided with a first bevel gear; the chassis is symmetrically provided with third bearing seats; the screw rod is rotatably arranged on the third bearing seat on one side; the screw rod close to one end of the first bevel gear is provided with a second bevel gear in a rotating mode, and the second bevel gear is meshed with the first bevel gear; the third bearing seat on the other side is rotatably provided with a third rotating shaft; the third bevel gear is arranged on the third rotating shaft, and the first bevel gear is meshed with the third bevel gear; the first engaging teeth are arranged on one side of the second bevel gear; one side of the third bevel gear is provided with a second engaging tooth; and the clutch sleeve is arranged at one end of the screw rod close to the first bevel gear in a sliding manner, and the clutch sleeve is meshed with the first joint teeth and the second joint teeth.

As an improvement of the above aspect, the moving mechanism includes: the sliding sleeves are symmetrically arranged on the underframe close to the side edge of the third bearing seat; the sliding rod is arranged between the two sliding sleeves in a sliding manner; the screw rod is provided with a nut; the guide plate is arranged on the slide rod in a sliding mode, and one side of the guide plate is connected with one side of the nut.

As an improvement of the above scheme, the method further comprises the following steps: the wedge-shaped ring block is arranged on one side of the sliding rod; the two sides of the sliding rod are respectively wound with the elastic pieces; the sliding sleeves are symmetrically arranged on the sliding rods in a sliding manner; the bottom frame close to one side of the sliding sleeve is provided with a support column; the top of the support column is provided with a torsion pin; the pawl is arranged on the torsion pin; and one end of the sliding rod is provided with a shifting fork which is matched with the clutch sleeve.

As an improvement of the above scheme, the method further comprises the following steps: the mounting block is arranged on the underframe close to the other end of the first rotating shaft; the mounting block is rotatably provided with a screw; the rotating cone is arranged at one end of the screw rod and matched with one side of the winding wheel; the other end of the screw is provided with a hand crank.

As an improvement of the above scheme, the method further comprises the following steps: the fixing blocks are symmetrically arranged on the underframe at one side far away from the first rotating shaft; the guide rod is arranged between the two fixed blocks; the pulley is arranged on the guide rod in a sliding mode.

As an improvement of the scheme, the outer layer of the hand crank is sleeved with a rubber ring.

1. The copper wire is wound by rotating the winding mechanism, the reversing mechanism is driven to rotate by rotating the winding mechanism, and the moving mechanism is driven to move left and right by rotating the reversing mechanism to arrange the copper wire.

2. The guide plate moves left and right on the slide bar and can arrange the copper wires.

3. The sliding rod slides left and right to drive the shifting fork to move left and right, so that the clutch sleeve can be automatically pushed to move left and right, and the guide plate can move left and right.

4. The pulley can play the guide effect for the deflector removes about more neatly with copper line arrangement.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the winding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the reversing mechanism and the moving mechanism of the present invention.

Fig. 4 is an exploded view of the reversing mechanism of the present invention.

FIG. 5 is a schematic view of a first partial body structure according to the present invention.

FIG. 6 is a schematic view of a second partial body structure according to the present invention.

Number designation in the figures: 1. chassis, 2, side plate, 3, winding mechanism, 31, first bearing seat, 32, first rotating shaft, 33, winding wheel, 34, fixing seat, 35, servo motor, 4, reversing mechanism, 41, second bearing seat, 42, second rotating shaft, 43, bevel gear set, 44, first bevel gear, 45, third bearing seat, 46, lead screw, 47, second bevel gear, 48, third rotating shaft, 49, third bevel gear, 410, first engaging tooth, 411, second engaging tooth, 412, clutch sleeve, 5, moving mechanism, 51, sliding sleeve, 52, sliding rod, 53, nut, 54, guide plate, 6, wedge ring block, 7, elastic element, 8, sliding sleeve, 9, support column, 10, torsion pin, 11, pawl, 12, shift fork, 13, mounting block, 14, screw, 15, rotating cone, 16, handle, 17, fixing block, 18, guide rod, 19, pulley.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

As shown in fig. 1, the copper wire winding device for relay production comprises an underframe 1, a side plate 2, a winding mechanism 3, a reversing mechanism 4 and a moving mechanism 5, wherein the side plate 2 is arranged on the rear side of the underframe 1, the winding mechanism 3 is arranged on the rear side of the underframe 1, the reversing mechanism 4 is arranged on the front side of the underframe 1, the reversing mechanism 4 is matched with the winding mechanism 3, the moving mechanism 5 is arranged on the underframe 1, and the moving mechanism 5 is matched with the reversing mechanism 4.

When needs carry out the wire winding to the copper wire, the staff passes moving mechanism 5 with the other end of copper wire around on winding mechanism 3, the staff starts to wind the copper wire around winding mechanism 3 afterwards, it rotates and drives reversing mechanism 4 and rotate around winding mechanism 3, it removes to remove through reversing mechanism 4 rotation drive moving mechanism 5 and removes and arrange the copper wire in order, treat the copper wire winding completion after, the staff closes around winding mechanism 3, it drives reversing mechanism 4 stall to wind 3 stall of winding mechanism, reversing mechanism 4 stall drives moving mechanism 5 stall, the staff collects the copper wire around winding mechanism 3 afterwards. The device has simple structure and convenient operation.

Example 2

As shown in fig. 2, 3 and 4, based on embodiment 1, the winding mechanism 3 includes a first bearing seat 31, a first rotating shaft 32, a winding wheel 33, a fixing seat 34 and a servo motor 35, the first bearing seat 31 is disposed on the right side of the rear portion of the chassis 1, the first rotating shaft 32 is rotatably disposed on the first bearing seat 31, the winding wheel 33 is disposed on the first rotating shaft 32, the fixing seat 34 is disposed on the right side of the rear portion of the chassis 1, the servo motor 35 is disposed on the fixing seat 34, and an output shaft of the servo motor 35 is connected to the right end of the first rotating shaft 32 through a coupling.

When a copper wire needs to be wound, a worker penetrates the moving mechanism 5 to wind the other end of the copper wire on the winding wheel 33, then the worker starts the servo motor 35, the servo motor 35 rotates to drive the first rotating shaft 32 to rotate, the first rotating shaft 32 rotates to drive the winding wheel 33 to rotate to wind the copper wire, the first rotating shaft 32 rotates to drive the reversing mechanism 4 to rotate, the reversing mechanism 4 rotates to drive the moving mechanism 5 to move left and right to arrange the copper wires, after the copper wires are wound, the staff closes servo motor 35, and servo motor 35 stall drives first pivot 32 stall, and first pivot 32 stall drives the reel 33 stall, and first pivot 32 stall drives reversing mechanism 4 stall, and reversing mechanism 4 stall drives moving mechanism 5 stall, and the staff takes off reel 33 afterwards and collects the copper wire that the wire winding was accomplished. This device simple structure can carry out the wire winding to the copper wire.

The reversing mechanism 4 comprises a second bearing seat 41, a second rotating shaft 42, a bevel gear group 43, a first bevel gear 44, a third bearing seat 45, a screw rod 46, a second bevel gear 47, a third rotating shaft 48, a third bevel gear 49, a first joint tooth 410, a second joint tooth 411 and a clutch sleeve 412, the second bearing seat 41 is arranged on the right side of the middle part of the underframe 1, the second rotating shaft 42 is rotatably arranged on the second bearing seat 41, the bevel gear group 43 is arranged between the right end of the first rotating shaft 32 and the rear end of the second rotating shaft 42, the bevel gear group 43 is composed of two bevel gears, one bevel gear is arranged on the right end of the first rotating shaft 32, the other bevel gear is arranged on the rear end of the second rotating shaft 42, the two bevel gears are mutually meshed, the first bevel gear 44 is arranged on the front end of the second rotating shaft 42, the third bearing seats 45 are symmetrically arranged, the right end of the screw rod 46 is rotatably provided with a second bevel gear 47, the second bevel gear 47 is meshed with the first bevel gear 44, the third bearing seat 45 on the right side is rotatably provided with a third rotating shaft 48, the third rotating shaft 48 is provided with a third bevel gear 49, the first bevel gear 44 is meshed with the third bevel gear 49, the right side of the second bevel gear 47 is provided with a first engaging tooth 410, the left side of the third bevel gear 49 is provided with a second engaging tooth 411, the right end of the screw rod 46 is slidably provided with a clutch sleeve 412, and the clutch sleeve 412 is meshed with the first engaging tooth 410 and the second engaging tooth 411.

The first rotating shaft 32 rotates to drive the bevel gear set 43 to mesh, the bevel gear set 43 rotates to drive the second rotating shaft 42 to rotate, the second rotating shaft 42 rotates to drive the first bevel gear 44 to rotate, the first bevel gear 44 rotates to drive the second bevel gear 47 to rotate on the screw rod 46, the first bevel gear 44 rotates to drive the third bevel gear 49 to rotate on the third rotating shaft 48, at this time, the worker pushes the clutch sleeve 412 to slide left on the screw rod 46, the clutch sleeve 412 slides left to mesh with the first engaging tooth 410, the second bevel gear 47 rotates to drive the first engaging tooth 410 to rotate, the first engaging tooth 410 rotates to drive the clutch sleeve 412 to rotate, the clutch sleeve 412 rotates to drive the screw rod 46 to rotate, the screw rod 46 rotates to drive the moving mechanism 5 to move right, when the moving mechanism 5 moves to the rightmost side, the worker pushes the clutch sleeve 412 to slide right on the screw rod 46, the clutch sleeve 412 slides right to mesh with the second engaging, the third bevel gear 49 rotates to drive the second joint teeth 411 to rotate, the second joint teeth 411 rotate to drive the clutch sleeve 412 to rotate, the clutch sleeve 412 rotates to drive the screw rod 46 to rotate, the screw rod 46 rotates to drive the moving mechanism 5 to move leftwards, the actions are repeated, the moving mechanism 5 can be moved leftwards and rightwards, and copper wires are arranged in the winding process.

The moving mechanism 5 comprises sliding sleeves 51, sliding rods 52, nuts 53 and guide plates 54, the sliding sleeves 51 are symmetrically arranged at the front part of the underframe 1, the sliding rods 52 are arranged between the two sliding sleeves 51 in a sliding manner, the nuts 53 are arranged on the screw rods 46, the guide plates 54 are arranged on the sliding rods 52 in a sliding manner, and the rear sides of the guide plates 54 are connected with the front sides of the nuts 53.

When a copper wire needs to be wound, an operator penetrates the other end of the copper wire through the guide plate 54 to wind the winding wheel 33, when the first engaging tooth 410 rotates to drive the clutch sleeve 412 to rotate, the clutch sleeve 412 rotates to drive the lead screw 46 to rotate, the lead screw 46 rotates to drive the nut 53 to move rightwards, the nut 53 moves leftwards to drive the guide plate 54 to slide rightwards on the sliding rod 52, the second engaging tooth 411 rotates to drive the clutch sleeve 412 to rotate, the clutch sleeve 412 rotates to drive the lead screw 46 to rotate, the lead screw 46 rotates to drive the nut 53 to move leftwards, and the nut 53 moves leftwards to drive the guide plate 54 to slide leftwards on the sliding rod 52. This device simple structure can arrange in order by the copper wire.

Example 3

As shown in fig. 5 and 6, the portable electronic device further comprises a wedge-shaped ring block 6, an elastic piece 7, a sliding sleeve 8, a supporting column 9, a torque pin 10, a pawl 11 and a shifting fork 12, the wedge-shaped ring block 6 is arranged on the right side of the sliding rod 52, the elastic piece 7 is wound on the left side and the right side of the sliding rod 52, the sliding sleeves 8 are symmetrically and slidably arranged on the sliding rod 52, the supporting column 9 is arranged on the right side of the front portion of the underframe 1, the torque pin 10 is arranged at the top of the supporting column 9, the pawl 11 is arranged on the torque pin 10, the shifting fork 12 is arranged at.

When the guide plate 54 slides rightwards to drive the right sliding sleeve 8 to slide rightwards on the sliding rod 52, the right elastic part 7 is compressed, when the guide plate 54 slides rightwards to be in contact with the wedge-shaped ring block 6, the guide plate 54 slides rightwards to drive the sliding rod 52 to slide rightwards on the sliding sleeve 51 through the wedge-shaped ring block 6, the wedge-shaped ring block 6 moves rightwards to extrude the pawl 11 to rotate forwards, the torsion pin 10 deforms, the wedge-shaped ring block 6 moves rightwards to not extrude the pawl 11, the torsion pin 10 resets to drive the pawl 11 to rotate backwards to abut against the wedge-shaped ring block 6, the sliding rod 52 slides rightwards to drive the shifting fork 12 to move rightwards, the shifting fork 12 moves rightwards to drive the clutch sleeve 412 to slide rightwards on the screw rod 46, and then the clutch sleeve 412 is meshed with the second joint tooth 411, so that the nut 53 moves leftwards on the screw rod 46, when the nut 53 moves leftwards to drive the guide plate, when the guide plate 54 slides leftwards to be in contact with the left sliding sleeve 8 and pushes the left sliding sleeve 8 to slide leftwards on the sliding rod 52, the elastic part 7 on the left side is compressed, the guide plate 54 slides leftwards to drive the sliding rod 52 to slide leftwards on the sliding sleeve 51 through the sliding sleeve 8, the sliding rod 52 slides leftwards to drive the wedge-shaped ring block 6 to move leftwards to extrude the pawl 11 to rotate forwards, the torsion pin 10 deforms, the wedge-shaped ring block 6 moves leftwards until the pawl 11 is not extruded any more, the torsion pin 10 resets to drive the pawl 11 to rotate backwards to prop the wedge-shaped ring block 6, the sliding rod 52 slides leftwards to drive the shifting fork 12 to move leftwards, the shifting fork 12 moves leftwards to drive the clutch sleeve 412, and the clutch sleeve 412 is meshed with the first joint teeth 410, so that the nut 53 moves leftwards on the screw rod 46, and the nut 53 moves leftwards and rightwards to drive the guide plate 54 to move leftwards and rightwards to tidy the copper wires. The device has simple structure, and can automatically push the clutch sleeve 412 to move left and right, so that the guide plate 54 moves left and right.

Still including installation piece 13, screw rod 14, rotatory awl 15 and hand crank 16, 1 rear portion left side of chassis is provided with installation piece 13, and the rotation type is provided with screw rod 14 on installation piece 13, and screw rod 14 right-hand member is provided with rotatory awl 15, and rotatory awl 15 cooperates with winding wheel 33 left side, and screw rod 14 left end is provided with hand crank 16.

After the copper wire winding is accomplished, the staff rotates hand crank 16, hand crank 16 rotates and drives screw rod 14 and rotate on rotary cone 15, screw rod 14 rotates and makes rotary cone 15 break away from on the left of take-up pulley 33, at this moment the staff takes off take-up pulley 33 and collects the copper wire that the winding was accomplished, change take-up pulley 33 afterwards, after the change is accomplished, the staff rotates hand crank 16, hand crank 16 rotates and drives screw rod 14 and rotate on rotary cone 15, screw rod 14 rotates and makes 15 take-up pulley 33 left sides of rotary cone block. This device simple structure makes things convenient for the staff to collect around the copper wire that is good more.

The chassis comprises an underframe 1 and is characterized by further comprising fixed blocks 17, guide rods 18 and pulleys 19, the fixed blocks 17 are symmetrically arranged at the front part of the underframe 1, the guide rods 18 are arranged between the two fixed blocks 17, and the pulleys 19 are arranged on the guide rods 18 in a sliding mode.

When the winding wheel 33 winds the copper wire, the guide plate 54 moves left and right, and the copper wire drives the pulley 19 to move left and right on the guide rod 18. This device simple structure can play the guide effect for the deflector 54 removes about more neatly with the copper line arrangement.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a relay production is with copper wire winding device, characterized by includes:

the side plate (2) is arranged on one side of the bottom frame (1);

the winding mechanism (3) is arranged on the bottom frame (1) close to one side of the side plate (2);

the reversing mechanism (4) is arranged on the bottom frame (1), and the reversing mechanism (4) is matched with the winding mechanism (3);

the moving mechanism (5) is arranged on the bottom frame (1), and the moving mechanism (5) is matched with the reversing mechanism (4).

2. The copper wire winding device for relay production as claimed in claim 1, wherein the winding mechanism (3) comprises:

the first bearing seat (31) is arranged on the chassis (1) close to one side of the side plate (2);

the first rotating shaft (32) is rotatably arranged on the first bearing seat (31);

a winding wheel (33), wherein the first rotating shaft (32) is provided with the winding wheel (33);

the fixing seat (34) is arranged on the chassis (1) close to one side of the side plate (2);

the servo motor (35) is arranged on the fixing seat (34), and an output shaft of the servo motor (35) is connected with one end of the first rotating shaft (32) through a coupler.

3. The copper wire winding device for relay production as claimed in claim 2, wherein the reversing mechanism (4) comprises:

a second bearing block (41), wherein the chassis (1) is provided with the second bearing block (41);

the second rotating shaft (42) is rotatably arranged on the second bearing block (41);

the bevel gear set (43) is arranged between one end of the first rotating shaft (32) and one end of the second rotating shaft (42), the bevel gear set (43) is composed of two bevel gears, one bevel gear is arranged at one end of the first rotating shaft (32), the other bevel gear is arranged at one end of the second rotating shaft (42), and the two bevel gears are meshed with each other;

the other end of the second rotating shaft (42) is provided with a first bevel gear (44);

the chassis (1) is symmetrically provided with third bearing seats (45);

the screw rod (46) is rotatably arranged on the third bearing seat (45) on one side of the screw rod (46);

the screw rod (46) close to one end of the first bevel gear (44) is provided with a second bevel gear (47) in a rotating mode, and the second bevel gear (47) is meshed with the first bevel gear (44);

a third rotating shaft (48) is rotatably arranged on the third bearing seat (45) on the other side of the third rotating shaft (48);

the third bevel gear (49) is arranged on the third rotating shaft (48), and the first bevel gear (44) is meshed with the third bevel gear (49);

a first engaging tooth (410), the first engaging tooth (410) being provided on one side of the second bevel gear (47);

a second engaging tooth (411), the second engaging tooth (411) being provided on one side of the third bevel gear (49);

and the clutch sleeve (412) is arranged at one end of the screw rod (46) close to the first bevel gear (44) in a sliding manner, and the clutch sleeve (412) is meshed with the first engaging teeth (410) and the second engaging teeth (411).

4. A relay production copper wire winding device according to claim 3, wherein the moving mechanism (5) comprises:

the sliding sleeves (51) are symmetrically arranged on the chassis (1) close to the side edge of the third bearing seat (45);

a sliding rod (52) is arranged between the two sliding sleeves (51) in a sliding manner;

the nut (53), the lead screw (46) is provided with the nut (53);

the sliding rod (52) is provided with a guide plate (54) in a sliding mode, and one side of the guide plate (54) is connected with one side of the nut (53).

5. The copper wire winding device for relay production as claimed in claim 4, further comprising:

the wedge-shaped ring block (6) is arranged on one side of the sliding rod (52);

the elastic piece (7) is wound and connected to both sides of the sliding rod (52);

the sliding sleeve (8) is symmetrically and slidably arranged on the sliding rod (52);

the supporting column (9) is arranged on the bottom frame (1) close to one side of the sliding sleeve (51);

the top of the support column (9) is provided with a torsion pin (10);

the pawl (11) is arranged on the torsion pin (10);

a shifting fork (12) is arranged at one end of the sliding rod (52), and the shifting fork (12) is matched with the clutch sleeve (412).

6. The copper wire winding device for relay production as claimed in claim 5, further comprising:

the mounting block (13) is arranged on the chassis (1) close to the other end of the first rotating shaft (32);

the screw (14) is rotatably arranged on the mounting block (13);

the spiral winding machine comprises a rotary cone (15), wherein one end of a screw (14) is provided with the rotary cone (15), and the rotary cone (15) is matched with one side of a winding wheel (33);

a hand crank (16) is arranged at the other end of the screw rod (14).

7. The copper wire winding device for producing the relay as claimed in claim 6, further comprising:

the fixing blocks (17) are symmetrically arranged on the bottom frame (1) on one side, far away from the first rotating shaft (32), of the fixing block (17);

a guide rod (18), wherein the guide rod (18) is arranged between the two fixed blocks (17);

the pulley (19) is arranged on the guide rod (18) in a sliding mode.

8. The copper wire winding device for producing the relay as claimed in claim 6, wherein the outer layer of the hand crank (16) is sleeved with a rubber ring.