CN212542190U - Winding displacement subassembly and coiling machine - Google Patents

Abstract

The utility model aims at providing an effectual winding displacement subassembly of winding displacement and the coiling machine that contains this wire winding subassembly. The winding displacement subassembly includes the base, be provided with the centre gripping cylinder on the base, the output of centre gripping cylinder is provided with the push pedal, the left side of push pedal is provided with first grip slipper, still be provided with the second grip slipper on the base, the second grip slipper be located the left side of push pedal and with first grip slipper cooperatees, be provided with reset spring on the second grip slipper, reset spring's both ends set up respectively on the second grip slipper with on the first grip slipper, be provided with on the first grip slipper with drive arrangement transmission be connected drive wheel and two all with drive wheel transmission complex rubber tyer, it is provided with rolling bearing to rotate on the second grip slipper, rolling bearing is located two the left side of rubber tyer and with two the rubber tyer cooperatees and is used for centre gripping T2 ring. The utility model discloses can be applied to the technical field of coiling machine.

Description

Winding displacement subassembly and coiling machine

Technical Field

The utility model relates to a technical field of coiling machine, in particular to winding displacement subassembly and coiling machine.

Background

In the existing network transformer manufacturing process, after the winding of the T1 ring is completed, the lengths of 4 wire ends and 4 wire tails are the same, and the winding of the T2 ring after two proper wire strands are found out from the 8 wires needs to be manually realized by eyes and hands, so that the product is not qualified due to easy mistake identification, and much inconvenience is brought to the subsequent manufacturing process.

Patent CN 104795237B discloses a network transformer T2 ring winding machine, which provides a winding machine that can automatically find out two suitable wire strands and then perform winding of T2 ring on the premise that the tail breaking process of T1 ring has been implemented in the previous process to make the lengths of 8 tail wires different, thereby completing automatic winding of T2 ring. The winding mechanism is an important component of the T2 ring automatic winding machine, and the quality of the winding effect of the winding displacement assembly in the winding mechanism has a great influence on the winding quality of the T2 ring winding work. In the winding mechanism of the winding machine, the flat cable assembly is not enough, and the situation of poor flat cable is easy to occur, so that the flat cable assembly with good flat cable effect and the winding machine comprising the flat cable assembly are provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide an effectual winding displacement subassembly of winding displacement and contain the coiling machine of this wire winding subassembly.

The utility model adopts the technical proposal that: it includes the base, be provided with the centre gripping cylinder on the base, the output of centre gripping cylinder is provided with the push pedal, the left side of push pedal is provided with first grip slipper, still be provided with the second grip slipper on the base, the second grip slipper is located the left side of push pedal and with first grip slipper cooperatees, be provided with reset spring on the second grip slipper, reset spring's both ends set up respectively on the second grip slipper with on the first grip slipper, be provided with on the first grip slipper with drive wheel and two that the drive arrangement transmission is connected all with drive wheel transmission complex rubber tyer, it is provided with rolling bearing to rotate on the second grip slipper, rolling bearing is located two the left side of rubber tyer and with two the rubber tyer cooperatees and is used for centre gripping T2 ring.

Furthermore, a guide pillar is arranged on the push plate, the left end of the guide pillar is matched with the second clamping seat, the right end of the guide pillar is connected with an inductor, and the second clamping seat is conducted with detection current.

Furthermore, an insulating cylinder is sleeved on the guide pillar, and the guide pillar is fixed on the push plate through the insulating cylinder.

Further, the lower extreme of base is provided with adjusts the seat, the base slides and sets up adjust on the seat, it is provided with the regulating part to adjust to fix on the seat, the regulating block of regulating part with base fixed connection.

A winding machine comprising the winding displacement assembly further comprises a wire dividing mechanism, a wire twisting mechanism, a wire winding mechanism, a feeding mechanism and a manipulator which are sequentially connected, wherein the winding displacement assembly is arranged below the wire winding mechanism and matched with the wire winding mechanism, the wire dividing mechanism is used for receiving a T1 coil obtained in the previous process, finding out two wires required by a T2 ring and sending the two wires to the wire twisting mechanism for wire twisting, the feeding mechanism is used for supplying a T2 ring and carrying the coil twisted by the wire twisting mechanism to the wire winding mechanism, the wire winding mechanism is matched with the winding displacement assembly for wire winding, each pair of T2 of the wire winding mechanism surrounds one wire, a driving device of the winding displacement assembly drives one time, the driving wheel drives the two rubber wheels to rotate, so that the T2 ring rotates for a certain angle, and T2 surrounds the wire after the set wire winding times are reached, the robot removes the T2 loop.

The utility model has the advantages that: the wire arranging assembly has clamping capacity between the first clamping seat and the second clamping seat by adopting the matching of the clamping cylinder and the reset spring, the clamping cylinder drives the first clamping seat to slide rightwards, a gap is formed between the clamping cylinder and the second clamping seat, so that a T2 ring is placed conveniently, then the clamping cylinder is reset, the reset spring tensions the first clamping seat to enable the first clamping seat to approach the second clamping seat, so that the T2 ring is clamped, and during clamping, two rubber wheels on the first clamping seat and the side edge of a bearing on the second clamping seat are clamped, so that when a driving wheel on the first clamping seat rotates, the two rubber wheels rotate, the clamped T2 ring rotates along with the rotation, and the bearing also rotates together; therefore, the bearing is equivalent to an idler wheel, compared with the previous driven wheel, the bearing is changed from active rotation to passive rotation, the rotation of the T2 ring can be prevented from being influenced due to different rotating speeds, the wire arranging effect is poor, and the winding quality is influenced. The winding machine adopts the winding displacement assembly, so that the whole winding work can be carried out more smoothly, the winding effect is ensured, good use performance is ensured after T2 ring winding, and the whole quality level of a product is improved.

Drawings

Fig. 1 is a schematic perspective view of the flat cable assembly;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is a schematic perspective view of the winding machine;

FIG. 4 is an enlarged view of portion B of FIG. 3;

FIG. 5 is an enlarged view of portion C of FIG. 3;

fig. 6 is an enlarged view of a portion D in fig. 3.

Detailed Description

As shown in fig. 1 to 6, in the present embodiment, the traverse assembly includes a base 1, a clamping cylinder 2 is disposed on the base 1, the output end of the clamping cylinder 2 is provided with a push plate 3, the left side of the push plate 3 is provided with a first clamping seat 4, the base 1 is also provided with a second clamping seat 5, the second clamping seat 5 is positioned at the left side of the push plate 3 and is matched with the first clamping seat 4, the second clamping seat 5 is provided with a return spring 6, two ends of the return spring 6 are respectively arranged on the second clamping seat 5 and the first clamping seat 4, the first clamping seat 4 is provided with a driving wheel 7 in transmission connection with a driving device and two rubber wheels 8 which are in transmission fit with the driving wheel 7, the second clamping seat 5 is rotatably provided with a rotating bearing 9, and the rotating bearing 9 is positioned on the left side of the two rubber wheels 8 and matched with the two rubber wheels 8 for clamping a T2 ring. The clamping cylinder 2 is horizontally arranged on the base 1, the output end of the clamping cylinder reciprocates left and right, a first clamping seat 4 is arranged on the left side of the push plate 3, the second clamping seat 5 is horizontally arranged on the base 1, and the first clamping seat 4 and the second clamping seat 5 are parallel and coplanar; a spring fastener is arranged on the rear side of the second clamping seat 5, a spring fastener is also arranged on the rear side of the push plate 3, and two ends of the reset spring 6 are respectively fastened on the two spring fasteners, so that the reset spring 6 enables the first clamping seat 4 and the second clamping seat 5 to form a relative movement effect; the driving wheel 7 and the two rubber wheels 8 are both arranged at the left end of the first clamping seat 4, the driving wheel 7 is in transmission connection with a driving device (not shown in the drawing) to realize rotation, the driving wheel 7 drives the two rubber wheels 8 to rotate, the rotating bearing 9 is arranged at the left end of the second clamping seat 5, the rotating bearing 9 is positioned at the left end of the two rubber wheels 8 and is matched with the two rubber wheels 8, when the clamping cylinder 2 drives, the push plate 3 overcomes the resilience force of the return spring 6 to drive the first clamping seat 4 to move rightwards, a gap is formed between the rotating bearing 9 and the two rubber wheels 8 to place a T2 ring, when the T2 ring is placed in, the clamping cylinder 2 resets, the push plate 3 is pulled by the return spring 6 to set the first clamping seat 4 to move leftwards, so as to clamp the T2 ring, when clamping, the two rubber wheels 8 and the side edges of the rotating bearing 9 are clamped, so when the driving wheel 7 rotates, the two rubber wheels 8 rotate, the clamped T2 ring rotates along with the rotation, and the rotating bearing 9 also rotates together; therefore, the rotary bearing 9 corresponds to an idler wheel, and compared with the previous driven wheel, the driven rotation is changed into the passive rotation from the active rotation, so that the phenomenon that the rotation of the T2 ring is influenced due to different rotating speeds, the wire arranging effect is reduced, and the winding quality is influenced can be avoided.

In this embodiment, a guide pillar 10 is disposed on the push plate 3, a left end of the guide pillar 10 is matched with the second clamping seat 5, a right end of the guide pillar 10 is connected with an inductor, and the second clamping seat 5 is conducted with a detection current. When a T2 ring is clamped between the two rubber wheels 8 and the rotary bearing 9, the guide post 10 does not contact with the second clamping seat 5, the guide post 10 is not conductive, and the inductor (not shown in the figure) does not detect current, that is, feedback information indicates that a T2 ring is clamped; when a T2 ring is not clamped between the two rubber wheels 8 and the rotary bearing 9, the guide post 10 is in contact with the second clamping seat 5, the guide post 10 is conductive, and the inductor detects current, namely, feedback information shows that the T2 ring is not clamped; therefore, whether the T2 loop is held or not can be detected in real time, and whether or not the next process is to be performed can be determined.

In this embodiment, the guide post 10 is sleeved with an insulating cylinder 11, and the guide post 10 is fixed on the push plate 3 through the insulating cylinder 11. The insulation cylinder 11 can ensure that the guide post 10 will not contact the push plate 3, so as to prevent the guide post 10 from switching on the current on the push plate 3, and ensure that the current sensed by the sensor is only on the second clamping seat 5.

In this embodiment, the lower extreme of base 1 is provided with adjusts seat 12, base 1 slides and sets up adjust on the seat 12, adjust and fixedly on the seat 12 and be provided with regulating part 13, the regulating block of regulating part 13 with base 1 fixed connection. The adjusting piece 13 can be used for fine adjustment of the position of the base 1, and has better adaptability.

As shown in fig. 3 to 6, a winding machine including the above flat cable assembly further includes a wire separating mechanism 20, a wire twisting mechanism 30, a wire winding mechanism 40, a feeding mechanism 50 and a manipulator 60, which are connected in sequence, the flat cable assembly is disposed below the wire winding mechanism 40 and is matched with the wire winding mechanism 40, the wire separating mechanism 20 receives a T1 coil obtained in a previous process, finds out two wires required by a T2 loop and sends the two wires to the wire twisting mechanism 30 for wire twisting, the feeding mechanism 50 supplies a T2 loop and carries the coil twisted by the wire twisting mechanism 30 to the wire winding mechanism 40, the wire winding mechanism 40 is matched with the flat cable assembly for wire winding, each pair of T2 of the wire winding mechanism 40 surrounds one wire, a driving device of the flat cable assembly drives once, so that the driving wheel 7 drives the two rubber wheels 8 to rotate, so that the T2 ring rotates a certain angle, the T2 winding is completed after the set winding times are reached, and the manipulator 60 takes off the T2 ring. Because the winding machine adopts the winding displacement assembly, the whole winding work can be carried out more smoothly, the winding effect is ensured, the good use performance of the T2 ring winding machine is ensured, and the whole quality level of the product is improved.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (5)

1. A flat cable assembly, comprising: the device comprises a base (1), wherein a clamping cylinder (2) is arranged on the base (1), the output end of the clamping cylinder (2) is provided with a push plate (3), the left side of the push plate (3) is provided with a first clamping seat (4), the base (1) is also provided with a second clamping seat (5), the second clamping seat (5) is positioned on the left side of the push plate (3) and matched with the first clamping seat (4), a reset spring (6) is arranged on the second clamping seat (5), two ends of the reset spring (6) are respectively arranged on the second clamping seat (5) and the first clamping seat (4), a driving wheel (7) in transmission connection with a driving device and two rubber wheels (8) in transmission fit with the driving wheel (7) are arranged on the first clamping seat (4), a rotating bearing (9) is rotatably arranged on the second clamping seat (5), the rotary bearing (9) is positioned at the left side of the two rubber wheels (8) and is matched with the two rubber wheels (8) for clamping a T2 ring.

2. A traverse assembly as claimed in claim 1, wherein: the device is characterized in that a guide pillar (10) is arranged on the push plate (3), the left end of the guide pillar (10) is matched with the second clamping seat (5), the right end of the guide pillar (10) is connected with an inductor, and the second clamping seat (5) is conducted with a detection current.

3. A traverse assembly as claimed in claim 2, wherein: an insulating cylinder (11) is sleeved on the guide post (10), and the guide post (10) is fixed on the push plate (3) through the insulating cylinder (11).

4. A traverse assembly as claimed in claim 1, wherein: the lower extreme of base (1) is provided with adjusts seat (12), base (1) slides and sets up adjust on seat (12), it is provided with regulating part (13) to adjust on seat (12) fixed, the regulating block of regulating part (13) with base (1) fixed connection.

5. A winding machine comprising the flat cable assembly according to any one of claims 1 to 4, wherein: the wire winding mechanism further comprises a wire dividing mechanism (20), a wire twisting mechanism (30), a wire winding mechanism (40), a feeding mechanism (50) and a manipulator (60) which are sequentially connected, wherein the wire arrangement component is arranged below the wire winding mechanism (40) and matched with the wire winding mechanism (40), the wire dividing mechanism (20) is used for receiving a T1 coil obtained in the previous process, finding out two wires required by a T2 ring and sending the two wires to the wire twisting mechanism (30) for wire twisting, the feeding mechanism (50) is used for supplying the T2 ring and conveying the coil finished by the wire twisting of the wire twisting mechanism (30) to the wire winding mechanism (40), the wire winding mechanism (40) is matched with the wire arrangement component for wire winding, each pair of T2 of the wire winding mechanism (40) surrounds one wire, a driving device of the wire arrangement component is driven once, so that the driving wheel (7) drives the two rubber wheels (8) to rotate, therefore, the T2 ring is rotated by a certain angle, the T2 winding is completed after the set winding times are reached, and the T2 ring is taken down by the manipulator (60).

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