CN210575279U - Transformer lead wire processing device - Google Patents

Abstract

The utility model relates to a lead wire processing field discloses a transformer lead wire processingequipment, and this transformer lead wire processingequipment includes: the device comprises an upper clamp, a lower clamp and a control assembly; the upper clamp and the lower clamp are correspondingly arranged and hinged with each other, the upper clamp and/or the lower clamp are/is provided with a clamping valve block, the control end of the control assembly is abutted against the clamping valve block, so that the clamping valve block is pressed to clamp or loosen the upper clamp and the lower clamp. The utility model provides a transformer lead wire processingequipment is through being equipped with the pinch valve piece on last anchor clamps and/or lower anchor clamps to through the operating condition who sets up control assembly cooperation pinch valve piece adjustment go up anchor clamps and lower anchor clamps, replace the current production method who deposits manual control, reduce operating personnel's intensity of labour, effectively improve production efficiency.

Description

Transformer lead wire processing device

Technical Field

The utility model relates to a lead wire processing field, in particular to transformer lead wire processing device.

Background

In the production of the transformer, the use of multi-strand leads in some models requires stranding. The stranding is realized by the equiangular speed rotation of a stranded single wire around a stranding shaft and the uniform forward motion of the stranded wire. In transformers, different copper wire specifications are usually twisted into wire cells with different specifications and sections. The method is suitable for occasions with higher working frequency and overlarge skin effect and proximity effect loss of single-stranded wires. The use of the stranded wire can reduce the operation temperature, and compared with a single-stranded wire with the same sectional area, the stranded wire has higher mechanical property and flexibility.

The existing devices are all carried out in a mode of manually controlling the clamp, the production efficiency is very low, the quality is unstable, and the labor intensity of operators is also very high.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of the technical defects and the application requirements, the application provides a transformer lead processing device to replace the existing production method of manual control, so that the labor intensity of operators is reduced, the production efficiency is improved, and the product quality is improved.

(II) technical scheme

In order to solve the above problem, the utility model provides a transformer lead wire processingequipment, include: the device comprises an upper clamp, a lower clamp and a control assembly; the upper clamp and the lower clamp are correspondingly arranged and hinged with each other, the upper clamp and/or the lower clamp are/is provided with a clamping valve block, the control end of the control assembly is abutted against the clamping valve block, so that the clamping valve block is pressed to clamp or loosen the upper clamp and the lower clamp.

Further, the bottom of going up anchor clamps is equipped with first wire casing, the top of anchor clamps down is equipped with the second wire casing that first wire casing corresponds the setting.

Furthermore, the first wire groove and the second wire groove are two semi-cylindrical wire grooves which are mutually spliced and matched, so that when the upper clamp and the lower clamp are clamped tightly, the first wire groove and the second wire groove are combined into a cylindrical wire groove.

Further, the first end of the upper clamp and the first end of the lower clamp are hinged to each other, and the clamping valve block is arranged between the first end of the upper clamp and the second end of the upper clamp.

Further, the number of the clamping valve blocks arranged on the upper clamp and the lower clamp is multiple.

Furthermore, each clamping valve block on the upper clamp is sequentially arranged at intervals along the axial direction of the upper clamp, and each clamping valve block on the lower clamp is sequentially arranged at intervals along the axial direction of the lower clamp.

Further, still include: a base; the base is provided with a groove for bearing the lower clamp.

Further, still include: rotating the valve block; the rotary valve block is arranged on the upper clamp and/or the lower clamp, and the control end of the control assembly abuts against the rotary valve block so as to rotate the upper clamp and/or the lower clamp by pressing the rotary valve block.

Further, the control assembly includes: foot pedals and controls; the pedal is electrically connected with the controller, a first control end of the controller is abutted against the clamping valve block, and a second control end of the controller is abutted against the rotating valve block.

Further, the control assembly further comprises: a first drive shaft and a second drive shaft; the first end of the first driving shaft abuts against the clamping valve block, and the second end of the first driving shaft is connected to the first control end of the controller; and a first end of the second driving shaft abuts against the rotating valve block, and a second end of the second driving shaft is connected to a second control end of the controller.

(III) advantageous effects

The utility model provides a transformer lead wire processingequipment is through being equipped with the pinch valve piece on last anchor clamps and/or lower anchor clamps to through the operating condition who sets up control assembly cooperation pinch valve piece adjustment go up anchor clamps and lower anchor clamps, replace the current production method who deposits manual control, reduce operating personnel's intensity of labour, effectively improve production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a transformer lead processing device according to an embodiment of the present invention in an initial state;

fig. 2 is a schematic structural diagram of a transformer lead processing device provided by an embodiment of the present invention in a processing process;

fig. 3 is a schematic structural view of the transformer lead processing device according to the embodiment of the present invention after the processing is completed;

wherein, 1, an upper clamp; 2. a lower clamp; 3. a control component; 4. clamping the valve block; 31. a foot pedal; 32. a controller; 33. a first drive shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The embodiment of the utility model provides a transformer lead wire processingequipment, as shown in figure 1, figure 2 and figure 3, this transformer lead wire processingequipment includes: an upper clamp 1, a lower clamp 2 and a control assembly 3. The upper clamp 1 and the lower clamp 2 are correspondingly arranged and hinged with each other, a clamping valve block 4 can be arranged on the upper clamp 1, or the clamping valve block 4 is arranged on the lower clamp 2, or the clamping valve block 4 is arranged on the upper clamp 1 and the lower clamp 2 simultaneously. The control end of the control assembly 3 abuts against the pinch valve block 4. If the clamping valve blocks 4 are provided on both the upper clamp 1 and the lower clamp 2, the output end of the control assembly 3 needs to be abutted against the clamping valve blocks 4 of the upper clamp 1 and the clamping valve blocks 4 of the lower clamp 2. The control assembly 3 can clamp or unclamp the upper clamp 1 and the lower clamp 2 by pressing the clamping valve block 4.

In this embodiment, the first end of the upper clamp 1 and the first end of the lower clamp 2 are hinged to each other, and the clamping valve block 4 is disposed between the first end of the upper clamp 1 and the second end of the upper clamp.

In the initial state, the control end of the control component 3 presses the clamping valve block 4, the upper clamp 1 and the lower clamp 2 are in a loose state, and the transformer lead wire needing to be stranded is placed in the loose state. In the machining process, the control end of the control assembly 3 loosens the clamping valve block 4, and the upper clamp 1 and the lower clamp 2 are in a clamping state for machining. After the machining is finished, the control end of the control assembly 3 presses the clamping valve block 4, the upper clamp 1 and the lower clamp 2 are in a loosening state again, the machined transformer lead is taken out, and the step of stranding the transformer lead is finished.

The embodiment of the utility model provides a transformer lead wire processingequipment is through being equipped with the pinch valve piece on last anchor clamps and/or lower anchor clamps to through the operating condition who sets up control assembly cooperation pinch valve piece adjustment goes up anchor clamps and anchor clamps down, replace the current production method who deposits manual control, reduce operating personnel's intensity of labour, effectively improve production efficiency.

The utility model provides an in the embodiment, as shown in fig. 1, fig. 2 and fig. 3, the bottom of going up anchor clamps 1 is equipped with first wire casing, and the top of lower anchor clamps 2 is equipped with the second wire casing that corresponds the setting with first wire casing.

The first wire groove and the second wire groove are two semi-cylindrical wire grooves which are mutually spliced and matched, so that when the upper clamp 1 and the lower clamp 2 are clamped tightly, the first wire groove and the second wire groove are combined into a cylindrical wire groove, and in the machining process, a transformer lead is arranged in the cylindrical wire groove.

In an actual production process, the number of the clamping valve blocks 4 arranged on the upper clamp 1 and the lower clamp 2 can be multiple. The clamping valve blocks 4 on the upper clamp 1 are sequentially arranged at intervals along the axial direction of the upper clamp 1, and the clamping valve blocks 4 on the lower clamp 2 are sequentially arranged at intervals along the axial direction of the lower clamp 2.

In order to prevent the transformer lead processing device from moving in the processing process, a base can be additionally arranged. A groove for carrying the lower clamp 2 is provided on the base to prevent the lower clamp 2 from shifting.

In the processing process, a rotating valve block can be arranged for controlling the offset between the upper clamp 1 and the lower clamp 2. The rotary valve block can be arranged on the upper clamp 1, the lower clamp 2 or both the upper clamp 1 and the lower clamp 2 according to requirements. The control end of the control assembly 3 abuts on the rotary valve block to rotate the upper clamp 1 and/or the lower clamp 2 by pressing the rotary valve block.

In this embodiment, the control unit 3 includes: a foot pedal 31 and a controller 32. The foot pedal 31 is electrically connected to the controller 32, and a first control end of the controller 32 abuts on the pinch valve block 4 and a second control end of the controller 32 abuts on the rotation valve block. The addition of the pedal 31 further saves the operation time and improves the efficiency.

Wherein, the control assembly 3 further comprises: a first drive shaft 33 and a second drive shaft (not shown). A first end of the first drive shaft 33 abuts the pinch valve block 4 and a second end of the first drive shaft 33 is connected to a first control end of the controller 32. A first end of the second drive shaft abuts the rotary valve block and a second end of the second drive shaft is connected to a second control end of the controller 32. The number of the first drive shaft 33 and the second drive shaft is determined according to the number of the corresponding valve blocks.

Before processing, if the upper clamp 1 and/or the lower clamp 2 are deviated, the upper clamp 1 and/or the lower clamp 2 can be adjusted through the second driving shaft matched with the rotary valve block.

In the initial state, the foot pedal 31 is not pressed, the circuit of the control assembly 3 is not connected, the first driving shaft 33 of the control assembly 3 presses the clamping valve block 4, and the upper clamp 1 and the lower clamp 2 are in a released state. And then putting transformer leads into the first wire groove and/or the second wire groove.

In the machining process, the pedal 31 is pressed, the circuit of the control assembly 3 is connected, the first driving shaft 33 of the control assembly 3 releases the clamping valve block 4, and the upper clamp 1 and the lower clamp 2 are in a clamping state for machining.

After the processing is finished, the pedal plate 31 is loosened, the circuit of the control assembly 3 is disconnected, the first driving shaft 33 of the control assembly 3 presses the clamping valve block 4, the upper clamp 1 and the lower clamp 2 are in a loosening state again, the processed transformer lead is taken out, and the step of stranding the transformer lead is completed.

To sum up, the embodiment of the utility model provides a transformer lead wire processingequipment is through being equipped with the pinch valve piece on last anchor clamps and/or lower anchor clamps to through the operating condition who sets up control assembly cooperation pinch valve piece adjustment goes up anchor clamps and lower anchor clamps, replace the current production method who deposits manual control, reduce operating personnel's intensity of labour, effectively improve production efficiency.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. A transformer lead wire processing device is characterized by comprising:

the device comprises an upper clamp, a lower clamp and a control assembly;

the upper clamp and the lower clamp are correspondingly arranged and hinged with each other, the upper clamp and/or the lower clamp are/is provided with a clamping valve block, the control end of the control assembly is abutted against the clamping valve block, so that the clamping valve block is pressed to clamp or loosen the upper clamp and the lower clamp.

2. The transformer lead processing device according to claim 1, wherein a first wire slot is formed at the bottom of the upper clamp, and a second wire slot corresponding to the first wire slot is formed at the top of the lower clamp.

3. The transformer lead processing device according to claim 2, wherein the first and second slots are two semi-cylindrical slots that are engaged with each other, so that when the upper and lower clamps are clamped, the first and second slots are combined into a cylindrical slot.

4. The transformer lead processing apparatus according to claim 1, wherein the first end of the upper clamp and the first end of the lower clamp are hinged to each other, and the clamping valve block is disposed between the first end of the upper clamp and the second end of the upper clamp.

5. The transformer lead processing apparatus according to claim 1, wherein the number of the clamping valve blocks provided on the upper jig and the lower jig is plural.

6. The transformer lead processing device according to claim 5, wherein the clamping valve blocks on the upper clamp are sequentially arranged at intervals in the axial direction of the upper clamp, and the clamping valve blocks on the lower clamp are sequentially arranged at intervals in the axial direction of the lower clamp.

7. The transformer lead processing apparatus according to claim 1, further comprising: a base; the base is provided with a groove for bearing the lower clamp.

8. The transformer lead processing apparatus according to claim 1, further comprising: rotating the valve block; the rotary valve block is arranged on the upper clamp and/or the lower clamp, and the control end of the control assembly abuts against the rotary valve block so as to rotate the upper clamp and/or the lower clamp by pressing the rotary valve block.

9. The transformer lead processing apparatus of claim 8, wherein the control assembly comprises: foot pedals and controls; the pedal is electrically connected with the controller, a first control end of the controller is abutted against the clamping valve block, and a second control end of the controller is abutted against the rotating valve block.

10. The transformer lead wire processing apparatus of claim 9, wherein the control assembly further comprises: a first drive shaft and a second drive shaft;

the first end of the first driving shaft abuts against the clamping valve block, and the second end of the first driving shaft is connected to the first control end of the controller; and a first end of the second driving shaft abuts against the rotating valve block, and a second end of the second driving shaft is connected to a second control end of the controller.

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