CN216324806U - Automatic wire stripping equipment - Google Patents

Abstract

An embodiment of the present disclosure discloses an automatic wire stripping apparatus. One specific implementation mode of the automatic wire stripping device comprises a feeding conveying assembly, a laser wire stripping assembly and a cutting assembly. Wherein, material loading conveying component includes the spool. The spool is wound with a conductor with a wrapping layer. The laser wire stripping assembly is arranged in a first preset direction of the feeding conveying assembly. The laser wire stripping assembly comprises a conveying mechanism and at least one laser head. The transmission mechanism is used for transmitting the conducting wire. At least one laser head is used to strip a portion of the cladding layer of the wire. The cutting assembly is arranged in a second preset direction of the laser wire stripping assembly. The cutting assembly comprises a cylinder mechanism and a cutter. The cylinder mechanism includes a cylinder and a cylinder base. The cutter is movably arranged on the cylinder base. The cutter is used for cutting off the lead with the part of the wrapping layer stripped. This embodiment improves the processing efficiency of the wire.

Description

Automatic wire stripping equipment

Technical Field

The embodiment of the disclosure relates to the technical field of wire stripping equipment, in particular to automatic wire stripping equipment.

Background

The existing wire stripping equipment can only strip the wrapping layer of the wire and does not cut off the wire with the wrapping layer stripped.

However, when the above-mentioned wire stripping device is used for wire stripping, the following technical problems often exist: the existing wire stripping device only comprises a wire stripping device, and does not comprise a wire cutting device, so that automatic wire stripping and automatic wire cutting cannot be realized simultaneously, and the low efficiency of wire processing is caused.

SUMMERY OF THE UTILITY MODEL

This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Some embodiments of the present disclosure provide an automatic wire stripping device to solve the technical problems mentioned in the background section above.

Some embodiments of the present disclosure provide an automatic wire stripping apparatus, which includes a feeding and conveying assembly, a laser wire stripping assembly, and a cutting assembly, wherein the feeding and conveying assembly includes a spool, and in a working state, a wire with a wrapping layer is wound on the spool; the laser wire stripping assembly is arranged in a first preset direction of the feeding and conveying assembly and comprises a conveying mechanism and at least one laser head, wherein in a working state, the conveying mechanism is used for conveying a lead, and the at least one laser head is used for stripping a part of a wrapping layer of the lead; the cutting assembly is arranged in a second preset direction of the laser wire stripping assembly and comprises an air cylinder mechanism and a cutter, the air cylinder mechanism comprises an air cylinder and an air cylinder base, the cutter is movably arranged on the air cylinder base, and the cutter is used for cutting off the wires with the wrapping layers of the stripped parts in a working state.

Optionally, the feeding and conveying assembly further comprises a damper, and the damper is disposed between the spool and the laser wire stripping assembly.

Optionally, the feeding and conveying assembly further includes a first straightening and conveying mechanism.

Optionally, the first straightening and conveying mechanism includes a first conveying wheel set and a second conveying wheel set, the first conveying wheel set is located above the second conveying wheel set, and in an operating state, the wire with the wrapping layer is located between the first conveying wheel set and the second conveying wheel set.

Optionally, the first conveying wheel set includes four conveying wheels, the second conveying wheel set includes five conveying wheels, and each conveying wheel in the first conveying wheel set is located at a middle position above two conveying wheels corresponding to the conveying wheel in the second conveying wheel set.

Optionally, a second straightening and conveying mechanism is disposed between the laser wire stripping assembly and the cutting assembly, the second straightening and conveying mechanism includes a third conveying wheel set and a fourth conveying wheel set, the third conveying wheel set includes one conveying wheel, and the fourth conveying wheel set includes two conveying wheels.

Optionally, a conveying table is arranged between the second straightening and conveying mechanism and the cutting assembly, and a motor and a wire guide wheel are arranged on the conveying table.

Optionally, a receiving hopper is arranged below the cutter.

Optionally, two receiving boxes are arranged below the receiving hopper.

Optionally, a pneumatic triplet is provided below the cutting assembly.

The above embodiments of the present disclosure have the following advantages: through the automatic wire stripping equipment of some embodiments of this disclosure, can realize automatic wire stripping and automatic tangent line simultaneously, improve the machining efficiency of wire. Specifically, the reason why the conventional wire stripping device is inefficient in processing the wire is that: the existing wire stripping device only comprises a wire stripping device, does not comprise a wire cutting device, and cannot realize automatic wire stripping and automatic wire cutting simultaneously. Based on this, the automatic wire stripping apparatus of some embodiments of the present disclosure includes a feed delivery assembly, a laser wire stripping assembly, and a cutting assembly. Wherein, above-mentioned material loading conveying assembly includes the spool. In the working state, the wire with the wrapping layer is wound on the spool. The laser wire stripping assembly is arranged in a first preset direction of the feeding and conveying assembly. The laser wire stripping assembly comprises a conveying mechanism and at least one laser head. In the working state, the transmission mechanism is used for transmitting the conducting wire. The at least one laser head is used for stripping a part of the wrapping layer of the lead. The cutting assembly is arranged in a second preset direction of the laser wire stripping assembly. The cutting assembly comprises an air cylinder mechanism and a cutter. The cylinder mechanism comprises a cylinder and a cylinder base. The cutting knife is movably arranged on the cylinder base. In the working state, the cutter is used for cutting off the lead with the part of the wrapping layer stripped. Because the laser wire stripping assembly comprises at least one laser head and the at least one laser head can strip part of the wrapping layer of the lead, automatic wire stripping can be realized. And the cutting assembly comprises an air cylinder mechanism and a cutter, and the cutter can cut off the lead with the wrapping layer of the stripped part, so that automatic cutting can be realized. Therefore, the automatic wire stripping equipment can simultaneously realize automatic wire stripping and automatic wire cutting, and improves the processing efficiency of wires.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. Throughout the drawings, the same or similar reference numbers refer to the same or similar elements. It should be understood that the drawings are schematic and that elements and elements are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of some embodiments of an automatic wire stripping apparatus according to the present disclosure;

fig. 2 is a schematic diagram of a cutting assembly of an automatic wire stripping apparatus according to the present disclosure;

fig. 3 is a schematic diagram of alternate embodiments of an automatic wire stripping apparatus according to the present disclosure.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it is to be understood that the disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided for a more thorough and complete understanding of the present disclosure. It should be understood that the drawings and embodiments of the disclosure are for illustration purposes only and are not intended to limit the scope of the disclosure.

In the description of the present disclosure, it is to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present disclosure can be understood in specific instances by those of ordinary skill in the art.

It should be noted that, for the convenience of description, only the parts relevant to the related disclosure are shown in the drawings. The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

It should be noted that the terms "first", "second", and the like in the present disclosure are only used for distinguishing different devices, modules or units, and are not used for limiting the order or interdependence relationship of the functions performed by the devices, modules or units.

It is noted that references to "a", "an", and "the" modifications in this disclosure are intended to be illustrative rather than limiting, and that those skilled in the art will recognize that "one or more" may be used unless the context clearly dictates otherwise.

The names of messages or information exchanged between devices in the embodiments of the present disclosure are for illustrative purposes only, and are not intended to limit the scope of the messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 is a schematic diagram of some embodiments of automatic wire stripping apparatus according to the present disclosure. Fig. 1 includes a feeding and conveying assembly 1, a laser wire stripping assembly 2, a cutting assembly 3 and a conveying mechanism 4.

Fig. 2 is a schematic diagram of a cutting assembly of an automatic wire stripping apparatus according to the present disclosure. Fig. 2 includes a cylinder mechanism 5 and a cutter 6. The cylinder mechanism 5 includes a cylinder 51 and a cylinder base 52.

In some embodiments, the automatic wire stripping apparatus may include a feed assembly 1, a laser wire stripping assembly 2, and a cutting assembly 3. Wherein, the feeding and conveying assembly 1 may comprise a bobbin. In the working state, the wire with the wrapping layer can be wound on the spool. The feeding and conveying assembly 1 may be an assembly for conveying wires. The laser wire stripping assembly 2 may be an assembly for stripping a coating of a wire. The cutting assembly 3 may be an assembly for cutting the stripped wire.

In some embodiments, the laser wire stripping assembly 2 may be disposed in a first predetermined orientation of the feeding assembly 1. The laser wire stripping assembly 2 may include a transport mechanism 4 and at least one laser head. In the operating state, the above-mentioned transport mechanism 4 can be used for transporting a wire. The at least one laser head may be adapted to strip a portion of the encapsulation of the wire. Here, the specific length of the partially covered layer from which the conductive wire is removed is not limited. For example, the covering layer with a length of 10 mm of the conductive wire may be stripped, the covering layer with a length of 4 mm of the conductive wire may be stripped, or the covering layer with a length of 10 mm of the conductive wire and the covering layer with a length of 4 mm of the conductive wire may be alternatively stripped. It is understood that the at least one laser head first removes a 10 mm long coating of the conductive wire and second removes a 4 mm long coating of the conductive wire. And stripping the wrapping layer of the lead with the length of 10 mm for the third time, and so on. Here, the specific length of the wire in which the coating layer having a wire length of 4 mm is stripped and the coating layer having a wire length of 10 mm is stripped is not limited. For example, the specific length of the wire with the un-stripped coating between the two stripped coatings may be 53 mm. The first predetermined direction may be a right direction of the feeding and conveying assembly 1 in fig. 1. The above-mentioned transfer mechanism 4 may be a mechanism that transfers a wire.

In some embodiments, the cutting assembly 3 may be disposed in a second predetermined orientation of the laser wire stripping assembly 2. The cutting assembly 3 may include a cylinder mechanism 5 and a cutter 6. The cylinder mechanism 5 may include a cylinder 51 and a cylinder base 52. The cutting blade 6 may be movably disposed on the cylinder base 52. In the working state, the cutting knife 6 can be used for cutting off the lead with the partial coating removed. The second predetermined direction may be a right direction of the laser wire stripping assembly of fig. 1. The cylinder mechanism 5 may be a mechanism for powering the movement of the cutter. The cylinder base 52 may be a base for supporting a cylinder. In practice, the cylinder 1 provides power to drive the cutter 6 to cut off the wires with the partially stripped wrapping layers. The cutting position of the wire may be a middle position of the portion where the wire is stripped of the covering. Here, the specific length of the cut wire is not limited. For example, when the wrapping layer having a length of 10 mm and the wrapping layer having a length of 4 mm of the wire are alternately stripped and the specific length of the wire between the wrapping layers of the wire stripped twice is 53 mm, the cutter may cut the wire from the middle position of the portion having a stripped length of 10 mm and the middle position of the portion having a stripped length of 4 mm, and the specific length of the cut wire is 60 mm.

Optionally, the automatic wire stripping device may further include an electric control cabinet, and the feeding and conveying assembly 1, the laser wire stripping assembly 2, and the cutting assembly 3 may be located above the electric control cabinet. And a host of a programmable logic controller can be arranged in the cabinet body below the conveying mechanism in the electric control cabinet. The electric control cabinet further comprises a wire slot. In fig. 1, the wire slot may be disposed on the cabinet below the laser wire stripping assembly 2. Therefore, the programmable logic controller can control the feeding and conveying assembly 1 to convey the wires, the laser wire stripping assembly 2 to strip the wires and the cutting assembly 3 to cut the wires with the stripped wrapping layers. Through the wire casing, the wires such as power lines and data lines can be arranged in a standard manner.

The above embodiments of the present disclosure have the following advantages: through the automatic wire stripping equipment of some embodiments of this disclosure, can realize automatic wire stripping and automatic tangent line simultaneously, improve the machining efficiency of wire. Specifically, the reason why the conventional wire stripping device is inefficient in processing the wire is that: only include the wire stripping device, not include tangent line device, can't realize automatic wire stripping and automatic tangent line simultaneously. Based on this, the automatic wire stripping apparatus of some embodiments of the present disclosure includes a feed delivery assembly, a laser wire stripping assembly, and a cutting assembly. Wherein, above-mentioned material loading conveying assembly includes the spool. In the working state, the wire with the wrapping layer is wound on the spool. The laser wire stripping assembly is arranged in a first preset direction of the feeding and conveying assembly. The laser wire stripping assembly comprises a conveying mechanism and at least one laser head. In the working state, the transmission mechanism is used for transmitting the conducting wire. The at least one laser head is used for stripping a part of the wrapping layer of the lead. The cutting assembly is arranged in a second preset direction of the laser wire stripping assembly. The cutting assembly comprises an air cylinder mechanism and a cutter. The cylinder mechanism comprises a cylinder and a cylinder base. The cutting knife is movably arranged on the cylinder base. In the working state, the cutter is used for cutting off the lead with the part of the wrapping layer stripped. Because the laser wire stripping assembly comprises at least one laser head and the at least one laser head can strip part of the wrapping layer of the lead, automatic wire stripping can be realized. And the cutting assembly comprises an air cylinder mechanism and a cutter, and the cutter can cut off the lead with the wrapping layer of the stripped part, so that automatic cutting can be realized. Therefore, the automatic wire stripping equipment can simultaneously realize automatic wire stripping and automatic wire cutting, and improves the processing efficiency of wires.

Fig. 3 is a schematic diagram of alternate embodiments of an automatic wire stripping apparatus according to the present disclosure. Fig. 2 includes a feeding conveying component 1, a laser wire stripping component 2, a cutting component 3, a conveying mechanism 4, a damper 5, a first straightening conveying mechanism 6, a second straightening conveying mechanism 7, a conveying table 8, a receiving hopper 9 and a pneumatic triple piece 10.

In some embodiments, the above-described feeding conveyor assembly 1 may further comprise a damper 5. The damper 5 may be disposed between the spool and the laser wire stripping assembly 2. Here, the specific position where the damper 5 is provided is not limited. For example, the damper 5 may be disposed intermediate the spool and the laser wire stripping assembly 2. In the operating state, the wire on the bobbin may pass through the damper 5. The damper 5 described above can reduce the vibration of the wire when the wire moves. Therefore, the bobbin can be stably fed through the damper.

In some embodiments, the above-described feeding conveyor assembly 1 may further comprise a first straightening conveyor 6. The first straightening and conveying mechanism 6 may be a mechanism for straightening and conveying a wire. The first straightening transfer mechanism 6 may be located between the damper 5 and the laser wire stripping assembly, and in an operating state, the wire on the spool may pass through the damper 5 and the first straightening transfer mechanism 6. Thus, the wire can be straightened by the first straightening transmission mechanism, thereby preventing the wire from being bent.

Alternatively, the first straightening conveyor 6 may comprise a first conveyor wheel set and a second conveyor wheel set. The first transfer roller set may be located above the second transfer roller set. In an operating state, the wires with the wrapping layer may be positioned between the first conveying wheel set and the second conveying wheel set. The first transfer wheel set may be a row of transfer wheels located above the first straightening transfer mechanism 6. The second transfer wheel set may be a row of transfer wheels located below the first straightening transfer mechanism 6. Here, the specific number of transfer wheels included in the first transfer wheel group and the second transfer wheel group is not limited. Therefore, when the conducting wire passes between the first conveying wheel set and the second conveying wheel set, the conducting wire can be straightened.

Alternatively, the first transfer wheel group may include four transfer wheels. The second transfer wheel group may include five transfer wheels. Each transfer wheel of the first transfer wheel set may be located at a middle position above two transfer wheels corresponding to the transfer wheel of the second transfer wheel set. It is understood that the four transfer wheels of the first transfer wheel group and the five transfer wheels of the second transfer wheel group are arranged in a crossing manner. Thereby, the wire can be further prevented from being bent.

In some embodiments, a second straightening conveyor 7 may be provided between the laser wire stripping assembly 2 and the cutting assembly 3. The second straightening conveyor 7 may include a third conveying wheel set and a fourth conveying wheel set. The third transfer wheel set may include one of the transfer wheels. The fourth transfer wheel group may include two of the transfer wheels. The second straightening and conveying mechanism 7 may be a mechanism for straightening and conveying the stripped wire. The third transfer wheel set may be a row of transfer wheels above the second straightening transfer mechanism 7. The fourth transfer wheel set may be a row of transfer wheels located below the second straightening transfer mechanism 7. One of the third conveying wheel set is located at the middle position above the fourth conveying wheel set. It is to be understood that one transfer wheel of the third transfer wheel group and two transfer wheels of the fourth transfer wheel group may be arranged to cross. In an operating state, the wire stripped of the wrapping layer by the laser wire stripping assembly 2 can pass through between the third conveying wheel set and the fourth conveying wheel set in the second straightening conveying mechanism 7. Therefore, the wires with the stripped wrapping layers can be straightened and conveyed through the second straightening and conveying mechanism. Thereby preventing the stripped wire from bending.

In some embodiments, a transfer table 8 may be provided between the second straightening conveyor 7 and the cutting assembly 3. The conveying table 8 is provided with a motor and a wire guide wheel. In the operating state, the wire passing through the second straightening conveyor 7 passes through the wire guide wheel on the conveyor table 8. The motor can provide power for the rotation of the wire guide wheel. Therefore, the wire guide wheel can rotate under the action of power provided by the motor, so that the wire is conveyed.

In some embodiments, a receiving hopper 9 may be disposed below the cutting blade 6. The receiving hopper 9 may be a hopper for sliding the cut wire to a predetermined device. Here, the specific type of the preset device is not limited. For example, the preset device may be a hopper. Therefore, the cut wires can slide to the preset device through the material receiving hopper.

In some embodiments, two receiving boxes may be disposed below the receiving hopper 9. The two receiving boxes can be grooves for bearing the cut wires. In the working state, when the wires are stripped by 10 mm and 4 mm alternately and the specific length of the cut wires is 60 mm, one of the two material receiving boxes is used for bearing the wires with the front ends stripped by 5 mm and the rear ends stripped by 2 mm. The other receiving box of the two receiving boxes is used for carrying the lead with the front end stripped by 2 mm and the rear end stripped by 5 mm. Therefore, the two material receiving boxes can bear the wires with different lengths of the coating layers stripped at the front end and the rear end, and therefore the wires are convenient to store.

In some embodiments, a pneumatic triplet 10 may be provided below the cutting assembly 3. The pneumatic triple 10 consists of a filter, a pressure reducing valve and an oil atomizer. Thus, impurities in the compressed air can be filtered by the filter. The pressure of the cylinder can be controlled by a pressure reducing valve. The automatic wire stripping equipment can be lubricated by the oil atomizer.

The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the disclosure in the embodiments of the present disclosure is not limited to the particular combination of the above-described features, but also encompasses other embodiments in which any combination of the above-described features or their equivalents is possible without departing from the scope of the present disclosure. For example, the above features and (but not limited to) technical features with similar functions disclosed in the embodiments of the present disclosure are mutually replaced to form the technical solution.

Claims (10)

1. An automatic wire stripping device is characterized by comprising a feeding and conveying assembly, a laser wire stripping assembly and a cutting assembly, wherein,

the feeding and conveying assembly comprises a spool, and a lead with a wrapping layer is wound on the spool in a working state;

the laser wire stripping assembly is arranged in a first preset direction of the feeding and conveying assembly and comprises a conveying mechanism and at least one laser head, wherein in a working state, the conveying mechanism is used for conveying a lead, and the at least one laser head is used for stripping a part of a wrapping layer of the lead;

the cutting assembly is arranged in a second preset direction of the laser wire stripping assembly and comprises an air cylinder mechanism and a cutter, the air cylinder mechanism comprises an air cylinder and an air cylinder base, the cutter is movably arranged on the air cylinder base, and the cutter is used for cutting off the wires with the wrapping layers partially stripped under the working state.

2. The automatic wire stripping apparatus of claim 1, wherein said feed delivery assembly further includes a damper disposed between said spool and said laser wire stripping assembly.

3. The automatic wire stripping apparatus of claim 2, wherein said feed delivery assembly further includes a first straightening conveyor mechanism.

4. The automatic wire stripping apparatus of claim 3, wherein said first straightening conveyor comprises a first conveyor wheel set and a second conveyor wheel set, said first conveyor wheel set being located above said second conveyor wheel set, and in an operational state, said conductor with the coating layer being located between said first conveyor wheel set and said second conveyor wheel set.

5. The automatic wire stripping apparatus of claim 4, wherein said first set of transfer wheels includes four transfer wheels, said second set of transfer wheels includes five said transfer wheels, and each transfer wheel of said first set of transfer wheels is located at an intermediate position above two transfer wheels of said second set of transfer wheels corresponding to said transfer wheels.

6. The automatic wire stripping apparatus of claim 5, wherein a second straightening conveyor is provided between said laser wire stripping assembly and said cutting assembly, said second straightening conveyor comprising a third conveyor wheel set and a fourth conveyor wheel set, said third conveyor wheel set comprising one said conveyor wheel, said fourth conveyor wheel set comprising two said conveyor wheels.

7. The automatic wire stripping apparatus of claim 6, wherein a transfer table is disposed between said second straightening conveyor and said cutting assembly, said transfer table having a motor and a wire guide wheel disposed thereon.

8. The automatic wire stripping apparatus of claim 1, wherein a receiving hopper is provided below said cutter.

9. The automatic wire stripping apparatus of claim 8, wherein two receiving bins are provided below said receiving bin.

10. The automatic wire stripping apparatus of claims 1-9, wherein a pneumatic triplet is provided below said cutting assembly.

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