A wire and cable stripping and terminal crimping integrated apparatus

By designing an integrated wire and cable stripping and terminal stamping equipment, and utilizing control mechanisms for wire depth, wire clamping, stripping, and clamping, precise wire stripping and descaling of cables are achieved. This solves the shortcomings of existing equipment in terms of cutting depth control and adaptability, and improves production efficiency and processing quality.

CN224384768UActive Publication Date: 2026-06-19XIAMEN JINKAIWEI ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN JINKAIWEI ELECTRONICS CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing equipment has difficulty in accurately controlling the cutting depth and length during wire stripping, resulting in damage to the cable core or incomplete stripping of the outer sheath. Furthermore, the equipment has poor adaptability and cannot quickly adjust the stripping parameters, affecting the cable's conductivity and production efficiency.

Method used

An integrated wire and cable stripping and terminal stamping device was designed, comprising a wire depth control mechanism, a wire clamping mechanism, a stripping mechanism, and a clamping mechanism. The cutting depth and clamping force are precisely controlled by a drive motor, an electric push rod, and a hydraulic system to achieve automated wire stripping and descaling operations.

Benefits of technology

It improves the quality and precision of wire stripping, reduces manual intervention, lowers the labor intensity of workers, enhances the stability and environmental performance of equipment, and ensures the accuracy and production efficiency of cable processing.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The application relates to the technical field of wire terminal crimping, and discloses a wire cable stripping and connecting terminal stamping integrated equipment which comprises a table plate, a pedestal, a wire clamping mechanism, a peeling mechanism, a control line depth mechanism, a peeling mechanism and a peeling mechanism. By setting the control line depth mechanism, the driving motor drives the rotating shaft and the threaded rod to rotate, and the moving plate moves on the threaded rod, thereby adjusting the position of the control plate, the cutting depth of the cutting blade can be precisely controlled in a blocking mode, and the screw can be set according to the specifications and requirements of different wire cables, the control plate can be flexibly disassembled and replaced to adjust the stripping depth of the wire cable, the wire core is prevented from being damaged due to excessive stripping, and the stripping is not complete due to insufficient stripping, the quality and precision of the stripping are improved, and the wire cable can be symmetrically and uniformly clamped by adopting two first electric push rods.
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Description

Technical Field

[0001] This application relates to the field of wire terminal crimping technology, specifically to an integrated equipment for wire and cable stripping and terminal crimping. Background Technology

[0002] Wires and cables are wire products used to transmit electrical (magnetic) energy, information, and realize the conversion of electromagnetic energy. In a broad sense, wires and cables are also simply referred to as cables. In a narrow sense, cables refer to insulated cables, which can be defined as: an assembly consisting of one or more insulated conductors, and their respective possible coverings, overall protective layers, and outer sheaths. Cables may also have additional uninsulated conductors.

[0003] However, some existing equipment struggles to precisely control the cutting depth and length during wire stripping. Cutting too deeply can damage the internal cores, often resulting in some cores being cut off or damaged during the stripping of multi-core cables, affecting the cable's conductivity and lifespan. Cutting too shallowly fails to completely strip the outer sheath, requiring manual secondary processing and reducing production efficiency. Furthermore, the equipment lacks adaptability to different specifications and materials of wires and cables, failing to quickly adjust stripping parameters, leading to unstable stripping results. To address these issues, an integrated wire and cable stripping and terminal stamping device is proposed. Utility Model Content

[0004] To address the shortcomings of existing technologies, this application provides an integrated equipment for stripping wires and cables and stamping connecting terminals, which has the advantages of precise control of cutting depth and compatibility with various cable specifications, thus solving the problems mentioned in the background technology.

[0005] To achieve the above objectives, this application provides the following technical solution: an integrated device for stripping wires and cables and stamping connecting terminals, comprising a platform, a base, a wire clamping mechanism, a stripping mechanism, a wire depth control mechanism, a stripping mechanism, and a clamping mechanism. The wire depth control mechanism includes a fixed box fixedly connected to the top of the base. A drive motor is fixedly mounted on the top of the fixed box via a mounting plate. Bearings are fixedly connected to both the top and bottom of the fixed box. A rotating shaft is rotatably connected inside each of the two bearings. One end of one rotating shaft is fixedly connected to the output shaft of the drive motor. A threaded rod is fixedly connected to one end of each of the two rotating shafts. A movable plate is threadedly connected to the surface of the threaded rod. A control plate overlaps the top of the movable plate. Screws are threadedly connected to the inside of the movable plate and the control plate. Slider blocks are fixedly connected to both sides of the movable plate. Slide grooves are formed on both sides of the inner wall of the fixed box, and the sliders are slidably connected within the slide grooves.

[0006] The above scheme, through the setting of a control depth mechanism, enables the drive motor to rotate the shaft and threaded rod, and moves the moving plate on the threaded rod, thereby adjusting the position of the control plate. This allows for precise, stop-and-go control of the cutting depth of the cutting blade. Combined with the screw settings, the control plate can be flexibly disassembled and replaced according to different wire and cable specifications and requirements to adjust the wire and cable stripping depth. This avoids damage to the cable core due to excessive stripping or incomplete stripping due to insufficient sheathing, improving the quality and accuracy of stripping. Furthermore, the wire clamping mechanism, using two first electric push rods, achieves symmetrical and uniform clamping of the wire and cable, preventing displacement or shaking during stripping and stamping processes. Furthermore, to avoid damage to the cable sheath due to excessive clamping force, a stripping mechanism is installed. After the cable is fixed by the clamping mechanism, the control system automatically extends the second electric push rod, driving the cutting blade to cut the cable sheath. The entire process requires no manual intervention, reducing manpower input, improving production efficiency, and reducing the labor intensity of workers. It also avoids the errors and instability caused by manual operation. By setting up a stripping mechanism and a clamping mechanism, the stripped cable sheath can be clamped and separated from the core. The powerful thrust ensures that even thicker and more tightly adhered sheaths can be successfully stripped. Compared with other transmission methods, it can complete the stripping action more stably, ensuring the stripping effect and avoiding the impact of sheath residue on subsequent processing.

[0007] Furthermore, a base is fixedly connected to the top of the platform, and a punch-down terminal body is fixedly installed on the top of the base.

[0008] Through the above scheme, the platform, as the basic component of the equipment, has a large load-bearing capacity and stability. The base is fixedly connected to the platform, further enhancing the structural strength and stability of the equipment. The wire-punch terminal body is installed on the top of the base, so that the wire-punch terminal body can remain stable during the operation of the equipment, ensuring the accuracy and quality of the stamping of the wire and cable connection terminals. During the stamping operation, the stable basic structure can reduce the vibration of the equipment and improve the accuracy of processing.

[0009] Furthermore, the wire clamping mechanism includes two first electric push rods fixedly installed inside the base, and one end of each of the two first electric push rods is fixedly connected to a wire clamping plate.

[0010] With the above scheme, the two first electric push rods are symmetrically arranged, which can apply a uniform clamping force to the wires and cables, ensuring that the cables are stable and do not wobble during processing. The electric push rods can be precisely adjusted in length and clamping force according to the cable specifications. This can not only firmly fix the cable and prevent it from shifting during stripping and stamping, but also avoid damaging the cable sheath due to excessive force. For example, when processing small-diameter electronic cables, the electric push rods can be finely adjusted to output a smaller clamping force to achieve gentle and stable fixation.

[0011] Furthermore, the peeling mechanism includes two second electric push rods fixedly installed inside the base. One end of each of the two second electric push rods is fixedly connected to a fixing block, and the top of each of the two fixing blocks is fixedly connected to a cutting blade.

[0012] With the above solution, the two second electric push rods can be controlled independently and precisely, and the positions of the fixing block and the cutting blade can be precisely adjusted. This allows the cutting blade to be accurately aligned with the outer sheath of the wire and cable, and precise positioning can be achieved regardless of the diameter of the cable, ensuring the accuracy of the cutting position.

[0013] Furthermore, the peeling mechanism includes a hydraulic cylinder fixedly installed inside the wire bonding terminal body, a hydraulic rod fixedly installed inside the hydraulic cylinder, and a support plate fixedly connected to one end of the hydraulic rod.

[0014] Through the above scheme, the hydraulic system can precisely control the extension and retraction displacement of the hydraulic rod. By adjusting the hydraulic pressure and flow, the distance the support plate is pushed out can be precisely adjusted according to the specifications and stripping requirements of different cables. Whether it is a short-distance slight stripping or a long-distance complete removal of the outer sheath, it can be accurately controlled, improving the accuracy of the stripping operation, avoiding over-stripping or under-stripping, and ensuring the quality of cable processing.

[0015] Furthermore, the skin clamping mechanism includes two fixed plates fixedly installed on the side of the support plate. A third electric push rod is fixedly installed on both sides of the two fixed plates. One end of each of the two third electric push rods is fixedly connected to a skin clamping plate. A rubber pad is provided on the surface of each of the two skin clamping plates.

[0016] With the above solution, two fixed plates, together with four third electric push rods, can apply clamping force to the cable sheath from multiple directions to form a stable clamping structure. The third electric push rods can precisely control their extension and retraction, and flexibly adjust the clamping force according to the thickness and material of the sheath to ensure that the sheath will not fall off or slip during subsequent processing. The rubber pads increase the friction between the rubber pads and the sheath, while avoiding damage to the sheath. When processing thin and easily damaged cable sheaths, the rubber pads can firmly clamp the cable without causing surface scratches or damage.

[0017] Furthermore, a waste trough is provided on the top of the platform, and a sealing plate is movably connected to the side of the platform via a hinge. Magnetic blocks are provided on both the sealing plate and the side of the platform, and there are four magnetic blocks in total. A fixing column is fixedly connected to the side of the sealing plate.

[0018] The above design incorporates a waste trough on the top of the platform, which directly collects waste materials generated during wire stripping and scrap materials produced during stamping. The trough's location is strategically designed for easy waste collection and prevents it from scattering around the equipment, maintaining a clean working environment. A hinged sealing plate on the side facilitates easy cleaning of the trough. When waste accumulates to a certain level, simply opening the sealing plate allows for easy removal. The fixing posts on the sealing plate facilitate opening and closing, making operation convenient and quick. Magnetic blocks on the sealing plate and the platform side effectively ensure the waste trough's seal. During operation, the sealing plate tightly adheres to the platform side, preventing waste splashing or dust leakage, protecting internal components, reducing pollution to the working environment, and improving the equipment's environmental performance.

[0019] Furthermore, a baffle is fixedly installed on the side of the fixed box by studs.

[0020] Through the above solution, the baffle can effectively block external debris, dust and other contaminants from entering the fixed box, protecting the internal precision components such as the drive motor, threaded rod, and slider, and preventing these components from being worn or jammed due to the intrusion of debris, thus extending the service life of the equipment and ensuring the stability and reliability of the equipment operation.

[0021] Compared with the prior art, the technical solution of this application has the following beneficial effects:

[0022] This integrated wire and cable stripping and terminal stamping equipment features a wire depth control mechanism. A drive motor rotates a shaft and threaded rod, moving a movable plate along the threaded rod to adjust the control plate's position. This allows for precise, stop-and-go control of the cutting depth. The screw mechanism allows for flexible disassembly and replacement of the control plate to adjust the stripping depth according to different wire and cable specifications and requirements. This prevents damage to the cable core from excessive stripping or incomplete sheath removal from insufficient stripping, improving stripping quality and precision. Furthermore, a clamping mechanism using two first electric push rods provides symmetrical and uniform clamping of the wire and cable, preventing damage during stripping and stamping. To prevent displacement or shaking, and to avoid damage to the cable sheath due to excessive clamping force, a stripping mechanism is installed. After the cable is fixed by the clamping mechanism, the control system automatically controls the extension of the second electric push rod, which drives the cutting blade to cut the cable sheath. The entire process requires no manual intervention, reducing manpower input, improving production efficiency, and reducing the labor intensity of workers. It also avoids the errors and instability caused by manual operation. By setting up a stripping mechanism and a clamping mechanism, the stripped cable sheath can be clamped and separated from the core. The powerful thrust ensures that even thicker and more tightly adhered sheaths can be successfully stripped. Compared with other transmission methods, it can complete the stripping action more stably, ensuring the stripping effect and avoiding the impact of sheath residue on subsequent processing. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the overall front view structure of this application;

[0024] Figure 2 This is a side cross-sectional structural diagram of the wire clamping mechanism, the stripping mechanism and the control line depth mechanism in this application;

[0025] Figure 3 This is a top cross-sectional view of the peeling mechanism and the skin clamping mechanism in this application.

[0026] Figure 4 for Figure 1 Enlarged structural diagram at point A in the middle;

[0027] Figure 5 for Figure 2 Enlarged structural diagram at point B;

[0028] Figure 6 for Figure 3 Enlarged structural diagram at point C.

[0029] In the picture:

[0030] 1. Platform; 2. Base; 3. Terminal block body; 4. Wire clamping mechanism; 401. First electric push rod; 402. Wire clamping plate; 5. Stripping mechanism; 501. Second electric push rod; 502. Fixing block; 503. Cutting blade; 6. Wire depth control mechanism; 601. Fixing box; 602. Drive motor; 603. Bearing; 604. Shaft; 605. Threaded rod; 606. Moving plate; 607. Screw; 608. Control board; 609. Slide groove; 6010. Slider; 7. Peeling mechanism; 701. Hydraulic cylinder; 702. Hydraulic rod; 703. Support plate; 8. Wire clamping mechanism; 801. Fixing plate; 802. Third electric push rod; 803. Wire clamping plate; 804. Rubber pad; 9. Waste trough; 10. Sealing plate; 11. Magnetic block; 12. Fixing column; 13. Baffle; 14. Stud. Detailed Implementation

[0031] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0032] Please see Figure 1 , Figure 2 and Figure 5This embodiment of an integrated wire and cable stripping and terminal stamping device includes a platform 1, a base 2, a wire clamping mechanism 4, a stripping mechanism 5, a wire depth control mechanism 6, a stripping mechanism 7, and a clamping mechanism 8. The wire depth control mechanism 6 includes a fixed box 601 fixedly connected to the top of the base 2. A drive motor 602 is fixedly mounted on the top of the fixed box 601 via a mounting plate. Bearings 603 are fixedly connected to both the top and bottom of the fixed box 601. A rotating shaft 604 is rotatably connected inside each of the two bearings 603. One end of one rotating shaft 604 is fixedly connected to the output shaft of the drive motor 602. A threaded rod 605 is fixedly connected to one end of both rotating shafts 604. A movable plate 606 is threadedly connected to the surface of the threaded rod 605. A control plate 608 overlaps the top of the movable plate 606. The movable plate 606 and the control plate 608 are connected in series. The internal threaded connection of plate 8 is screw 607. Sliders 6010 are fixedly connected to both sides of the moving plate 606. Slide grooves 609 are opened on both sides of the inner wall of the fixed box 601. The slides 6010 are slidably connected in the slide grooves 609. By setting the control depth mechanism 6, the drive motor 602 can drive the rotating shaft 604 and the threaded rod 605 to rotate, and the moving plate 606 can move on the threaded rod 605, thereby adjusting the position of the control plate 608. It can accurately control the cutting depth of the cutting blade 503 by blocking. With the setting of screw 607, the control plate 608 can be flexibly disassembled and replaced according to the specifications and requirements of different wires and cables to adjust the stripping depth of the wires and cables. This avoids damage to the cable core due to excessive stripping or incomplete stripping due to insufficient stripping, thus improving the quality and accuracy of stripping.

[0033] Please see Figure 1 and Figure 2 A base 2 is fixedly connected to the top of the platform 1, and a terminal block body 3 is fixedly installed on the top of the base 2. The platform 1, as the foundation component of the equipment, has a large load-bearing capacity and stability. The base 2, fixedly connected to the platform 1, further enhances the structural strength and stability of the equipment. The terminal block body 3 is installed on the top of the base 2, ensuring its stability during operation and guaranteeing the accuracy and quality of the wire and cable connection terminal stamping. During stamping operations, the stable foundation structure reduces equipment vibration and improves processing accuracy. The wire clamping mechanism 4 includes components fixedly installed on the platform... The first electric push rod 401 inside the seat 2 consists of two rods, one end of which is fixedly connected to a clamping plate 402. The two first electric push rods 401 are symmetrically arranged, which can apply a uniform clamping force to the wires and cables, ensuring that the cables are stable and do not wobble during processing. The electric push rods can be precisely adjusted in length and clamping force according to the cable specifications. This not only firmly fixes the cable and prevents displacement during stripping and stamping, but also avoids damage to the cable sheath due to excessive force. For example, when processing small-diameter electronic cables, the electric push rods can be finely adjusted to output a smaller clamping force to achieve gentle and stable fixation.

[0034] Please see Figure 1 , Figure 2 and Figure 3 The stripping mechanism 5 includes two second electric push rods 501 fixedly installed inside the base 2. One end of each second electric push rod 501 is fixedly connected to a fixing block 502, and the top of each fixing block 502 is fixedly connected to a cutting blade 503. The two second electric push rods 501 can be independently and precisely controlled, allowing for precise adjustment of the positions of the fixing blocks 502 and the cutting blades 503. This ensures that the cutting blades 503 can accurately align with the outer sheath of the wire or cable, achieving precise positioning regardless of cable diameter variations, thus guaranteeing accurate cutting. The stripping mechanism 7 includes... The system includes a hydraulic cylinder 701 fixedly installed inside the terminal block body 3. A hydraulic rod 702 is fixedly installed inside the hydraulic cylinder 701. One end of the hydraulic rod 702 is fixedly connected to a support plate 703. The hydraulic system can precisely control the extension and retraction displacement of the hydraulic rod 702. By adjusting the hydraulic pressure and flow, the distance pushed out by the support plate 703 can be precisely adjusted according to the specifications and stripping requirements of different cables. Whether it is a short-distance slight stripping or a long-distance complete removal of the outer sheath, it can be accurately controlled, improving the accuracy of the stripping operation, avoiding over-stripping or under-stripping, and ensuring the quality of cable processing.

[0035] Please see Figure 1 , Figure 3 , Figure 4 and Figure 6The cable sheath clamping mechanism 8 includes two fixed plates 801 fixedly installed on the side of the support plate 703. A third electric push rod 802 is fixedly installed on both sides of each fixed plate 801. One end of each third electric push rod 802 is fixedly connected to a clamping plate 803. Rubber pads 804 are provided on the surface of each clamping plate 803. The two fixed plates 801, in conjunction with the four third electric push rods 802, can apply clamping force to the cable sheath from multiple directions, forming a stable clamping structure. The third electric push rods 802 can be precisely controlled to extend and retract, flexibly adjusting the clamping force according to the thickness and material of the sheath to ensure... The outer sheath will not detach or slip during subsequent processing. The rubber pad 804 increases the friction between the rubber pad and the outer sheath while preventing damage. When processing thin, easily damaged cable sheaths, the rubber pad 804 can firmly clamp the sheath without causing surface scratches or damage. A waste trough 9 is provided on the top of the platform 2. A sealing plate 10 is movably connected to the side of the platform 2 via hinges. Magnetic blocks 11 are provided on both the sealing plate 10 and the side of the platform 2. There are four magnetic blocks 11. A fixing post 12 is fixedly connected to the side of the sealing plate 10. The waste trough 9 on the top of the platform 2 can directly collect the outer sheath waste generated during the wire stripping process. The waste trough 9 is rationally designed to accommodate scrap materials generated during the stamping process, facilitating their fall and collection and preventing them from scattering around the equipment, thus maintaining a clean working environment. The sealing plate 10, connected by hinges on the side, makes cleaning the waste trough 9 simple and easy. When the waste in the waste trough 9 accumulates to a certain level, opening the sealing plate 10 allows for easy cleaning. The fixing posts 12 on the sealing plate 10 facilitate opening and closing by operators, making operation convenient and quick. The magnetic blocks 11 on the side of the sealing plate 10 and the base 2 effectively ensure the sealing of the waste trough 9 during equipment operation. The sealing plate 10 fits tightly against the side of the base 2 to prevent waste from splashing or dust from leaking from the waste trough 9. This not only protects the internal components of the equipment but also reduces pollution to the working environment and improves the environmental performance of the equipment. The side of the fixed box 601 is fixedly installed with a baffle 13 by studs 14. The baffle 13 can effectively block external debris, dust and other objects from entering the fixed box 601, protecting the internal precision components such as the drive motor 602, threaded rod 605, and slider 6010. This prevents these components from being worn or jammed due to the intrusion of debris, extends the service life of the equipment, and ensures the stability and reliability of the equipment operation.

[0036] This embodiment of an integrated wire and cable stripping and terminal stamping device features a wire depth control mechanism 6. This mechanism enables the drive motor 602 to rotate the shaft 604 and threaded rod 605, and the moving plate 606 to move on the threaded rod 605. This allows for adjustment of the position of the control plate 608, providing precise, stop-and-go control of the cutting depth of the cutting blade 503. The screws 607, combined with the ability to flexibly disassemble and replace the control plate 608 to adjust the stripping depth according to different wire and cable specifications and requirements, prevents damage to the cable core due to excessive stripping or incomplete sheath removal due to insufficient stripping, thus improving the quality and precision of the stripping. Furthermore, the wire clamping mechanism 4, utilizing two first electric push rods 401, allows for symmetrical stripping of the wire and cable. The cable sheath is evenly clamped to prevent displacement or shaking during stripping and stamping, and to avoid damage to the cable sheath due to excessive clamping force. By setting the stripping mechanism 5, after the cable is fixed by the clamping mechanism 4, the control system automatically controls the second electric push rod 501 to extend and drive the cutting blade 503 to cut the cable sheath. The whole process does not require manual intervention, reducing manpower input, improving production efficiency, reducing the labor intensity of workers, and avoiding errors and instability caused by manual operation. By setting the stripping mechanism 7 and the clamping mechanism 8, the stripped cable sheath can be clamped and separated from the core. The strong thrust can ensure that even thicker and more tightly adhered sheaths can be stripped smoothly. Compared with other transmission methods, it can complete the stripping action more stably, ensure the stripping effect, and avoid the sheath residue affecting subsequent processing.

[0037] The working principle of the above embodiment is as follows: First, the two first electric push rods 401 in the wire clamping mechanism 4 are activated, pushing the wire clamping plate 402 to move towards the cable direction, firmly clamping the wire and cable placed on the base 2. Through the precise control of the first electric push rods 401, the clamping force can be adjusted according to the cable specifications to ensure that the cable will not be displaced during subsequent processing.

[0038] Then, the drive motor 602 of the control line depth mechanism 6 operates, driving the rotating shaft 604 fixedly connected to the output shaft to rotate. Since the two rotating shafts 604 are connected by the threaded rod 605, the rotating threaded rod 605 causes the threaded moving plate 606 to move on the threaded rod 605. The sliders 6010 on both sides of the moving plate 606 slide in the grooves 609 on the inner wall of the fixed box 601, ensuring that the moving plate 606 moves smoothly. Subsequently, the control plate 608 overlapping the top of the moving plate 606 is moved to the horizontal position of the cutting blade 503.

[0039] Then, the two second electric push rods 501 of the stripping mechanism 5 are activated, pushing the fixed block 502 and the cutting blade 503 on it closer to the cable sheath. According to the diameter of the cable and the material of the sheath, the feed amount of the cutting blade 503 is controlled by the second electric push rods 501 to cut the cable sheath. During the cutting, the cable is precisely cut by the blocking force of the cutting blade 503 by the control board 608, preventing the cable core from being damaged by excessive stripping or the sheath from being incompletely stripped due to insufficient stripping.

[0040] Then, the hydraulic cylinder 701 of the stripping mechanism 7 operates, driving the hydraulic rod 702 to extend. The support plate 703 at one end of the hydraulic rod 702 pushes out the cut cable sheath. Then, the third electric push rod 802 on the two fixed plates 801 of the clamping mechanism 8 is activated, driving the clamping plate 803 to move towards the cable sheath. The rubber pad 804 on the surface of the clamping plate 803 increases the friction with the sheath, which can firmly clamp the pushed-out cable sheath. Subsequently, the hydraulic cylinder 701 operates again to detach the sheath from the wire and cable.

[0041] Finally, the detached outer skin will fall into the waste tank 9. When the waste in the waste tank 9 accumulates to a certain extent, the sealing plate 10 connected by the side hinge of the base 2 will be sealed by the adsorption of the magnetic block 11. When it is necessary to clean the waste, the sealing plate 10 can be opened through the fixing post 12 on the side of the sealing plate 10 to easily remove the waste.

[0042] When crimping terminals, the terminal body 3, which is fixedly installed on the top of the stand 2, performs a terminal crimping operation on the cable after the wire and cable have been stripped and de-insulated. If wires and cables of different specifications are stripped and crimped later, the control board 608 can be removed by unscrewing the screw 607. Then, the control board 608 that meets the specifications can be installed and the operation can continue for the next wire and cable.

[0043] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0044] Although embodiments of this application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of this application, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A wire cable stripping and connecting terminal punching integrated device, comprising a table board (1), a pedestal (2), a wire clamping mechanism (4), a stripping mechanism (5), a wire depth control mechanism (6), a stripping mechanism (7) and a stripping mechanism (8), characterized in that: The control line depth mechanism (6) includes a fixed box (601) fixedly connected to the top of the base (2). A drive motor (602) is fixedly mounted on the top of the fixed box (601) via a mounting plate. Bearings (603) are fixedly connected to both the top and bottom of the fixed box (601). A rotating shaft (604) is rotatably connected inside each of the two bearings (603). One end of one rotating shaft (604) is fixedly connected to the output shaft of the drive motor (602), and one end of both rotating shafts (604) is fixedly connected to... A threaded rod (605) is provided, and a movable plate (606) is threadedly connected to the surface of the threaded rod (605). A control plate (608) is attached to the top of the movable plate (606). Screws (607) are threadedly connected to the inside of the movable plate (606) and the control plate (608). Slider blocks (6010) are fixedly connected to both sides of the movable plate (606). Slide grooves (609) are provided on both sides of the inner wall of the fixed box (601). The sliders (6010) are slidably connected in the slide grooves (609).

2. The wire and cable stripping and connecting terminal stamping integrated apparatus of claim 1, wherein: The top of the platform (1) is fixedly connected to a base (2), and the top of the base (2) is fixedly installed with a punch-down terminal body (3).

3. The integrated wire and cable stripping and terminal stamping equipment according to claim 1, characterized in that: The wire clamping mechanism (4) includes two first electric push rods (401) fixedly installed inside the base (2), and one end of each of the two first electric push rods (401) is fixedly connected to a wire clamping plate (402).

4. The integrated wire and cable stripping and terminal stamping equipment according to claim 1, characterized in that: The peeling mechanism (5) includes two second electric push rods (501) fixedly installed inside the base (2). One end of each of the two second electric push rods (501) is fixedly connected to a fixing block (502), and the top of each of the two fixing blocks (502) is fixedly connected to a cutting blade (503).

5. The integrated wire and cable stripping and terminal stamping equipment according to claim 2, characterized in that: The peeling mechanism (7) includes a hydraulic cylinder (701) fixedly installed inside the wire bonding terminal body (3). A hydraulic rod (702) is fixedly installed inside the hydraulic cylinder (701), and a support plate (703) is fixedly connected to one end of the hydraulic rod (702).

6. The integrated wire and cable stripping and terminal stamping equipment according to claim 1, characterized in that: The skin clamping mechanism (8) includes two fixing plates (801) fixedly installed on the side of the support plate (703). Two fixing plates (801) are fixedly installed on both sides of the two fixing plates (801). One end of each of the two third electric push rods (802) is fixedly connected to a skin clamping plate (803). The surface of each of the two skin clamping plates (803) is provided with a rubber pad (804).

7. The integrated wire and cable stripping and terminal stamping equipment according to claim 1, characterized in that: The top of the pedestal (2) is provided with a waste trough (9), and the side of the pedestal (2) is movably connected to a sealing plate (10) via a hinge. Both the sealing plate (10) and the side of the pedestal (2) are provided with magnetic blocks (11), and there are four magnetic blocks (11). The side of the sealing plate (10) is fixedly connected to a fixing column (12).

8. The integrated wire and cable stripping and terminal stamping equipment according to claim 1, characterized in that: A baffle (13) is fixedly installed on the side of the fixed box (601) by studs (14).