Wire dual-end terminal crimping integrated device
By designing an integrated double-end terminal crimping equipment for wires, and employing two terminal pressing devices and front and rear wire stripping and feeding devices, the equipment enables simultaneous terminal crimping at both ends of the wires, solving the problem of low efficiency in existing technologies and improving production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN RIYAN PRECISION MASCH CO LTD
- Filing Date
- 2025-06-06
- Publication Date
- 2026-06-05
AI Technical Summary
Existing single-head terminal crimping machines can only perform single-head stamping on wires and cannot efficiently complete double-head terminal crimping, resulting in low work efficiency and wasted production resources.
Design an integrated double-end terminal crimping device for wires, comprising two terminal crimping devices and front and rear wire stripping and feeding devices, to achieve synchronous terminal crimping at both ends of the wire. The wires are moved by the front and rear wire stripping and feeding devices to complete the double-end terminal crimping in one go.
It enables efficient processing of double-ended terminal blocks for wires, avoiding the need for two separate processing steps, significantly improving production efficiency, and is suitable for various double-ended terminal block equipment.
Smart Images

Figure CN224329051U_ABST
Abstract
Description
Technical fields:
[0001] This utility model relates to the field of wire processing technology, and specifically to an integrated device for double-ended terminal crimping of wires. Background technology:
[0002] Currently, the use of wires is increasing, and the variety of types is also growing. As the lifespan of electrical equipment increases, the requirements for wire quality are also rising, leading to a surge in demand. In the production process, it is often necessary to combine wires of different thicknesses and then crimp them together with terminals to meet specific applications. Such combined wires are convenient to use and have a long service life. Initially, the production of these combined wires was done manually, using terminal pliers to rivet terminals to the same end of two different wires. However, this method was inefficient, labor-intensive, and produced unsatisfactory quality, gradually failing to meet the demands of mass production. It was eventually replaced by automatic terminal crimping machines.
[0003] Many common cables on the market (such as data cables, signal cables, etc.) require double-ended terminal crimping, and often different terminals are used at each end. However, most terminal crimping machines on the market can only perform single-ended terminal crimping. For example, Chinese invention patent application CN112700588A discloses a single-ended terminal crimping machine, which includes a base, a wire feeding device, a rotating mechanism, a terminal crimping mechanism, and a stripping device. It mainly uses a mounting block set in the rotating mechanism and a pressure rod assembly that makes the mounting block swing downward. During the stamping process, the wire on the mounting block can move downward and fit against the terminal, thus reducing or even eliminating the gap between the terminal and the end of the wire.
[0004] However, this existing single-head terminal pressing machine still has the following shortcomings:
[0005] In simple terms, this technical solution involves using a wire feeding device to transport the wire to a stripping device for cutting and stripping, and then using a terminal pressing mechanism to stamp the terminals. However, this method can only stamp terminals on a single end of the wire. For wires that require double-ended terminal stamping, the wire must be transferred to another machine for secondary stamping after one end is stamped. This not only results in low work efficiency but also wastes production resources.
[0006] In view of the above, the inventors propose the following technical solution. Utility model content:
[0007] The purpose of this utility model is to overcome the shortcomings of the existing technology and provide an integrated device for double-ended terminal crimping of wires.
[0008] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: an integrated double-ended terminal crimping device for wires, comprising: a chassis; a wire straightening device disposed on one side of the chassis for straightening wires; a cutting device disposed on the chassis for cutting and stripping wires; a front stripping and feeding device movably disposed between the wire straightening device and the cutting device for feeding wires; a first terminal crimping device disposed beside the cutting device for crimping terminals on the front end of the wires; a rear stripping and feeding device movably disposed behind the cutting device for feeding wires; and a second terminal crimping device disposed on the chassis for crimping terminals on the rear end of the wires.
[0009] Furthermore, in the above technical solution, the wire straightening device includes a straightening frame horizontally fixed to the chassis, an inlet pipe disposed at the front end of the straightening frame for wire to pass through, a first straightening group horizontally disposed on the straightening frame for horizontal straightening of the wire, a second straightening group vertically disposed on the straightening frame for vertical straightening of the wire, and a ceramic eye plate disposed between the first straightening group and the second straightening group for supporting the wire. The first straightening group has multiple first V-groove bearings staggeredly distributed for straightening the wire, and the second straightening group has multiple second V-groove bearings staggeredly distributed for straightening the wire.
[0010] Furthermore, in the above technical solution, the cutting device includes a servo motor disposed inside the chassis, a bidirectional lead screw tractor connected to the output shaft of the servo motor, a blade holder support plate vertically disposed on the chassis, a first slide rail disposed on the blade holder support plate, a first sliding blade holder and a second sliding blade holder slidably disposed on the first slide rail, an upper cutting blade assembly disposed on the first sliding blade holder for cutting and stripping the wire, a lower cutting blade assembly disposed on the second sliding blade holder for cutting and stripping the wire, a wire support frame disposed on the blade holder support plate for supporting the wire, and a wire sheathing suction mechanism disposed below the lower cutting blade assembly for collecting the wire sheath.
[0011] Furthermore, in the above technical solution, the skin suction mechanism includes a skin suction device disposed in the machine housing and a falling channel connected to the skin suction device and extending to the bottom of the lower cutting blade assembly; the blade holder support plate is inverted L-shaped, and a first bearing is disposed at the upper end of the blade holder support plate, and the upper end of the bidirectional lead screw is inserted into the first bearing.
[0012] Furthermore, in the above technical solution, the front stripping and feeding device includes a first sliding motor mounted on the chassis, a first feeding screw tractor tractably connected to the output shaft of the first sliding motor, a first feeding slide rail slider mounted on the chassis and parallel to the first feeding screw, a first feeding seat tractably mounted on the first feeding slide rail slider and tractably connected to the first feeding screw, a connecting tube mounted on the first feeding seat for receiving wire, a first feeding drive motor mounted on the first feeding seat, a first feeding pair of wheels and a second feeding pair of wheels mounted on the first feeding seat and tractably connected to the first feeding drive motor, and a first feeding nozzle mounted on the first feeding seat for feeding wire to the cutting device.
[0013] Furthermore, in the above technical solution, the first terminal pressing device includes a first terminal machine body disposed on the chassis, a first terminal mold detachably disposed at the lower end of the first terminal machine body, a first stamping rod disposed on the first terminal machine body for stamping terminals, and a first waste channel disposed at the lower end of the first terminal machine body for discharging waste.
[0014] Furthermore, in the above technical solution, the post-stripping and conveying device includes a second sliding motor disposed in the housing, a second wire feeding screw tractor ...
[0015] Furthermore, in the above technical solution, the second conveying clamp is disposed on the third wire feeding slide rail slider. When the second wire feeding drive motor drives the third lead screw to move, it drives the third wire feeding slide rail slider to slide and causes the second conveying clamp to extend and retract.
[0016] Furthermore, in the above technical solution, the second terminal pressing device includes a second terminal machine body disposed on the chassis, a second terminal mold detachably disposed at the lower end of the second terminal machine body, a second stamping rod disposed on the second terminal machine body for stamping terminals, and a second waste channel disposed at the lower end of the second terminal machine body for discharging waste.
[0017] Furthermore, in the above technical solution, the chassis is movably provided with a control device for controlling the equipment. The control device includes a first fixed arm fixed to the chassis, a first swing arm swayably disposed on the first fixed arm, a first rotating seat disposed at the end of the first swing arm, a first hinge seat hinged to the first rotating seat, a first damping member disposed at the hinge between the first rotating seat and the first hinge seat, and a control panel disposed on the first hinge seat.
[0018] After adopting the above technical solution, the present invention has the following beneficial effects compared with the prior art: In the present invention, by setting two terminal crimping devices on the chassis to realize the crimping of both ends of the wire, and by using a front stripping and feeding device and a rear stripping and conveying device to carry the wire, after one end of the wire is crimped at the first terminal crimping device, it is then transferred by the front stripping and feeding device to the rear stripping and conveying device, and then carried and moved by the rear stripping and conveying device to the second terminal crimping device for crimping. Thus, the crimping of both ends of the wire is completed in one go, avoiding the need for two processing steps for a single wire, greatly improving the processing efficiency, and is suitable for widespread application in various double-end terminal equipment. Attached image description:
[0019] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;
[0020] Figure 2 This is a top view of the present invention;
[0021] Figure 3 This is a schematic diagram of the wire straightening device in this utility model;
[0022] Figure 4 This is a schematic diagram of the front stripping and feeding device in this utility model;
[0023] Figure 5 This is a schematic diagram of the cutting device in this utility model;
[0024] Figure 6 This is a schematic diagram of the post-stripping and conveying device in this utility model;
[0025] Figure 7 This is a schematic diagram of the control device in this utility model;
[0026] Figure 8 This is a schematic diagram of the structure of the first terminal pressing device in this utility model;
[0027] Figure 9 This is a schematic diagram of the structure of the second terminal pressing device in this utility model;
[0028] Figure 10This is a schematic diagram of the combined structure of the upper cutting blade group and the lower cutting blade group in this utility model. Detailed implementation method:
[0029] The present invention will be further described below with reference to specific embodiments and accompanying drawings.
[0030] See Figures 1 to 10 As shown, this is an integrated double-ended terminal crimping device for wires, comprising: a chassis 1; a wire straightening device 2, which is disposed on one side of the chassis 1 and used to straighten the wire; a cutting device 3, which is disposed on the chassis 1 and used to cut and strip the wire; a front stripping and feeding device 4, which is movably disposed between the wire straightening device 2 and the cutting device 3 and used to feed the wire; a first terminal crimping device 5, which is disposed beside the cutting device 3 and used to crimp the front end of the wire; a rear stripping and feeding device 6, which is movably disposed behind the cutting device 3 and used to feed the wire; and a second terminal crimping device 7, which is disposed on the chassis 1 and used to crimp the rear end of the wire.
[0031] In this invention, two terminal crimping devices are installed on the chassis 1 to perform terminal crimping on both ends of the wire. The wire is moved by the front stripping and feeding device 4 and the rear stripping and conveying device 6. After one end of the wire is crimped at the first terminal crimping device 5, it is transferred by the front stripping and feeding device 4 to the rear stripping and conveying device 6, and then carried and moved by the rear stripping and conveying device 6 to the second terminal crimping device 7 for terminal crimping. This achieves terminal crimping of both ends of the wire in one operation, avoiding the need for two processing steps for a single wire, greatly improving processing efficiency, and is suitable for widespread application in various double-end terminal crimping equipment.
[0032] In this embodiment, since the wire is generally stored in rolls, it needs to be straightened before being fed into the equipment. During the straightening process, it is generally rolled straightened from different directions. Specifically, the wire straightening device 2 includes a straightening frame 21 horizontally fixed on the chassis 1, an inlet tube 22 disposed at the front end of the straightening frame 21 for wire to pass through, a first straightening group 23 horizontally disposed on the straightening frame 21 for horizontal straightening of the wire, a second straightening group 24 vertically disposed on the straightening frame 21 for vertical straightening of the wire, and a ceramic eye plate 25 disposed between the first straightening group 23 and the second straightening group 24 for supporting the wire. The first straightening group 23 has multiple first V-groove bearings 26 staggeredly distributed for straightening the wire, and the second straightening group 24 has multiple second V-groove bearings 27 staggeredly distributed for straightening the wire. Preferably, the first V-groove bearing 26 and the second V-groove bearing 27 are perpendicular to each other.
[0033] Before crimping the terminals, the wire needs to be cut and stripped. Therefore, a cutting device 3 is set between the front stripping and feeding device 4 and the rear stripping and conveying device 6 to cut and strip the wire. Specifically, the cutting device 3 includes a servo motor 31 installed inside the housing 1, a bidirectional lead screw 32 that can be driven to the output shaft of the servo motor 31, a knife holder support plate 33 vertically installed on the housing 1, a first slide rail 34 installed on the knife holder support plate 33, a first sliding knife holder 35 and a second sliding knife holder 36 that can be slidably installed on the first slide rail 34, an upper cutting knife group 37 installed on the first sliding knife holder 35 for cutting and stripping the wire, a lower cutting knife group 38 installed on the second sliding knife holder 36 for cutting and stripping the wire, a wire support frame 39 installed on the knife holder support plate 33 for supporting the wire, and a wire suction mechanism 30 installed below the lower cutting knife group 38 for collecting the wire sheath. Here, the bidirectional lead screw 32 is a common bidirectional lead screw on the market. The first sliding tool holder 35 is sleeved on the upper end of the bidirectional lead screw 32, and the second sliding tool holder 36 is sleeved on the lower end of the bidirectional lead screw 32. The texture of the upper end and the lower end of the bidirectional lead screw 32 are opposite, so that when the servo motor 31 drives the bidirectional lead screw 32 to rotate, the first sliding tool holder 35 and the second sliding tool holder 36 will move in opposite directions, thereby realizing the opening and closing actions of the upper cutting tool group 37 and the lower cutting tool group 38.
[0034] In addition, combined Figure 10 As shown, the upper cutting blade assembly 37 includes an upper cutting blade seat 371 fixed to the first sliding blade holder 35, an upper front peeling blade 372 disposed on the upper cutting blade seat 371, an upper middle cutting blade 373 disposed on the upper cutting blade seat 371, and an upper rear peeling blade 374 disposed on the upper cutting blade seat 371. The upper middle cutting blade 373 is longer than the upper front peeling blade 372 and the upper rear peeling blade 374 and is located between them. The lower cutting blade assembly 38 includes a lower cutting blade seat 381 fixed to the second sliding blade holder 36, a blocking piece 385 disposed on the lower cutting blade seat 381 and used to prevent the upper cutting blade seat 381 from being pressed down excessively, a lower front peeling blade 382 disposed below the lower cutting blade seat 381, and a lower front peeling blade 382 disposed below the lower cutting blade seat 381. The lower center cutting blade 383 and the lower rear stripping blade 384 are located under the lower cutting blade holder 381. The lower center cutting blade 383 is longer than the lower front stripping blade 382 and the lower rear stripping blade 384 and is located between them. When the upper cutting blade group 37 and the lower cutting blade group 38 are closed, the upper center cutting blade 373 and the lower center cutting blade 383 will cut the wire due to their longer length. In addition, the upper front stripping blade 372 and the lower front stripping blade 382 will cut off the wire insulation at the front end of the wire, and the upper rear stripping blade 374 and the lower rear stripping blade 384 will cut off the wire insulation at the rear end of the previous section of the wire. This process is repeated, and the cut wire insulation is discharged through the suction mechanism 30.
[0035] The suction mechanism 30 includes a suction device 301 disposed within the housing 1 and a falling channel 302 connected to the suction device 301 and extending below the lower cutting blade assembly 38. The blade holder support plate 33 is inverted L-shaped, and a first bearing 331 is disposed at the upper end of the blade holder support plate 33. The upper end of the bidirectional lead screw 32 is inserted into the first bearing 331. Here, the falling channel 302 is located below the lower cutting blade assembly 38. The suction device 301 can generate downward airflow, allowing the cut wire insulation to fall downward through the falling channel 302, ensuring the cleanliness of the equipment interior and preventing accidental malfunctions. In addition, the upper end of the bidirectional lead screw 32 is connected to the blade holder support plate 33 via the first bearing 331.
[0036] The front stripping and feeding device 4 includes a first sliding motor 41 mounted on the housing 1, a first feeding screw 42 tractably connected to the output shaft of the first sliding motor 41, a first feeding slide rail slider A mounted on the housing 1 and parallel to the first feeding screw 42, a first feeding seat 44 slidably mounted on the first feeding slide rail slider A and tractably connected to the first feeding screw 42, a connecting tube 45 mounted on the first feeding seat 44 for receiving wire, a first feeding drive motor 46 mounted on the first feeding seat 44, a first feeding pair of wheels 47 and a second feeding pair of wheels 48 mounted on the first feeding seat 44 and tractably connected to the first feeding drive motor 46, and a first feeding nozzle 49 mounted on the first feeding seat 44 for feeding wire to the cutting device 3. Here, the first feeding seat 44 is driven by the first sliding motor 41 to slide back and forth along the first feeding slide rail slider A, and can carry the wire back and forth between the cutting device 3 and the first terminal pressing device 5.
[0037] Specifically, after the cutting device 3 cuts and strips the wire, the first sliding motor 41 drives the first wire feeding seat 44 to slide to the first terminal pressing device 5, where the first terminal pressing device 5 performs terminal crimping. After the terminal is crimped, the first wire feeding seat 44 carries the wire with the terminal crimped end back to the cutting device 3. Then, the first wire feeding roller 47 and the second wire feeding roller 48 drive the wire to the rear stripping and conveying device 6. After reaching a preset length, the cutting device 3 cuts and strips the wire (simultaneously stripping the rear end of the first section and the front end of the second section). The rear stripping and conveying device 6 then carries the wire to the second terminal pressing device 7 for terminal crimping of the rear end, and this process is repeated. This invention significantly improves the efficiency of wire processing by using two terminal pressing devices to crimp the ends of the wire.
[0038] The post-stripping and conveying device 6 includes a second sliding motor 61 disposed within the housing 1, a second wire feeding screw 62 tractably connected to the output shaft of the second sliding motor 61, two sets of second wire feeding slide rail sliders B disposed on the housing 1 and parallel to the second wire feeding screw 62, a second wire feeding seat 64 slidably disposed on the second wire feeding slide rail sliders B and tractably connected to the second wire feeding screw 62, a second conveying clamp 65 disposed on the second wire feeding seat 64 and used for clamping the wire, a second wire feeding drive motor 66 disposed on the second wire feeding seat 64, a third screw 67 connected to the output end of the second wire feeding drive motor 66, and a third wire feeding slide rail slider C connected to the third screw 67. The second conveying clamp 65 is disposed on the third wire feeding slide rail slider C. When the second wire feeding drive motor 66 drives the third screw 67 to move, it drives the third wire feeding slide rail slider C to slide and causes the second conveying clamp 65 to extend and retract.
[0039] The first terminal pressing device 5 includes a first terminal pressing body 51 mounted on the housing 1, a first terminal mold 52 detachably mounted on the lower end of the first terminal pressing body 51, a first pressing rod 54 mounted on the first terminal pressing body 51 for pressing terminals, and a first waste channel 53 mounted on the lower end of the first terminal pressing body 51 for discharging waste. Here, when the wire stripping and feeding device 4 moves the wire to the first terminal mold 52, the first pressing rod 54 moves downward to cooperate with the first terminal mold 52 to complete the terminal pressing. In addition, the first terminal mold 52 can be replaced according to the wire to be processed, effectively enhancing the applicability of the equipment.
[0040] The second terminal pressing device 7 includes a second terminal pressing machine body 71 mounted on the housing 1, a second terminal mold 72 detachably mounted on the lower end of the second terminal pressing machine body 71, a second stamping rod 74 mounted on the second terminal pressing machine body 71 for pressing terminals, and a second waste channel 73 mounted on the lower end of the second terminal pressing machine body 71 for discharging waste. Here, the second terminal pressing device 7 has a basically the same structure as the first terminal pressing device 5, and can be referred to the first terminal pressing device 5; further details will not be provided here.
[0041] The chassis 1 is movably equipped with a control device 8 for controlling the equipment. The control device 8 includes a first fixed arm 81 fixed to the chassis 1, a first swing arm 82 swayably mounted on the first fixed arm 81, a first rotating seat 83 located at the end of the first swing arm 82, a first hinge seat 84 hinged to the first rotating seat 83, a first damping member 85 located at the hinge between the first rotating seat 83 and the first hinge seat 84, and a control panel 86 located on the first hinge seat 84. Here, the movable control panel 86 allows the operator to move the control panel 86 to a position that is easy to observe and operate, making the operation more convenient for the operator.
[0042] In summary, this utility model achieves terminal crimping at both ends of the wire by setting two terminal crimping devices on the chassis 1. The wire is carried and moved by the front stripping and feeding device 4 and the rear stripping and conveying device 6. After one end of the wire is crimped at the first terminal crimping device 5, it is transferred by the front stripping and feeding device 4 to the rear stripping and conveying device 6, and then carried and moved by the rear stripping and conveying device 6 to the second terminal crimping device 7 for crimping. This achieves terminal crimping at both ends of the wire in one operation, avoiding the need for two processing steps for a single wire, greatly improving processing efficiency, and is suitable for widespread application in various double-end terminal crimping equipment.
[0043] Of course, the above description is only a specific embodiment of the present utility model and is not intended to limit the scope of the present utility model. All equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model should be included in the scope of the claims of the present utility model.
Claims
1. An integrated device for double-ended terminal crimping of wires, characterized in that, include: Chassis (1); A wire straightening device (2) is installed on one side of the chassis (1) and is used to straighten the wire; A cutting device (3) is mounted on the chassis (1) and is used to cut and strip the wire; A front stripping and feeding device (4) is movably disposed between the wire straightening device (2) and the cutting device (3) and is used to transport wires; The first terminal crimping device (5) is located next to the cutter device (3) and is used to crimp the terminals of the wire front end; The post-stripping conveying device (6) is movably disposed behind the cutting device (3) and is used to convey wire; The second terminal crimping device (7) is mounted on the chassis (1) and is used to crimp the ends of the wires.
2. The integrated double-ended terminal crimping device for wires according to claim 1, characterized in that: The wire straightening device (2) includes a straightening frame (21) fixed horizontally on the chassis (1), an inlet pipe (22) disposed at the front end of the straightening frame (21) for wire to pass through, a first straightening group (23) disposed horizontally on the straightening frame (21) for horizontal straightening of the wire, a second straightening group (24) disposed vertically on the straightening frame (21) for vertical straightening of the wire, and a ceramic eye plate (25) disposed between the first straightening group (23) and the second straightening group (24) for supporting the wire. The first straightening group (23) has a plurality of first V-groove bearings (26) for straightening the wire distributed in a staggered manner, and the second straightening group (24) has a plurality of second V-groove bearings (27) for straightening the wire distributed in a staggered manner.
3. The integrated device for double-ended terminal crimping of wires according to claim 1, characterized in that: The cutting device (3) includes a servo motor (31) installed inside the housing (1), a bidirectional lead screw (32) tractably connected to the output shaft of the servo motor (31), a blade holder support plate (33) vertically installed on the housing (1), a first slide rail (34) installed on the blade holder support plate (33), a first sliding blade holder (35) and a second sliding blade holder (36) slidably installed on the first slide rail (34), an upper cutting blade assembly (37) installed on the first sliding blade holder (35) for cutting and stripping the wire, a lower cutting blade assembly (38) installed on the second sliding blade holder (36) for cutting and stripping the wire, a wire support frame (39) installed on the blade holder support plate (33) for supporting the wire, and a wire suction mechanism (30) installed below the lower cutting blade assembly (38) for collecting the wire sheath.
4. The integrated device for double-ended terminal crimping of wires according to claim 3, characterized in that: The skin suction mechanism (30) includes a skin suction device (301) disposed in the housing (1) and a falling channel (302) connected to the skin suction device (301) and extending to the lower cutter group (38); the blade holder support plate (33) is in the shape of an inverted L, and a first bearing (331) is provided at the upper end of the blade holder support plate (33), and the upper end of the bidirectional lead screw (32) is inserted into the first bearing (331).
5. A wire double-ended terminal crimping integrated device according to any one of claims 1-4, characterized in that: The front stripping and feeding device (4) includes a first sliding motor (41) mounted on the housing (1), a first feeding screw (42) tractably connected to the output shaft of the first sliding motor (41), a first feeding slide rail slider (A) mounted on the housing (1) and parallel to the first feeding screw (42), a first feeding seat (44) slidably mounted on the first feeding slide rail slider (A) and tractably connected to the first feeding screw (42), a connecting tube (45) mounted on the first feeding seat (44) for receiving wire, a first feeding drive motor (46) mounted on the first feeding seat (44), a first feeding pair (47) and a second feeding pair (48) mounted on the first feeding seat (44) and tractably connected to the first feeding drive motor (46), and a first feeding nozzle (49) mounted on the first feeding seat (44) for feeding wire to the cutting device (3).
6. The integrated device for double-ended terminal crimping of wires according to claim 5, characterized in that: The first terminal pressing device (5) includes a first terminal machine body (51) disposed on the chassis (1), a first terminal mold (52) disposed at the lower end of the first terminal machine body (51), a first punching rod (54) disposed on the first terminal machine body (51) and used for punching terminals, and a first waste channel (53) disposed at the lower end of the first terminal machine body (51) and used for discharging waste.
7. The integrated device for double-ended terminal crimping of wires according to claim 5, characterized in that: The post-stripping and conveying device (6) includes a second sliding motor (61) disposed in the housing (1), a second wire feeding screw (62) tractably connected to the output shaft of the second sliding motor (61), two sets of second wire feeding slide rail sliders (B) disposed on the housing (1) and parallel to the second wire feeding screws (62), a second wire feeding seat (64) slidably disposed on the second wire feeding slide rail sliders (B) and tractably connected to the second wire feeding screws (62), a second conveying clamp (65) disposed on the second wire feeding seat (64) and used for clamping the wire, a second wire feeding drive motor (66) disposed on the second wire feeding seat (64), a third screw (67) connected to the output end of the second wire feeding drive motor (66), and a third wire feeding slide rail slider (C) connected to the third screw (67).
8. The integrated device for double-ended terminal crimping of wires according to claim 7, characterized in that: The second conveying clamp (65) is mounted on the third wire feeding slide rail slider (C). When the second wire feeding drive motor (66) drives the third lead screw (67) to move, it causes the third wire feeding slide rail slider (C) to slide and the second conveying clamp (65) to extend and retract.
9. The integrated device for double-ended terminal crimping of wires according to claim 5, characterized in that: The second terminal pressing device (7) includes a second terminal press body (71) disposed on the chassis (1), a second terminal mold (72) disposed at the lower end of the second terminal press body (71), a second punching rod (74) disposed on the second terminal press body (71) and used for punching terminals, and a second waste channel (73) disposed at the lower end of the second terminal press body (71) and used for discharging waste.
10. The integrated device for double-ended terminal crimping of wires according to claim 1, characterized in that: The chassis (1) is provided with a control device (8) for controlling the equipment in a movable manner. The control device (8) includes a first fixed arm (81) fixed to the chassis (1), a first swing arm (82) swingably disposed on the first fixed arm (81), a first rotating seat (83) disposed at the end of the first swing arm (82), a first hinge seat (84) hinged to the first rotating seat (83), a first damping member (85) disposed at the hinge between the first rotating seat (83) and the first hinge seat (84), and a control panel (86) disposed on the first hinge seat (84).