CN117718725A

CN117718725A - Combined machining device for wire pliers

Info

Publication number: CN117718725A
Application number: CN202311520602.5A
Authority: CN
Inventors: 徐实现
Original assignee: Xuzhou Wanzhuo Hardware Tool Manufacturing Co ltd
Current assignee: Xuzhou Wanzhuo Hardware Tool Manufacturing Co ltd
Priority date: 2023-11-14
Filing date: 2023-11-14
Publication date: 2024-03-19

Abstract

The invention discloses a combined machining device for a wire cutter, which relates to the technical field of combined machining equipment, and discloses a combined machining chamber, wherein two driving belts are rotatably arranged in the combined machining chamber, a plurality of positioning mechanisms are fixedly arranged on the driving belts, each positioning mechanism comprises a positioning frame, two adjusting clamps are slidably arranged on each positioning frame, two rotating driving belts are arranged in the combined machining chamber, a plurality of positioning mechanisms are arranged on each driving belt, automatic assembly of two handles can be completed, manual assembly is not needed, the degree of automation is high, a replacement frame is arranged in the combined machining chamber, a plurality of side pushing assemblies and electromagnets are arranged on the replacement frame, automatic rivet installation can be completed through matching of a hot pressing plate and a hot pressing die carrier, a cooling fan and the two handles can move in the same direction at the same speed after rivet installation, air cooling can be synchronously completed, the continuity of the whole wire cutter in the machining process is high, and a plurality of groups of handles can be simultaneously combined for machining.

Description

Combined machining device for wire pliers

Technical Field

The invention relates to the technical field of combined machining equipment, in particular to a combined machining device for a wire pliers.

Background

The wire pliers are called vice, parallel pliers and comprehensive pliers, and are tools capable of clamping hard thin wires and are different in variety. Wire cutters are commonly used in the process, industry and life. The wire cutting pliers are formed by combining and processing two pliers handles.

In the combined machining process of the wire pliers, two pliers handles are assembled together manually, rivets are installed on the wire pliers through a hot press, the rivets are subjected to air cooling treatment through a fan after the rivets are installed, and finally the pliers handles are placed into an antirust agent for antirust treatment. The multiple processing steps in the whole combined processing process are matched with operators, and when the fans are cooled by air, the fans can be continuously kept in a strong-air-force gear in order to ensure the cooling effect of the rivets, so that the cooling speed of the rivets is ensured, but higher power loss is caused.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a combined machining device for a wire cutting pliers.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the combined machining device for the wire pliers comprises a combined machining chamber, wherein two transmission belts are rotatably arranged in the combined machining chamber, a plurality of positioning mechanisms are fixedly arranged on the transmission belts, each positioning mechanism comprises a positioning frame, and two adjusting clamps are slidably arranged on each positioning frame;

the combined processing chamber is internally provided with a replacement frame in a rotating way, a plurality of side pushing assemblies are fixedly arranged on the replacement frame, one side of each side pushing assembly is provided with an electromagnet, each side pushing assembly is used for driving the electromagnet to move, the electromagnet with the rivet adsorbed thereon moves to one side of two clamp handles, then the corresponding side pushing assembly drives the electromagnet to move, the electromagnet is used for mounting the rivet on the two clamp handles, then the electromagnet is closed, and the electromagnet is used for eliminating the adsorption of the rivet;

the top of the outer wall of the combined processing chamber is fixedly provided with a lifting assembly, a lifting frame is arranged below the lifting assembly and used for driving the lifting frame to lift, a hot pressing die frame is fixedly arranged on the lifting frame, a hot pressing plate is slidably arranged on the lifting frame, the installation assembly is started, the installation assembly drives a second screw rod to rotate, the second screw rod drives the hot pressing plate to horizontally move, and the hot pressing plate is matched with the hot pressing die frame to heat and press rivets on two clamp handles, so that the rivet is installed;

a cooling frame is arranged on one side of the lifting frame, a cooling fan is slidably arranged on the cooling frame, a cooling detection head is fixedly arranged on one side of the cooling fan, and a soaking chamber is fixedly arranged at the bottom of the outer wall of the combined processing chamber;

the cooling detection head comprises a temperature detection module and an air cooling adjustment module, wherein the temperature detection module is used for continuously collecting the temperature of rivets on the basis of a fixed time interval, marking the collected temperature as a detection temperature, sequencing the detection temperature according to the sequence of the collection time, and the air cooling adjustment module is used for adjusting the wind power gear of a cooling fan and specifically comprises the following steps: and carrying out difference calculation on the adjacent later detected temperature and the previous detected temperature to obtain temperature variation, setting each temperature variation to correspond to one standard variation, comparing the temperature variation with the standard variation, marking the temperature variation as target variation when the temperature variation is larger than or equal to the standard variation, obtaining a target value Fb, marking the temperature variation as disappointed variation when the temperature variation is smaller than the standard variation, obtaining a disappointed value Pm, obtaining an air cooling adjustment value Hj, setting an air cooling adjustment low value as Ve, setting an air cooling adjustment high value as Sg, downwards adjusting the cooling fan wind power gear by one gear when the air cooling adjustment value Hj is larger than or equal to the air cooling adjustment high value Sg, not adjusting the cooling fan wind power gear when the air cooling adjustment low value Ve is smaller than or equal to the air cooling adjustment high value Sg, and upwards adjusting the cooling fan wind power gear when the air cooling adjustment value Hj is smaller than the air cooling adjustment low value Ve.

Further, two first driving wheels and two second driving wheels are rotatably arranged in the combined processing chamber, the two first driving wheels and the two second driving wheels are in one-to-one correspondence, and the first driving wheels and the second driving wheels are in transmission connection through a driving belt.

Further, fixed chassis is fixedly installed to combination processing chamber outer wall bottom, two drive gears are installed to fixed chassis rotation, two drive gears intermesh, two drive gears and two first drive wheels one-to-one, drive gear coaxial coupling first drive wheel, fixed chassis internal fixation has drive assembly, drive assembly is used for driving drive gear rotation, and drive assembly drives drive gear rotation, and two drive gears coaxial drive two first drive wheels rotate, and first drive wheel cooperation second drive wheel drives the drive belt and rotates, and the drive belt drives a plurality of positioning mechanism and removes.

Further, rotate on the locating rack and install first lead screw, first lead screw both ends screw thread face is the symmetry setting along the middle part, two regulation presss from both sides of first lead screw both ends threaded connection, fixed mounting has adjusting part on the locating rack, adjusting part is used for driving first lead screw rotation, opens adjusting part, and adjusting part drives first lead screw rotation, and first lead screw drives two regulation and presss from both sides and remove in opposite directions, and then the regulation presss from both sides and carry out the centre gripping to the pincers handle, and then two positioning mechanism accomplish the fixed to two pincers handles.

Further, the second lead screw is rotatably arranged on the lifting frame, the second lead screw is in threaded connection with the hot pressing plate, the mounting assembly is fixedly arranged on the lifting frame and used for driving the second lead screw to rotate, the replacement assembly is fixedly arranged on the outer wall of the combined processing chamber and arranged on one side of the replacement frame, and the replacement assembly is used for driving the replacement frame to rotate.

Further, the third lead screw is rotatably arranged on the cooling frame and is in threaded connection with the cooling fan, the synchronous component is fixedly arranged on the cooling frame and is used for driving the third lead screw to rotate, and a feed inlet is formed in one side of the combined processing chamber.

Further, the target value Fb is obtained by: and carrying out difference calculation on the target variation and the standard variation to obtain a target variation value, carrying out summation treatment on all target variation values of the rivet to obtain a target variation total difference value Cy, obtaining the total number Mn of the rivet temperature variation marked as the target variation, and obtaining a target value Fb by using a formula Fb=Cyxa1+Mn x a2, wherein a1 is a target variation total difference coefficient, and a2 is a target variation number coefficient.

Further, the disappointing value Pm is obtained by the following steps: and carrying out difference calculation on the standard variation and the disappointing variation to obtain a disappointing variation value, carrying out summation treatment on all disappointing variation values of the rivet to obtain a disappointing total difference Ge, obtaining the total times Wb of the temperature variation mark of the rivet as disappointing variation, and obtaining the disappointing value Pm by using a formula Pm=Ge×b1+Wb×b2, wherein b1 is a disappointing total difference coefficient and b2 is a disappointing variation times coefficient.

Further, the air cooling adjustment value Hj is obtained through the following steps: using the formulaAnd obtaining an air cooling adjustment value Hj, wherein c1 is a target value coefficient, and c2 is a disappointing value coefficient.

Compared with the prior art, the invention has the following beneficial effects:

1. the automatic assembling of the two clamp handles can be completed by arranging two rotating driving belts in the combined processing chamber and arranging a plurality of positioning mechanisms on the driving belts, manual assembling treatment is not needed, the degree of automation is high, a replacement frame is arranged in the combined processing chamber, a plurality of side pushing assemblies and electromagnets are arranged on the replacement frame, automatic rivet installation can be completed through the cooperation of the hot pressing plate and the hot pressing die frame, a cooling fan and the two clamp handles move in the same speed and the same direction after rivet installation, air cooling can be synchronously completed, the continuity of the whole processing process of the wire clamp is high, a plurality of groups of clamp handles can be simultaneously combined for processing, and the processing efficiency is high;

2. the cooling detection head is arranged, the wind power gear of the cooling fan can be adjusted according to the acquisition record of the temperature of the rivet, and the electric power loss caused by continuously maintaining the strong wind power gear of the cooling fan is avoided on the basis of ensuring the rapid cooling of the rivet.

Drawings

FIG. 1 is a schematic view of a combined machining device for a wire cutter;

FIG. 2 is a schematic view of the structure of the replacement rack according to the present invention;

FIG. 3 is a schematic view of a belt according to the present invention;

FIG. 4 is a schematic view of a positioning mechanism according to the present invention;

FIG. 5 is an internal construction view of the combined processing chamber of the present invention;

FIG. 6 is a schematic view of a structure of a lifting frame according to the present invention;

FIG. 7 is an internal structural view of the stationary chassis of the present invention;

fig. 8 is a schematic block diagram of an air-cooling adjusting module according to the present invention.

100. A combined processing chamber; 101. a feed inlet; 102. a first driving wheel; 103. a second driving wheel; 1031. a transmission belt; 104. a positioning mechanism; 105. a positioning frame; 106. an adjustment assembly; 107. a first lead screw; 108. an adjustment clamp; 109. fixing the underframe; 110. a transmission gear; 111. a transmission assembly; 200. replacing the assembly; 201. replacing the rack; 202. a side pushing assembly; 203. an electromagnet; 300. a lifting assembly; 301. a lifting frame; 302. a mounting assembly; 303. a hot pressing plate; 304. hot pressing the die carrier; 400. a cooling rack; 401. a synchronization component; 402. a cooling fan; 403. cooling the detection head; 500. a soaking chamber.

Detailed Description

Example 1

Referring to fig. 1 to 7, a combined machining device for a wire cutter comprises a combined machining chamber 100, wherein two driving belts 1031 are rotatably installed in the combined machining chamber 100, two first driving wheels 102 and two second driving wheels 103 are rotatably installed in the combined machining chamber 100, the two first driving wheels 102 are in one-to-one correspondence with the two second driving wheels 103, and the first driving wheels 102 are in driving connection with the second driving wheels 103 through the driving belts 1031. The bottom of the outer wall of the combined processing chamber 100 is fixedly provided with a fixed underframe 109, two transmission gears 110 are rotatably arranged on the fixed underframe 109, the two transmission gears 110 are meshed with each other, the two transmission gears 110 are in one-to-one correspondence with the two first transmission wheels 102, the transmission gears 110 are coaxially connected with the first transmission wheels 102, a transmission assembly 111 is fixedly arranged in the fixed underframe 109, the transmission assembly 111 can be a motor or a rotary cylinder, and the transmission assembly 111 is used for driving the transmission gears 110 to rotate. The driving belt 1031 is fixedly provided with a plurality of positioning mechanisms 104, the positioning mechanisms 104 comprise positioning frames 105, and the positioning frames 105 are slidably provided with two adjusting clamps 108. The locating rack 105 is gone up and is rotated and install first lead screw 107, and the screw plane is the symmetry setting along the middle part at first lead screw 107 both ends, and two regulation clamp 108 of first lead screw 107 both ends threaded connection are gone up fixed mounting and are had adjusting component 106 on the locating rack 105, and adjusting component 106 can be motor, gyration cylinder, and adjusting component 106 is used for driving first lead screw 107 rotation. Two rotating transmission belts 1031 are arranged in the combined processing chamber 100, and a plurality of positioning mechanisms 104 are arranged on the transmission belts 1031, so that automatic assembly of two clamp handles can be completed, manual assembly processing is not needed, and the degree of automation is high.

A replacement frame 201 is rotatably installed in the combined processing chamber 100, a plurality of side pushing assemblies 202 are fixedly installed on the replacement frame 201, the side pushing assemblies 202 can be cylinders or oil cylinders, an electromagnet 203 is arranged on one side of each side pushing assembly 202, and the side pushing assemblies 202 are used for driving the electromagnets 203 to move. The top of the outer wall of the combined processing chamber 100 is fixedly provided with a lifting assembly 300, the lifting assembly 300 can be an air cylinder and an oil cylinder, a lifting frame 301 is arranged below the lifting assembly 300, the lifting assembly 300 is used for driving the lifting frame 301 to lift, the lifting frame 301 is fixedly provided with a hot pressing die frame 304, and the lifting frame 301 is provided with a hot pressing plate 303 in a sliding manner. A cooling frame 400 is arranged at one side of the lifting frame 301, a cooling fan 402 is slidably arranged on the cooling frame 400, and a soaking chamber 500 is fixedly arranged at the bottom of the outer wall of the combined processing chamber 100. The second lead screw is rotatably arranged on the lifting frame 301, the second lead screw is in threaded connection with the hot pressing plate 303, the mounting assembly 302 is fixedly arranged on the lifting frame 301, the mounting assembly 302 can be a motor and a rotary cylinder, the mounting assembly 302 is used for driving the second lead screw to rotate, the replacement assembly 200 is fixedly arranged on the outer wall of the combined processing chamber 100, the replacement assembly 200 is arranged on one side of the replacement frame 201, and the replacement assembly 200 is used for driving the replacement frame 201 to rotate. A third screw is rotatably mounted on the cooling frame 400, the third screw is in threaded connection with the cooling fan 402, a synchronizing assembly 401 is fixedly mounted on the cooling frame 400, the synchronizing assembly 401 is used for driving the third screw to rotate, and a feeding port 101 is formed in one side of the combined machining chamber 100. The replacement frame 201 is arranged in the combined processing chamber 100, the plurality of side pushing assemblies 202 and the electromagnets 203 are arranged on the replacement frame 201, automatic rivet installation can be completed through matching of the hot pressing plate 303 and the hot pressing die frame 304, after rivet installation, the cooling fan 402 and the two clamp handles move in the same speed and the same direction, air cooling can be completed synchronously, the continuity of the processing process of the whole wire clamp is high, and multiple groups of clamp handles can be simultaneously combined for processing, so that the processing efficiency is high.

Example 2

Referring to fig. 8, on the basis of embodiment 1, a cooling detection head 403 is fixedly installed on one side of a cooling fan 402, the cooling detection head 403 includes a temperature detection module, and an air cooling adjustment module, wherein the temperature detection module is used for continuously collecting the temperature of rivets on the basis of a fixed time interval (for example, the time interval is 0.1 s), marking the collected temperature as a detection temperature, sequencing the detection temperatures according to the sequence of the collection time, and the air cooling adjustment module is used for adjusting the wind power gear of the cooling fan 402, specifically: calculating the difference between the adjacent next detection temperature and the previous detection temperature to obtain temperature variation, setting each temperature variation to correspond to one standard variation, comparing the temperature variation with the standard variation, marking the temperature variation as target variation when the temperature variation is more than or equal to the standard variation, setting the standard variation as 20 ℃, marking the temperature variation as target variation when the temperature variation is 22 ℃, obtaining a target value Fb, and obtaining the target value Fb through the following steps: and carrying out difference calculation on the target variation and the standard variation to obtain a target variation value, carrying out summation treatment on all target variation values of the rivet to obtain a target variation total difference value Cy, obtaining the total number Mn of the target variation marked by the rivet temperature variation, and obtaining a target value Fb by using a formula Fb=Cyxa1+Mn x a2, wherein a1 is a target variation total difference coefficient, a2 is a target variation number coefficient, the value of a1 is 0.74, and the value of a2 is 0.81. When the temperature variation is less than the standard variation, marking the temperature variation as disappointing variation, setting the standard variation as 20 ℃, and when the temperature variation is 12 ℃, marking the temperature variation as disappointing variation, obtaining a disappointing value Pm, and obtaining the disappointing value Pm through the following steps: performing difference calculation on standard variation and disappointing variation to obtain a disappointing difference value, performing summation treatment on all disappointing difference values of the rivet to obtain a disappointing total difference value Ge, obtaining the total times Wb of the rivet temperature variation marked as disappointing variation, and obtaining the disappointing value Pm by using a formula Pm=Ge×b1+Wb×b2, wherein b1 is a disappointing total difference coefficient, and b2 is disappointing variationThe difference coefficient, b1, was 0.75 and b2 was 0.8. The air cooling adjustment value Hj is obtained through the following steps: using the formulaAnd obtaining an air cooling adjustment value Hj, wherein c1 is a target value coefficient, c2 is a disappointing value coefficient, c1 is 0.97, and c2 is 0.96. Setting the air cooling adjustment low value as Ve, setting the air cooling adjustment high value as Sg, when the air cooling adjustment value Hj is more than or equal to the air cooling adjustment high value Sg, adjusting the wind power gear of the cooling fan 402 downwards by one gear, when the air cooling adjustment low value Ve is less than or equal to the air cooling adjustment value Hj and less than the air cooling adjustment high value Sg, not adjusting the wind power gear of the cooling fan 402, and when the air cooling adjustment value Hj is less than the air cooling adjustment low value Ve, adjusting the wind power gear of the cooling fan 402 upwards by one gear. Setting the air cooling adjustment low value to be 5, setting the air cooling adjustment high value to be 30, when the air cooling adjustment value is 38, adjusting the wind power gear of the cooling fan 402 down by one gear, when the air cooling adjustment value is 14, not adjusting the wind power gear of the cooling fan 402, and when the air cooling adjustment value is 2, adjusting the wind power gear of the cooling fan 402 up by one gear. The cooling detection head 403 is arranged, so that the wind power gear of the cooling fan 402 can be adjusted according to the acquisition record of the temperature of the rivet, and the power loss caused by continuously maintaining the strong wind power gear of the cooling fan 402 is avoided on the basis of ensuring the rapid cooling of the rivet.

Working principle:

during combination processing, the transmission assembly 111 is started, the transmission assembly 111 drives the transmission gear 110 to rotate, the two transmission gears 110 coaxially drive the two first transmission wheels 102 to rotate, the first transmission wheel 102 is matched with the second transmission wheel 103 to drive the transmission belt 1031 to rotate, the transmission belt 1031 drives the plurality of positioning mechanisms 104 to move, the two transmission belts 1031 drive the two positioning mechanisms 104 to move to the position of the feed inlet 101, the clamp handles are placed between two adjusting clamps 108 of the positioning mechanisms 104, the adjusting assembly 106 is started, the adjusting assembly 106 drives the first lead screw 107 to rotate, the first lead screw 107 drives the two adjusting clamps 108 to move in opposite directions, the clamp handles are clamped by the adjusting clamps 108, the two positioning mechanisms 104 are fixed, simultaneously, an electromagnet 203 outside the combination processing chamber 100 adsorbs rivets, the replacing assembly 200 drives the replacing frame 201 to rotate, and simultaneously, the two transmission belts 1031 continue to rotate, the two positioning mechanisms 104 on the driving belt 1031 align the rivet installation positions on the two clamp handles, when the two clamp handles are moved to one side of the replacing frame 201, the driving belt 1031 stops rotating, the electromagnet 203 with the rivet absorbed thereon moves to one side of the two clamp handles, then the electromagnet 203 is driven by the corresponding side pushing assembly 202 to move, the electromagnet 203 is installed on the two clamp handles, then the electromagnet 203 is closed, the electromagnet 203 cancels the absorption of the rivet, the two driving belt 1031 continues to rotate, then the two clamp handles move to the lower part of the lifting frame 301, the lifting assembly 300 drives the lifting frame 301 to descend, the hot pressing plate 303 and the hot pressing frame 304 respectively descend to two sides of the two clamp handles, the installation assembly 302 is started, the installation assembly 302 drives the second screw rod to rotate, the hot pressing plate 303 moves horizontally, the hot pressing plate 303 is matched with the hot pressing frame 304 to heat the rivet on the two clamp handles, after the rivet is installed, the two driving belts 1031 continue to rotate, the synchronous assembly 401 drives the third screw rod to rotate, the third screw rod drives the cooling fan 402 to horizontally move, the cooling fan 402 synchronously cools the rivets on the two clamp handles, the cooling detection head 403 adjusts the wind power gear of the cooling fan 402, when the two clamp handles move to the upper part of the soaking chamber 500, the positioning mechanism 104 cancels the fixation of the clamp handles, the two clamp handles fall into the soaking chamber 500, the antirust agent in the soaking chamber 500 soaks the two clamp handles, and the wire pliers are manufactured after the soaking is completed.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention are intended to be considered as protecting the scope of the present template.

In the description of the present invention, it should be understood that the terms "upper," "lower," "left," "right," and the like indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience of description and for simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, as well as a specific orientation configuration and operation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The combined machining device for the wire pliers comprises a combined machining chamber (100), and is characterized in that two driving belts (1031) are rotatably arranged in the combined machining chamber (100), a plurality of positioning mechanisms (104) are fixedly arranged on the driving belts (1031), each positioning mechanism (104) comprises a positioning frame (105), and two adjusting clamps (108) are slidably arranged on each positioning frame (105);

a replacement frame (201) is rotatably installed in the combined processing chamber (100), a plurality of side pushing assemblies (202) are fixedly installed on the replacement frame (201), an electromagnet (203) is arranged on one side of each side pushing assembly (202), and each side pushing assembly (202) is used for driving the corresponding electromagnet (203) to move;

the top of the outer wall of the combined processing chamber (100) is fixedly provided with a lifting assembly (300), a lifting frame (301) is arranged below the lifting assembly (300), the lifting assembly (300) is used for driving the lifting frame (301) to lift, the lifting frame (301) is fixedly provided with a hot pressing die carrier (304), and the lifting frame (301) is slidably provided with a hot pressing plate (303);

a cooling frame (400) is arranged on one side of the lifting frame (301), a cooling fan (402) is slidably arranged on the cooling frame (400), a cooling detection head (403) is fixedly arranged on one side of the cooling fan (402), and a soaking chamber (500) is fixedly arranged at the bottom of the outer wall of the combined processing chamber (100);

the cooling detection head (403) comprises a temperature detection module and an air cooling adjustment module, wherein the temperature detection module is used for continuously collecting the temperature of rivets on the basis of a fixed time interval, marking the collected temperature as a detection temperature, sequencing the detection temperature according to the time sequence of collection, and the air cooling adjustment module is used for adjusting the wind power gear of the cooling fan (402) and specifically comprises the following steps: and carrying out difference calculation on the adjacent later detected temperature and the previous detected temperature to obtain temperature variation, setting each temperature variation to correspond to one standard variation, comparing the temperature variation with the standard variation, marking the temperature variation as target variation when the temperature variation is larger than or equal to the standard variation, obtaining a target value Fb, marking the temperature variation as disappointed variation when the temperature variation is smaller than the standard variation, obtaining a disappointed value Pm, obtaining an air cooling adjustment value Hj, setting an air cooling adjustment low value as Ve, setting an air cooling adjustment high value as Sg, when the air cooling adjustment value Hj is larger than or equal to the air cooling adjustment high value Sg, downwards adjusting the wind power gear of the cooling fan (402) by one gear, when the air cooling adjustment low value Ve is smaller than or equal to the air cooling adjustment high value Sg, not adjusting the wind power gear of the cooling fan (402), and when the air cooling adjustment value Hj is smaller than the air cooling adjustment low value Ve, upwards adjusting the wind power gear of the cooling fan (402).

2. The combined machining device for the wire pliers according to claim 1, wherein two first driving wheels (102) and two second driving wheels (103) are rotatably installed in the combined machining chamber (100), the two first driving wheels (102) are in one-to-one correspondence with the two second driving wheels (103), and the first driving wheels (102) are in driving connection with the second driving wheels (103) through a driving belt (1031).

3. The combined machining device for the wire pliers according to claim 2, wherein a fixed underframe (109) is fixedly arranged at the bottom of the outer wall of the combined machining chamber (100), two transmission gears (110) are rotatably arranged on the fixed underframe (109), the two transmission gears (110) are meshed with each other, the two transmission gears (110) are in one-to-one correspondence with the two first transmission wheels (102), the transmission gears (110) are coaxially connected with the first transmission wheels (102), a transmission assembly (111) is fixedly arranged in the fixed underframe (109), and the transmission assembly (111) is used for driving the transmission gears (110) to rotate.

4. The combined machining device for the wire pliers according to claim 3, wherein a first screw rod (107) is rotatably installed on the positioning frame (105), threaded surfaces at two ends of the first screw rod (107) are symmetrically arranged along the middle, two adjusting clamps (108) are connected with two ends of the first screw rod (107) in a threaded mode, an adjusting assembly (106) is fixedly installed on the positioning frame (105), and the adjusting assembly (106) is used for driving the first screw rod (107) to rotate.

5. The combined machining device for the wire pliers according to claim 4, wherein a second screw is rotatably installed on the lifting frame (301), the second screw is in threaded connection with the hot pressing plate (303), an installation component (302) is fixedly installed on the lifting frame (301), the installation component (302) is used for driving the second screw to rotate, a replacement component (200) is fixedly installed on the outer wall of the combined machining chamber (100), the replacement component (200) is arranged on one side of the replacement frame (201), and the replacement component (200) is used for driving the replacement frame (201) to rotate.

6. The combined machining device for the wire pliers according to claim 5, wherein a third screw is rotatably installed on the cooling frame (400), the third screw is in threaded connection with the cooling fan (402), a synchronizing assembly (401) is fixedly installed on the cooling frame (400), the synchronizing assembly (401) is used for driving the third screw to rotate, and a feed port (101) is formed in one side of the combined machining chamber (100).

7. The wire plier combination machining device according to claim 6, wherein the target value Fb is obtained by: and carrying out difference calculation on the target variation and the standard variation to obtain a target variation value, carrying out summation treatment on all target variation values of the rivet to obtain a target variation total difference value Cy, obtaining the total number Mn of the rivet temperature variation marked as the target variation, and obtaining a target value Fb by using a formula Fb=Cyxa1+Mn x a2, wherein a1 is a target variation total difference coefficient, and a2 is a target variation number coefficient.

8. The combined machining device for the wire pliers according to claim 7, wherein the disappointing value Pm is obtained by the following steps: and carrying out difference calculation on the standard variation and the disappointing variation to obtain a disappointing variation value, carrying out summation treatment on all disappointing variation values of the rivet to obtain a disappointing total difference Ge, obtaining the total times Wb of the temperature variation mark of the rivet as disappointing variation, and obtaining the disappointing value Pm by using a formula Pm=Ge×b1+Wb×b2, wherein b1 is a disappointing total difference coefficient and b2 is a disappointing variation times coefficient.

9. The combined machining device for the wire pliers according to claim 8, wherein the air cooling adjustment value Hj is obtained by: using the formulaAnd obtaining an air cooling adjustment value Hj, wherein c1 is a target value coefficient, and c2 is a disappointing value coefficient.