CN113351765B

CN113351765B - Spanner punching press lathe is used in hardware production

Info

Publication number: CN113351765B
Application number: CN202011031477.8A
Authority: CN
Inventors: 廖庆云; 潘桔生; 江开云; 张雪东; 颜小孟
Original assignee: Hunan Hengyu Motor Vehicle Spare Parts Co
Current assignee: Hunan Hengyu Motor Vehicle Spare Parts Co
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2022-06-14
Anticipated expiration: 2040-09-27
Also published as: CN113351765A

Abstract

The invention relates to the technical field of hardware stamping, in particular to a wrench stamping machine tool for hardware production, which comprises a machine tool integration platform, a stamping mechanism and a stamping auxiliary mechanism, wherein the stamping auxiliary mechanism is installed on the left side of the machine tool integration platform, the stamping mechanism is fixedly installed on the right side of the machine tool integration platform, when a stamping sheet is pressed downwards to a die, a switch drives the stamping auxiliary mechanism to be automatically started, cold air cools the bottom of the die from bottom to top to accelerate the rapid cooling of hardware at the bottom of the die and improve the forming speed, a steam generator sprays steam rightwards to carry out vaporization and heat preservation on a stamping part, the uneven forming caused by the fact that the hardware positioned on the upper part of the die is cooled too quickly at room temperature is avoided, the forming effect is optimized, an electric cylinder drives the steam generator to move downwards to enable an annular embedded sheet to be communicated with an upper output port, and the temperatures in the steam outlet and a die accommodating component are the same, the unified allocation of the device protection temperature is realized, and the device adaptability is higher.

Description

Spanner punching press lathe is used in hardware production

Technical Field

The invention relates to the technical field of hardware stamping, in particular to a wrench stamping machine tool for hardware production.

Background

The spanner is a common mounting and dismounting tool, which is a hand tool for tightly clamping an opening or a trepanning firmware of a bolt or a nut by screwing the bolt, the screw, the nut and other threads by utilizing a lever principle, the spanner is usually made of structural steel made of carbon or alloy materials, a spanner raw material needs to be placed in a stamping die during manufacturing and then is stamped by a stamping device, but during stamping, the temperature of a stamping roller is room temperature, the temperature of the spanner raw material is higher, the temperature inside the die is higher, the time for cooling and forming after stamping is very long, the production effect is not high, the spanner raw material on the surface of the die is exchanged with the external temperature in real time, the cooling speed of the spanner raw material on the surface of the die is higher than that of the spanner raw material inside the die during stamping, but the demoulding is judged according to the temperature of the spanner raw material on the surface of the die, the too big spanner that leads to easily of the temperature difference about the mould shaping is uneven, reduces production quality.

Disclosure of Invention

The invention aims to provide a wrench punching machine tool for hardware production, which has the advantages of classified temperature control, higher hardware forming speed, better uniformity and better quality, can realize the agreed allocation of device protection temperature and has high device adaptability, and solves the problems that when the punching operation is carried out in the background technology, the temperature of a punching roller is room temperature, the temperature of wrench raw materials is higher, the temperature in a die is higher, the time for cooling and forming is very long after punching, the production effect is not high, the wrench raw materials on the surface of the die are exchanged with the external temperature in real time, the cooling speed of the wrench raw materials on the surface of the die is higher than that of the wrench raw materials in the die during punching, but when the die is released, the judgment is carried out according to the temperature of the wrench raw materials on the surface of the die, and the temperature difference between the upper part and the lower part of the die is too large, so that the wrench forming is uneven, the production quality is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a spanner punching machine tool for hardware production comprises a machine tool integration platform, a punching mechanism and a punching auxiliary mechanism, wherein the punching auxiliary mechanism is installed on the left side of the machine tool integration platform, and the punching mechanism is fixedly installed on the right side of the machine tool integration platform; integrated platform of lathe includes L type horizontal platform frame, well accuse ware mounting bracket, well accuse ware and platform dustcoat, accuse ware mounting bracket in the fixed mounting is gone up to L type horizontal platform frame, the top and well accuse ware fixed connection of well accuse ware mounting bracket, well accuse ware pass through two sets of wires respectively with punching press mechanism and punching press complementary unit electric connection, set up the platform dustcoat between punching press mechanism and the punching press complementary unit, the one end of platform dustcoat and the surface laminating of L type horizontal platform frame, the other end activity suit of platform dustcoat is in the inside with L type horizontal platform frame.

Preferably, the stamping mechanism comprises a stamping case, a single controller, a stamping switching wheel, a Z axial displacement rod, a stamping sheet and a die accommodating component, the single controller is fixed on the stamping case and electrically connected with the stamping case, the output end of the stamping case extends leftwards and is fixedly connected with the top of the Z axial displacement rod, the bottom of the Z axial displacement rod is fixedly connected with the stamping sheet, the stamping switching wheel is arranged on the side surface of the stamping sheet, and the die accommodating component is installed right below the stamping sheet.

Preferably, the subassembly is acceptd by the mould by the bottom plate, the gas pocket, spacing frame, the pressure spring, the switch, the side is taken the frame, link up the frame and first pipeline is constituteed, the gas pocket processing is on the bottom plate, the outer wall of bottom plate and the laminating of spacing frame's inner wall, spacing frame's inner wall processing side is taken the frame, fixed mounting pressure spring on two sets of subtend side are taken the frame, the top surface of one of them set of pressure spring and the laminating of the top extension piece of switch, the switch is fixed on the side is taken the frame, the bottom surface and the linking frame fixed connection of side is taken the frame, the bottom of linking the frame meets through first pipeline and punching press auxiliary mechanism.

Preferably, the punching press auxiliary mechanism includes the outer rust-resistant shell of punching press auxiliary machine case, relay protector, the equipment dustcoat, the retaining subassembly, air conditioning output assembly and hot vapour output assembly, the inside fixed mounting relay protector of the outer rust-resistant shell of punching press auxiliary machine case, relay protector fix on the outer wall of equipment dustcoat and with the inside retaining subassembly that sets up of equipment dustcoat, air conditioning output assembly and hot vapour output assembly electric connection, the retaining subassembly is by the water inlet, the water tank comprises with pump body connecting pipe, the one end of water inlet and the left side terminal surface parallel and level of swash plate, the other end and the water tank intercommunication of water inlet, the built-in pump body of water tank meets with hot vapour output assembly through pump body connecting pipe.

Preferably, an inclined plate is fixedly installed between the outer anti-rust shell of the stamping auxiliary case and the stamping case, the right side of the inclined plate is higher than the left side, and the limiting frame is fixedly embedded inside the inclined plate.

Preferably, two sets of electric air cylinders are fixedly mounted on a top plate of the equipment outer cover, the output ends of the electric air cylinders are downwards fixedly connected with the hot steam output assembly, the hot steam output assembly consists of a steam outlet and a steam generator, the steam generator is communicated with the steam outlet, the steam outlet rightwards penetrates through a right side plate of the equipment outer cover and the stamping auxiliary case outer anti-rust shell and extends out of the stamping auxiliary case outer anti-rust shell, and an annular embedded sheet is fixedly mounted at the bottom of the steam generator and is connected with the cold air output assembly.

Preferably, the cold air output assembly comprises a cold air generator, a second pipeline, an upper output port, a cover plate, an elastic inhaul cable, an embedded groove and a cover plate limiting groove, the output end of the cold air generator is communicated with the first pipeline through the second pipeline, the upper output port is machined at the top of the cold air generator, the cover plate is sleeved inside the upper output port, the outer wall of the cover plate is fixedly connected with the inner wall of the upper output port through the elastic inhaul cable, the embedded groove is machined in the cover plate, and the cover plate limiting groove matched with the cover plate in shape is arranged on the outer side of the upper output port.

Preferably, the outer walls of the cold gas generator and the steam generator are respectively provided with a convex structure, the cold gas generator and the steam generator slide in the sliding groove through the convex structures, and the sliding groove is machined in the inner wall of the right side plate of the outer cover of the equipment.

The invention provides a wrench punching machine tool for hardware production, which has the beneficial effects that:

1. this spanner punching press lathe is used in hardware production, when the punching press piece pushes down the pressure feed mould, drive the downward trigger switch of bottom plate, realize punching press complementary unit's self-starting, cold gas generator carries air conditioning through second pipeline and first pipeline and holds the subassembly in the mould, from up refrigerate the mould bottom down, the quick cooling of mould bottom hardware with higher speed, the shaping speed is improved, steam generator spouts steam right, carry out the vaporization heat preservation to punching press department, avoid among the stamping process hardware cooling adhesion on the punching press piece, also avoid among the stamping process in the hardware that lies in the mould upper portion at room temperature cool off the shaping inhomogeneous that leads to at the excessive speed, optimize the shaping effect, and the production quality is improved.

2. This spanner punching press lathe is used in hardware production drives steam generator through electric cylinder and moves down, causes annular gomphosis piece and last output port intercommunication, and the inside air current of cold gas generator and steam generator exchanges, and the temperature in the subassembly is acceptd to steam outlet and mould is the same, realizes the regulation of device protection temperature, improves device suitability.

Drawings

FIG. 1 is a schematic overall structure diagram of a wrench punching machine for hardware production according to the present invention;

FIG. 2 is a schematic view of the installation positions of a stamping mechanism and a stamping auxiliary mechanism of the wrench stamping machine tool for hardware production according to the present invention;

FIG. 3 is a schematic structural view of a mold accommodating assembly of a wrench punching machine tool for hardware production according to the present invention;

FIG. 4 is a schematic view of the internal structure of the outer anti-rust housing of the auxiliary stamping machine case of the wrench stamping machine tool for hardware production according to the present invention;

FIG. 5 is a schematic view of a bottom structure of a steam generator of a wrench punching machine for hardware production according to the present invention;

fig. 6 is a schematic view of the installation positions of the cold air output assembly and the hot air output assembly of the wrench punching machine tool for hardware production according to the present invention.

In the figure: 1. a machine tool integration platform; 11. an L-shaped horizontal platform frame; 12. a central controller mounting rack; 13. a central controller; 14. a platform housing; 2. a stamping mechanism; 21. stamping the case; 211. a sloping plate; 22. a single controller; 23. stamping a switching wheel; 24. a Z-axis displacement rod; 25. punching a sheet; 26. a mold housing assembly; 261. a base plate; 262. air holes; 263. a limiting frame; 264. a pressure spring; 265. a switch; 266. building a side frame; 267. a connecting frame; 268. a first conduit; 3. a punching auxiliary mechanism; 31. stamping an outer antirust shell of the auxiliary case; 32. a relay protector; 33. an equipment housing; 331. an electric cylinder; 332. a chute; 34. a water storage assembly; 341. a water inlet; 342. a water tank; 343. a pump body connecting pipe; 35. a cold air output assembly; 351. a cold gas generator; 352. a second conduit; 353. an upper output port; 354. a cover plate; 355. an elastic stay cable; 356. embedding and pulling the groove; 357. a cover plate limiting groove; 36. a hot gas output assembly; 361. a steam outlet; 362. a steam generator; 363. an annular fitting piece.

Detailed Description

The technical scheme in the embodiment of the invention will be made clear below by combining the attached drawings in the embodiment of the invention; in the following description, it is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments described.

Referring to fig. 1, a wrench punching machine tool for hardware production comprises a machine tool integration platform 1, a punching mechanism 2 and a punching auxiliary mechanism 3, wherein the punching auxiliary mechanism 3 is installed on the left side of the machine tool integration platform 1, and the punching mechanism 2 is fixedly installed on the right side of the machine tool integration platform 1; the machine tool integrated platform 1 comprises an L-shaped horizontal platform frame 11, a central controller mounting frame 12, a central controller 13 and a platform outer cover 14, the central controller mounting frame 12 is fixedly mounted on the L-shaped horizontal platform frame 11, the top of the central controller mounting frame 12 is fixedly connected with the central controller 13, the central controller 13 is respectively electrically connected with a stamping mechanism 2 and a stamping auxiliary mechanism 3 through two groups of wires, the platform outer cover 14 is arranged between the stamping mechanism 2 and the stamping auxiliary mechanism 3, one end of the platform outer cover 14 is attached to the surface of the L-shaped horizontal platform frame 11, the other end of the platform outer cover 14 is movably sleeved inside the L-shaped horizontal platform frame 11, automatic control over the stamping mechanism 2 and the stamping auxiliary mechanism 3 is realized through the central controller 13, the platform outer cover 14 with transparent texture is convenient for workers to observe the stamping state of hardware in real time, the mounting position of the central controller 13 is lifted, and the operation of the workers is convenient, each machine tool is provided with an independent central controller 13, so that the control system is simpler, and misoperation caused by centralized control management is avoided.

Referring to fig. 2, the stamping mechanism 2 includes a stamping case 21, a single controller 22, a stamping switching wheel 23, a Z-axis displacement rod 24, a stamping sheet 25 and a mold accommodating component 26, the single controller 22 is fixed on the stamping case 21 and electrically connected with the stamping case 21, an output end of the stamping case 21 extends leftward and is fixedly connected with a top of the Z-axis displacement rod 24, a bottom of the Z-axis displacement rod 24 is fixedly connected with the stamping sheet 25, the stamping switching wheel 23 is arranged on a side surface of the stamping sheet 25, the mold accommodating component 26 is arranged right below the stamping sheet 25, an inclined plate 211 is fixedly arranged between the outer anti-rust shell 31 of the stamping auxiliary case and the stamping case 21, a right side height of the inclined plate 211 is higher than a left side height, a limit frame 263 is fixedly embedded inside the inclined plate 211, the stamping case 21 can be independently controlled by the single controller 22, the stamping case 21 drives the Z-axis displacement rod 24 to move downward, the punching sheet 25 is caused to move downward to perform a punching operation on the die content placed on the die receiving assembly 26, the die receiving assembly 26 functions to position-define the die, and the shape of the die receiving assembly 26 matches the die, not limited to the square shape shown in the figure.

Referring to fig. 3, the mold accommodating assembly 26 includes a bottom plate 261, an air hole 262, a limit frame 263, a pressure spring 264, a switch 265, side frames 266, a connection frame 267 and a first pipe 268, the air hole 262 is formed on the bottom plate 261, the outer wall of the bottom plate 261 is attached to the inner wall of the limit frame 263, the side frames 266 are formed on the inner wall of the limit frame 263, the pressure springs 264 are fixedly mounted on two sets of opposite side frames 266, the top surfaces of one set of the pressure springs 264 are attached to the top extension piece of the switch 265, the switch 265 is fixed on the side frames 266, the bottom surface of the side frames 266 is fixedly connected to the connection frame 267, the bottom of the connection frame 267 is connected to the punching auxiliary mechanism 3 through the first pipe 268, when the punching sheet 25 is pressed downward into the mold, the bottom plate 261 is driven to move downward, the pressure spring 264 presses the trigger switch 265 downward, the switch 265 is connected to the relay protector 32, and the cold air output assembly 35 and the hot air output assembly 36 in the operating state are relay-protected through the relay 32, the self-starting of the protection device of the auxiliary punching mechanism 3 is realized in the running state of the whole machine, the protection device of the auxiliary punching mechanism 3 is in the shutdown state in the non-running state of the whole machine, the energy is saved, the consumption is reduced, the cold air is conveyed to the connecting frame 267 and then overflows upwards, the cold air overflows upwards through the air hole 262, the bottom of the die is refrigerated from bottom to top, the rapid cooling of hardware at the bottom of the die is accelerated, and the forming speed is improved.

Referring to fig. 4, the auxiliary stamping mechanism 3 includes an auxiliary stamping case outer anti-rust housing 31, a relay protector 32, an equipment housing 33, a water storage component 34, a cold air output component 35, and a hot air output component 36, the relay protector 32 is fixedly mounted inside the auxiliary stamping case outer anti-rust housing 31, the relay protector 32 is fixed on the outer wall of the equipment housing 33 and electrically connected to the water storage component 34, the cold air output component 35, and the hot air output component 36 which are disposed inside the equipment housing 33, the water storage component 34 is composed of a water inlet 341, a water tank 342, and a pump body connecting pipe 343, one end of the water inlet 341 is flush with the left end face of the sloping plate 211, the other end of the water inlet 341 is communicated with the water tank 342, the built-in pump body of the water tank 342 is connected to the hot air output component 36 through the pump body connecting pipe 343, and water droplets condensed at a stamping position after vaporization and collected flow leftward along the sloping plate 211, and the water flows back to the water tank 342 from the water inlet 341 again to realize secondary water recycling, two groups of electric cylinders 331 are fixedly mounted on the top plate of the equipment housing 33, the output ends of the electric cylinders 331 are downwards fixedly connected with the hot steam output assembly 36, the hot steam output assembly 36 consists of a steam outlet 361 and a steam generator 362, the steam generator 362 is communicated with the steam outlet 361, and the steam outlet 361 rightwards penetrates through the right side plate of the equipment housing 33 and the stamping auxiliary case outer antirust shell 31 and extends out of the stamping auxiliary case outer antirust shell 31.

Referring to fig. 5-6, an annular engaging piece 363 is fixedly installed at the bottom of the steam generator 362, the annular engaging piece 363 is connected to the cold air output assembly 35, the cold air output assembly 35 includes a cold air generator 351, a second pipeline 352, an upper output port 353, a cover plate 354, an elastic cable 355, an engaging groove 356 and a cover plate limiting groove 357, the output port of the cold air generator 351 is communicated with the first pipeline 268 through the second pipeline 352, the upper output port 353 is formed at the top of the cold air generator 351, the cover plate 354 is sleeved inside the upper output port 353, the outer wall of the cover plate 354 is fixedly connected to the inner wall of the upper output port 353 through the elastic cable 355, the engaging groove 356 is formed on the cover plate 354, the cover plate limiting groove 357 matched with the cover plate 354 in shape is disposed outside the upper output port 353, the steam generator 362 is driven by the electric cylinder 331 to move downward, so that the annular engaging piece 363 is inserted into the engaging groove 356, with the continuous downward movement of the annular embedding sheet 363, the cover plate 354 slides outwards gradually from the original closed state, the upper output port 353 is opened, the elastic pull rope 355 is in the stretching state until the end of the cover plate 354 is attached to the inner wall of the cover plate limiting groove 357, the interior of the annular embedding sheet 363 is communicated with the upper output port 353 at the moment, the air flows in the cold air generator 351 and the steam generator 362 are exchanged, the temperature in the steam outlet 361 and the temperature in the mold accommodating assembly 26 are the same, the adjustment of the protection temperature of the device is realized, the adaptability of the device is improved, the outer walls of the cold air generator 351 and the steam generator 362 are both provided with a convex structure, the cold air generator 351 and the steam generator 362 slide in the sliding groove 332 through the convex structure, the sliding groove 332 is machined on the inner wall of the right side plate of the equipment housing 33, and the cold air generator 351 and the steam generator 362 are started synchronously after the switch 265 is triggered, cold air generator 351 conveys cold air to mold accommodating assembly 26 through second pipeline 352 and first pipeline 268, the hardware at the bottom of the mold is cooled, steam generator 362 pumps water from water tank 342 after starting to generate steam, steam is ejected to the right through steam outlet 361, the steam is vaporized and insulated at the stamping position, the hardware is prevented from being cooled and adhered to stamping sheet 25 in the stamping process, the uneven forming caused by the fact that the hardware on the upper portion of the mold is cooled too fast at room temperature in the stamping process is avoided, the forming effect is optimized, and the production quality is improved.

The working principle is as follows: the automatic control of the punching mechanism 2 and the punching auxiliary mechanism 3 is realized by a central controller 13, each machine tool is provided with an independent central controller 13, the independent control of the punching machine case 21 can be realized by a single controller 22, the punching machine case 21 drives a Z-axis displacement rod 24 to move downwards, so that a punching sheet 25 moves downwards, the punching operation is carried out on the contents of a die placed on a die accommodating component 26, the shape of the die accommodating component 26 is matched with that of the die and is not limited to the square shape shown in the figure, when the punching sheet 25 presses the die downwards, a bottom plate 261 is driven to move downwards, a pressure spring 264 extrudes a trigger switch 265 downwards, the switch 265 is connected with a relay protector 32 through a lead, the relay protection of a cold air output component 35 and a hot air output component 36 in the running state is realized through the relay protector 32, after the switch 265 is triggered, the cold air generator 351 and a steam generator 362 are synchronously started, the cold air generator 351 conveys cold air into the mold accommodating assembly 26 through the second pipeline 352 and the first pipeline 268, the cold air is conveyed into the connecting frame 267 and then overflows upwards, the cold air overflows upwards through the air holes 262 and refrigerates the bottom of the mold from bottom to top, the steam generator 362 pumps water from the water tank 342 after being started to generate steam, the steam is sprayed rightwards through the steam outlet 361 to vaporize and preserve heat at the punching position, the steam generator 362 is driven by the electric cylinder 331 to move downwards, so that the annular embedding sheet 363 is clamped in the embedding and pulling groove 356, the cover plate 354 slides outwards gradually from the original closed state along with the continuous downward movement of the annular embedding sheet 363, the upper output port 353 is opened, the elastic cable 355 is in a stretching state until the end of the cover plate 354 is attached to the inner wall of the cover plate limiting groove 357, the interior of the annular embedding sheet 363 is communicated with the upper output port 353 at the moment, and air flow in the cold air generator 351 and the steam generator 362 is exchanged, the temperature in the steam outlet 361 and the temperature in the mold accommodating component 26 are the same, and the adjustment of the protection temperature of the device is realized.

In summary, according to the wrench punching machine tool for hardware production, the automatic control of the punching mechanism 2 and the punching auxiliary mechanism 3 is realized through the central controller 13, the platform cover 14 with transparent texture is convenient for workers to observe the punching state of the hardware in real time, the installation position of the central controller 13 is raised, the workers are convenient to operate, each machine tool is provided with the independent central controller 13, the control system is simpler, the misoperation caused by centralized control management is avoided, the single controller 22 can realize the independent control of the punching machine box 21, the punching machine box 21 drives the Z-axis displacement rod 24 to move downwards, so that the punching sheet 25 moves downwards, the die content placed on the die accommodating component 26 is punched, the die accommodating component 26 plays a role in limiting the position of the die, the shape of the die accommodating component 26 is matched with the die and is not limited to the square shape shown in the figure, when the punching sheet 25 is pressed downwards to be fed into the die, the bottom plate 261 is driven to move downwards, the pressure spring 264 presses the trigger switch 265 downwards, the switch 265 is connected with the relay protector 32 through a lead, relay protection on the cold air output assembly 35 and the hot steam output assembly 36 in the running state is realized through the relay protector 32, self-starting of the protection device of the punching auxiliary mechanism 3 in the running state of the whole machine is realized, the protection device of the punching auxiliary mechanism 3 is in a stop state in the non-running state of the whole machine, energy is saved, consumption is reduced, after the switch 265 is triggered, the cold air generator 351 and the steam generator 362 are synchronously started, the cold air generator 351 conveys the cold air into the die accommodating assembly 26 through the second pipeline 352 and the first pipeline 268, the cold air overflows upwards after being conveyed into the connecting frame 267 and overflows upwards through the air holes 262, refrigeration is carried out on the bottom of the die from bottom to the bottom of the die, and rapid cooling of the die is accelerated, the forming speed is improved, the steam generator 362 pumps water from the water tank 342 to generate steam after being started, the steam is sprayed rightwards through the steam outlet 361 to carry out vaporization and heat preservation on a stamping position, the hardware is prevented from being cooled and adhered to the stamping sheet 25 in the stamping process, the hardware positioned on the upper part of a die in the stamping process is also prevented from being formed unevenly due to too fast cooling at room temperature, the forming effect is optimized, the production quality is improved, the steam generator 362 is driven to move downwards through the electric cylinder 331, so that the annular embedding sheet 363 is clamped in the embedded and pulled groove 356, the cover plate 354 slides outwards gradually from the original closed state along with the continuous downward movement of the annular embedding sheet 363, the upper output port 353 is opened, the elastic cable 355 is in the stretching state until the end part of the cover plate 354 is attached to the inner wall of the cover plate limiting groove 357, and the interior of the annular embedding sheet 363 is communicated with the upper output port 353, the air flows in the cold air generator 351 and the steam generator 362 are exchanged, and the temperature of the steam outlet 361 and the temperature of the mold accommodating component 26 are the same, so that the protection temperature of the device is adjusted, and the adaptability of the device is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A wrench punching machine tool for hardware production is characterized by comprising a machine tool integration platform (1), a punching mechanism (2) and a punching auxiliary mechanism (3), wherein the punching auxiliary mechanism (3) is installed on the left side of the machine tool integration platform (1), and the punching mechanism (2) is fixedly installed on the right side of the machine tool integration platform (1); the machine tool integrated platform (1) comprises an L-shaped horizontal platform frame (11), a central controller mounting frame (12), a central controller (13) and a platform outer cover (14), wherein the central controller mounting frame (12) is fixedly mounted on the L-shaped horizontal platform frame (11), the top of the central controller mounting frame (12) is fixedly connected with the central controller (13), the central controller (13) is respectively and electrically connected with a stamping mechanism (2) and a stamping auxiliary mechanism (3) through two groups of conducting wires, the platform outer cover (14) is arranged between the stamping mechanism (2) and the stamping auxiliary mechanism (3), one end of the platform outer cover (14) is attached to the surface of the L-shaped horizontal platform frame (11), and the other end of the platform outer cover (14) is movably sleeved in the L-shaped horizontal platform frame (11);

the stamping mechanism (2) comprises a stamping case (21), a single controller (22), a stamping switching wheel (23), a Z-axis displacement rod (24), a stamping sheet (25) and a die accommodating component (26), wherein the single controller (22) is fixed on the stamping case (21) and electrically connected with the stamping case (21), the output end of the stamping case (21) extends leftwards and is fixedly connected with the top of the Z-axis displacement rod (24), the bottom of the Z-axis displacement rod (24) is fixedly connected with the stamping sheet (25), the stamping switching wheel (23) is arranged on the side surface of the stamping sheet (25), and the die accommodating component (26) is arranged under the stamping sheet (25);

the die accommodating assembly (26) comprises a bottom plate (261), air holes (262), a limiting frame (263), pressure springs (264), a switch (265), side lapping frames (266), a connecting frame (267) and a first pipeline (268), wherein the air holes (262) are processed on the bottom plate (261), the outer wall of the bottom plate (261) is attached to the inner wall of the limiting frame (263), the side lapping frames (266) are processed on the inner wall of the limiting frame (263), the pressure springs (264) are fixedly installed on the two opposite side lapping frames (266), the top surfaces of one group of the pressure springs (264) are attached to a top extending sheet of the switch (265), the switch (265) is fixed on the side lapping frame (266), the bottom surface of the side lapping frame (266) is fixedly connected with the connecting frame (267), and the bottom of the connecting frame (267) is connected with the punching auxiliary mechanism (3) through the first pipeline (268);

punching press auxiliary mechanism (3) are including punching press auxiliary machine case outer rust-resistant shell (31), relay protection ware (32), equipment dustcoat (33), retaining subassembly (34), air conditioning output component (35) and hot vapour output component (36), fixed mounting has swash plate (211) between punching press auxiliary machine case outer rust-resistant shell (31) and punching press quick-witted case (21), and the right side height of swash plate (211) is higher than the left side height, and spacing frame (263) are fixed to be inlayed inside swash plate (211), and inside fixed mounting relay protection ware (32) of punching press auxiliary machine case outer rust-resistant shell (31), relay protection ware (32) are fixed on the outer wall of equipment dustcoat (33) and with the inside retaining subassembly (34), air conditioning output component (35) and the hot vapour output component (36) electric connection that set up of equipment dustcoat (33), retaining subassembly (34) are by water inlet (341), The water pump comprises a water tank (342) and a pump body connecting pipe (343), one end of a water inlet (341) is flush with the left end face of the inclined plate (211), the other end of the water inlet (341) is communicated with the water tank (342), and a built-in pump body of the water tank (342) is connected with a hot steam output assembly (36) through the pump body connecting pipe (343);

two groups of electric cylinders (331) are fixedly mounted on a top plate of the equipment outer cover (33), the output ends of the electric cylinders (331) are downwards fixedly connected with a hot steam output assembly (36), the hot steam output assembly (36) consists of a steam outlet (361) and a steam generator (362), the steam generator (362) is communicated with the steam outlet (361), the steam outlet (361) rightwards penetrates through a right side plate of the equipment outer cover (33) and the stamping auxiliary case outer antirust shell (31) and extends out of the stamping auxiliary case outer antirust shell (31), annular embedding sheets (363) are fixedly mounted at the bottom of the steam generator (362), and the annular embedding sheets (363) are connected with a cold air output assembly (35);

the cold air output assembly (35) comprises a cold air generator (351), a second pipeline (352), an upper output port (353), a cover plate (354), an elastic pull rope (355), a pull embedding groove (356) and a cover plate limiting groove (357), the output end of the cold air generator (351) is communicated with the first pipeline (268) through the second pipeline (352), the upper output port (353) is machined at the top of the cold air generator (351), the cover plate (354) is sleeved inside the upper output port (353), the outer wall of the cover plate (354) is fixedly connected with the inner wall of the upper output port (353) through the elastic pull rope (355), the pull embedding groove (356) is machined in the cover plate (354), and the cover plate limiting groove (357) matched with the cover plate (354) in shape is arranged on the outer side of the upper output port (353).

2. The wrench punching machine tool for hardware production according to claim 1, characterized in that: the outer walls of the cold air generator (351) and the steam generator (362) are respectively provided with a convex structure, the cold air generator (351) and the steam generator (362) slide in the sliding groove (332) through the convex structures, and the sliding groove (332) is machined on the inner wall of the right side plate of the equipment housing (33).