CN216540580U - Novel valve red punching equipment - Google Patents

Abstract

The utility model relates to novel valve red punching equipment which comprises a processing device and a material cutting device arranged on the right side of the processing device, wherein the material cutting device comprises a cutting head and a cutting head; the processing device comprises a case, a forming mechanism arranged in the case, and a material moving mechanism and a material discharging mechanism which are arranged on the forming mechanism; the cutting device comprises a host and a positioning mechanism arranged on the host; the automatic material cutting device comprises a cutting device, a bottom cabinet, a heating furnace, a gas supply device, a lifting device and a feeding device, wherein the bottom cabinet is arranged on the right side of the cutting device; the utility model has simple structure and low cost, greatly simplifies the operation stroke to obviously improve the working efficiency, greatly simplifies the operation, eliminates the potential safety hazard and obviously improves the blanking precision; in addition, the production cost is obviously reduced, the labor intensity of operators is greatly reduced, and the processing efficiency is obviously improved.

Description

Novel valve red punching equipment

Technical Field

The utility model relates to novel valve red punching equipment.

Background

The valve red punching equipment is automatic equipment which can cut a copper bar according to a certain length, heat and burn the copper bar to be red, and then perform extrusion forming to obtain a valve blank; the valve red punching equipment mainly comprises a forming device, a cutting device, a heating device and the like, wherein the forming device is internally provided with a material moving mechanism for automatically feeding a copper section which is burned and cut into a forming die cavity; in order to ensure that the short materials formed after cutting can ensure the same length, the outer parts of the material cutting openings of the material cutting device are provided with the mountain rests to limit the extending length of the copper rods.

However, the existing valve red flushing equipment has the following disadvantages: (1) the material moving mechanism needs more air cylinders, so the structure is complex, the manufacturing cost is high, the operation stroke is complicated, and the working efficiency is low; (2) the position of the backer seat is manually adjusted by manpower, the operation is troublesome, and the backer seat needs to be close to a high-temperature copper bar after being burnt, so that potential safety hazards exist; the copper bar is inevitably shaken up and down, left and right when being cut off due to the lack of the clamping and positioning functions, so that the cutting precision is low; (3) the heating devices are heating wire heating furnaces which heat the copper rod by virtue of a large amount of heat generated after the high-power heating wires are electrified, so that the energy consumption is extremely high, the energy conservation and the environmental protection are not facilitated, the operating cost of the electric heating furnaces is high due to the huge power consumption, and the production cost is high; (4) before entering the heating device, the copper rod needs to be lifted to the feeding port of the heating device manually by virtue of manpower, and then is pushed into the heating device manually by virtue of the manpower for heating, so that the labor intensity of operators is high, the processing efficiency is low, the operation is troublesome, and certain potential safety hazards exist; therefore, a solution is urgently needed.

SUMMERY OF THE UTILITY MODEL

In view of the current situation of the prior art, the technical problem to be solved by the utility model is to provide a novel valve red punching device which has a simple structure and low manufacturing cost, effectively improves the working efficiency, greatly simplifies the operation, eliminates the potential safety hazard, obviously improves the blanking precision, and reduces the operation cost to the greatest extent so as to obviously reduce the production cost.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a novel valve red punching device comprises a processing device and a material cutting device arranged on the right side of the processing device; the processing device comprises a case, a forming mechanism arranged in the case, and a material moving mechanism and a material discharging mechanism which are arranged on the forming mechanism; the blanking device comprises a host and a positioning mechanism arranged on the host, and is characterized by also comprising a bottom cabinet arranged on the right side of the blanking device, a heating furnace arranged at the top of the bottom cabinet, an air supply device arranged on the heating furnace and connected with the heating furnace, a lifting device arranged on the right side of the bottom cabinet, and a feeding device arranged on the lifting device and matched with the heating furnace;

the material moving mechanism comprises a first base block vertically fixed on the forming mechanism, a hanging plate movably fixed on the first base block to adjust the left and right positions, a bottom plate transversely fixed on the hanging plate, a lifting assembly arranged on the bottom plate, a moving assembly arranged on the lifting assembly and a second grabbing assembly arranged on the moving assembly;

the positioning mechanism comprises a first supporting block arranged outside the left side of the host, a side plate fixed on the rear side of the first supporting block, a first seat block fixed on the left side of the first supporting block, a second seat block fixed at the bottom of the first seat block, a first guide rod transversely and movably inserted between the first seat block and the second seat block, a first air cylinder fixed at the top of the first seat block, a lifting strip vertically and movably inserted in the second seat block, a short beam transversely fixed at the lower end of the lifting strip, a pressing block fixed at the bottom of the short beam, a second air cylinder fixed on the rear side of the side plate, two symmetrical and rotatable clamping rods fixed in the first supporting block, and a limiting assembly arranged on the first guide rod; the right end of the first guide rod is fixed on the left side of the host; the telescopic end of the first cylinder vertically penetrates through the first seat block and the first guide rod downwards and is fixed at the upper end of the lifting bar; the inner sides of the root parts of the two clamping rods are respectively provided with a first arc-shaped gear ring, the two first arc-shaped gear rings are mutually meshed, the root part of one clamping rod at the rear side is also upwards provided with a traction block, and the telescopic end of the second cylinder transversely forwards penetrates through the side plate and is movably fixed on the traction block; the inner sides of the end parts of the two clamping rods are outwards provided with first clamping blocks which are symmetrically arranged;

the heating furnace comprises a furnace body fixed at the top of the bottom cabinet, two heat preservation furnace walls which are fixed on the inner bottom surface of the furnace body and symmetrically arranged from front to back, two heat preservation furnace plates which are transversely fixed between the two heat preservation furnace walls and distributed up and down, a fire-resistant furnace pipe arranged between the two heat preservation furnace walls and the two heat preservation furnace plates, and a fire-resistant furnace base transversely arranged on the inner bottom surface of the fire-resistant furnace pipe; the top of the upper heat-preserving furnace plate is also fixedly provided with a horizontally arranged U-shaped beam, the top of the furnace body is also fixedly provided with a horizontally arranged main air inlet pipe, two ends of the main air inlet pipe are both closed, a plurality of air inlet branch pipes which are sequentially arranged from left to right are inserted into the U-shaped beam, the lower end of each air inlet branch pipe downwards sequentially penetrates through the top of the upper heat-preserving furnace plate and the top of the refractory furnace container in a sealing manner and extends into the upper part of the interior of the refractory furnace container, and the upper end of each air inlet branch pipe is hermetically inserted into the main air inlet pipe and is mutually communicated with the interior of the main air inlet pipe;

the gas supply device comprises a box body fixed on the outer wall of the rear side of the furnace body, a box door arranged at an opening of the box body and capable of being opened, and a main body arranged in the box body; the main body comprises a Venturi tube, a first electromagnetic valve, a proportional valve, a first big tee joint, a first ball valve, a second big tee joint and a pressure gauge; the air outlet of the Venturi tube penetrates through the box body and the furnace body and is inserted and connected onto the air inlet main pipe, the air outlet of the first electromagnetic valve is connected with the air inlet of the Venturi tube, the air outlet of the proportional valve is connected with the air inlet of the first electromagnetic valve, one end of the first ball valve, one interface of the second large tee and the air inlet of the proportional valve are respectively connected onto three interfaces of the first large tee, and the pressure gauge is arranged at the other end of the first ball valve;

the U-shaped beam is also embedded with an igniter, correspondingly, the gas supply device also comprises an ignition assembly arranged in the box body, and a spark plug of the igniter downwards penetrates through the top of the upper heat preservation furnace plate and the top of the refractory furnace pipe in a sealing manner in sequence, extends into the upper part of the interior of the refractory furnace pipe and is matched with the lower end of each gas inlet branch pipe; the ignition assembly comprises a small tee joint, a first stop valve, a second electromagnetic valve, a first air inlet pipe and a first air outlet pipe; one interface of the small tee joint is connected with the other interface of the second large tee joint, one end of the first air inlet pipe is connected with one end of the first stop valve, the other end of the first air inlet pipe is connected with the other interface of the small tee joint, the other end of the first stop valve is connected with an air inlet of the second electromagnetic valve, one end of the first air outlet pipe is connected with an air outlet of the second electromagnetic valve, and the other end of the first air outlet pipe is connected with one air inlet of the igniter;

the lifting device comprises a cabinet body, a sliding plate, two first side plates and a plurality of fixed plates, wherein the sliding plate is high in front and low in back and is obliquely fixed in the cabinet body, the two first side plates are respectively fixed at the left side and the right side of an opening at the back of the cabinet body, the fixed plates are vertically fixed between the two first side plates and ascend in a stepped manner from front to back, a first supporting strip is transversely arranged at the back side of the top of each fixed plate, a movable plate is vertically distributed at the front side of each fixed plate, each movable plate is movably arranged between the two first side plates and can move up and down, and a second supporting strip is transversely arranged at the back side of the top of each movable plate; two first traction plates which are symmetrically arranged left and right are further fixed between the outer walls of the rear side of each movable plate, a lifting cylinder is further arranged between the two first traction plates, and the telescopic end of each lifting cylinder is vertically upwards arranged and can be rotatably fixed on the rear side of one movable plate;

feeding device establishes the driven sprocket who fixes at a left drive roller rear end and the chain of cover between drive sprocket and driven sprocket including transversely fixing frame, two rotatable drive rollers, the cover of fixing both ends about the frame at two first curb plate rear sides top and establishing on two drive rollers and parcel conveyer belt outside the frame, fixing first motor, the cover of frame below and fixing drive sprocket, the cover of fixing in first motor axis of rotation, establishing and fixing at the drive sprocket of left drive roller rear end and establishing the cover, still be equipped with transfer mechanism and first actuating mechanism in the frame.

Preferably, the transfer mechanism comprises a supporting platform fixed at the left end of the front side of the rack, a first bottom block fixed at the top of the supporting platform, a second supporting block fixed at the front side of the first bottom block, a second side plate vertically fixed between the left sides of the first bottom block and the second supporting block, a third air cylinder fixed at the top of the second supporting block, a sliding block fixed at the rear end of the right side of the second side plate, a sliding rail transversely and movably arranged in the sliding block and positioned above the first bottom block, and a first grabbing assembly arranged on the sliding rail, wherein the telescopic end of the third air cylinder is transversely and backwards arranged and fixed at the front end of the sliding rail, the first grabbing assembly comprises two side blocks which are bilaterally and symmetrically arranged, a first end block fixed between the front sides of the two side blocks, a second end block fixed between the rear sides of the two side blocks, a first traction block movably arranged between the two side blocks, a fourth air cylinder fixed at the front side of the first air cylinder, a second end block movably arranged between the two side blocks, The rotary joint block is fixed at the rear end of the first traction block, the clamping seat is fixed at the rear side of the first bottom block, the second clamping block is fixed on the rotary joint block and positioned behind the clamping seat, the first limiting plate is arranged on the left sides of the clamping seat and the second clamping block and positioned above the conveyor belt, and the telescopic end of the fourth cylinder is transversely arranged backwards and is fixed at the front end of the first traction block; the slide rail is fixed on one side block on the left side.

Preferably, the first actuating mechanism comprises a platen transversely fixed on the rear side of the rack, a second base block vertically fixed on the right side of the platen, a fifth cylinder fixed on the right side of the second base block, a carrying block fixed on the top of the platen, a first guide block fixed at the right end of the carrying block, and a second traction plate fixed on the telescopic end of the fifth cylinder and located on the right side of the first guide block, wherein the telescopic end of the fifth cylinder is transversely arranged leftwards, two first V-shaped grooves are formed in the top of the carrying block, two pushing blocks are further arranged in the first V-shaped grooves, the right ends of the two pushing blocks movably penetrate through the first guide block and are fixed on the second traction plate, and the first limiting plate is fixed on the carrying block.

Preferably, a first inclined plane with a high front part and a low rear part is formed at the top of each fixed plate, correspondingly, a second inclined plane with a high front part and a low rear part is formed at the top of each first supporting strip, and the higher side edge of the second inclined plane is mutually connected with the lower side edge of the first inclined plane; the top of each movable plate is provided with a third inclined surface which is high in front and low in back, correspondingly, the top of each second supporting strip is provided with a fourth inclined surface which is high in front and low in back, and the higher side edge of the fourth inclined surface is mutually connected with the lower side edge of the third inclined surface.

Preferably, the limiting assembly comprises a moving block movably fixed on the first guide rod, a sleeve which is transversely inserted and fixed in the moving block and is positioned below the first guide rod, an internal threaded pipe which is concentric and movably arranged in the sleeve, a first screw which is concentrically inserted and screwed in the internal threaded pipe, a bearing seat fixed at the left end of the sleeve, and a second motor fixed at the left end of the bearing seat, wherein the left end of the first screw is rotatably inserted and connected in the bearing seat, and a rotating shaft of the second motor transversely extends rightwards into the bearing seat and is concentrically fixed at the left end of the first screw.

Preferably, the lifting assembly comprises a back plate vertically fixed at the top of the bottom plate, a lifting plate vertically arranged on the front side of the back plate, a first servo motor fixed at the bottom of the bottom plate, a fourth seat block fixed at the bottom of the lifting plate, an internal thread sleeve vertically fixed at the top of the fourth seat block, and a second screw vertically and rotatably inserted in the fourth seat block; the vertical bottom plate that upwards passes of axis of rotation of first servo motor and fixes the lower extreme at the second screw rod with one heart, the upper end of second screw rod inserts in the spiro union internal thread sleeve, the front side of backplate still is fixed with the first guide rail of the vertical setting of a plurality of, every still all overlap on the first guide rail and be equipped with the first slider of a plurality of, every first slider all fixes the rear side at the lifter plate.

Preferably, the moving assembly comprises a supporting plate fixed on the upper side of the lifting plate, a supporting seat fixed on the right side of the supporting plate, a second servo motor embedded in the supporting seat and positioned above the supporting plate, a frame arranged on the right side of the supporting seat, a second guide rail fixed on the left side of the frame, a second sliding block sleeved on the second guide rail and fixed on the right side of the supporting seat, a rack fixed on the top of the frame, and a gear sleeved and fixed on a rotating shaft of the second servo motor and positioned on the right side of the supporting seat; the gear is meshed with the top of the rack; the second grabbing component comprises a seventh air cylinder fixed at the front end of the frame, a driving rod inserted in the frame and a second executing mechanism arranged at the rear end of the frame and connected with the rear end of the driving rod; and the telescopic end of the seventh cylinder is arranged backwards and fixed at the front end of the driving rod.

Preferably, the second actuating mechanism comprises a connecting seat fixed at the rear end of the frame, a shell fixed at the end part of the connecting seat, a main beam fixed at the end part of the connecting seat and positioned in the shell, a second traction block movably arranged at the top of the main beam, a second guide block fixed at the top of the second traction block, and two frame bodies fixed in the shell and symmetrically arranged at the left side and the right side of the main beam; the rear end of the driving rod penetrates through the connecting seat and is fixed at the front end of the second traction block; two clamping modules are further arranged between the main beam and the two frame bodies, and each clamping module comprises a first shaft rod and a second shaft rod which are transversely inserted and fixed between the main beam and the two frame bodies and are arranged in front and at back, two driving blocks which are sleeved and fixed on the first shaft rod and are respectively arranged in the two frame bodies, and two driven blocks which are sleeved and fixed on the second shaft rod and are respectively arranged in the two frame bodies; the two driven blocks are respectively arranged at the rear sides of the two driving blocks; a clamping piece is fixed on the inner side of the bottom of each driving block and the inner side of the bottom of each driven block; a second arc-shaped gear ring is formed on the outer wall of the front side of each driven block, correspondingly, a third arc-shaped gear ring is formed on the outer wall of the rear side of each driving block, and the two third arc-shaped gear rings are meshed with the two second arc-shaped gear rings respectively; a shifting block is further formed upwards at the top of each driving block, correspondingly, two transverse traction rods are further inserted and fixed in the second traction block, and two ends of one traction rod on the front side are respectively matched with the shifting blocks on the two driving blocks on the front side; two ends of one traction rod on the rear side are respectively matched with the shifting blocks on the two driving blocks on the rear side.

Preferably, the ignition assembly further comprises a second stop valve, a third electromagnetic valve and a second air inlet pipe, one end of the second air inlet pipe is connected to the remaining interface of the small tee joint, the other end of the second air inlet pipe is connected with one end of the second stop valve, the other end of the second stop valve is connected with an air inlet of the third electromagnetic valve, and an air outlet of the third electromagnetic valve is connected to the first air outlet pipe; the ignition assembly further comprises a third stop valve and a second air outlet pipe, one end of the second air outlet pipe is connected with an air outlet of the third stop valve, and the other end of the second air outlet pipe is connected with the other air inlet of the igniter; a high-voltage ignition coil is also fixed in the box body and is connected with a power interface of the igniter; each air inlet branch pipe is also provided with a valve.

Preferably, the top of the fire-resistant furnace base is provided with two second V-shaped grooves which are transversely arranged and distributed in the front-back direction, the bottom of the left side of the furnace body is also fixed with an adjusting frame, the adjusting frame is also fixed with two slide ways which are distributed in the front-back direction, the two slide ways are arranged in the open slot and the U-shaped sinking cavity in a manner that the two slide ways are lower at the left side and higher at the right side, and the right ends of the two slide ways are matched with the left ends of the two second V-shaped grooves; the left ends of the two V-shaped guide plates are matched with the right ends of the two second V-shaped grooves respectively.

Compared with the prior art, the utility model has the advantages that:

(1) the material moving mechanism can automatically feed the copper sections which are burned and cut into the forming die cavity only by the aid of the first servo motor, the second servo motor and the seventh cylinder, so that the structure is simple, and the manufacturing cost is low; and the operation stroke is greatly simplified to remarkably improve the working efficiency.

(2) The positioning mechanism can automatically adjust the front and back positions of the right end of the internal threaded pipe so as to greatly simplify the operation, and thoroughly avoid that an operator approaches a high-temperature copper bar which is burnt in a short distance so as to eliminate potential safety hazards; and can press from both sides tight bar copper in order to prevent it from controlling with the help of two clamping bars at the in-process that cuts off and rock, effectively prevented the bar copper and taken place to rock from top to bottom at the in-process that cuts off with the help of the location effect of mutually supporting and the briquetting of arc wall and V type seat simultaneously to showing and promoting the blank precision.

(3) The heating furnace provided by the utility model adopts cheap coal gas as fuel to burn for heating the copper bar, so that the energy consumption is greatly reduced to be beneficial to energy conservation and environmental protection, the operation cost is reduced to the greatest extent to obviously reduce the production cost, the coal gas can be continuously, stably and quickly output all the time and can be fully burnt by virtue of the gas supply device, the heating efficiency of the heating furnace is effectively improved, and the waste of the coal gas is thoroughly avoided.

(4) According to the utility model, the copper rod can be automatically lifted upwards by means of the lifting device, and then the copper rod is automatically fed into the heating furnace by means of the feeding device to be heated, so that manual operation is not required in the whole process, the labor intensity of operators is greatly reduced, the processing efficiency is obviously improved, and meanwhile, the operation is effectively simplified and the potential safety hazard is eliminated.

Drawings

FIG. 1 is a left front side block diagram of the present invention;

FIG. 2 is an exploded left front side view of the machining apparatus of the present invention;

FIG. 3 is a left front side structural view of the material moving mechanism of the present invention;

FIG. 4 is a left front side block diagram of a second grasping element of the present invention;

FIG. 5 is a left rear side structural view of the blanking device of the present invention;

FIG. 6 is a left rear side structural view of the spacing assembly of the present invention;

FIG. 7 is a right front side structural view of the blanking device of the present invention;

FIG. 8 is a right rear side structural view of a heating furnace and a gas supply apparatus of the present invention;

FIG. 9 is a top exploded view of the left front side of the heating furnace of the present invention;

FIG. 10 is a front right side exploded perspective view of the heating furnace of the present invention;

FIG. 11 is a bottom exploded view of the heating furnace of the present invention from the left front;

FIG. 12 is a right rear side structural view of the air supply apparatus of the present invention;

FIG. 13 is a left front side structural view of the lifting device and feeding device of the present invention;

FIG. 14 is an exploded rear right side view of the lift of the present invention;

FIG. 15 is a right front side structural view of the feeding device of the present invention;

fig. 16 is a left rear side structural view of the feeding device of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known components of the utility model have been omitted.

As shown in fig. 1 to 16, a novel valve red punching device comprises a processing device 3 and a material cutting device 4 arranged on the right side of the processing device 3; the processing device 3 comprises a case 31, a forming mechanism 32 arranged in the case 31, and a material moving mechanism 33 and a material discharging mechanism 34 which are arranged on the forming mechanism 32; the cutting device 4 comprises a main machine 41 and a positioning mechanism 42 arranged on the main machine 41; under the action of the positioning mechanism 42, the main machine 41 cuts the burned copper rod according to a fixed length and slides into the case 31, then the copper rod is automatically placed into the forming mechanism 32 for stamping under the action of the material moving mechanism 33, and the formed blank is automatically output outwards under the action of the material discharging mechanism 34, the principle is the prior art, but the utility model is characterized in that: the automatic material cutting device is characterized by further comprising a bottom cabinet 7 arranged on the right side of the material cutting device 4, a heating furnace 1 arranged on the top of the bottom cabinet 7, a gas supply device 2 arranged on the heating furnace 1 and connected with the heating furnace 1, a lifting device 5 arranged on the right side of the bottom cabinet 7, and a feeding device 6 arranged on the lifting device 5 and matched with the heating furnace 1.

The material moving mechanism 33 includes a first base block 335 vertically fixed on the forming mechanism 32, a hanging plate 332 movably fixed on the first base block 335 for adjusting the left and right positions, a bottom plate 331 transversely fixed on the hanging plate 332, a lifting component 333 arranged on the bottom plate 331, a moving component 336 arranged on the lifting component 333, and a second grabbing component 334 arranged on the moving component 336.

The positioning mechanism 42 comprises a first support block 421 arranged outside the left side of the main machine 41, a side plate 422 fixed on the rear side of the first support block 421, a first seat block 425 fixed on the left side of the first support block 421, a second seat block 426 fixed on the bottom of the first seat block 425, a first guide rod 427 transversely and movably inserted between the first seat block 425 and the second seat block 426, a first air cylinder 428 fixed on the top of the first seat block 425, a lifting bar 429 vertically and movably inserted in the second seat block 426, a short beam 4210 transversely fixed at the lower end of the lifting bar 429, a pressing block 4211 fixed on the bottom of the short beam 4210, a second air cylinder 423 fixed on the rear side of the side plate 422, two clamping rods 424 symmetrically and rotatably fixed in the first support block 421, and a limit assembly 4212 arranged on the first guide rod 427; the right end of the first guide rod 427 is fixed to the left side of the main body 41; the telescopic end of the first cylinder 428 passes vertically downward through the first seat block 425 and the first guide rod 427 and is fixed to the upper end of the lifting bar 429; a first arc-shaped gear ring 4241 is formed on the inner side of each root of each of the two clamping rods 424, the two first arc-shaped gear rings 4241 are mutually meshed, a traction block 4242 is further formed on the root of one clamping rod 424 on the rear side upwards, and the telescopic end of the second cylinder 423 transversely forwards penetrates through the side plate 422 and is movably fixed on the traction block 4242; the inner sides of the ends of the two clamping rods 424 are respectively formed with a first clamping block 4243 which are symmetrically arranged.

The heating furnace 1 comprises a furnace body 11 fixed at the top of the bottom cabinet 7, two heat preservation furnace walls 12 fixed on the inner bottom surface of the furnace body 11 and symmetrically arranged from front to back, two heat preservation furnace plates 15 transversely fixed between the two heat preservation furnace walls 12 and distributed up and down, a refractory furnace pipe 13 arranged between the two heat preservation furnace walls 12 and the two heat preservation furnace plates 15, and a refractory furnace base 14 transversely arranged on the inner bottom surface of the refractory furnace pipe 13; a U-shaped beam 16 which is transversely arranged is further fixed at the top of the upper heat preservation furnace plate 15, a main air inlet pipe 19 which is transversely arranged is further fixed at the top of the furnace body 11, two ends of the main air inlet pipe 19 are closed, a plurality of air inlet branch pipes 17 which are sequentially arranged from left to right are further inserted into the U-shaped beam 16, the lower end of each air inlet branch pipe 17 downwards sequentially penetrates through the top of the upper heat preservation furnace plate 15 and the top of the refractory furnace container 13 in a sealing mode and extends into the upper portion of the interior of the refractory furnace container 13, and the upper end of each air inlet branch pipe 17 is hermetically inserted into the main air inlet pipe 19 and is communicated with the interior of the main air inlet pipe 19; the gas supply device 2 comprises a box body 21 fixed on the outer wall of the rear side of the furnace body 11, a box door 22 arranged at the opening of the box body 21 and capable of being opened, and a main body arranged in the box body 21; the main body comprises a Venturi tube 23, a first electromagnetic valve 24, a proportional valve 25, a first big tee 26, a first ball valve 27, a second big tee 28 and a pressure gauge 219; the air outlet of the venturi tube 23 penetrates through the box body 21 and the furnace body 11 and is inserted into the air inlet manifold 19, the air outlet of the first electromagnetic valve 24 is connected with the air inlet of the venturi tube 23, the air outlet of the proportional valve 25 is connected with the air inlet of the first electromagnetic valve 24, one end of the first ball valve 27, one interface of the second large tee 28 and the air inlet of the proportional valve 25 are respectively connected with three interfaces of the first large tee 26, and the pressure gauge 219 is arranged at the other end of the first ball valve 27.

An igniter 112 is further embedded in the U-shaped beam 16, correspondingly, the gas supply device 2 further comprises an ignition assembly arranged in the box body 21, a spark plug of the igniter 112 downwards penetrates through the top of the upper heat preservation furnace plate 15 and the upper fireproof furnace pipe 13 in a sealing mode in sequence, extends into the upper portion of the inner part of the fireproof furnace pipe 13 and is matched with the lower end of each gas inlet branch pipe 17; the ignition assembly comprises a small tee 29, a first stop valve 210, a second electromagnetic valve 211, a first air inlet pipe 212 and a first air outlet pipe 216; one of the connectors of the small tee joint 29 is connected to the other connector of the second big tee joint 28, one end of the first air inlet pipe 212 is connected with one end of the first stop valve 210, the other end of the first air inlet pipe 212 is connected with the other connector of the small tee joint 29, the other end of the first stop valve 210 is connected with an air inlet of the second electromagnetic valve 211, one end of the first air outlet pipe 216 is connected with an air outlet of the second electromagnetic valve 211, and the other end of the first air outlet pipe 216 is connected with one air inlet of the igniter 112.

The lifting device 5 comprises a cabinet body 51, a sliding plate 52 which is high in front and low in back and is obliquely fixed in the cabinet body 51, two first side plates 53 which are respectively fixed at the left side and the right side of an opening at the back of the cabinet body 51, and a plurality of fixed plates 54 which are vertically fixed between the two first side plates 53 and ascend in a stepped manner from front to back, wherein a first supporting strip 55 which is transversely arranged is further fixed at the back side of the top of each fixed plate 54, a movable plate 57 which is vertically distributed is further arranged at the front side of each fixed plate 54, each movable plate 57 is movably arranged between the two first side plates 53 and can move up and down, and a second supporting strip 58 which is transversely arranged is further fixed at the back side of the top of each movable plate 57; two first traction plates 59 which are arranged in a bilateral symmetry mode are further fixed between the outer walls of the rear side of each movable plate 57, a lifting air cylinder 56 is further arranged between the two first traction plates 59, and the telescopic end of each lifting air cylinder 56 is vertically arranged upwards and can be rotationally fixed to the rear side of one movable plate 57; the feeding device 6 comprises a frame 61 transversely fixed above the rear sides of the two first side plates 53, two transmission rollers 65 respectively rotatably fixed at the left end and the right end of the frame 61, a conveyor belt 62 sleeved on the two transmission rollers 65 and wrapped outside the frame 61, a first motor 63 fixed below the frame 61, a driving sprocket 64 fixed on a rotating shaft of the first motor 63 in a sleeved mode, a driven sprocket 67 fixed at the rear end of one transmission roller 65 on the left side in a sleeved mode, and a chain 66 sleeved between the driving sprocket 64 and the driven sprocket 67, wherein a transfer mechanism 68 and a first executing mechanism 69 are further arranged on the frame 61.

The transfer mechanism 68 comprises a supporting table 681 fixed at the left end of the front side of the rack 61, a first bottom block 682 fixed at the top of the supporting table 681, a second supporting block 683 fixed at the front side of the first bottom block 682, a second side plate 684 vertically fixed between the first bottom block 682 and the left side of the second supporting block 683, a third cylinder 685 fixed at the top of the second supporting block 683, a sliding block 686 fixed at the rear end of the right side of the second side plate 684, a sliding rail 687 transversely and movably arranged in the sliding block 686 and located above the first bottom block 682, and a first grabbing component 611 arranged on the sliding rail 687, wherein the telescopic end of the third cylinder 685 is transversely arranged backwards and fixed at the front end of the sliding rail 687.

The first grabbing assembly 611 comprises two side blocks 688 which are arranged in bilateral symmetry, a first end block 689 fixed between the front sides of the two side blocks 688, a second end block 6810 fixed between the rear sides of the two side blocks 688, a first traction block 6812 movably arranged between the two side blocks 688, a fourth air cylinder 6811 fixed on the front side of the first end block 689, a switching block 6813 fixed at the rear end of the first traction block 6812, a clamping seat 6815 fixed on the rear side of the first bottom block 682, a second clamping block 6814 fixed on the switching block 6813 and located behind the clamping seat 6815, and a first limiting plate 6816 arranged on the left side of the clamping seat 6815 and the second clamping block 6814 and located above the conveyor belt 62, wherein the telescopic end of the fourth air cylinder 6811 is transversely arranged backwards and fixed at the front end of the first traction block 6812; the slide rail 687 is fixed to one of the side blocks 688 on the left side.

The first actuating mechanism 69 comprises a bedplate 691 transversely fixed on the rear side of the frame 61, a second base block 6912 vertically fixed on the right side of the bedplate 691, a fifth air cylinder 692 fixed on the right side of the second base block 6912, a carrier block 693 fixed on the top of the bedplate 691, a first guide block 694 fixed on the right end of the carrier block 693, and a second traction plate 696 fixed on the telescopic end of the fifth air cylinder 692 and located on the right side of the first guide block 694, wherein the telescopic end of the fifth air cylinder 692 is transversely arranged towards the left, two first V-shaped grooves 6931 are formed in the top of the carrier block 693, a push block 695 is further arranged in each of the two first V-shaped grooves 6931, the right ends of the two push blocks 695 movably penetrate through the first guide block 694 and are fixed on the second traction plate 696, and a first limiting plate 6816 is fixed on the carrier block 693.

The top of each fixed plate 54 is formed with a first inclined surface 5141 which is arranged to be high in front and low in back, and correspondingly, the top of each first supporting strip 55 is formed with a second inclined surface 5151 which is arranged to be high in front and low in back, and the upper side edge of the second inclined surface 5151 is engaged with the lower side edge of the first inclined surface 5141.

The top of each movable plate 57 is formed with a third inclined surface 5171 which is arranged high in front and low in rear, and correspondingly, the top of each second bracket strip 58 is formed with a fourth inclined surface 5181 which is arranged high in front and low in rear, and the upper side edge of the fourth inclined surface 5181 is engaged with the lower side edge of the third inclined surface 5171.

The transfer mechanism 68 further includes a first transfer baffle 6817 and a second transfer baffle 6820, the first transfer baffle 6817 and the second transfer baffle 6820 being fixed to the front and rear sides of the frame 61 and located above the conveyor 62 on the front and rear sides, respectively; the rear side of the frame 61 is further fixed with a feeding baffle 610, the feeding baffle 610 is arranged at the right side of the second conveying baffle 6820 and the upper rear side of the conveyor belt 62 and is matched with the uppermost fixed plate 54, and the left end of the feeding baffle 610 is matched with the right end of the second conveying baffle 6820.

A bottom beam 110 transversely arranged is further fixed between the bottoms of the two first side plates 53, and the fixed end of the lifting cylinder 56 is rotatably fixed on the bottom beam 110.

A sixth cylinder 6818 is further fixed to the left side of the second side plate 684, a telescopic end of the sixth cylinder 6818 transversely penetrates the second side plate 684 rightwards and extends out to the left side of the sliding rail 687, a brake block 2819 is further fixed to the telescopic end of the sixth cylinder 6818, and the end portion of the brake block 2819 is matched with the outer wall of the left side of the sliding rail 687.

The top of first guide block 694 still is fixed with third seat 698, still alternates in the third seat 698 and is provided with horizontal distribution's gag lever post 699, still is fixed with stopper 6910 on the gag lever post 699, and the right side of third seat 698 is located to stopper 6910, and the right-hand member of gag lever post 699 is fixed on second base block 6912.

The left side of the carrying block 693 is further fixed with two V-shaped guide plates 6911, and the right ends of the two V-shaped guide plates 6911 are respectively engaged with the left ends of the two first V-shaped grooves 6931.

Two second guide rods 697 transversely arranged are further fixed to the left side of the second traction plate 696, and the end portions of the two second guide rods 697 are movably inserted into the first guide block 694 and the carrier block 693.

The limiting assembly 4212 comprises a moving block 42121 movably fixed on the first guide rod 427, a sleeve 42122 transversely inserted and fixed in the moving block 42121 and positioned below the first guide rod 427, an internally threaded pipe 42123 concentrically and movably arranged in the sleeve 42122, a first screw 42127 concentrically inserted and screwed in the internally threaded pipe 42123, a bearing seat 42126 fixed at the left end of the sleeve 42122, and a second motor 42128 fixed at the left end of the bearing seat 42126, wherein the left end of the first screw 42127 is rotatably inserted and connected in the bearing seat 42126, and the rotating shaft of the second motor 42128 transversely extends rightward into the bearing seat 42126 and is concentrically fixed at the left end of the first screw 42127.

The main machine 41 is also provided with a guide assembly, the guide assembly comprises a second bottom block 4213 fixed on the right side of the main machine 41, a supporting strip 4214 movably fixed in the second bottom block 4213 and capable of moving up and down to adjust the fixed position, a groove seat 4215 fixed on the right side of the main machine 41 and positioned above one side of the second bottom block 4213, a vertical strip 4214 movably fixed on the groove seat 4215 and capable of moving up and down to adjust the fixed position, a transverse strip 4217 movably fixed on the vertical strip 4214 and capable of moving back and forth to adjust the fixed position, and a connecting block 4218 vertically fixed on the transverse strip 4217; the lower end of the connecting block 4218 is further fixed with a transversely arranged bar-shaped base 4219, the bottom of the bar-shaped base 4219 is further fixed with a transversely arranged and detachable pressing strip 4220, and the pressing strip 4220 is arranged above the vertical bar 4214 and is matched with the vertical bar 4214.

The lifting assembly 333 comprises a back plate 3331 vertically fixed on the top of the bottom plate 331, a lifting plate 3338 vertically arranged on the front side of the back plate 3331, a first servo motor 3332 fixed on the bottom of the bottom plate 331, a fourth seat block 3334 fixed on the bottom of the lifting plate 3338, an internal thread sleeve 3335 vertically fixed on the top of the fourth seat block 3334, and a second screw 3333 vertically and rotatably inserted into the fourth seat block 3334; a rotating shaft of the first servo motor 3332 vertically and upwardly penetrates through the bottom plate 331 and is concentrically fixed at the lower end of the second screw rod 3333, the upper end of the second screw rod 3333 is inserted and screwed into the internal thread sleeve 3335, a plurality of vertically arranged first guide rails 3337 are further fixed on the front side of the back plate 3331, a plurality of first sliding blocks 3336 are further sleeved on each first guide rail 3337, and each first sliding block 3336 is fixed on the rear side of the lifting plate 3338; the movable assembly 336 comprises a supporting plate 3368 fixed on the upper side of the lifting plate 3338, a supporting seat 3361 fixed on the right side of the supporting plate 3368, a second servo motor 3362 embedded in the supporting seat 3361 and positioned above the supporting plate 3368, a frame 3367 arranged on the right side of the supporting seat 3361, a second guide rail 3365 fixed on the left side of the frame 3367, a second sliding block 3364 sleeved on the second guide rail 3365 and fixed on the right side of the supporting seat 3361, a rack 3366 fixed on the top of the frame 3367, and a gear 3363 sleeved on the rotating shaft of the second servo motor 3362 and positioned on the right side of the supporting seat 3361; the gear 3363 is engaged on the top of the rack 3366; the second grabbing assembly 334 comprises a seventh cylinder 3341 fixed at the front end of the frame 3367, a driving rod 3342 inserted into the frame 3367, and a second actuator 3343 arranged at the rear end of the frame 3367 and connected to the rear end of the driving rod 3342; the telescopic end of the seventh cylinder 3341 is disposed rearward and fixed to the front end of the driving rod 3342.

The second actuator 3343 comprises a connecting seat 33431 fixed at the rear end of the frame 3367, a housing 33432 fixed at the end of the connecting seat 33431, a main beam 33433 fixed at the end of the connecting seat 33431 and located inside the housing 33432, a second traction block 33434 movably arranged at the top of the main beam 33433, a second guide block 33435 fixed at the top of the second traction block 33434, and two frame bodies 33436 fixed in the housing 33432 and symmetrically arranged at the left and right sides of the main beam 33433; the rear end of the driving rod 3342 passes through the connecting block 33431 and is fixed to the front end of the second traction block 33434.

Two clamping modules 33437 are further arranged between the main beam 33433 and the two frame bodies 33436, each clamping module 33437 comprises a first shaft 334371 and a second shaft 334375 which are transversely inserted and fixed between the main beam 33433 and the two frame bodies 33436 and are arranged in front and at back, two driving blocks 334373 which are sleeved and fixed on the first shaft 334371 and are respectively arranged in the two frame bodies 33436, and two driven blocks 334372 which are sleeved and fixed on the second shaft 334375 and are respectively arranged in the two frame bodies 33436; the two driven blocks 334372 are respectively arranged at the rear sides of the two driving blocks 334373; a clip 334374 is also secured to the bottom inner side of each of the master block 334373 and the slave blocks 334372.

A second arc-shaped gear ring 3343721 is formed on the outer wall of the front side of each driven block 334372, correspondingly, a third arc-shaped gear ring 3343731 is formed on the outer wall of the rear side of each driving block 334373, and the two third arc-shaped gear rings 3343731 are meshed with the two second arc-shaped gear rings 3343721 respectively.

A shifting block 3343732 is further formed upwards at the top of each driving block 334373, correspondingly, two transversely arranged traction rods 334376 are further fixedly inserted into the second traction block 33434, and two ends of one traction rod 334376 on the front side are respectively matched with the shifting blocks 3343732 on the two driving blocks 334373 on the front side; the two ends of one draw bar 334376 at the back side are respectively matched with the shifting blocks 3343732 on the two driving blocks 334373 at the back side.

An extension block 334351 is outwards formed on each of the left side and the right side of the second guide block 33435, a fifth inclined surface 334352 is formed on the rear side of each of the two extension blocks 334351, a support 33438 is further fixed to the tops of the two support bodies 33436, a transversely-arranged pulley 33439 is further fixed to each of the two supports 33438, and the two pulleys 33439 are respectively attached to the two fifth inclined surfaces 334352 in a rolling manner.

Still be equipped with buffer 334310 in connecting seat 33431, the flexible end of buffer 334310 stretches out the outside of connecting seat 33431 backward and mutually supports with the front end of second guide block 33435, and the top rear side of girder 33433 still is fixed with spacing seat 334311, and spacing seat 334311 mutually supports in order to play limiting displacement with the rear end of second guide block 33435.

The ignition assembly further comprises a second stop valve 213, a third electromagnetic valve 214 and a second air inlet pipe 215, one end of the second air inlet pipe 215 is connected to the remaining interface of the small tee 29, the other end of the second air inlet pipe 215 is connected to one end of the second stop valve 213, the other end of the second stop valve 213 is connected to an air inlet of the third electromagnetic valve 214, and an air outlet of the third electromagnetic valve 214 is connected to the first air outlet pipe 216.

The ignition assembly further comprises a third stop valve 217 and a second escape tube 218, one end of the second escape tube 218 being connected to an outlet of the third stop valve 217, and the other end of the second escape tube 218 being connected to another inlet of the igniter 112.

A high-voltage ignition coil 220 is also fixed in the box body 21, and the high-voltage ignition coil 220 is connected with a power supply interface of the igniter 112; each intake manifold 17 is also provided with a valve 18.

A stop block 111 is further fixed at the opening at the left end of the refractory furnace pipe 13, a U-shaped sinking cavity 1111 is formed in the bottom of the right side of the stop block 111, an open slot 1113 is formed in the bottom of the inner wall of the left side of the U-shaped sinking cavity 1111, a cavity hole 1112 is formed in the top of the stop block 111, and the opening at the lower end of the cavity hole 1112 is communicated with the inner wall of the top of the U-shaped sinking cavity 1111; an exhaust pipe 110 is further fixed to the left side of the furnace body 11, and an opening at the lower end of the exhaust pipe 110 is inserted into and fixed to an opening at the upper end of the cavity 1112.

The top of the fire-resistant furnace base 14 is provided with two second V-shaped grooves 141 which are transversely arranged and distributed front and back, the bottom of the left side of the furnace body 11 is also fixed with an adjusting frame 117, the adjusting frame 117 is also fixed with two slide ways 118 which are distributed front and back, the two slide ways 118 are arranged in an open slot 1113 and a U-shaped sinking cavity 1111 and are lower at the left and higher at the right, and the right ends of the two slide ways 118 are mutually matched with the left ends of the two second V-shaped grooves 141; the left ends of the two V-shaped guide plates 6911 are respectively fitted with the right ends of the two second V-shaped grooves 141.

Feed inlet 1101 has been seted up to furnace body 11's right side, feed inlet 1101 department still is equipped with spacing subassembly, and spacing subassembly includes that two are vertical fixes at furnace body 11 rear side and symmetry locate feed inlet 1101 front and back both sides's gib block 116 and activity fix between two gib blocks 116 and adjustable upper and lower position's second limiting plate 114, and breach 1141 has been seted up to the bottom of second limiting plate 114, and the right-hand member of refractory furnace seat 14 inserts in breach 1141.

Two arc-shaped grooves 1142 are formed in the inner wall of the top of the notch 1141; the two arc-shaped grooves 1142 are disposed above the right ends of the two second V-shaped grooves 141.

A U-shaped cover plate 115 is further fixed on the left side of the furnace body 11, the U-shaped cover plate 115 covers the left side of the stop block 111, and a through hole 1151 is formed in the U-shaped cover plate 115; the left end of each slide 118 passes through the through-hole 1151 and protrudes outside the left side of the U-shaped cover plate 115.

A barrier strip 113 is further fixed between the upper ends of the two guide strips 116, and the barrier strip 113 is arranged on the right side of the second limiting plate 114.

The working principle is as follows:

(1) a certain number of copper rods with certain length are transversely placed on the top of the sliding plate 52 and are sequentially arranged from front to back, each copper rod automatically rolls backwards due to the inclination of the sliding plate 52, and the rear side of the rearmost copper rod is attached to the front side of the lowermost movable plate 57.

(2) The telescopic end of the lifting cylinder 56 is driven to contract inwards to drive one of the movable plates 57 to move vertically downwards, and then each of the other movable plates 57 is driven to move downwards by two first traction plates 59, when the top of the lowermost movable plate 57 is lower than the rearmost copper rod, the rearmost copper rod can roll backwards to the tops of the lowermost movable plate 57 and the corresponding second supporting strip 58; then, the telescopic end of the lifting cylinder 56 is driven to extend outwards to drive each movable plate 57 to move upwards according to the same principle, so that a rearmost copper rod is lifted upwards to the front side of a lowermost fixed plate 54, and finally, the copper rod rolls to the top of the lowermost fixed plate 54 and a corresponding first supporting strip 55 along the third inclined surface 5171 on the movable plate 57 and the fourth inclined surface 5181 on the second supporting strip 58.

(3) The telescopic end of the lifting cylinder 56 is driven to contract inwards to drive each movable plate 57 to move downwards, and when the top of a second movable plate 57 counted from bottom to top moves downwards to the rear side of the top of a lowermost fixed plate 54 and a corresponding first supporting strip 55, the copper rod at the top of the lowermost fixed plate 54 and the corresponding first supporting strip 55 immediately rolls to the tops of the second movable plate 57 counted from bottom to top and a corresponding second supporting strip 58 along the first inclined surface 5141 on the fixed plate 54 and the second inclined surface 5151 on the first supporting strip 55; in the process, the penultimate copper bar in place on the sliding plate 52 is rolled to the top of the lowermost movable plate 57 and the corresponding second supporting bar 58 in the same manner.

(4) The telescopic end of the lifting cylinder 56 is continuously driven to extend outwards to drive each movable plate 57 to move upwards in the same way until the second movable plate 57 counted from bottom to top and the corresponding second supporting strip 58 rise to the front side of the second fixed plate 54 counted from bottom to top, and then the copper rods positioned at the tops of the second movable plate 57 counted from bottom to top and the corresponding second supporting strip 58 roll to the tops of the second fixed plate 54 counted from bottom to top and the corresponding first supporting strip 55 in the same way.

(5) The telescopic end of the lifting cylinder 56 is driven to contract inwards to drive each movable plate 57 to move downwards, when the top of the third movable plate 57 counted from bottom to top moves downwards to the rear side of the top of the second fixed plate 54 counted from bottom to top and the corresponding first supporting strip 55, the copper rods positioned at the top of the second fixed plate 54 counted from bottom to top and the corresponding first supporting strip 55 roll to the top of the third movable plate 57 counted from bottom to top and the corresponding second supporting strip 58, so that a cycle is formed until the copper rods reach the top of the second fixed plate 54 at the top and the corresponding first supporting strip 55, and the subsequent copper rods are continuously lifted according to the principle.

(6) The copper rod lifted up rolls backwards to the conveyor belt 62, and stops on the conveyor belt 62 after hitting the feeding baffle 610, after the first motor 63 is started to work, the rotating shaft of the first motor drives the driving sprocket 64 to rotate, and then the left driving roller 65 is driven to rotate by the chain 66 and the driven sprocket 67, so that the conveyor belt 62 is driven to operate by the right driving roller 65 to convey the copper rod leftwards and be located between the first conveying baffle 6817 and the second conveying baffle 6820, meanwhile, the telescopic end of the fourth cylinder 6811 is driven to extend outwards to drive the first traction block 6812 to move backwards, and then the second clamping block 6814 is driven to move backwards by the aid of the switching block 6813 to keep away from the clamping seat 6815.

(7) The copper rod is conveyed between the second clamping block 6814 and the clamping seat 6815 by the conveyor belt 62, and when the left end of the copper rod touches the first limiting plate 6816, the copper rod cannot be conveyed continuously; then, the telescopic end of the fourth cylinder 6811 is driven to contract inwards to drive the first traction block 6812 to move forwards, and further, the second clamping block 6814 is driven to move forwards according to the same principle until the second clamping block 6814 and the clamping seat 6815 clamp and fix the copper rod.

(8) The telescopic end of the third cylinder 685 is driven to extend outwards, and then the sliding rail 687 is driven to move backwards in the sliding block 686, so that the whole first grabbing component 611 is driven to move backwards by means of the left side block 688, the copper bar is moved to the position above one of the first V-shaped grooves 6931, then the telescopic end of the fourth cylinder 6811 is driven to extend outwards to loosen the copper bar in the same way, the copper bar falls into one of the first V-shaped grooves 6931, and finally, the subsequent copper bar is placed into the other first V-shaped groove 6931 according to the steps.

(9) The telescopic end of the fifth cylinder 692 is driven to extend outwards, and then the second traction plate 696 drives the two pushing blocks 695 to move leftwards until the left side of the second traction plate 696 touches the right side of the first guide block 694, so that the left ends of the two pushing blocks 695 push the two copper bars leftwards into the two V-shaped guide plates 6911 to facilitate taking in the next process; after the completion, the telescopic end of the fifth cylinder 692 is driven to contract inward to drive the two pushing blocks 695 to reset until the right side of the third block 698 touches the right side of the limiting block 6910.

(10) A fan is arranged at the air inlet of the Venturi tube 23, and then coal gas is connected to the rest of the interface of the second big tee 28; the first stop valve 210 and the second electromagnetic valve 211 are opened, the gas enters the first gas inlet pipe 212 through the second big tee joint 28 and the small tee joint 29, then enters the first gas outlet pipe 216 through the first stop valve 210 and the second electromagnetic valve 211, and finally enters the igniter, and meanwhile, the high-voltage ignition coil 220 is started to enable the igniter 112 to generate sparks, so that the gas is ignited.

(11) Opening a first electromagnetic valve 24 and starting a fan, wherein coal gas enters a proportional valve 25 through a second big tee 28 and a first big tee 26, then enters a Venturi tube 23 through the first electromagnetic valve 24 and is further mixed with air entering the Venturi tube 23, the coal gas mixed with the air enters an air inlet main pipe of the heating furnace under the acceleration action of the Venturi tube 23, and then is matched with ignition coal gas to ignite each furnace end in the heating furnace; the proportional valve 25 can adjust the flow rate of the gas to adjust the ratio of the gas to the air; after opening the first ball valve 27, the gas inlet pressure can also be monitored by means of a pressure gauge 219.

(12) Closing the first and second cut valves 210 and 211 to end the ignition; if the first stop valve 210 and the second solenoid valve 211 fail, the second stop valve 213 and the third solenoid valve 214 may be opened to allow the gas to enter the second gas inlet pipe 215 through the second large tee 28 and the small tee 29, enter the first gas outlet pipe 216 through the second stop valve 213 and the third solenoid valve 214, and finally enter the igniter 112.

(13) If the first stop valve 210 and the second solenoid valve 211 are also out of order, the gas may be introduced into the gas inlet of the third stop valve 217, and after the third stop valve 217 is opened, the gas may be directly introduced into the igniter 112 through the second gas outlet pipe 218.

(14) When the gas is introduced into the gas inlet manifold 19, each valve 18 is opened, the gas in the gas inlet manifold 19 enters the interior of the refractory furnace pipe 13 through each gas inlet branch pipe 17, and at the moment, the gas sprayed out of the lower end of each gas inlet branch pipe 17 is ignited by the small flame ignited by the igniter 112 and continuously burns.

(15) Then, the copper bars that will correspond quantity and length are from the right side to inserting in two second V type grooves 141 and continuously advancing in a left side is continuous, and then make a plurality of copper bars in every second V type groove 141 stretch into refractory furnace courage 13 in proper order, and in this process, the inner wall of every arc groove 1142 all laminates on the top outer wall of every copper bar, and then prevents effectively that the copper bar from taking place to rock from top to bottom when stretching into refractory furnace courage 13 inside.

(16) The copper rod in the refractory furnace pipe 13 rapidly heats up and turns red under the action of gas combustion, and leaves the corresponding arc-shaped groove 1142 leftwards under the push of other subsequent copper rods, and then enters the slide rail 118 through the rear end of the slide rail 118, so as to slide out to the next procedure along the slope of the slide rail 118.

(17) The waste gas generated by the combustion of coal gas in the refractory furnace pipe 13 can enter the cavity hole 1112 through the U-shaped sinking chamber 1111 and then be discharged outwards through the exhaust pipe 110.

(18) According to the requirement of the cutting length of the copper rod, the second motor 42128 is started to enable the rotating shaft to rotate, so that the first screw 42127 rotates in the internal thread pipe 42123 through the bearing seat 42126, the internal thread pipe 42123 is driven to move left and right according to the principle of threaded connection, the distance between the right end of the internal thread pipe 42123 and the opening at the front end of the cutting opening 411 is further adjusted, and the cutting length of the copper rod is determined.

(19) The height of the supporting strip 4214 is adjusted to enable the height of the V-shaped seat 42141 to be flush with the inner bottom of the blanking opening 411, then the height of the vertical strip 4214 and the transverse position of the transverse strip 4217 are adjusted to adjust the left and right positions of the strip-shaped base 4219 through the connecting block 4218, the pressing strip 4220 is moved to the appropriate height to enable the arc-shaped groove 42201 to be located right above the V-shaped seat 42141, and the arc-shaped groove 42201 and the V-shaped seat 42141 are kept at a certain distance to be matched with the outer diameter of the copper rod.

(20) The feeding device 6 stretches the burned copper bar into the space between the V-shaped seat 42141 and the arc-shaped groove 42201 from right to left so that the copper bar cannot shake up and down and back and forth, then the burned copper bar is continuously pushed leftwards until the burned copper bar stretches out of the opening at the front end of the material cutting opening 411, in the process, the pressing strip 4220 always presses the top of the burned copper bar, and then the copper bar is effectively prevented from shaking up and down and back and forth during feeding.

(21) When the left end of the red copper bar is abutted against the right end of the internally threaded pipe 42123, the telescopic end of the second cylinder 423 is driven to contract inwards so as to drive the end part of one clamping rod 424 on the rear side to swing forwards by means of the traction block 4242, and further drive the end part of one clamping rod 424 on the front side to swing backwards by means of the mutual engagement of the two first arc-shaped gear rings 4241, so that the two first clamping blocks 4243 are clamped on the front side and the rear side of the copper bar respectively; the telescopic end of the first cylinder 428 is driven to extend outwards to drive the short beam 4210 to descend by means of the lifting bar 429 until the bottom of the pressing block 4211 is pressed on the outer wall of the upper side of the copper rod, and therefore the situation that the high-temperature copper rod is inclined when being cut off to influence the cutting precision is avoided.

(22) The blade in the main machine 41 is started to work to cut off the red copper rod to form short materials, and then the telescopic end of the second cylinder 423 is driven to extend outwards to drive the end parts of the two clamping rods 424 to open outwards in the same way, so that the formed short materials fall downwards into the output slideway 42 and enter the processing device 3 along the output slideway 42.

(23) The second servo motor 3362 is started to rotate the rotating shaft thereof, and the rack 3366 is driven to move forward by the gear 3363, so that the frame 3367 and the second grabbing assembly 334 are both driven to move forward, and when the frame 3367 moves, the second guide rail 3365 on the frame 3367 slides along the second sliding block 3364 to ensure the smoothness of the movement of the frame 3367; simultaneously, the first servo motor 3332 is started to rotate the rotating shaft of the first servo motor 3332, so that the second screw 3333 is driven to rotate in the internal thread sleeve 3335, the internal thread sleeve 3335 is driven to ascend according to the principle of threaded connection, the lifting plate 3338 and the moving assembly 336 are driven to ascend by means of the fourth seat block 3334, and the second grabbing assembly 334 is moved to the position above the two red copper sections; when the lifting plate 3338 moves, each first sliding block 3336 slides along a corresponding one of the first guide rails 3337 to ensure the smoothness of the movement of the lifting plate 3338.

(24) Starting the first servo motor 3332 to rotate the rotating shaft in the reverse direction, and further driving the second grabbing component 334 to move downwards in the same way; simultaneously, the telescopic end of the seventh cylinder 3341 is driven to extend outwards to drive the two traction rods 334376 to move backwards through the second traction block 33434, so that each shifting block 3343732 is pushed to swing backwards, the top of each driving block 334373 is driven to swing backwards, the top of each driven block 334372 is driven to swing forwards through the mutual engagement of the third arc-shaped gear ring 3343731 and the second arc-shaped gear ring 3343721, and each driving block 334373 and the bottom of a corresponding driven block 334372 are driven to swing outwards to open each clamping piece 334374; the front two clamping tabs 334374 of each clamping module 33437 are each located on the front side of a corresponding one of the red-fired copper sections, while the rear two clamping tabs 334374 of each clamping module 33437 are each located on the rear side of a corresponding one of the red-fired copper sections.

(25) The telescopic end of the seventh cylinder 3341 is driven to extend outwards to drive the two traction rods 334376 to move backwards continuously in the same way until each traction rod 334376 passes over the corresponding two shifting blocks 3343732 and is located at the rear side of the two shifting blocks 3343732, and then the telescopic end of the seventh cylinder 3341 is driven to contract inwards to drive the two traction rods 334376 to move forwards in the same way, so that each shifting block 3343732 is pushed forwards to swing forwards, so that the top of each driving block 334373 swings forwards, and the top of each driven block 334372 swings backwards by means of the mutual engagement of the third arc-shaped gear ring 3343731 and the second arc-shaped gear ring 3343721, so that each driving block 334373 and the bottom of a corresponding driven block 334372 approach inwards to gather each clamping piece 334374 until the two red copper sections are clamped.

(26) Starting the second servo motor 3362 to rotate the rotating shaft in the reverse direction, and then driving the frame 3367 and the second grabbing component 334 to move backwards according to the same principle until the two red copper sections are positioned above the molding die cavity; simultaneously starting the first servo motor 3332 to enable the rotating shaft to rotate forwards, and further driving the second grabbing component 334 to descend according to the same principle until the two red copper sections extend into the molding die cavity; then the telescopic end of the seventh cylinder 3341 is driven to extend outwards to drive the two traction rods 334376 to move backwards to leave each shifting block 3343732 according to the same principle, and after the pushing force of the shifting block 3343732 is lost, each clamping piece 334374 automatically leaves the red copper section; then, the rotating shafts of the second servo motor 3362 and the first servo motor 3332 are both started to rotate forward to drive the second grabbing component 334 to reset, so as to start the next grabbing, thereby forming a cycle.

(27) During the resetting process, the second grabbing assembly 334 drives the telescopic end of the seventh cylinder 3341 to contract inwards to drive the two pulling rods 334376 to move forwards continuously according to the same principle until each pulling rod 334376 passes over the corresponding two shifting blocks 3343732 and is located at the front side of the two shifting blocks 3343732 to start the next grabbing; when the second traction block 33434 moves, the second guide block 33435 is driven to move, and when the second guide block 33435 moves, the two pulleys 33439 always roll back and forth along the two fifth inclined surfaces 334352 respectively to ensure the smoothness of the movement of the second traction block 33434; the buffer 334310 can slow the forward movement of the second guide block 33435 to prevent the clip 334374 from deforming the red copper segment slightly due to excessive force.

The material moving mechanism 33 can automatically feed the copper sections which are burnt and cut into the forming die cavity only by the aid of the first servo motor 3332, the second servo motor 3362 and the seventh air cylinder 3341, so that the structure is simple and the manufacturing cost is low; and the operation stroke is greatly simplified to remarkably improve the working efficiency.

The positioning mechanism 42 can automatically adjust the front and back positions of the right end of the internal thread tube 42123 so as to greatly simplify the operation, and thoroughly avoid that an operator approaches a high-temperature copper bar which is burnt in a short distance so as to eliminate potential safety hazards; and can press from both sides tight bar copper in order to prevent it from rocking from side to side at the cutting-off in-process with the help of two clamping bar 424, effectively prevented that the bar copper from taking place to rock from side to side at the cutting-off in-process with the help of the location effect of mutually supporting of arc groove 42201 and V type seat 42141 and briquetting 4211 simultaneously to showing and promoting the blank precision.

The heating furnace 1 of the utility model adopts cheap coal gas as fuel to burn for heating the copper bar, thereby greatly reducing energy consumption to be beneficial to energy conservation and environmental protection, reducing operation cost to the maximum extent to obviously reduce production cost, ensuring that the coal gas can be continuously, stably and rapidly output all the time and the coal gas can be fully burnt by the gas supply device 2, further effectively improving the heating efficiency of the heating furnace 1 and thoroughly avoiding the waste of the coal gas.

According to the utility model, the copper rod can be automatically lifted upwards by means of the lifting device 5, and then the copper rod is automatically fed into the heating furnace 1 by means of the feeding device 6 for heating, manual operation is not required in the whole process, so that the labor intensity of operators is greatly reduced, the processing efficiency is obviously improved, and meanwhile, the operation is effectively simplified and potential safety hazards are eliminated.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A novel valve red punching device comprises a processing device and a material cutting device arranged on the right side of the processing device; the processing device comprises a case, a forming mechanism arranged in the case, and a material moving mechanism and a material discharging mechanism which are arranged on the forming mechanism; the blanking device comprises a host and a positioning mechanism arranged on the host, and is characterized by also comprising a bottom cabinet arranged on the right side of the blanking device, a heating furnace arranged at the top of the bottom cabinet, an air supply device arranged on the heating furnace and connected with the heating furnace, a lifting device arranged on the right side of the bottom cabinet, and a feeding device arranged on the lifting device and matched with the heating furnace;

the material moving mechanism comprises a first base block vertically fixed on the forming mechanism, a hanging plate movably fixed on the first base block to adjust the left and right positions, a bottom plate transversely fixed on the hanging plate, a lifting assembly arranged on the bottom plate, a moving assembly arranged on the lifting assembly and a second grabbing assembly arranged on the moving assembly;

the positioning mechanism comprises a first supporting block arranged outside the left side of the host, a side plate fixed on the rear side of the first supporting block, a first seat block fixed on the left side of the first supporting block, a second seat block fixed at the bottom of the first seat block, a first guide rod transversely and movably inserted between the first seat block and the second seat block, a first air cylinder fixed at the top of the first seat block, a lifting strip vertically and movably inserted in the second seat block, a short beam transversely fixed at the lower end of the lifting strip, a pressing block fixed at the bottom of the short beam, a second air cylinder fixed on the rear side of the side plate, two symmetrical and rotatable clamping rods fixed in the first supporting block, and a limiting assembly arranged on the first guide rod; the right end of the first guide rod is fixed on the left side of the host; the telescopic end of the first cylinder vertically penetrates through the first seat block and the first guide rod downwards and is fixed at the upper end of the lifting bar; the inner sides of the root parts of the two clamping rods are respectively provided with a first arc-shaped gear ring, the two first arc-shaped gear rings are mutually meshed, the root part of one clamping rod at the rear side is also upwards provided with a traction block, and the telescopic end of the second cylinder transversely forwards penetrates through the side plate and is movably fixed on the traction block; the inner sides of the end parts of the two clamping rods are outwards provided with first clamping blocks which are symmetrically arranged;

the heating furnace comprises a furnace body fixed at the top of the bottom cabinet, two heat preservation furnace walls which are fixed on the inner bottom surface of the furnace body and symmetrically arranged from front to back, two heat preservation furnace plates which are transversely fixed between the two heat preservation furnace walls and distributed up and down, a fire-resistant furnace pipe arranged between the two heat preservation furnace walls and the two heat preservation furnace plates, and a fire-resistant furnace base transversely arranged on the inner bottom surface of the fire-resistant furnace pipe; the top of the upper heat-preserving furnace plate is also fixedly provided with a horizontally arranged U-shaped beam, the top of the furnace body is also fixedly provided with a horizontally arranged main air inlet pipe, two ends of the main air inlet pipe are both closed, a plurality of air inlet branch pipes which are sequentially arranged from left to right are inserted into the U-shaped beam, the lower end of each air inlet branch pipe downwards sequentially penetrates through the top of the upper heat-preserving furnace plate and the top of the refractory furnace container in a sealing manner and extends into the upper part of the interior of the refractory furnace container, and the upper end of each air inlet branch pipe is hermetically inserted into the main air inlet pipe and is mutually communicated with the interior of the main air inlet pipe;

the gas supply device comprises a box body fixed on the outer wall of the rear side of the furnace body, a box door arranged at an opening of the box body and capable of being opened, and a main body arranged in the box body; the main body comprises a Venturi tube, a first electromagnetic valve, a proportional valve, a first big tee joint, a first ball valve, a second big tee joint and a pressure gauge; the air outlet of the Venturi tube penetrates through the box body and the furnace body and is inserted and connected onto the air inlet main pipe, the air outlet of the first electromagnetic valve is connected with the air inlet of the Venturi tube, the air outlet of the proportional valve is connected with the air inlet of the first electromagnetic valve, one end of the first ball valve, one interface of the second large tee and the air inlet of the proportional valve are respectively connected onto three interfaces of the first large tee, and the pressure gauge is arranged at the other end of the first ball valve;

the U-shaped beam is also embedded with an igniter, correspondingly, the gas supply device also comprises an ignition assembly arranged in the box body, and a spark plug of the igniter downwards penetrates through the top of the upper heat preservation furnace plate and the top of the refractory furnace pipe in a sealing manner in sequence, extends into the upper part of the interior of the refractory furnace pipe and is matched with the lower end of each gas inlet branch pipe; the ignition assembly comprises a small tee joint, a first stop valve, a second electromagnetic valve, a first air inlet pipe and a first air outlet pipe; one interface of the small tee joint is connected with the other interface of the second large tee joint, one end of the first air inlet pipe is connected with one end of the first stop valve, the other end of the first air inlet pipe is connected with the other interface of the small tee joint, the other end of the first stop valve is connected with an air inlet of the second electromagnetic valve, one end of the first air outlet pipe is connected with an air outlet of the second electromagnetic valve, and the other end of the first air outlet pipe is connected with one air inlet of the igniter;

the lifting device comprises a cabinet body, a sliding plate, two first side plates and a plurality of fixed plates, wherein the sliding plate is high in front and low in back and is obliquely fixed in the cabinet body, the two first side plates are respectively fixed at the left side and the right side of an opening at the back of the cabinet body, the fixed plates are vertically fixed between the two first side plates and ascend in a stepped manner from front to back, a first supporting strip is transversely arranged at the back side of the top of each fixed plate, a movable plate is vertically distributed at the front side of each fixed plate, each movable plate is movably arranged between the two first side plates and can move up and down, and a second supporting strip is transversely arranged at the back side of the top of each movable plate; two first traction plates which are symmetrically arranged left and right are further fixed between the outer walls of the rear side of each movable plate, a lifting cylinder is further arranged between the two first traction plates, and the telescopic end of each lifting cylinder is vertically upwards arranged and can be rotatably fixed on the rear side of one movable plate;

feeding device establishes the driven sprocket who fixes at a left drive roller rear end and the chain of cover between drive sprocket and driven sprocket including transversely fixing frame, two rotatable drive rollers, the cover of fixing both ends about the frame at two first curb plate rear sides top and establishing on two drive rollers and parcel conveyer belt outside the frame, fixing first motor, the cover of frame below and fixing drive sprocket, the cover of fixing in first motor axis of rotation, establishing and fixing at the drive sprocket of left drive roller rear end and establishing the cover, still be equipped with transfer mechanism and first actuating mechanism in the frame.

2. The novel valve red punching device as claimed in claim 1, wherein the transfer mechanism comprises a supporting platform fixed at the left end of the front side of the rack, a first bottom block fixed at the top of the supporting platform, a second supporting block fixed at the front side of the first bottom block, a second side plate vertically fixed between the left sides of the first bottom block and the second supporting block, a third cylinder fixed at the top of the second supporting block, a sliding block fixed at the rear end of the right side of the second side plate, a sliding rail transversely and movably arranged in the sliding block and positioned above the first bottom block, and a first grabbing component arranged on the sliding rail, wherein the telescopic end of the third cylinder is transversely and backwards arranged and fixed at the front end of the sliding rail, the first grabbing component comprises two side blocks which are arranged in bilateral symmetry, a first end block fixed between the front sides of the two side blocks, a second end block fixed between the rear sides of the two side blocks, a first traction block movably arranged between the two side blocks, a second traction block arranged between the two traction block and a second traction block arranged between the traction block between the two traction block arranged transversely and a second traction block arranged between the traction block between the two traction block between the traction block and the traction block between the traction block of the traction, The fourth cylinder is fixed on the front side of the first end block, the transfer block is fixed at the rear end of the first traction block, the clamping seat is fixed on the rear side of the first bottom block, the second clamping block is fixed on the transfer block and positioned behind the clamping seat, and the first limiting plate is arranged on the left sides of the clamping seat and the second clamping block and positioned above the conveyor belt; the slide rail is fixed on one side block on the left side.

3. The novel valve red punching device according to claim 2, wherein the first actuator comprises a platen transversely fixed to the rear side of the frame, a second base block vertically fixed to the right side of the platen, a fifth cylinder fixed to the right side of the second base block, a carrier block fixed to the top of the platen, a first guide block fixed to the right end of the carrier block, and a second traction plate fixed to the telescopic end of the fifth cylinder and located on the right side of the first guide block, the telescopic end of the fifth cylinder is transversely arranged to the left, two first V-shaped grooves are formed in the top of the carrier block, two push blocks are further arranged in the first V-shaped grooves, the right ends of the two push blocks movably penetrate through the first guide block and are fixed to the second traction plate, and the first limiting plate is fixed to the carrier block.

4. The novel valve red punching device as claimed in claim 3, wherein the top of each fixed plate is formed with a first inclined surface with a high front and a low rear, correspondingly, the top of each first supporting strip is formed with a second inclined surface with a high front and a low rear, and the higher side edge of the second inclined surface is connected with the lower side edge of the first inclined surface; the top of each movable plate is provided with a third inclined surface which is high in front and low in back, correspondingly, the top of each second supporting strip is provided with a fourth inclined surface which is high in front and low in back, and the higher side edge of the fourth inclined surface is mutually connected with the lower side edge of the third inclined surface.

5. The novel valve red punching device as claimed in claim 4, wherein the limiting assembly comprises a moving block movably fixed on the first guide rod, a sleeve pipe transversely inserted and fixed in the moving block and positioned below the first guide rod, an internal threaded pipe concentrically and movably arranged in the sleeve pipe, a first screw concentrically inserted and screwed in the internal threaded pipe, a bearing seat fixed at the left end of the sleeve pipe, and a second motor fixed at the left end of the bearing seat, wherein the left end of the first screw is rotatably inserted and connected in the bearing seat, and the rotating shaft of the second motor transversely extends rightwards into the bearing seat and is concentrically fixed at the left end of the first screw.

6. The novel valve red punching device as claimed in claim 5, wherein the lifting assembly comprises a back plate vertically fixed at the top of the bottom plate, a lifting plate vertically arranged at the front side of the back plate, a first servo motor vertically fixed at the bottom of the bottom plate, a fourth seat block vertically fixed at the bottom of the lifting plate, an internal thread sleeve vertically fixed at the top of the fourth seat block, and a second screw vertically and rotatably inserted into the fourth seat block; the vertical bottom plate that upwards passes of axis of rotation of first servo motor and fixes the lower extreme at the second screw rod with one heart, the upper end of second screw rod inserts in the spiro union internal thread sleeve, the front side of backplate still is fixed with the first guide rail of the vertical setting of a plurality of, every still all overlap on the first guide rail and be equipped with the first slider of a plurality of, every first slider all fixes the rear side at the lifter plate.

7. The novel valve red punching device as claimed in claim 6, wherein the moving assembly comprises a supporting plate fixed on the upper side of the lifting plate, a supporting seat fixed on the right side of the supporting plate, a second servo motor embedded in the supporting seat and located above the supporting plate, a frame arranged on the right side of the supporting seat, a second guide rail fixed on the left side of the frame, a second sliding block sleeved on the second guide rail and fixed on the right side of the supporting seat, a rack fixed on the top of the frame, and a gear sleeved on a rotating shaft of the second servo motor and located on the right side of the supporting seat; the gear is meshed with the top of the rack; the second grabbing component comprises a seventh air cylinder fixed at the front end of the frame, a driving rod inserted in the frame and a second executing mechanism arranged at the rear end of the frame and connected with the rear end of the driving rod; and the telescopic end of the seventh cylinder is arranged backwards and fixed at the front end of the driving rod.

8. The novel valve red punching device according to claim 7, wherein the second actuator comprises a connecting seat fixed at the rear end of the frame, a shell fixed at the end of the connecting seat, a main beam fixed at the end of the connecting seat and positioned in the shell, a second traction block movably arranged at the top of the main beam, a second guide block fixed at the top of the second traction block, and two frame bodies fixed in the shell and symmetrically arranged at the left side and the right side of the main beam; the rear end of the driving rod penetrates through the connecting seat and is fixed at the front end of the second traction block; two clamping modules are further arranged between the main beam and the two frame bodies, and each clamping module comprises a first shaft rod and a second shaft rod which are transversely inserted and fixed between the main beam and the two frame bodies and are arranged in front and at back, two driving blocks which are sleeved and fixed on the first shaft rod and are respectively arranged in the two frame bodies, and two driven blocks which are sleeved and fixed on the second shaft rod and are respectively arranged in the two frame bodies; the two driven blocks are respectively arranged at the rear sides of the two driving blocks; a clamping piece is fixed on the inner side of the bottom of each driving block and the inner side of the bottom of each driven block; a second arc-shaped gear ring is formed on the outer wall of the front side of each driven block, correspondingly, a third arc-shaped gear ring is formed on the outer wall of the rear side of each driving block, and the two third arc-shaped gear rings are meshed with the two second arc-shaped gear rings respectively; a shifting block is further formed upwards at the top of each driving block, correspondingly, two transverse traction rods are further inserted and fixed in the second traction block, and two ends of one traction rod on the front side are respectively matched with the shifting blocks on the two driving blocks on the front side; two ends of one traction rod on the rear side are respectively matched with the shifting blocks on the two driving blocks on the rear side.

9. The novel valve red flushing device as claimed in claim 8, wherein the ignition assembly further comprises a second stop valve, a third electromagnetic valve and a second air inlet pipe, one end of the second air inlet pipe is connected to the remaining one of the connectors of the small tee joint, the other end of the second air inlet pipe is connected to one end of the second stop valve, the other end of the second stop valve is connected to an air inlet of the third electromagnetic valve, and an air outlet of the third electromagnetic valve is connected to the first air outlet pipe; the ignition assembly further comprises a third stop valve and a second air outlet pipe, one end of the second air outlet pipe is connected with an air outlet of the third stop valve, and the other end of the second air outlet pipe is connected with the other air inlet of the igniter; a high-voltage ignition coil is also fixed in the box body and is connected with a power interface of the igniter; each air inlet branch pipe is also provided with a valve.

10. The novel valve red punching equipment according to claim 9, wherein the top of the fire-resistant furnace base is provided with two second V-shaped grooves which are transversely arranged and distributed in the front and back direction, the bottom of the left side of the furnace body is also fixed with an adjusting frame, the adjusting frame is also fixed with two slide ways which are distributed in the front and back direction, the two slide ways are arranged in the open groove and the U-shaped sinking cavity in a manner that the two slide ways are lower at the left side and higher at the right side, and the right ends of the two slide ways are matched with the left ends of the two second V-shaped grooves; the left ends of the two V-shaped guide plates are matched with the right ends of the two second V-shaped grooves respectively.

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