CN115446251B

CN115446251B - Forging furnace for die manufacturing

Info

Publication number: CN115446251B
Application number: CN202211330506.XA
Authority: CN
Inventors: 尤红权
Original assignee: Nantong Guohe Semiconductor Equipment Co ltd
Current assignee: Nantong Guohe Semiconductor Equipment Co ltd
Priority date: 2022-10-28
Filing date: 2022-10-28
Publication date: 2023-04-21
Anticipated expiration: 2042-10-28
Also published as: CN115446251A

Abstract

The utility model discloses a forging furnace for manufacturing a die, which relates to the field of forging furnaces and comprises a forging furnace body, wherein an exhaust gas box is fixedly connected to the top of the forging furnace body, an impurity separating mechanism and an impurity collecting mechanism are arranged in the exhaust gas box, a transparent air outlet pipe is embedded in one side of the interior of the exhaust gas box, a movable door is arranged on one side of the exhaust gas box, and through the design of matching of the impurity separating mechanism and the impurity collecting mechanism, when a rotating roller drives a connecting outer plate to rotate and drives a fixed connecting plate and a toughness cleaning brush to rotate to the direction below the rotating roller, at the moment, a sliding connecting block can slide vertically through own inertia, so that the working effects of self-cleaning and impurity separation on the surface of the toughness cleaning brush are achieved, the problem that the bottom of a filter screen frame is difficult to clean due to excessive impurities remained on the surface of the toughness cleaning brush is prevented, and the forging furnace has the characteristic of high practicability.

Description

Forging furnace for die manufacturing

Technical Field

The utility model relates to the technical field of forging furnaces, in particular to a forging furnace for manufacturing a die.

Background

The forging furnace is basic heating equipment for heating forging materials in a forging workshop, and is mainly characterized in that: the forging and pressing variety is many, the specification is many, the batch is small, the forging weight is different, the forging weight is small to tens of grams, the forging furnace is large to hundreds of tons, the chamber type furnace is mainly used as the forging furnace, the furnace structure is simple, the continuous production of the forging furnace is inconvenient, and the mechanized operation is inconvenient, so that the forging furnace is suitable for single-piece small-batch production.

Refer to a forging furnace with waste gas treatment function of chinese patent number CN216632477U, this patent includes the base, and the furnace body is installed to one side on base top, and the inside bottom of furnace body is provided with furnace, and the slow flow seat is installed to one side of furnace body. According to the utility model, the dust collection net, the dust removal box, the third air outlet pipe, the air pump and the third air inlet pipe are arranged, after forging is finished, the air pump is started, the air pump pumps out waste gas in the furnace body, and the waste gas is discharged into the dust removal box through the third air outlet pipe.

Although the above-described technique can accomplish the cleaning work of the inside of the forging furnace so as to facilitate the circulation of the exhaust gas, it is not convenient to clean the inside of the forging furnace for a long period of time because of the difficulty in cleaning the cleaning member, and also causes the problem of incomplete collection of impurities, and therefore, further improvement is required.

Disclosure of Invention

The present utility model is directed to a forging furnace for die manufacturing, which solves the problems set forth in the background art.

In order to solve the technical problems, the utility model provides the following technical scheme: the forging furnace for manufacturing the die comprises a forging furnace body, wherein an exhaust gas box is fixedly connected to the top of the forging furnace body, an impurity separating mechanism and an impurity collecting mechanism are arranged in the exhaust gas box, a transparent air outlet pipe is embedded in one side of the interior of the exhaust gas box, and a movable door is arranged on one side of the exhaust gas box;

the impurity separating mechanism comprises a telescopic air cylinder which is fixedly connected to one side of the outer part of the exhaust gas box, a sliding screw rod is slidably connected inside the telescopic air cylinder, one end of the sliding screw rod is fixedly connected with a connecting shell, and the sliding screw rod drives the connecting shell to reciprocate;

the inside rotation of connecting shell is connected with the rotation connecting rod, the outside fixedly connected with rotor of rotation connecting rod, the outside both sides of rotor are all fixedly connected with and are connected with the planking, two fixedly connected with a plurality of fixed connection boards between the planking of connection, a plurality of the outside fixedly connected with toughness cleaning brush of fixed connection board, the inside fixedly connected with of connecting shell one side two connecting rod bodies, two connecting rod body one side fixedly connected with cover plate, the outside one end fixedly connected with gear of rotation connecting rod, lateral wall fixedly connected with rack behind the exhaust gas box inner chamber, the inside fixedly connected with filter screen frame of exhaust gas box for the rotation connecting rod is in rotation in-process to drive gear and rack meshing;

the impurity collecting mechanism comprises two clamping shells, wherein the two clamping shells are respectively and fixedly connected to two sides of the top of the fixed connecting plate, sliding connecting blocks are arranged in the two clamping shells, round connecting rods are fixedly connected to the tops of the two sliding connecting blocks, cleaning scraping plates are fixedly connected to the tops of the two round connecting rods, and the sliding connecting blocks can do reciprocating sliding in the clamping shells;

the device comprises a connecting shell, a connecting short plate, a rotating collecting plate, a cover plate, a frame body, a second magnetic suction plate, a first magnetic suction plate, a second magnetic suction plate, a first cover plate, a second cover plate, a first cover plate, a second cover plate and a second cover plate, wherein one side of the connecting shell is fixedly connected with the two connecting short plates, the bottoms of the two connecting short plates are fixedly connected with restoring springs, the bottoms of the two restoring springs are fixedly connected with the rotating collecting plate, the rotating collecting plate is movably connected with the cover plate through a rotating shaft, one side of the bottom of the rotating collecting plate is fixedly connected with the first magnetic suction plate, and one side of the exhaust gas box is fixedly connected with the second magnetic suction plate;

the inside movable block that is equipped with of rotation collecting plate, the outside fixedly connected with of movable block scrapes the movable rod for the movable block drives scrapes the movable rod and removes.

According to the technical scheme, the sliding screw rod extends to the inside of the exhaust gas box, the outside of the sliding screw rod is contacted with the inside of the exhaust gas box, and the gear is meshed with the rack, so that the gear can rotate conveniently.

According to the technical scheme, the filter screen frame is arranged at the top of the cover plate, and the two sliding connecting blocks are respectively and slidably connected inside the two clamping shells, so that the sliding of the sliding connecting blocks can be facilitated.

According to the technical scheme, the inside of the cleaning scraping plate is contacted with the outer surface of the flexible cleaning brush, and the bottom of the frame body is contacted with the top of the forging furnace body, so that the cleaning can be facilitated.

According to the technical scheme, magnetism sets up to the heteropolar between first magnetism suction plate and the second magnetism suction plate, scrape movable rod surface and rotate the inside contact of collecting plate, can be convenient for scrape movable rod and clear up the collecting plate that rotates.

According to the technical scheme, the arc chute is formed in the rotary collecting plate, and the movable block is slidably connected in the arc chute, so that the movable block can slide conveniently.

According to the technical scheme, the waste gas box is communicated with the transparent air outlet pipe.

According to the technical scheme, the exhaust gas box is movably connected with the movable door through the movable hinge seat, and one end of the rotary connecting rod extends to one side outside the connecting shell.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, through the design of the matching of the impurity separating mechanism and the impurity collecting mechanism, when the rotating roller drives the connecting outer plate to rotate and drives the fixed connecting plate and the flexible cleaning brush to rotate to the direction below the rotating roller, at the moment, the sliding connecting block can slide down vertically through self inertia, so that the sliding connecting block and the circular connecting rod can be synchronously driven to slide down, the circular connecting rod can synchronously drive the cleaning scraping plate to fall down in the sliding process, and the cleaning scraping plate can synchronously scrape the surface of the flexible cleaning brush in the falling process, so that the working effects of self-cleaning and impurity separation on the surface of the flexible cleaning brush are achieved, and the problem that the bottom of the filter screen frame is difficult to clean due to excessive impurities remained on the surface of the flexible cleaning brush is prevented.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, through the design of the matching of the impurity separating mechanism and the impurity collecting mechanism, when the sliding screw rod drives the connecting shell to integrally move to the range of the frame body, at the moment, because the second magnetic plate and the first magnetic plate are in the magnetic attraction range, when the second magnetic plate magnetically attracts the first magnetic plate, the first magnetic plate rotates clockwise, then the first magnetic plate is gradually vertical to the cover plate in the rotating process, and the restoring spring is stretched in the process, so that the impurities at the top of the rotating collecting plate drop, and then the frame body can collect the dropped dust, thereby achieving the effect of collecting the impurities.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, through the design of matching the impurity separating mechanism and the impurity collecting mechanism, when the sliding screw rod drives the connecting shell to return to work, at the moment, the first magnetic suction plate and the second magnetic suction plate are separated, so that the restoring spring is compressed and drives the rotating collecting plate to quickly reset, and the restoring spring also stretches and contracts for a period of time due to the characteristics of the restoring spring, so that the moving block drives the scraping rod to clean the surface of the rotating collecting plate in the process, and the problems of adhesion and cleaning failure caused by excessive impurities accumulated on the surface of the rotating collecting plate are prevented.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, through the design of the impurity separating mechanism, as the flexible cleaning brush is contacted with the cover plate in the clockwise rotation process, when the flexible cleaning brush is contacted with the inside of the cover plate, the flexible cleaning brush is limited by the cover plate and is bent, when the flexible cleaning brush is completely separated from the inside of the cover plate, the flexible cleaning brush starts to pop out outwards through own flexibility, and meanwhile, as the rotating roller can drive the fixed connecting plate and the flexible cleaning brush to rotate, the flexible cleaning brush can clean the bottom of the filter screen frame through own dynamic rebound in the rotation process, so that the filter screen frame can be cleaned more effectively, the bottom of the filter screen frame can be dredged more effectively, and the problem that the flexible cleaning brush has good cleaning effect on the bottom of the filter screen frame due to incapability of acceleration in the rotation process is solved.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic overall perspective view of the present utility model;

FIG. 2 is a top view in overall cross section of the view of the exhaust box in the configuration of the present utility model;

FIG. 3 is a schematic view of the structure of the impurity separating mechanism and the impurity collecting mechanism in the present utility model;

FIG. 4 is a schematic view of the overall structure of the rack in the present utility model;

FIG. 5 is an enlarged view of the utility model at A in FIG. 4;

FIG. 6 is a schematic view of the structure of the fixed connection plate and the flexible cleaning brush of the present utility model;

FIG. 7 is an enlarged view of the utility model at B in FIG. 6;

FIG. 8 is a schematic illustration of the separation of a shroud plate and a rotating collector plate of the present utility model;

fig. 9 is an enlarged view of fig. 8 at C in accordance with the present utility model.

In the figure: 1. a forging furnace body; 2. an exhaust gas tank; 3. an impurity separating mechanism; 301. a telescopic cylinder; 302. a sliding screw rod; 303. a connection housing; 304. rotating the connecting rod; 305. a rotating roller; 306. connecting an outer plate; 307. fixing the connecting plate; 308. a toughness cleaning brush; 309. a connecting rod body; 310. a cover plate; 311. a gear; 312. a rack; 313. a filter screen frame; 4. an impurity collection mechanism; 401. a clamping shell; 402. a sliding connection block; 403. a circular connecting rod; 404. cleaning a scraping plate; 405. connecting short plates; 406. a return spring; 407. rotating the collection plate; 408. a first magnetic plate; 409. a frame; 410. a second magnetic plate; 411. a moving block; 412. a scraping rod; 5. a transparent air outlet pipe; 6. a movable door.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-9, the present utility model provides the following technical solutions: the forging furnace for manufacturing the die comprises a forging furnace body 1, wherein an exhaust gas box 2 is fixedly connected to the top of the forging furnace body 1, an impurity separating mechanism 3 and an impurity collecting mechanism 4 are arranged in the exhaust gas box 2, a transparent air outlet pipe 5 is embedded in one side of the interior of the exhaust gas box 2, and a movable door 6 is arranged on one side of the exhaust gas box 2;

the impurity separating mechanism 3 comprises a telescopic cylinder 301, wherein the telescopic cylinder 301 is fixedly connected to one side of the outer part of the exhaust gas box 2, a sliding screw rod 302 is slidably connected inside the telescopic cylinder 301, one end of the sliding screw rod 302 is fixedly connected with a connecting shell 303, and the sliding screw rod 302 drives the connecting shell 303 to reciprocate;

the inside rotation of connecting shell 303 is connected with rotation connecting rod 304, rotation connecting rod 304 outside fixedly connected with rotor 305, the outside both sides of rotor 305 are all fixedly connected with and are connected with planking 306, fixedly connected with a plurality of fixed connection boards 307 between two planking 306, the outside all fixedly connected with toughness cleaning brush 308 of a plurality of fixed connection boards 307, connecting shell 303 one side fixedly connected with two connecting rod bodies 309, two connecting rod body 309 one side fixedly connected with cover plate 310, rotation connecting rod 304 outside one end fixedly connected with gear 311, exhaust gas box 2 inner chamber back lateral wall fixedly connected with rack 312, exhaust gas box 2 inside fixedly connected with filter screen frame 313 for rotation connecting rod 304 drives gear 311 and rack 312 meshing in the rotation process;

the impurity collecting mechanism 4 comprises two clamping shells 401, the two clamping shells 401 are respectively and fixedly connected to two sides of the top of the fixed connection plate 307, sliding connection blocks 402 are arranged in the two clamping shells 401, round connection rods 403 are fixedly connected to the tops of the two sliding connection blocks 402, and cleaning scraping plates 404 are fixedly connected to the tops of the two round connection rods 403, so that the sliding connection blocks 402 do reciprocating sliding in the clamping shells 401;

two connecting short plates 405 are fixedly connected to one side of the connecting shell 303, restoring springs 406 are fixedly connected to the bottoms of the two connecting short plates 405, a rotating collecting plate 407 is fixedly connected to the bottoms of the two restoring springs 406, the rotating collecting plate 407 is movably connected with the cover plate 310 through a rotating shaft, a first magnetic suction plate 408 is fixedly connected to one side of the bottom of the rotating collecting plate 407, a frame 409 is arranged in the exhaust gas box 2, a second magnetic suction plate 410 is fixedly connected to one side of the frame 409, and magnetic suction movement is carried out between the second magnetic suction plate 410 and the first magnetic suction plate 408;

the inside of the rotary collecting plate 407 is provided with a moving block 411, and a scraping rod 412 is fixedly connected to the outside of the moving block 411, so that the moving block 411 drives the scraping rod 412 to move.

The sliding screw 302 extends to the inside of the exhaust gas tank 2, the outside of the sliding screw 302 is in contact with the inside of the exhaust gas tank 2, and the gear 311 is engaged with the rack 312.

The filter screen frame 313 is arranged at the top of the cover plate 310, and the two sliding connection blocks 402 are respectively and slidably connected inside the two clamping shells 401.

The cleaning blade 404 is internally contacted with the outer surface of the ductile cleaning brush 308, and the bottom of the frame 409 is contacted with the top of the forging furnace body 1.

The first magnetic attraction plate 408 and the second magnetic attraction plate 410 are arranged in different poles in a magnetic way, and the outer surface of the scraping rod 412 is contacted with the inside of the rotary collecting plate 407.

An arc chute is formed in the rotary collecting plate 407, and the moving block 411 is slidably connected to the inside of the arc chute.

The waste gas box 2 is communicated with a transparent air outlet pipe 5.

The exhaust gas box 2 is movably connected with the movable door 6 through a movable hinge seat, and one end of a rotary connecting rod 304 extends to one side outside the connecting shell 303.

When the forging furnace is used, when waste gas in the forging furnace body 1 needs to be discharged, firstly, a worker raises the temperature in the forging furnace body 1, then places materials into the forging furnace body 1 for high-temperature treatment, when the materials are processed at high temperature in the forging furnace body 1 and then waste gas is generated, the waste gas passes through the cover plate 310 and then passes into the transparent air outlet pipe 5, and is connected with external purification equipment through the transparent air outlet pipe 5 for discharging, so that the effect of discharging the waste gas is achieved;

when the filter screen frame 313 is blocked by impurities wrapped by waste gas, the waste gas exhausted from the inside of the transparent air outlet pipe 5 is less and less, then a worker can judge whether the filter screen frame 313 is blocked by the exhaust gas amount, so that the worker starts the telescopic air cylinder 301, the telescopic air cylinder 301 works to synchronously drive the sliding screw rod 302 to move, the sliding screw rod 302 synchronously drives the connecting shell 303 to move in the moving process, the connecting shell 303 synchronously drives the rotating connecting rod 304 and the rotating roller 305 to move in the moving process, and at the moment, the rotating roller 305 moves to synchronously drive the connecting outer plate 306 to move, so that the connecting outer plate 306 continuously drives the gear 311 to be meshed with the rack 312 in the moving process, the working effect of driving the rotating roller 305 and the connecting outer plate 306 to rotate is achieved, the rotating roller 305 synchronously drives the fixed connecting plate 307 to rotate in the rotating process, and the fixed connecting plate 307 synchronously drives the toughness cleaning brush 308 to rotate in the rotating process, and the bottom of the frame 313 is adhered with a layer of impurities, so that the cleaning brush 308 can clean the bottom of the filter screen 313 in the rotating process, and the filter screen frame 313 can be cleaned;

in the above working process, since the flexible cleaning brush 308 contacts the cover plate 310 during clockwise rotation, when the flexible cleaning brush 308 contacts the inside of the cover plate 310, the flexible cleaning brush 308 is limited by the cover plate 310 and bends, when the flexible cleaning brush 308 is completely separated from the inside of the cover plate 310, the flexible cleaning brush 308 starts to pop out outwards through own flexibility, meanwhile, the rotating roller 305 drives the fixed connecting plate 307 and the flexible cleaning brush 308 to rotate, so that the flexible cleaning brush 308 can clean the bottom of the filter screen frame 313 through self dynamic rebound during rotation, so as to facilitate a more powerful cleaning action on the bottom of the filter screen frame 313, thereby achieving a more effective dredging on the bottom of the filter screen frame 313, and preventing the flexible cleaning brush 308 from causing a problem of good cleaning effect on the bottom of the filter screen frame 313 due to incapacity of acceleration during rotation;

when the rotating roller 305 drives the connecting outer plate 306 to rotate and drives the fixed connecting plate 307 and the flexible cleaning brush 308 to rotate to the direction below the rotating roller 305, at the moment, the sliding connecting block 402 can slide vertically through self inertia, so that the sliding connecting block 402 and the circular connecting rod 403 can be synchronously driven to slide downwards, the circular connecting rod 403 can synchronously drive the cleaning scraping plate 404 to slide downwards in the sliding process, the cleaning scraping plate 404 can synchronously scrape the surface of the flexible cleaning brush 308 in the falling process, thus the working effect of self-cleaning and impurity separation on the surface of the flexible cleaning brush 308 is achieved, the problem that the bottom of the filter screen frame 313 is difficult to clean due to excessive impurities remained on the surface of the flexible cleaning brush 308 is prevented, and scraped impurities can fall into the rotating collecting plate 407;

when the sliding screw rod 302 drives the connection housing 303 to integrally move to the range of the frame 409, at this time, since the second magnetic plate 410 and the first magnetic plate 408 are in the magnetic attraction range, when the second magnetic plate 410 magnetically attracts the first magnetic plate 408, the first magnetic plate 408 will rotate clockwise, then the first magnetic plate 408 is gradually perpendicular to the cover plate 310 in the rotating process, and the restoring spring 406 will be stretched in the rotating process, so that the impurity at the top of the rotating collection plate 407 will drop, and then the frame 409 will collect the dropped dust, thereby achieving the effect of collecting the impurity;

when the sliding screw 302 drives the connection housing 303 to perform the return operation, at this time, since the first magnetic attraction plate 408 is separated from the second magnetic attraction plate 410, the restoring spring 406 will compress and drive the rotation collection plate 407 to perform the return operation rapidly, and since the restoring spring 406 itself also performs a period of stretching and shrinking, the moving block 411 will drive the scraping rod 412 to perform the cleaning operation on the surface of the rotation collection plate 407 in this process, so as to prevent the problems of excessive adhesion and cleaning failure due to the impurities accumulated on the surface of the rotation collection plate 407.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. Forging furnace for die manufacturing, comprising a forging furnace body (1), characterized in that: the forging furnace is characterized in that an exhaust gas box (2) is fixedly connected to the top of the forging furnace body (1), an impurity separating mechanism (3) and an impurity collecting mechanism (4) are arranged inside the exhaust gas box (2), a transparent air outlet pipe (5) is embedded into one side of the interior of the exhaust gas box (2), and a movable door (6) is arranged on one side of the exhaust gas box (2);

the impurity separating mechanism (3) comprises a telescopic air cylinder (301), the telescopic air cylinder (301) is fixedly connected to one side of the outer portion of the exhaust gas box (2), a sliding screw rod (302) is slidably connected inside the telescopic air cylinder (301), one end of the sliding screw rod (302) is fixedly connected with a connecting shell (303), and the sliding screw rod (302) drives the connecting shell (303) to reciprocate;

the inside rotation of connection casing (303) is connected with rotation connecting rod (304), rotation connecting rod (304) outside fixedly connected with rotor (305), all fixedly connected with connection planking (306) of rotor (305) outside both sides, two fixedly connected with a plurality of fixed connection boards (307) between connection planking (306), a plurality of fixed connection boards (307) outside all fixedly connected with toughness clearance brush (308), connection casing (303) one side fixedly connected with two connecting rod bodies (309), two connecting rod body (309) one side fixedly connected with cover plate (310), rotation connecting rod (304) outside one end fixedly connected with gear (311), exhaust gas case (2) inner chamber trailing side wall fixedly connected with rack (312), exhaust gas case (2) inside fixedly connected with filter screen frame (313) for rotation connecting rod (304) drive gear (311) and rack (312) mesh in the rotation in-process;

the impurity collecting mechanism (4) comprises two clamping shells (401), the two clamping shells (401) are respectively and fixedly connected to two sides of the top of the fixed connection plate (307), sliding connection blocks (402) are arranged in the two clamping shells (401), round connection rods (403) are fixedly connected to the tops of the two sliding connection blocks (402), cleaning scraping plates (404) are fixedly connected to the tops of the two round connection rods (403), and the sliding connection blocks (402) do reciprocating sliding in the clamping shells (401);

two connecting short plates (405) are fixedly connected to one side of the connecting shell (303), recovery springs (406) are fixedly connected to the bottoms of the connecting short plates (405), rotating collecting plates (407) are fixedly connected to the bottoms of the recovery springs (406), the rotating collecting plates (407) are movably connected with cover plates (310) through rotating shafts, first magnetic suction plates (408) are fixedly connected to one side of the bottoms of the rotating collecting plates (407), a frame (409) is arranged in the exhaust gas box (2), and second magnetic suction plates (410) are fixedly connected to one side of the frame (409) so that magnetic suction movement is carried out between the second magnetic suction plates (410) and the first magnetic suction plates (408);

the inside movable block (411) that is equipped with of rotation collection board (407), movable block (411) outside fixedly connected with scrapes movable rod (412) for movable block (411) drive scrapes movable rod (412) and removes.

2. A forging furnace for mold manufacturing according to claim 1, wherein: the sliding screw rod (302) extends to the inside of the exhaust gas box (2), the outside of the sliding screw rod (302) is in contact with the inside of the exhaust gas box (2), and the gear (311) is meshed with the rack (312).

3. A forging furnace for mold manufacturing according to claim 1, wherein: the filter screen frame (313) is arranged at the top of the cover plate (310), and the two sliding connecting blocks (402) are respectively and slidably connected to the inside of the two clamping shells (401).

4. A forging furnace for mold manufacturing according to claim 1, wherein: the cleaning scraper (404) is internally contacted with the outer surface of the ductile cleaning brush (308), and the bottom of the frame body (409) is contacted with the top of the forging furnace body (1).

5. A forging furnace for mold manufacturing according to claim 1, wherein: the first magnetic suction plate (408) and the second magnetic suction plate (410) are arranged in different poles in a magnetic mode, and the outer surface of the scraping rod (412) is in contact with the inside of the rotary collecting plate (407).

6. A forging furnace for mold manufacturing according to claim 1, wherein: the inside of the rotary collecting plate (407) is provided with an arc chute, and the moving block (411) is slidably connected inside the arc chute.

7. A forging furnace for mold manufacturing according to claim 1, wherein: the waste gas box (2) is communicated with the transparent air outlet pipe (5).

8. A forging furnace for mold manufacturing according to claim 1, wherein: the exhaust gas box (2) is movably connected with the movable door (6) through the movable hinge seat, and one end of the rotary connecting rod (304) extends to one side outside the connecting shell (303).