CN113757686A - Chemical waste burns uses environment-friendly rotary furnace - Google Patents

Abstract

The invention relates to the field of chemical industry, in particular to an environment-friendly rotary furnace for chemical waste incineration, which comprises a supporting base, a swinging supporting frame, a rotating assembly, a turning assembly and the like; the support base is rotatably connected with a swing support frame, a rotating assembly is arranged on the swing support frame, and a turnover assembly is arranged on the swing support frame. Through the air duct, the toxic gas that produces after the inside chemical waste of rotation heating furnace burns can flow to the arc inside through the air duct, owing to arrange to have a large amount of heats in the toxic gas in the arc, make arrange to the toxic gas in the arc can preheat the chemical waste in it, thereby can save the follow-up energy that will rotate the required consumption of chemical waste heating inside the heating furnace, reached and to carry out the effect of retrieving to a large amount of heats in the toxic gas.

Description

Chemical waste burns uses environment-friendly rotary furnace

Technical Field

The invention relates to the field of chemical industry, in particular to an environment-friendly rotary furnace for chemical waste incineration.

Background

The technology of changing the composition and structure of substances or synthesizing new substances by chemical method belongs to the chemical production technology, i.e. chemical process, the product obtained by chemical process is called chemical product or chemical product, the chemical engineering is a science for researching the general rule of the production process of chemical products, the relation between human and chemical products is very close, some chemical products play an epoch-making important role in the human development history, and their production and application even represent a certain history stage of human civilization.

Can produce a large amount of chemical waste at the in-process that the chemical industry produced, chemical waste is dangerous higher, in order to realize chemical waste's innoxiousness, the lightweight, it is a high-efficient reliable processing method to burn, need use the rotary furnace at the in-process that burns chemical waste, can produce a large amount of high temperature harmful gas at the in-process that burns chemical waste, current rotary furnace is inconvenient to retrieve a large amount of heats in the waste gas, cause certain energy waste, and current rotary furnace does not possess the function of automatic discharging and throwing material.

Disclosure of Invention

In view of the above, it is necessary to provide an environment-friendly rotary furnace for chemical waste incineration, which can recover a large amount of heat in toxic gas and has functions of automatic discharging and feeding, so as to solve the problems of the prior art that it is inconvenient to recover a large amount of heat in waste gas and the prior art does not have functions of automatic discharging and feeding.

The technical implementation scheme of the invention is as follows: the utility model provides a chemical industry waste incineration uses environment-friendly rotary furnace, is connected with swing support frame including supporting base, swing support frame, runner assembly and upset subassembly, the last rotation type of supporting base, the last runner assembly that is equipped with of swing support frame is equipped with the upset subassembly on the swing support frame.

Further, the runner assembly is including rotating the heating furnace, the carriage, the fixed bolster, the air duct, straight tooth ring, motor and straight-tooth gear, the last rotation type of swing support frame is connected with and rotates the heating furnace, swing support frame top hookup has the carriage, be provided with little round hole on the carriage, carriage one side hookup has fixed bolster, fixed bolster is connected with the rotation type of rotating the heating furnace, carriage one side hookup has the air duct, air duct one end is linked with fixed bolster, straight-tooth ring hookup is on rotating the heating furnace, install the motor on the swing support frame, motor output shaft one end hookup has straight-tooth gear, straight-tooth gear and straight-tooth ring meshing.

Further, the turnover component comprises a transmission frame, a connecting plate, a bidirectional threaded sleeve and a slide rail frame, the two-way screw rod, first fluting frame, take the kelly swinging arms and rotate the cover, the driving frame rotary type is connected on swing support frame, driving frame one side rotary type is connected with the connecting plate, the connecting plate other end is connected with the straight-teeth gear rotary type, the hookup has two-way thread cover on the driving frame, two-way thread cover is connected with swing support frame rotary type, the slide rail frame is coupled on swing support frame, two-way screw rod has through screw-thread fit on the two-way thread cover, two-way screw rod and slide rail frame slidingtype are connected, the hookup has first fluting frame on the two-way screw rod, take the kelly swinging arms rotary type to connect on supporting the base, take the kelly swinging arms and first fluting frame spacing cooperation, it connects on taking the kelly swinging arms to rotate the cover slidingtype, it is connected with swing support frame rotary type to rotate the cover.

The pushing assembly comprises a first guide frame, an arc plate, a pushing frame, a first baffle, a first spring, a supporting plate, a sealing frame and a second spring, the first guide frame is connected to the top of the supporting frame, the arc plate is connected to the inside of the supporting frame, the pushing frame is connected to the supporting frame in a sliding mode and is connected with the arc plate in a sliding mode, the first baffle is connected with the arc plate in the supporting frame in a sliding mode and is in contact with the arc plate, the first baffle is connected with the pushing frame in a sliding mode, the first spring is connected between the first baffle and the supporting frame, the supporting plate is fixedly connected to the supporting frame, the sealing frame is connected to the supporting plate in a sliding mode and is in contact with the arc plate, and the pair of second springs is connected between the sealing frame and the supporting plate.

Further, still including stirring the subassembly, stir the subassembly and locate on the slide rail frame, stir the subassembly including the wedge, reset spring, second fluting frame, first wedge frame, the third spring, poker rod and reset shelf, the hookup has the wedge on the two-way screw rod, sliding type is connected with second fluting frame on the slide rail frame, be connected with reset spring between second fluting frame and the slide rail frame, sliding type is connected with first wedge frame on the second fluting frame, be connected with the third spring between first wedge frame and the second fluting frame, the last rotating type of swing support frame is connected with the poker rod, poker rod and the spacing cooperation of second fluting frame, poker rod and the spacing cooperation of release frame, reset shelf hookup is at the support base top.

Further, including ejection of compact control assembly, ejection of compact control assembly locates on the fixed bolster, and ejection of compact control assembly is including apron, torque spring, gag lever post and second wedge frame, and the last rotation type of fixed bolster is connected with the apron, and the apron contacts with the fixed bolster, is connected with a pair of torque spring between fixed bolster and the apron, and the gag lever post is joined in on the apron, and the hookup has second wedge frame on the support base, and second wedge frame contacts with the gag lever post.

The anti-overflow device comprises an anti-overflow assembly, the anti-overflow assembly is arranged on a support frame, the anti-overflow assembly comprises a second guide frame, an air inlet frame, a second baffle and a fourth spring, the outer bottom of the support frame is connected with the second guide frame, the second guide frame is connected with a rotary heating furnace in a rotating mode, the top of a support base is connected with the air inlet frame, the air inlet frame is in contact with the second guide frame, the second guide frame is connected with the second baffle in a sliding mode, the second baffle is in contact with the air inlet frame, and the fourth spring is connected between the second baffle and the second guide frame.

The invention has the following advantages:

through the cooperation of rotating the heating furnace and installing on it, at the in-process of burning chemical waste, rotate the heating furnace and install on it and can rotate for the chemical waste who waits to burn inside the rotation heating furnace can be burnt fully, has reached the effect that can burn chemical waste fully.

Through the air duct, the toxic gas that produces after the inside chemical waste of rotation heating furnace burns can flow to the arc inside through the air duct, owing to arrange to have a large amount of heats in the toxic gas in the arc, make arrange to the toxic gas in the arc can preheat the chemical waste in it, thereby can save the follow-up energy that will rotate the required consumption of chemical waste heating inside the heating furnace, reached and to carry out the effect of retrieving to a large amount of heats in the toxic gas.

The toxic gas in the arc-shaped plate can be discharged to the inside of other gas purification equipment, so that the harm to the human body caused by the toxic gas discharged to the air after chemical waste incineration can be avoided.

Through the cooperation of equipment internals, swing support frame and device can rotate on it, and the apron can be opened simultaneously for rotate the chemical industry discarded object after the heating furnace is inside burns and can be poured, release frame can be inside preheating good chemical industry discarded object propelling movement to rotating the heating furnace in with the arc after afterwards, has reached the effect that can discharge automatically and throw the material.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the rotating assembly of the present invention.

Fig. 4 is a schematic view of a first partially assembled body structure of the flip assembly of the present invention.

Fig. 5 is a schematic view of a second partially assembled body of the flip assembly of the present invention.

Fig. 6 is a partially cut-away perspective view of the push-out assembly of the present invention.

Fig. 7 is an enlarged perspective view of the present invention a.

Fig. 8 is a schematic partial perspective view of the push-out assembly of the present invention.

Fig. 9 is a schematic partial perspective view of the discharge control assembly of the present invention.

Fig. 10 is a perspective view of the spill prevention assembly of the present invention.

The meaning of the reference symbols in the figures: 1: support base, 2: swing support frame, 3: rotating assembly, 31: rotary heating furnace, 32: support frame, 33: fixed support, 34: airway tube, 35: straight ring gear, 36: motor, 37: spur gear, 4: flip assembly, 41: drive frame, 42: connecting plate, 43: bidirectional threaded bush, 44: slide rail frame, 45: bidirectional screw, 46: first slotted frame, 47: swing lever with catch, 48: rotating sleeve, 5: push-out assembly, 51: first guide frame, 52: arc plate, 53: ejector rack, 54: first baffle, 55: first spring, 56: support plate, 57: sealing frame, 58: second spring, 6: toggle assembly, 61: wedge block, 6101: return spring, 62: second slotted frame, 63: first wedge frame, 64: third spring, 65: tap lever, 66: reset rack, 7: discharge control assembly, 71: cover plate, 72: torsion spring, 73: stopper rod, 74: second wedge frame, 8: spill-proof assembly, 81: second guide frame, 82: air intake frame, 83: second baffle, 84: and a fourth spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

The utility model provides an environment-friendly rotary furnace for chemical waste burns, as shown in fig. 1-10, including supporting base 1, swing support frame 2, runner assembly 3 and upset subassembly 4, the last rotation type of supporting base 1 is connected with swing support frame 2, is equipped with runner assembly 3 on swing support frame 2, and runner assembly 3 is used for making the inside chemical waste who treats burning of rotation heating furnace 31 can be burnt fully, is equipped with upset subassembly 4 on swing support frame 2.

The rotating component 3 comprises a rotating heating furnace 31, a supporting frame 32, a fixed supporting frame 33, an air duct 34, a straight gear ring 35, a motor 36 and a straight gear 37, the rotating heating furnace 31 is rotatably connected on the swinging supporting frame 2, the supporting frame 32 is connected on the top of the swinging supporting frame 2, a small round hole is arranged on the supporting frame 32, the fixed supporting frame 33 is connected on one side of the supporting frame 32, the fixed supporting frame 33 is rotatably connected with the rotating heating furnace 31, the air duct 34 is connected on one side of the supporting frame 32, toxic gas generated after chemical waste in the rotating heating furnace 31 is burnt can flow into an arc-shaped plate 52 through the air duct 34, one end of the air duct 34 is connected with the fixed supporting frame 33, the straight gear ring 35 is connected on the rotating heating furnace 31, the motor 36 is arranged on the swinging supporting frame 2, the motor 36 can drive the straight gear 37 and the reverse rotation of the upper device through an output shaft, one end of the output shaft of the motor 36 is connected with the straight gear 37, the straight gear 37 is used for driving the straight gear ring 35 and the device thereon to rotate clockwise, and the straight gear 37 is meshed with the straight gear ring 35.

The overturning assembly 4 comprises a transmission frame 41, a connecting plate 42, a bidirectional threaded sleeve 43, a slide rail frame 44, a bidirectional screw 45, a first slotting frame 46, a swinging rod 47 with a clamping column and a rotating sleeve 48, wherein the transmission frame 41 is rotatably connected to the swinging support frame 2, one side of the transmission frame 41 is rotatably connected with the connecting plate 42, the other end of the connecting plate 42 is rotatably connected with a straight gear 37, the transmission frame 41 is connected with the bidirectional threaded sleeve 43, the bidirectional screw 45 and a device on the bidirectional threaded sleeve 43 can reciprocate under the action of the bidirectional threaded sleeve 43, the bidirectional threaded sleeve 43 is rotatably connected with the swinging support frame 2, the slide rail frame 44 is connected to the swinging support frame 2, the bidirectional screw 45 is matched with the bidirectional screw 45 through threads, the bidirectional screw 45 is slidably connected with the slide rail frame 44, the bidirectional screw 45 is connected with the first slotting frame 46, the swinging rod 47 with the clamping column is rotatably connected to the support base 1, the swing rod 47 with the clamping column is in limit fit with the first slotting machine 46, the rotating sleeve 48 is connected to the swing rod 47 with the clamping column in a sliding mode, the swing support frame 2 and the upper device thereof can rotate by a certain angle through the fit of the first slotting machine 46, the swing rod 47 with the clamping column and the rotating sleeve 48, and the rotating sleeve 48 is connected with the swing support frame 2 in a rotating mode.

Chemical waste to be incinerated is filled in the rotary heating furnace 31, the chemical waste to be incinerated in the rotary heating furnace 31 is heated and incinerated through other heating equipment, the motor 36 is controlled to be started manually, the motor 36 drives the straight gear 37 and the upper device thereof to rotate reversely through the output shaft, the straight gear 37 drives the straight gear ring 35 and the upper device thereof to rotate clockwise, so that the chemical waste to be incinerated in the rotary heating furnace 31 can be fully incinerated, because communicate with other gaseous clarification plant on the round hole on the carriage 32, the toxic gas that produces after the chemical waste burns of rotation heating furnace 31 inside can flow to arc 52 inside through air duct 34, and the toxic gas that flows to arc 52 inside can discharge to other gaseous clarification plant inside through the round hole on the carriage 32, has avoided the toxic gas that produces after the chemical waste burns to discharge the harm that causes the human body in the air.

In the process of rotating the straight gear 37 and the upper device thereof, the straight gear 37 drives the transmission frame 41 and the upper device thereof to rotate through the connecting plate 42, the bidirectional screw rod 45 and the upper device thereof can reciprocate under the action of the bidirectional threaded sleeve 43, the swinging support frame 2 and the upper device thereof can rotate by a certain angle in the process of moving the bidirectional screw rod 45 and the upper device thereof in the direction far away from the transmission frame 41 through the matching of the first slotted frame 46, the swinging rod 47 with the clamping column and the rotating sleeve 48, so that chemical wastes burnt in the rotary heating furnace 31 can be conveniently poured out subsequently, and in the process of moving the bidirectional screw rod 45 and the upper device thereof in the direction close to the transmission frame 41, the swinging support frame 2 and the upper device thereof can reset accordingly through the matching of the first slotted frame 46, the swinging rod 47 with the clamping column and the rotating sleeve 48.

Example 2

Based on the embodiment 1, as shown in fig. 6 to 10, the pushing assembly 5 is further included, the pushing assembly 5 is disposed on the supporting frame 32, the pushing assembly 5 is used for adding the preheated chemical waste into the rotary heating furnace 31, the pushing assembly 5 includes a first guiding frame 51, an arc plate 52, a pushing frame 53, a first baffle 54, a first spring 55, a supporting plate 56, a sealing frame 57 and a second spring 58, the first guiding frame 51 is coupled to the top of the supporting frame 32, the arc plate 52 is coupled to the inside of the supporting frame 32, the pushing frame 53 is slidably connected to the supporting frame 32, the pushing frame 53 is used for pushing the preheated chemical waste in the arc plate 52 into a second guiding frame 81, the pushing frame 53 is slidably connected to the arc plate 52, the first baffle 54 is connected to the inside of the supporting frame 32, the first baffle 54 is used for blocking the arc plate 52, the first baffle 54 is in contact with the arc plate 52, the first baffle 54 is connected with the push-out frame 53 in a sliding manner, a first spring 55 is connected between the first baffle 54 and the support frame 32, the first spring 55 is used for driving the first baffle 54 to reset, a support plate 56 is fixedly connected to the support frame 32, a sealing frame 57 is connected to the support plate 56 in a sliding manner, the sealing frame 57 is in contact with the arc-shaped plate 52, a pair of second springs 58 is connected between the sealing frame 57 and the support plate 56, and the second springs 58 are used for driving the sealing frame 57 to reset.

The automatic groove cutting machine further comprises a toggle assembly 6, the toggle assembly 6 is arranged on the slide rail frame 44, the toggle assembly 6 comprises a wedge-shaped block 61, a reset spring 6101, a second slotting frame 62, a first wedge-shaped frame 63, a third spring 64, a toggle rod 65 and a reset frame 66, the wedge-shaped block 61 is connected on the bidirectional screw 45 in a linkage manner, the wedge-shaped block 61 is used for pushing the first wedge-shaped frame 63 to move upwards, the slide rail frame 44 is connected with the second slotting frame 62 in a sliding manner, the second slotting frame 62 is used for driving the toggle rod 65 to swing, the reset spring 6101 is connected between the second slotting frame 62 and the slide rail frame 44, the reset spring 6101 is used for driving the second slotting frame 62 and resetting devices thereon, the second slotting frame 62 is connected with the first wedge-shaped frame 63 in a sliding manner, the third spring 64 is connected between the first wedge-shaped frame 63 and the second slotting frame 62, the third spring 64 is used for driving the first wedge-shaped frame 63 to reset, the toggle rod 65 is connected on the swing support frame 2, under the action of the poke rod 65, the push-out frame 53 and the devices thereon move towards the direction far away from the air duct 34, the poke rod 65 is in limit fit with the second slotted frame 62, the poke rod 65 is in limit fit with the push-out frame 53, the reset frame 66 is connected to the top of the support base 1, and the reset frame 66 is used for extruding the first wedge-shaped frame 63 to move upwards.

Still including ejection of compact control assembly 7, ejection of compact control assembly 7 is located on fixed bolster 33, ejection of compact control assembly 7 is including apron 71, torsion spring 72, gag lever post 73 and second wedge frame 74, the last rotation type of fixed bolster 33 is connected with apron 71, apron 71 and the contact of fixed bolster 33, be connected with a pair of torsion spring 72 between fixed bolster 33 and the apron 71, torsion spring 72 is used for driving apron 71 and resets, gag lever post 73 couples on apron 71, it has second wedge frame 74 to couple on the supporting base 1, second wedge frame 74 is used for extrudeing gag lever post 73 and the upper device swing, second wedge frame 74 and gag lever post 73 contact.

The device also comprises an anti-overflow assembly 8, the anti-overflow assembly 8 is arranged on the support frame 32, the anti-overflow assembly 8 is used for preventing toxic gas in the rotary heating furnace 31 from overflowing to the outside in the process of pouring out the incinerated chemical waste, the anti-overflow assembly 8 comprises a second guide frame 81 and an air inlet frame 82, the second baffle 83 and the fourth spring 84, the second guide frame 81 is connected to the outer bottom of the support frame 32, the second guide frame 81 is rotatably connected with the rotary heating furnace 31, the air inlet frame 82 is connected to the top of the support base 1, the air inlet frame 82 is in contact with the second guide frame 81, the second baffle 83 is slidably connected to the second guide frame 81, the second baffle 83 is used for blocking an air vent on the second guide frame 81, the second baffle 83 is in contact with the air inlet frame 82, the fourth spring 84 is connected between the second baffle 83 and the second guide frame 81, and the fourth spring 84 is used for driving the second baffle 83 to move downwards.

When the swing support frame 2 and the devices thereon swing, the second wedge-shaped frame 74 extrudes the limiting rod 73 and the devices thereon swing, the torsion spring 72 is compressed therewith, the cover plate 71 is opened, and the chemical waste burned in the rotary heating furnace 31 can be poured out, and when the swing support frame 2 and the devices thereon reset, the limiting rod 73 and the devices thereon reset under the resetting action of the torsion spring 72.

The chemical waste to be preheated is added into the first guide frame 51, the sealing frame 57 moves downwards under the action of gravity, the second spring 58 is compressed, the sealing frame 57 no longer blocks the arc-shaped plate 52, the chemical waste to be preheated in the first guide frame 51 falls into the arc-shaped plate 52, and then the sealing frame 57 and the devices on the sealing frame can reset under the resetting action of the second spring 58.

Because the toxic gas discharged into the arc-shaped plate 52 contains a large amount of heat, the toxic gas discharged into the arc-shaped plate 52 can preheat the chemical waste therein.

In the process that the bidirectional screw 45 and the upper device thereof move in the direction away from the transmission frame 41, the wedge block 61 pushes the first wedge frame 63 to move upwards, the third spring 64 is stretched accordingly, then the wedge block 61 moves to the other side of the first wedge frame 63, the first wedge frame 63 is reset under the reset action of the third spring 64, in the process that the bidirectional screw 45 and the upper device thereof move in the direction close to the transmission frame 41, the wedge block 61 drives the first wedge frame 63 and the upper device thereof to move together, the reset spring 6101 is stretched accordingly, the second slotting frame 62 drives the shifting rod 65 to swing, under the action of the shifting rod 65, the pushing frame 53 and the upper device thereof move in the direction away from the air duct 34, so that the pushing frame 53 can push the waste preheated in the arc-shaped plate 52 to the inside of the second guide frame 81, and the waste in the inside of the second guide frame 81 can fall into the rotary heating furnace 31, in the process that the push-out frame 53 and the device thereon move in the direction away from the gas guide tube 34, the push-out frame 53 pushes the first baffle 54 to move together through the preheated chemical waste in the arc-shaped plate 52, the first spring 55 is compressed accordingly, so that the first baffle 54 does not block the arc-shaped plate 52, and then the first baffle 54 resets under the resetting action of the first spring 55, thereby achieving the effect of automatically adding the preheated chemical waste into the rotary heating furnace 31.

Then the first wedge-shaped frame 63 will contact with the reset frame 66, the reset frame 66 will press the first wedge-shaped frame 63 to move upward, the third spring 64 will be stretched accordingly, so that the first wedge-shaped frame 63 is separated from the wedge block 61, the second slotting frame 62 and the devices thereon will reset along with the reset of the reset spring 6101, the first wedge-shaped frame 63 will reset under the reset action of the third spring 64, and the poke rod 65 will drive the push-out frame 53 and the devices thereon to reset accordingly.

Air inlet frame 82 communicates with other ventilation equipment, air is let in to rotating the inside of heating furnace 31 through other ventilation equipment, for the burning of the chemical waste of rotating the inside of heating furnace 31 provides oxygen, when swing support frame 2 and the device swing on it, second baffle 83 can separate with air inlet frame 82, stretched fourth spring 84 can recover thereupon, make second baffle 83 downstream, thereby make second baffle 83 can plug the mouth of ventilating on the second guide frame 81, and then can prevent to rotate the inside toxic gas of heating furnace 31 and spill over to the external world in the in-process of pouring out the chemical waste after burning, manual control motor 36 stops the operation at last, repeat above-mentioned operation and can use this equipment to burn chemical waste continuously.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a chemical industry waste incineration uses environment-friendly rotary furnace which characterized by: including supporting base, swing support frame, runner assembly and upset subassembly, the last rotation type of supporting the base is connected with swing support frame, is equipped with the runner assembly on the swing support frame, is equipped with the upset subassembly on the swing support frame.

2. The environment-friendly rotary furnace for chemical waste incineration according to claim 1, characterized in that: the rotating assembly comprises a rotating heating furnace, a supporting frame, a fixed supporting frame, an air guide pipe, a straight gear ring, a motor and a straight gear, wherein the rotating heating furnace is connected with the swinging supporting frame in a rotating mode, the top of the swinging supporting frame is connected with the supporting frame, a small round hole is formed in the supporting frame, one side of the supporting frame is connected with the fixed supporting frame, the fixed supporting frame is connected with the rotating heating furnace in a rotating mode, the air guide pipe is connected to one side of the supporting frame, one end of the air guide pipe is connected with the fixed supporting frame, the straight gear ring is connected to the rotating heating furnace, the motor is installed on the swinging supporting frame, one end of a motor output shaft is connected with the straight gear, and the straight gear is meshed with the straight gear ring.

3. The environment-friendly rotary furnace for chemical waste incineration according to claim 2, characterized in that: the turnover component comprises a transmission frame, a connecting plate, a bidirectional threaded sleeve, a slide rail frame, a bidirectional screw, a first slotting frame, a swinging rod with a clamping column and a rotating sleeve, the transmission frame is rotatably connected to the swinging support frame, one side of the transmission frame is rotatably connected with the connecting plate, the other end of the connecting plate is rotatably connected with a straight gear, the transmission frame is connected with the bidirectional threaded sleeve, the bidirectional threaded sleeve is rotatably connected with the swinging support frame, the slide rail frame is connected to the swinging support frame, the bidirectional screw is arranged on the bidirectional threaded sleeve in a threaded fit manner, the bidirectional screw is slidably connected with the slide rail frame, the bidirectional screw is connected with the first slotting frame, the swinging rod with the clamping column is rotatably connected to a support base, the swinging rod with the clamping column is in a limit fit with the first slotting frame, the rotating sleeve is slidably connected to the swinging rod with the clamping column, and the rotating sleeve is connected with the swinging support frame in a rotating manner.

4. The environment-friendly rotary furnace for chemical waste incineration according to claim 3, characterized in that: still including the release subassembly, the release subassembly is located on the carriage, the release subassembly is including first guide frame, the arc, the release frame, first baffle, first spring, the backup pad, airtight frame and second spring, first guide frame is coupleed in the carriage top, the arc is coupled inside the carriage, release frame sliding type connection is on the carriage, release frame and arc sliding type connection, the inside sliding type connection of carriage has first baffle, first baffle and arc contact, first baffle and release frame sliding type connection, be connected with first spring between first baffle and the carriage, fixedly connected with backup pad on the carriage, sliding type connection has airtight frame in the backup pad, airtight frame and arc contact, be connected with a pair of second spring between airtight frame and the backup pad.

5. The environment-friendly rotary furnace for chemical waste incineration according to claim 4, wherein: still including stirring the subassembly, stir the subassembly and locate on the slide rail frame, stir the subassembly including the wedge, reset spring, second fluting frame, first wedge frame, the third spring, poker rod and reset shelf, the hookup has the wedge on the two-way screw rod, slide type is connected with second fluting frame on the slide rail frame, be connected with reset spring between second fluting frame and the slide rail frame, slide type is connected with first wedge frame on the second fluting frame, be connected with the third spring between first wedge frame and the second fluting frame, the last pivot type of swing support frame is connected with the poker rod, poker rod and the spacing cooperation of second fluting frame, poker rod and the spacing cooperation of release frame, reset shelf hookup is in supporting the base top.

6. The environment-friendly rotary furnace for chemical waste incineration according to claim 5, characterized in that: still including ejection of compact control assembly, ejection of compact control assembly locates on the fixed bolster, ejection of compact control assembly is including apron, torque spring, gag lever post and second wedge frame, and the last rotation type of fixed bolster is connected with the apron, and the apron contacts with the fixed bolster, is connected with a pair of torque spring between fixed bolster and the apron, and the gag lever post is linked on the apron, and the hookup has second wedge frame on the support base, second wedge frame and gag lever post contact.

7. The environment-friendly rotary furnace for chemical waste incineration according to claim 6, characterized in that: still including the anti-overflow subassembly, the anti-overflow subassembly is located on the carriage, the anti-overflow subassembly is including the second guide frame, the frame of admitting air, second baffle and fourth spring, the hookup of carriage outsole portion has the second guide frame, the second guide frame is connected with the rotation heating furnace rotary type, it has the frame of admitting air to support the hookup of base top, the frame of admitting air contacts with the second guide frame, sliding connection has the second baffle on the second guide frame, the second baffle contacts with the frame of admitting air, be connected with the fourth spring between second baffle and the second guide frame.

Images