CN113587096B

CN113587096B - Cremation device with heat energy recovery function

Info

Publication number: CN113587096B
Application number: CN202110755638.6A
Authority: CN
Inventors: 黄志坚; 刘衍江; 周求华; 胡志强; 李志平; 吴炜华; 彭忠林; 陈玮; 简攀攀
Original assignee: JIANGXI NANFANG ENVIRONMENT PROTECTION MACHINERY MANUFACTURING HEADQUARTER
Current assignee: JIANGXI NANFANG ENVIRONMENT PROTECTION MACHINERY MANUFACTURING HEADQUARTER
Priority date: 2021-07-05
Filing date: 2021-07-05
Publication date: 2023-12-22
Anticipated expiration: 2041-07-05
Also published as: CN113587096A

Abstract

The invention relates to a cremation device, in particular to a cremation device with a heat energy recovery function. The technical problems of the invention are as follows: provided is a cremation apparatus with a heat recovery function, which can realize heat energy conversion and facilitate improvement of heating efficiency. The technical scheme is as follows: a cremation device with a heat energy recovery function comprises a cremation furnace, a chimney pipeline, a filtering mechanism and a conversion mechanism; the upper part of one side of the cremator is provided with a chimney pipeline; the conversion mechanism is arranged at one side of the cremator; the upper part of the conversion mechanism is provided with a filtering mechanism. According to the invention, the gas burned by a person in the cremation process is blown into the chimney pipeline through the ventilating fan, and the gas is shunted into the storage box through the chimney pipeline, so that the waste heat of the gas heats the heating pipe and the heat-conducting plate to heat clean water, and the effect of heat energy conversion is achieved.

Description

Cremation device with heat energy recovery function

Technical Field

The invention relates to a cremation device, in particular to a cremation device with a heat energy recovery function.

Background

The waste heat is generally interpreted as heat energy released in the production process and can be utilized, the replaced hot air can be used as flame-retardant air to be fed into a furnace to be heated to form mixed gas with fuel gas for combustion, or the waste heat is directly utilized for heating, so that the consumption of the fuel electricity of people is small, and the heat utilization rate is high.

However, the prior art cannot achieve heat energy conversion, cannot utilize useful heat energy resources, causes heat waste to a great extent, accelerates global resource failure, and has low heating efficiency, so that people cannot quickly obtain heated clear water.

In view of the above problems in the prior art, it is desirable to design a cremation apparatus with a heat recovery function, which can realize heat energy conversion and facilitate improvement of heating efficiency.

Disclosure of Invention

In order to overcome the defects that the prior art cannot achieve heat energy conversion and has low heating efficiency, the technical problem of the invention is that: provided is a cremation apparatus with a heat recovery function, which can realize heat energy conversion and facilitate improvement of heating efficiency.

The technical scheme is as follows: a cremation apparatus with heat energy recovery function, comprising: the upper part of one side of the cremator is provided with a chimney pipeline; the conversion mechanism is arranged at one side of the cremator; the upper part of the conversion mechanism is provided with a filtering mechanism.

As a preferred technical scheme of the present invention, the filtering mechanism includes: the upper part of the conversion mechanism is provided with a guide frame; the inner side of the guide frame is symmetrically provided with the first guide rods; the sliding plate is arranged between the upper parts of the first guide rods in a sliding manner; the collecting box is arranged on the upper part of the sliding plate; the filter screen is arranged at the upper part of the collecting box; a ventilating fan is rotatably arranged at the upper part of one side of the cremator; the first springs are arranged between the sliding plate and the guide frame and are sleeved on the first guide rods respectively.

As a preferred technical solution of the present invention, the conversion mechanism includes: the storage box is arranged at one side of the cremator and is divided into an upper layer and a lower layer, and one side of the storage box is connected with a chimney pipeline; the guide pipes are symmetrically arranged on the chimney pipeline, the guide pipes on one side are connected with the lower layer of the storage box, and the guide pipes on one side are connected with the storage box on the upper layer; a heat conducting plate is arranged in one side of the storage box; a heating pipe is arranged at one side of the heat conducting plate; the lower part of one side of the heat conducting plate is symmetrically provided with water pipes which are connected with the storage box; the connecting sleeves are arranged on the water pipes; the inner side of the connecting sleeve is uniformly provided with three rubber pads in a sliding mode at intervals respectively, and the rubber pads are matched with the water pipe; the screw is arranged at the outer side of the connecting sleeve at equal intervals through threads, and the screw is connected with the rubber sleeve.

As a preferable technical scheme of the invention, the invention also comprises a clamping component, and the clamping component comprises: a support rod is arranged between one sides of the chimney pipelines; the guide block is arranged on one side of the support rod; the lower part of one side of the supporting rod is provided with a second guide rod. The special-shaped block is arranged on the second guide rod in a sliding mode and is connected with the guide block in a sliding mode; and the second springs are symmetrically arranged between the special-shaped blocks and the guide blocks.

As a preferred technical solution of the present invention, the present invention further includes a limiting component, where the limiting component includes: the rotating shaft is symmetrically arranged at the lower part of one side of the guide frame; the baffle plates are arranged on the rotating shafts in a rotating way; the first torsion springs are arranged between the baffle plate and the guide frame and are respectively sleeved on the rotating shafts; the lower part of the inner side of the guide frame is symmetrically provided with the support blocks; the third guide rods are arranged on one sides of the supporting blocks; the third guide rod is provided with a sliding block in a sliding mode, the sliding blocks are connected with the special-shaped blocks, and the sliding blocks are matched with the baffle; and third springs are arranged between the pushing blocks and the supporting blocks, and are sleeved on the third guide rods respectively.

As a preferable technical scheme of the invention, the stirring device also comprises a stirring assembly, wherein the stirring assembly comprises: the shell is symmetrically arranged at the left and right of the upper part of one side of the storage box; the servo motors are symmetrically arranged at the left and right sides of the upper part of one side of the storage box, and are positioned at the inner side of the shell; the stirring rod is symmetrically and rotationally arranged on the inner side of the storage box; and the belt transmission assembly is arranged between the stirring rod and the output shaft of the servo motor.

As a preferable technical scheme of the invention, the invention further comprises a reaction component, and the upper part of the conversion mechanism is provided with the reaction component.

As a preferred technical scheme of the invention, the reaction assembly comprises: the upper part of one side of the storage box is symmetrically provided with a reaction cylinder body, and the reaction cylinder body is connected with one side of the storage box, which is close to the heat conducting plate; the upper part of the reaction cylinder body is provided with an air outlet pipe which is connected with the storage box; the upper part of one side of the storage box is symmetrically provided with two support frames; the upper part of the support frame is provided with a piston cylinder, and the inner sides of the piston cylinders are connected with the reaction cylinder body; one side of the piston cylinder is provided with a one-way valve which is connected with the storage box; the piston rods are arranged on the outer sides of the piston cylinders in a sliding mode; the outer sides of the piston rods are respectively provided with a special-shaped rod; the upper part of the stirring rod is provided with a cam, and the convex part of the cam is matched with the special-shaped rod; the special-shaped rod and the piston cylinder are respectively provided with a first spring, and the first springs are sleeved on the piston rod respectively; ball valves are rotatably arranged in one side of the reaction cylinder body; the gears are arranged on the rear sides of the ball valves and are intermittently matched with the special-shaped rods; and a second torsion spring is arranged between the gear and the reaction cylinder body, and the second torsion spring is sleeved on the ball valve.

The beneficial effects are that: 1. the invention achieves the effects of realizing heat energy conversion and improving heating efficiency conveniently.

2. According to the invention, the gas burned by a person in the cremation process is blown into the chimney pipeline through the ventilating fan, and the gas is shunted into the storage box through the chimney pipeline, so that the waste heat of the gas heats the heating pipe and the heat-conducting plate to heat clean water, and the effect of heat energy conversion is achieved.

3. According to the invention, by starting the servo motor, the output shaft of the servo motor drives the belt transmission assembly and the stirring rod to rotate, and the stirring rod stirs the clear water, so that the clear water is uniformly heated, and the effect of improving the heating efficiency is achieved.

Drawings

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

Fig. 2 is a schematic perspective view of a filtering mechanism according to the present invention.

Fig. 3 is a schematic perspective view of the conversion mechanism of the present invention.

Fig. 4 is a partially enlarged perspective view of the portion a of the present invention.

Fig. 5 is a schematic view showing a first perspective structure of the chucking assembly of the present invention.

Fig. 6 is a schematic view of a second perspective structure of the chucking assembly of the present invention.

Fig. 7 is a schematic perspective view of a limiting assembly according to the present invention.

Fig. 8 is a schematic perspective view of a stirring assembly according to the present invention.

FIG. 9 is a schematic view showing a first perspective structure of the reaction module of the present invention.

FIG. 10 is a schematic view showing a second perspective structure of the reaction module of the present invention.

Marked in the figure as: 1-cremator, 2-chimney pipe, 3-filter mechanism, 31-guide frame, 32-first guide bar, 33-slide, 34-collection box, 35-filter screen, 36-ventilation fan, 37-first spring, 4-conversion mechanism, 41-storage box, 42-conduit, 43-heat-conducting plate, 44-heating pipe, 45-water pipe, 46-connecting sleeve, 47-rubber pad, 48-screw, 5-clamping component, 51-support bar, 52-guide block, 53-profiled block, 54-second spring, 55-second guide bar, 6-limiting component, 61-baffle, 62-spindle, 63-first torsion spring, 64-support block, 65-third guide bar, 66-push block, 67-third spring, 7-stirring component, 71-housing, 72-servo motor, 73-belt transmission component, 74-stirring bar, 8-reaction component, 81-reaction cylinder, 82-air outlet pipe, 83-support frame, 84-piston cylinder, 85-check valve, 86-piston rod, 87-cam, 88-profiled cam, 88-fourth spring, 63-first torsion spring, 64-support block, 65-third guide bar, 66-third spring, 67-third spring, 7-rotation spring, 811-fourth spring, 812-811.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Example 1

The cremation device with the heat energy recovery function comprises a cremation furnace 1, a chimney pipeline 2, a filtering mechanism 3 and a conversion mechanism 4, wherein the chimney pipeline 2 is arranged at the upper part of the front side of the cremation furnace 1, the conversion mechanism 4 is arranged at the front side of the cremation furnace 1, and the filtering mechanism 3 is arranged at the upper part of the conversion mechanism 4, as shown in fig. 1, 2, 3 and 4.

The filtering mechanism 3 comprises a guide frame 31, a first guide rod 32, a sliding plate 33, a collecting box 34, a filter screen 35, a ventilating fan 36 and a first spring 37, wherein the guide frame 31 is arranged on the upper portion of the conversion mechanism 4, the first guide rods 32 are symmetrically arranged on the inner side of the guide frame 31, the sliding plate 33 is arranged between the upper portions of the first guide rods 32, the collecting box 34 is arranged on the upper portion of the sliding plate 33, the filter screen 35 is arranged on the upper portion of the collecting box 34, the ventilating fan 36 is rotatably arranged on the upper portion of the front side of the cremator 1, the first spring 37 is arranged between the ventilating plate 33 and the guide frame 31, and the first springs 37 are respectively sleeved on the first guide rods 32.

The conversion mechanism 4 comprises a storage box 41, a guide pipe 42, a heat conducting plate 43, a heating pipe 44, a water pipe 45, a connecting sleeve 46, rubber gaskets 47 and screws 48, wherein the storage box 41 is arranged on the front side of the cremator 1, the storage box 41 is divided into an upper layer and a lower layer, the front side of the storage box 41 is connected with a chimney pipeline 2, the guide pipe 42 is symmetrically arranged on the chimney pipeline 2, the guide pipe 42 on the rear side is connected with the lower layer of the storage box 41, the guide pipe 42 on the front side is connected with the storage box 41 on the upper layer, the heat conducting plate 43 is internally provided with the heat conducting plate 43, the heating pipe 44 is arranged on the front side of the heat conducting plate 43, the water pipe 45 is symmetrically arranged on the lower portion of the front side of the heat conducting plate 43, the water pipe 45 is connected with the storage box 41, the connecting sleeves 46 are respectively arranged on the water pipe 45 at equal intervals in a sliding mode, the rubber gaskets 47 are matched with the water pipe 45, the outer side of the connecting sleeves 46 are respectively provided with the screws 48 at equal intervals through threads, and the screws 48 are connected with the rubber sleeves.

When people need to use the spark device with the heat energy recovery function, the equipment can be used, firstly, objects to be cremated are placed in the cremator 1, then clear water is added from the conduit 42 at the rear side, the clear water flows into the lower storage box 41, then the cremator 1 and the ventilation fan 36 are opened, gas burnt by people in the cremation process is blown into the chimney pipeline 2 through the ventilation fan 36, the filter screen 35 can block cremated dust, the gas can be split into the storage box 41 through the chimney pipeline 2, so that the waste heat of the gas heats the heating pipe 44 and the heat conducting plate 43, the heat conducting plate 43 heats the clear water, the effect of heat energy conversion is achieved, dust blocked by the filter screen 35 falls into the collecting box 34, when the cremator 1 and the ventilating fan 36 are closed, the sliding plate 33 is manually pressed downwards, the sliding plate 33 drives the collecting box 34 to move downwards, the first spring 37 is compressed, the collecting box 34 is manually pulled forwards, dust in the collecting box 34 can be cleaned, after cleaning is finished, the collecting box 34 is put back onto the sliding plate 33, the sliding plate 33 is loosened, the sliding plate 33 and the collecting box 34 are driven to reset under the reset action of the first spring 37, finally, the screw 48 can be unscrewed, the screw 48 drives the rubber pad 47 to move outwards, after the extension tube is connected onto the water tube 45, the screw 48 is screwed again, the screw 48 drives the rubber pad 47 to move inwards to compress the extension tube, and therefore people can clean objects by using the clean water heated in the storage box 41.

Example 2

On the basis of embodiment 1, as shown in fig. 5, 6, 7, 8, 9 and 10, the device further comprises a clamping assembly 5, the clamping assembly 5 comprises a supporting rod 51, a guide block 52, a special-shaped block 53, a second spring 54 and a second guide rod 55, the supporting rod 51 is arranged between the front sides of the chimney pipes 2, the guide block 52 is arranged on the rear side of the supporting rod 51, the second guide rod 55 is arranged at the lower part of the rear side of the supporting rod 51, the special-shaped block 53 is arranged on the second guide rod 55 in a sliding mode, the special-shaped block 53 is connected with the guide block 52 in a sliding mode, and the second springs 54 are symmetrically arranged between the special-shaped block 53 and the guide block 52.

Still including restriction subassembly 6, restriction subassembly 6 is including baffle 61, pivot 62, first torsional spring 63, supporting shoe 64, third guide bar 65, ejector pad 66 and third spring 67, guide frame 31 front side lower part symmetry is equipped with pivot 62, all rotationally be equipped with baffle 61 in the pivot 62, be equipped with first torsional spring 63 between baffle 61 and the guide frame 31, first torsional spring 63 overlaps respectively in pivot 62 guide frame 31 inboard lower part symmetry and is equipped with supporting shoe 64, the supporting shoe 64 front side all is equipped with third guide bar 65, the last slidingtype ejector pad 66 that is equipped with of third guide bar 65, ejector pad 66 all is connected with special-shaped block 53, ejector pad 66 cooperates with baffle 61, all be equipped with third spring 67 between ejector pad 66 and the supporting shoe 64, third spring 67 overlaps respectively on third guide bar 65.

When people need to clean dust in the collecting box 34, the sliding plate 33 is manually pushed downwards, the sliding plate 33 is in contact with the special-shaped block 53, so that the special-shaped block 53 is pushed to move forwards, the second spring 54 is compressed, the special-shaped block 53 drives the pushing block 66 to move forwards, the third spring 67 is stretched, the pushing block 66 moves forwards to push the baffle plate 61, the baffle plate 61 is reversely rotated, the first torsion spring 63 is deformed, the sliding plate 33 is manually pushed downwards, so that the sliding plate 33 does not push the special-shaped block 53 any more, the special-shaped block 53 is driven to reset under the reset action of the second spring 54, the sliding plate 33 is clamped by the special-shaped block 53, meanwhile, the pushing block 66 is driven to reset by the third spring 67, the baffle plate 61 is clamped by the special-shaped block 53, so that the baffle plate 61 is not reset by the baffle plate 53, at the moment, people can take the collecting box 34 out after cleaning, the collecting box 34 is put back to the original position, the special-shaped block 53 is manually pulled to the front side, the special-shaped block 53 is not clamped by the sliding plate 33, the collecting box 34 is driven to reset, the special-shaped block 53 is not clamped, and the special-shaped block 53 is reset by the special-shaped block 53 is driven to reset, and the special-shaped block 53 is not reset by the torsion spring 53, and the reset by the first torsion spring 61, and the baffle plate 61 is reset by the reset action.

Still including stirring subassembly 7, stirring subassembly 7 is including shell 71, servo motor 72, belt transmission subassembly 73 and puddler 74, storage box 41 front side upper portion bilateral symmetry is equipped with shell 71, storage box 41 front side upper portion bilateral symmetry is equipped with servo motor 72, servo motor 72 all is located the shell 71 inboard, storage box 41 inboard bilateral symmetry rotation is equipped with puddler 74, all be equipped with belt transmission subassembly 73 between the output shaft of puddler 74 and servo motor 72, belt transmission subassembly 73 comprises two drive wheels and a belt, the drive wheel is established respectively in puddler 74 upper portion and servo motor 72's output shaft upper portion, the belt is connected between the drive wheel and.

Still including reaction unit 8, reaction unit 8 is including reaction cylinder 81, outlet duct 82, support frame 83, piston cylinder 84, check valve 85, piston rod 86, cam 87, special-shaped rod 88, fourth spring 89, ball valve 810, gear 811 and second torsional spring 812, storage box 41 front side upper portion symmetry is equipped with reaction cylinder 81, reaction cylinder 81 is connected with storage box 41 front side, reaction cylinder 81 upper portion is equipped with outlet duct 82, outlet duct 82 is connected with storage box 41 front side upper portion symmetry is equipped with two support frames 83, support frame 83 upper portion all is equipped with piston cylinder 84, piston cylinder 84 inboard all is connected with reaction cylinder 81, piston cylinder 84 rear side all is equipped with check valve 85, check valve 85 is connected with storage box 41, piston cylinder 84 outside all is equipped with piston rod 86, the piston rod 86 outside all is equipped with special-shaped rod 88, stirring rod 74 upper portion all is equipped with cam 87, the boss department and the cooperation of special-shaped rod 88, all be equipped with fourth spring 89 between special-shaped rod 88 and the piston cylinder 84, fourth spring 89 overlaps on 86 respectively, reaction cylinder 81 front side inside all rotates and is equipped with ball valve 81, the side all is equipped with ball valve 810 and gear 810 is equipped with the intermittent type is equipped with between the second torsional spring 812, all is equipped with the ball valve 810 with the cooperation between the special-shaped rod 88 and the second torsional spring 812, the equal intermittent type is equipped with the round-shaped rod 812.

People can inject ozone into the upper layer of the storage box 41 through the guide pipe 42 at the front side, in the process of heating clean water by the heat conducting plate 43, the servo motor 72 is started, the output shaft of the servo motor 72 drives the belt transmission assembly 73 to rotate with the stirring rod 74, the stirring rod 74 stirs clean water, heating efficiency can be improved, the clean water is uniformly heated by waste heat, the stirring rod 74 rotates to drive the cam 87 to rotate, the protrusion of the cam 87 drives the special-shaped rod 88 to move left and right with the piston rod 86, the fourth spring 89 is compressed and then reset, ozone on the upper layer of the storage box 41 can be sucked into the piston cylinder 84 through the one-way valve 85, then the piston cylinder 84 blows into the reaction cylinder 81 through the piston cylinder 84, gas between the lower layer of the storage box 41 and the heat conducting plate 43 also enters the reaction cylinder 81 to perform preliminary reaction with the ozone, meanwhile, the special-shaped rod 88 moves to the right side to drive the gear 811 to rotate, the ball valve 810 is driven to rotate, the ball valve 812 deforms, the gas in the storage box is driven to rotate, the gas in the storage box is reacted with the ozone, toxic substances can be consumed, the toxic substances can be discharged from the protrusion of the piston rod 88 and the piston rod 86 can be stopped from the left side and right side of the piston rod 86, the piston rod 88 is not contacted with the special-shaped rod 81, and the special-shaped rod 81 is not contacted with the piston rod 81, and the special-shaped rod 88 is not contacted with the reset cylinder 81, and the special-shaped rod 81 is contacted with the left side with the piston rod 81, and then, and the special-shaped rod 88 is contacted with the left side 81, and the special-shaped rod 81 is not contacted with the left side with the piston cylinder 81, and then is contacted with the left side with the special-shaped rod 81.

The foregoing has outlined rather broadly the more detailed description of the present application, wherein specific examples have been provided to illustrate the principles and embodiments of the present application, the description of the examples being provided solely to assist in the understanding of the method of the present application and the core concepts thereof; meanwhile, as those skilled in the art will have modifications in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims

1. The cremation device with the heat energy recovery function is characterized by comprising:

the cremator comprises a cremator (1) and a chimney pipeline (2), wherein the chimney pipeline (2) is arranged at the upper part of one side of the cremator (1);

a conversion mechanism (4), wherein one side of the cremator (1) is provided with the conversion mechanism (4);

the upper part of the conversion mechanism (4) is provided with the filtering mechanism (3);

the filtering mechanism (3) comprises:

a guide frame (31), wherein the upper part of the conversion mechanism (4) is provided with the guide frame (31);

the first guide rods (32) are symmetrically arranged on the inner sides of the guide frames (31);

a sliding plate (33), wherein the sliding plate (33) is arranged between the upper parts of the first guide rods (32) in a sliding manner;

a collection box (34), wherein the collection box (34) is arranged on the upper part of the sliding plate (33);

a filter screen (35), wherein the filter screen (35) is arranged at the upper part of the collecting box (34);

a ventilation fan (36), wherein the ventilation fan (36) is rotatably arranged at the upper part of one side of the cremator (1);

a first spring (37), wherein the first spring (37) is arranged between the sliding plate (33) and the guide frame (31), and the first springs (37) are respectively sleeved on the first guide rods (32);

the conversion mechanism (4) comprises:

the storage box (41) is arranged on one side of the cremator (1), the storage box (41) is divided into an upper layer and a lower layer, and one side of the storage box (41) is connected with the chimney pipeline (2);

the ducts (42) are symmetrically arranged on the chimney pipeline (2), the ducts (42) at the rear side are connected with the lower layer of the storage box (41), and the ducts (42) at one side are connected with the storage box (41) at the upper layer;

a heat-conducting plate (43), wherein the heat-conducting plate (43) is arranged inside one side of the storage box (41);

a heating pipe (44), wherein one side of the heat conducting plate (43) is provided with the heating pipe (44);

the water pipes (45) are symmetrically arranged at the lower part of one side of the heat conducting plate (43), and the water pipes (45) are connected with the storage box (41);

the connecting sleeves (46) are arranged on the water pipes (45);

the inner sides of the connecting sleeves (46) are respectively and uniformly provided with three rubber pads (47) in a sliding mode at intervals, and the rubber pads (47) are matched with the water pipes (45);

the screws (48) are uniformly arranged at intervals on the outer side of the connecting sleeve (46) through threads, and the screws (48) are connected with the rubber sleeve;

still including blocking subassembly (5), block subassembly (5) including:

a supporting rod (51), wherein the supporting rod (51) is arranged between one sides of the chimney pipeline (2);

a guide block (52), wherein one side of the support rod (51) is provided with the guide block (52);

a second guide rod (55), wherein the lower part of one side of the support rod (51) is provided with the second guide rod (55);

the special-shaped block (53) is arranged on the second guide rod (55) in a sliding mode, and the special-shaped block (53) is connected with the guide block (52) in a sliding mode;

the second springs (54) are symmetrically arranged between the special-shaped blocks (53) and the guide blocks (52);

the device also comprises a limiting component (6), wherein the limiting component (6) comprises:

a rotating shaft (62), wherein the rotating shaft (62) is symmetrically arranged at the lower part of one side of the guide frame (31);

the baffle plates (61) are rotatably arranged on the rotating shafts (62);

a first torsion spring (63), a first torsion spring (63) is arranged between the baffle (61) and the guide frame (31), and the first torsion springs (63) are respectively sleeved on the rotating shaft (62);

the support blocks (64) are symmetrically arranged at the lower part of the inner side of the guide frame (31);

a third guide rod (65), wherein one side of the supporting block (64) is provided with the third guide rod (65);

the pushing block (66) is arranged on the third guide rod (65) in a sliding mode, the pushing blocks (66) are connected with the special-shaped blocks (53), and the pushing blocks (66) are matched with the baffle plates (61);

the third springs (67), are arranged between the pushing blocks (66) and the supporting blocks (64), and the third springs (67) are respectively sleeved on the third guide rods (65);

still including stirring subassembly (7), stirring subassembly (7) are including:

a housing (71), wherein the housing (71) is symmetrically arranged at the left and right of the upper part of one side of the storage box (41);

the servo motors (72) are symmetrically arranged at the left and right sides of the upper part of one side of the storage box (41), and the servo motors (72) are all positioned at the inner side of the shell (71);

the stirring rod (74) is symmetrically arranged on the inner side of the storage box (41) in a rotating way, and the stirring rod (74) is arranged on the inner side of the storage box;

the belt transmission assembly (73), the stirring rod (74) and the output shaft of the servo motor (72) are respectively provided with the belt transmission assembly (73);

the device also comprises a reaction component (8), and the upper part of the conversion mechanism (4) is provided with the reaction component (8);

the reaction component (8) comprises:

the reaction cylinder body (81), the upper part of one side of the storage box (41) is symmetrically provided with the reaction cylinder body (81), and the reaction cylinder body (81) is connected with one side of the storage box (41) close to the heat conducting plate (43);

the air outlet pipe (82) is arranged at the upper part of the reaction cylinder body (81), the air outlet pipe (82) is connected with the storage box (41);

the support frames (83) are symmetrically arranged at the upper part of one side of the storage box (41);

the upper parts of the supporting frames (83) are respectively provided with a piston cylinder (84), and the inner sides of the piston cylinders (84) are respectively connected with the reaction cylinder body (81);

the one-way valves (85) are arranged on one side of the piston cylinder (84), and the one-way valves (85) are connected with the storage box (41);

the piston rods (86) are arranged on the outer sides of the piston cylinders (84) in a sliding mode, and the piston rods (86) are arranged on the outer sides of the piston cylinders (84) in a sliding mode;

the outer sides of the piston rods (86) are respectively provided with a special-shaped rod (88);

the upper parts of the stirring rods (74) are respectively provided with a cam (87), and the convex parts of the cams (87) are matched with the special-shaped rods (88);

a fourth spring (89), wherein the fourth spring (89) is arranged between the special-shaped rod (88) and the piston cylinder (84), and the fourth springs (89) are respectively sleeved on the piston rod (86);

ball valves (810), wherein the ball valves (810) are rotatably arranged in one side of the reaction cylinder body (81);

a gear (811), wherein the gear (811) is arranged on one side of the ball valve (810), and the gear (811) is intermittently matched with the special-shaped rod (88);

and a second torsion spring (812) is arranged between the gear (811) and the reaction cylinder body (81), and the second torsion spring (812) is sleeved on the ball valve (810).