CN221046823U - Flame compounding machine removes flavor structure - Google Patents

Abstract

The utility model discloses a deodorizing structure of a flame compounding machine, which comprises: the device comprises a frame body, an upper air blowing fan, a lower air blowing fan, an upper air blowing cover, a lower air blowing cover and an upper air blowing pipeline. According to the utility model, the guide plate swings left and right to guide the air quantity left and right, so that the air outlet is more uniform, the air outlet range and the air outlet area are wider; the uniform mesh plates are arranged at the air outlets of the first upper blowing hoods, and the uniformly arranged meshes are arranged on the uniform mesh plates, so that uniform air outlet is facilitated, the range of air outlet is wider and more uniform, and the residual harmful smoke on the materials is fully and effectively blown out; the auxiliary wind guide blade can automatically swing back and forth, so that the first upper blowing hood can be further assisted to conduct back and forth wind guide in the downward blowing process, the wind outlet range is further wider, the wind outlet is more uniform, the deodorizing effect is finally further improved, and the novel multifunctional air conditioner is suitable for popularization and application.

Description

Flame compounding machine removes flavor structure

Technical Field

The utility model relates to the technical field of deodorization of flame compounding machines, in particular to a deodorizing structure of a flame compounding machine.

Background

The compound machine is simply a compound device combining two or more materials together, and has wide application.

Flame compounding machines are mainly used for the compounding of sponges and other types of textile products. The main characteristic is that it adopts flame-retardant sponge and uses it as adhesive raw material, and the glue will not be used in this process. The flame jet makes the wool melt and adhere, and has good application in the adhesion of the velvet.

However, the existing flame compounding machine generates some smoke and harmful gas after flame compounding of some materials, for example, a large amount of smoke is generated after the sponge is burned through flame exhaust flame on the flame compounding machine, and the smoke (harmful gas) often remains in the sponge material after compounding, and the smoke (harmful gas) remaining in the sponge cannot be timely and effectively removed, so that the physical health of people can be seriously affected, and therefore, a flame compounding machine deodorizing structure capable of sufficiently and effectively sucking away the harmful gas remaining in the sponge material after compounding is needed to achieve better deodorizing effect.

Disclosure of utility model

Based on the technical problems in the background technology, the utility model provides a deodorizing structure of a flame compounding machine.

The utility model provides a deodorizing structure of a flame compounding machine, which comprises the following components: the device comprises a frame body, an upper air blowing fan, a lower air blowing fan, an upper air blowing cover, a lower air blowing cover, an upper air blowing pipeline, a lower air blowing pipeline, a grid hole net belt, a net belt deviation correcting device, a net belt tightness adjusting frame, a net belt transmission motor, a net belt guide shaft and an air blowing cover height adjusting frame;

The frame body is formed by fixedly connecting a plurality of frame-type structural bodies;

the upper air blower comprises a first upper air blower and a second upper air blower which are sequentially and fixedly arranged at the top of the frame body; the first upper air blower is matched with the second upper air blower and is used for blowing out residual harmful gas in the composite material to the lower air suction cover by strong wind pressure;

the lower air suction fan comprises a first lower air suction fan and a second lower air suction fan which are sequentially and fixedly arranged at the top of the frame body, and the first lower air suction fan is matched with the second lower air suction fan and is used for sucking out residual harmful gas in the material to waste gas treatment environment-friendly equipment through negative pressure air suction;

The upper air blowing cover comprises a first upper air blowing cover and a second upper air blowing cover which are sequentially and fixedly installed in the frame body, and air guide mechanisms for uniformly discharging air are arranged in the first upper air blowing cover and the second upper air blowing cover; the lower openings of the first upper blowing cover and the second upper blowing cover are welded by adopting uniform mesh plates, the uniform mesh plates are provided with uniformly arranged meshes, and the uniform mesh plates are used for uniformly increasing the penetrating power of the air outlet wind pressure through the meshes;

The lower air suction cover comprises a first lower air suction cover and a second lower air suction cover which are sequentially and fixedly arranged in the frame body, wherein the upper openings of the first lower air suction cover and the second lower air suction cover are fixedly provided with second uniform mesh plates, and meshes on the second uniform mesh plates are used for uniformly sucking negative pressure;

The upper air blowing pipeline comprises a first upper air blowing pipeline and a second upper air blowing pipeline; the two ends of the first upper blowing pipeline are fixedly connected with the first upper blowing fan and the first upper blowing cover respectively; two ends of the second upper blowing pipeline are fixedly connected with the second upper blowing fan and the second upper blowing cover respectively;

The lower air suction pipeline comprises a first lower air suction pipeline and a second lower air suction pipeline, and two ends of the first lower air suction pipeline are respectively and fixedly connected between the first lower air suction fan and the first lower air suction cover; two ends of the second lower air suction pipeline are respectively and fixedly connected between the second lower air suction fan and the second lower air suction cover;

The net belt transmission motor is fixedly arranged in the right end of the frame body, and a driving roller for driving and conveying the net belt with the net holes is fixedly sleeved on an output shaft of the net belt transmission motor;

The net belt guide shafts are sequentially rotatably arranged on the right inner wall and the bottom inner wall of the frame body, the left bottom of the frame body and the left inner wall of the frame body, and the net belts of the net holes are sequentially connected with each other in a transmission manner through the driving roller and each net belt guide shaft;

The upper surface of the grid hole mesh belt is used for conveying the material after flame compounding;

The net belt deviation correcting device is arranged on the left side of the inner wall of the bottom of the frame body and is used for preventing the net belt of the net hole from deviating;

The net belt tightness adjusting rack is fixedly arranged at the bottom of the right side of the rack body; the mesh belt tightness adjusting rack is used for adjusting tightness of the mesh belt with the mesh holes;

The air blowing cover height adjusting rack is fixedly arranged in the rack body and is respectively arranged at two sides of the first upper air blowing cover and the second upper air blowing cover; the blast cover height adjustment frame is used for adjusting the distance between the first upper blast cover, the second upper blast cover and the surface of the material according to the thickness of the material.

Preferably, the first upper blowing pipeline and the second upper blowing pipeline both adopt high temperature resistant hoses.

Preferably, the first lower air suction pipeline and the second lower air suction pipeline both adopt high temperature resistant hoses.

Preferably, the mesh hole mesh belt is used for enabling the material to pass through smoothly and blowing and deodorizing under the action of wind pressure, and the mesh holes arranged on the mesh hole mesh belt are used for enabling the wind pressure to penetrate through the material after flame compounding.

Preferably, the air guide mechanism comprises a cross rod and a plurality of guide plates which are respectively and movably arranged in the first upper blowing cover and the second upper blowing cover, wherein sliding frames are fixedly connected to two ends of the top of the cross rod, and the top ends of the sliding frames are slidably arranged on the inner wall of the top of the first upper blowing cover; a screw rod motor is fixedly arranged on the left inner wall of the first upper blowing cover, an output shaft of the screw rod motor is fixedly connected with a screw rod, a screw rod nut is fixedly sleeved on the sliding frame, and the screw rod is in threaded transmission connection with the screw rod nut; the top fixedly connected with pivot of horizontal pole, and pivot rotation installs in first upper blast cover, fixedly connected with linkage round pin on the horizontal pole, be equipped with the linkage on the baffle and lead to the groove, and the linkage round pin runs through in the linkage and leads to the groove and with the inner wall sliding connection of linkage through the groove.

Preferably, the guide plates are arranged at equal intervals; the top of carriage is fixed and is provided with the slider, and the fixed slide rail that is provided with on the top inner wall of first upper blowing hood, and slider slidable mounting is on the slide rail.

Preferably, the wind guiding mechanism further comprises auxiliary wind guiding blades movably mounted on two sides of the guide plate respectively, two sides of the guide plate are fixedly provided with adapter seats, adapter holes are formed in the adapter seats, the tops of the auxiliary wind guiding blades are fixedly connected with adapter shafts, and one ends of the adapter shafts are rotatably mounted in the adapter holes; the switching shaft positioned in the switching hole is also sleeved with a spring, one end of the spring is fixedly connected to the inner wall of the switching hole, and the other end of the spring is fixedly connected to the switching shaft.

Preferably, a bearing is fixedly arranged in the switching hole, and one end of the switching shaft is rotatably arranged on the bearing.

The beneficial effects of the utility model are as follows:

1. In the utility model, the sponge is burnt by flame emission in the compounding process to generate some smoke harmful gas and remain in the sponge; when the material passes through the mesh belt of the odor removing structure, the upper blower blows out the smoke harmful gas remained in the sponge; and then the lower induced draft fan sucks the blown harmful gas away, thereby achieving a certain deodorizing effect.

2. According to the utility model, the screw rod motor drives the screw rod to rotate forwards and backwards, so that the sliding frame can drive left and right threads on the screw rod through the screw rod nut, the cross rod and the linkage pin move left and right, and the linkage pin is in linkage fit with the linkage through groove on the guide plate when moving left and right, so that the guide plate can swing left and right back and forth based on the rotating shaft as the center, and the air quantity blown out of the first upper blowing cover and the second upper blowing cover can be guided left and right back and forth, thus being beneficial to promoting more uniform air outlet, wider air outlet range and wider air outlet area;

3. In the utility model, the uniform mesh plate is arranged at the lower air opening of the first upper air blowing cover, and the uniformly arranged meshes are arranged on the uniform mesh plate, so that uniform air outlet is facilitated, the range of air outlet can be wider and more uniform, and the residual harmful smoke on the material can be blown out sufficiently and effectively;

4. according to the utility model, when the guide plate swings back and forth to guide air, the auxiliary air guide blades at the two sides of the guide plate can also swing back and forth automatically, so that the first upper air blowing cover can be further assisted to guide air back and forth in the downward air blowing process, the air outlet range is wider, the air outlet is more uniform, harmful smoke gas in the material can be blown out more fully and uniformly, the deodorizing effect is better, and the material is suitable for popularization and application.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a deodorizing structure of a flame compounding machine according to the present utility model;

FIG. 2 is a schematic view showing the structure of the inside of the first upper blower housing according to the present utility model;

FIG. 3 is a schematic view showing a partial structure of the inside of a first upper blower housing according to the present utility model;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 3 according to the present utility model;

FIG. 5 is a schematic view of the connection between the adapter shaft and the adapter base according to the present utility model;

FIG. 6 is a schematic view of a part of the structure of the cross bar, guide plate, and auxiliary guide vane according to the present utility model.

In the figure: 1. a frame body; 2. a first upper blower fan; 2-1, a second upper blowing fan; 3. a first lower suction fan; 3-1, a second lower suction fan; 4. a first upper blower housing; 4-0, uniform mesh plates; 4-1, a second upper blowing hood; 4-2, sliding blocks; 4-3, a screw motor; 4-4, a screw rod; 4-5, a screw rod nut; 4-6, a sliding frame; 4-7, a cross bar; 4-8, linkage pin; 4-9, linkage through grooves; 4-10, a rotating shaft; 4-11, a guide plate; 4-12, auxiliary wind guide blades; 4-13, a adapter; 4-14, a switching shaft; 4-15, springs; 4-16, a transfer hole; 4-17, a bearing; 5. a first lower suction hood; 5-1, a second lower suction hood; 6. a first upper air blowing pipe; 6-1, a second upper air blowing pipeline; 7. a first lower suction duct; 7-1, a second lower air suction pipeline; 8. a mesh belt of mesh holes; 9. a net belt deviation correcting device; 10. the net belt tightness adjusts the frame; 11. a mesh belt transmission motor; 11-1, a driving roller; 12. a mesh belt guide shaft; 13. the height of the blowing hood is adjusted to the frame.

Detailed Description

The utility model is further illustrated below in connection with specific embodiments.

Examples

Referring to fig. 1-6, in this embodiment, a deodorizing structure of a flame combining machine is provided, including: the device comprises a frame body 1, an upper air blowing fan, a lower air blowing fan, an upper air blowing cover, a lower air blowing cover, an upper air blowing pipeline, a lower air blowing pipeline, a grid hole net belt 8, a net belt deviation correcting device 9, a net belt tightness adjusting frame 10, a net belt transmission motor 11, a net belt guide shaft 12 and an air blowing cover height adjusting frame 13;

The frame body 1 is formed by fixedly connecting a plurality of frame-type structural bodies;

The upper air blower comprises a first upper air blower 2 and a second upper air blower 2-1 which are sequentially and fixedly arranged at the top of the frame body 1; the first upper air blower 2 is matched with the second upper air blower 2-1 and is used for blowing out residual harmful gas in the composite material to the lower suction hood by strong wind pressure;

The lower air suction fan comprises a first lower air suction fan 3 and a second lower air suction fan 3-1 which are sequentially and fixedly arranged at the top of the frame body 1, and the first lower air suction fan 3 is matched with the second lower air suction fan 3-1 and is used for sucking residual harmful gas in materials to waste gas treatment environment-friendly equipment through negative pressure air suction;

The upper air blowing cover comprises a first upper air blowing cover 4 and a second upper air blowing cover 4-1 which are sequentially and fixedly arranged in the frame body 1, and air guide mechanisms for uniformly discharging air are arranged in the first upper air blowing cover 4 and the second upper air blowing cover 4-1; the lower openings of the first upper blowing hood 4 and the second upper blowing hood 4-1 are welded by adopting uniform mesh plates 4-0, uniformly arranged meshes are arranged on the uniform mesh plates 4-0, and the uniform mesh plates 4-0 are used for uniformly increasing the penetrating power of the air outlet wind pressure through the meshes;

The lower air suction cover comprises a first lower air suction cover 5 and a second lower air suction cover 5-1 which are sequentially and fixedly arranged in the frame body 1, wherein the upper openings of the first lower air suction cover 5 and the second lower air suction cover 5-1 are fixedly provided with second uniform mesh plates, and meshes on the second uniform mesh plates are used for uniformly sucking negative pressure;

An upper blowing duct including a first upper blowing duct 6 and a second upper blowing duct 6-1; and two ends of the first upper blowing pipeline 6 are fixedly connected with the first upper blowing fan 2 and the first upper blowing cover 4 respectively; two ends of the second upper blowing pipeline 6-1 are respectively fixedly connected with the second upper blowing fan 2-1 and the second upper blowing cover 4-1;

The lower air suction pipeline comprises a first lower air suction pipeline 7 and a second lower air suction pipeline 7-1, and two ends of the first lower air suction pipeline 7 are respectively and fixedly connected between the first lower air suction fan 3 and the first lower air suction cover 5; two ends of the second lower air suction pipeline 7-1 are respectively and fixedly connected between the second lower air suction fan 3-1 and the second lower air suction cover 5-1;

The net belt transmission motor 11 is fixedly arranged in the right end of the frame body 1, and a driving roller 11-1 for driving and transmitting the net belt 8 with the net holes is fixedly sleeved on an output shaft of the net belt transmission motor 11;

The net belt guide shafts 12 are rotatably mounted on the right inner wall and the bottom inner wall of the frame body 1, the left bottom of the frame body 1 and the left inner wall of the frame body 1 in sequence, and the net belt 8 with net holes is in transmission connection with the driving roller 11-1 and each net belt guide shaft 12 in sequence;

The device comprises a grid hole mesh belt 8, wherein a plurality of Wang Gekong which are uniformly arranged are arranged on the grid hole mesh belt 8, and the upper surface of the grid hole mesh belt 8 is used for conveying materials after flame compounding;

the net belt deviation correcting device 9 is arranged on the left side of the inner wall of the bottom of the frame body 1, and the net belt deviation correcting device 9 is used for preventing the net belt 8 of the net hole from deviating;

the net belt tightness adjusting rack 10 is fixedly arranged at the bottom of the right side of the rack body 1; the mesh belt tightness adjusting rack 10 is used for adjusting tightness of the mesh belt 8;

The blowing hood height adjusting rack 13 is fixedly arranged in the frame body 1, and the blowing hood height adjusting rack 13 is respectively arranged at two sides of the first upper blowing hood 4 and the second upper blowing hood 4-1; the hood height adjusting frame 13 is used to adjust the distance between the first upper hood 4, the second upper hood 4-1 and the surface of the material according to the thickness of the material.

In the present example, the first upper air blowing pipeline 6 and the second upper air blowing pipeline 6-1 adopt high temperature resistant hoses; the first lower air suction pipeline 7 and the second lower air suction pipeline 7-1 are both high-temperature resistant hoses; the mesh hole mesh belt 8 is used for enabling materials to pass through smoothly and blowing and deodorizing under the action of wind pressure, and the mesh holes arranged on the mesh hole mesh belt 8 are used for enabling wind pressure to penetrate through the materials after flame compounding.

In the example, the air guide mechanism comprises a cross rod 4-7 and a plurality of guide plates 4-11 which are respectively and movably arranged in a first upper blowing cover 4 and a second upper blowing cover 4-1, wherein sliding frames 4-6 are fixedly connected to the two ends of the top of the cross rod 4-7, and the top ends of the sliding frames 4-6 are slidably arranged on the inner wall of the top of the first upper blowing cover 4; a screw motor 4-3 is fixedly arranged on the left inner wall of the first upper blowing hood 4, an output shaft of the screw motor 4-3 is fixedly connected with a screw 4-4, a screw nut 4-5 is fixedly sleeved on a sliding frame 4-6, and the screw 4-4 is in threaded transmission connection with the screw nut 4-5; the top end of the cross rod 4-7 is fixedly connected with a rotating shaft 4-10, the rotating shaft 4-10 is rotatably arranged in the first upper blowing hood 4, the cross rod 4-7 is fixedly connected with a linkage pin 4-8, the guide plate 4-11 is provided with a linkage through groove 4-9, and the linkage pin 4-8 penetrates through the linkage through groove 4-9 and is in sliding connection with the inner wall of the linkage through groove 4-9.

In this example, a plurality of guide plates 4-11 are arranged at equal intervals; the top of the sliding frame 4-6 is fixedly provided with a sliding block 4-2, the inner wall of the top of the first upper blowing hood 4 is fixedly provided with a sliding rail, and the sliding block 4-2 is slidably arranged on the sliding rail.

In the example, the wind guiding mechanism further comprises auxiliary wind guiding blades 4-12 movably mounted on two sides of the guide plate 4-11 respectively, two sides of the guide plate 4-11 are fixedly provided with adapter seats 4-13, the adapter seats 4-13 are provided with adapter holes 4-16, the top of the auxiliary wind guiding blades 4-12 is fixedly connected with an adapter shaft 4-14, and one end of the adapter shaft 4-14 is rotatably mounted in the adapter holes 4-16; the transfer shaft 4-14 positioned in the transfer hole 4-16 is also sleeved with a spring 4-15, one end of the spring 4-15 is fixedly connected to the inner wall of the transfer hole 4-16, and the other end of the spring 4-15 is fixedly connected to the transfer shaft 4-14; the inside of the transfer hole 4-16 is fixedly provided with a bearing 4-17, and one end of the transfer shaft 4-14 is rotatably arranged on the bearing 4-17.

The deodorizing structure of the flame compounding machine has the following overall working principle: the sponge generates a large amount of smoke after being burnt by flame discharge flame on a flame compounding machine in the compounding process, and the smoke (harmful gas) remains in the sponge; when the material passes through the mesh belt 8 of the odor removing structure, the upper blower blows out the smoke (harmful gas) remained in the sponge; and then the lower induced draft fan sucks the blown harmful gas away, thereby achieving a certain deodorizing effect.

Further specifically, after the sponge burns through fire discharge flame and generates some smoke harmful gas and remains in the sponge material in the compounding process, the sponge material after flame compounding is conveyed to the mesh hole mesh belt 8, meanwhile, the mesh belt transmission motor 11 is used for working to drive the driving roller 11-1 to rotate, the driving roller 11-1 is also in transmission fit with the mesh belt guide shafts 12 at all positions when rotating, further, the sponge material on the mesh hole mesh belt 8 can be conveyed, and when the sponge material is conveyed to the position below the first upper blowing cover 4 and the second upper blowing cover 4-1, the first upper blowing fan 2 and the second upper blowing fan 2-1 are used for blowing work at the moment, and the first upper blowing pipeline 6 and the second upper blowing pipeline 6-1 are used for being matched, so that the blowing air quantity can be blown downwards from the first upper blowing cover 4 and the second upper blowing cover 4-1 to the sponge material, and the residual harmful gas in the sponge material can be blown out; the first lower air suction cover 5 and the second lower air suction cover 5-1 which are positioned below the sponge material are under the air suction work of the first lower air suction fan 3 and the second lower air suction fan 3-1 and air suction is carried out through the first lower air suction pipeline 7 and the second lower air suction pipeline 7-1, and then the harmful smoke blown out on the material can be adsorbed and collected through the first lower air suction cover 5 and the second lower air suction cover 5-1, so that a certain deodorizing effect is achieved.

As a further implementation, when the first upper air blower 2 and the second upper air blower 2-1 are in the air blowing working process, the screw rod motor 4-3 in the first upper air blower 4 and the second upper air blower 4-1 can work to drive the screw rod 4-4 to rotate positively and negatively, the sliding frame 4-6 can drive the cross rod 4-7 and the linkage pin 4-8 to move left and right through the screw rod nut 4-5 by utilizing the screw rod transmission principle, the sliding frame 4-6 also drives the cross rod 4-7 and the linkage pin 4-8 to move left and right when moving left and right, the linkage pin 4-8 also cooperates with the linkage through groove 4-9 on the guide plate 4-11 in a linkage manner when moving left and right, and further can enable the guide plate 4-11 to swing left and right back based on the rotating shaft 4-10 as the center, so as to guide the air volume blown out from the first upper air blower 4-1 to left and right back, thereby being beneficial to promoting more uniform air outlet area, more uniform air outlet and wider range, and more uniform air outlet area, and more uniform net hole plate 4-0 can be arranged at the position below the first upper air blower 4-1, and the uniform net hole plate 4-0 can be more beneficial to the air outlet area and the air outlet material can be fully and completely discharged;

Furthermore, when the guide plate 4-11 swings back and forth to guide air, the auxiliary air guide blades 4-12 on the two sides of the guide plate 4-11 also swing back and forth automatically, namely, the auxiliary air guide blades 4-12 also rotate back and forth in the switching holes 4-16 through the switching shaft 4-14 when swinging, meanwhile, the springs 4-15 deform or reset (the springs 4-15 play a reset role), finally, the back and forth swinging of the auxiliary air guide blades 4-12 can further assist the first upper air blowing cover 4 to guide air back and forth in the downward air blowing process, so that the air outlet range is wider, the air outlet is more uniform, the deodorizing effect is better, and the method is suitable for popularization and application.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. A flame compounding machine deodorization structure, characterized by comprising: the device comprises a frame body, an upper air blowing fan, a lower air blowing fan, an upper air blowing cover, a lower air blowing cover, an upper air blowing pipeline, a lower air blowing pipeline, a grid hole net belt, a net belt deviation correcting device, a net belt tightness adjusting frame, a net belt transmission motor, a net belt guide shaft and an air blowing cover height adjusting frame;

The frame body is formed by fixedly connecting a plurality of frame-type structural bodies;

the upper air blower comprises a first upper air blower and a second upper air blower which are sequentially and fixedly arranged at the top of the frame body; the first upper air blower is matched with the second upper air blower and is used for blowing out residual harmful gas in the composite material to the lower air suction cover by strong wind pressure;

the lower air suction fan comprises a first lower air suction fan and a second lower air suction fan which are sequentially and fixedly arranged at the top of the frame body, and the first lower air suction fan is matched with the second lower air suction fan and is used for sucking out residual harmful gas in the material to waste gas treatment environment-friendly equipment through negative pressure air suction;

The upper air blowing cover comprises a first upper air blowing cover and a second upper air blowing cover which are sequentially and fixedly installed in the frame body, and air guide mechanisms for uniformly discharging air are arranged in the first upper air blowing cover and the second upper air blowing cover; the lower openings of the first upper blowing cover and the second upper blowing cover are welded by adopting uniform mesh plates, the uniform mesh plates are provided with uniformly arranged meshes, and the uniform mesh plates are used for uniformly increasing the penetrating power of the air outlet wind pressure through the meshes;

The lower air suction cover comprises a first lower air suction cover and a second lower air suction cover which are sequentially and fixedly arranged in the frame body, wherein the upper openings of the first lower air suction cover and the second lower air suction cover are fixedly provided with second uniform mesh plates, and meshes on the second uniform mesh plates are used for uniformly sucking negative pressure;

The upper air blowing pipeline comprises a first upper air blowing pipeline and a second upper air blowing pipeline; the two ends of the first upper blowing pipeline are fixedly connected with the first upper blowing fan and the first upper blowing cover respectively; two ends of the second upper blowing pipeline are fixedly connected with the second upper blowing fan and the second upper blowing cover respectively;

The lower air suction pipeline comprises a first lower air suction pipeline and a second lower air suction pipeline, and two ends of the first lower air suction pipeline are respectively and fixedly connected between the first lower air suction fan and the first lower air suction cover; two ends of the second lower air suction pipeline are respectively and fixedly connected between the second lower air suction fan and the second lower air suction cover;

The net belt transmission motor is fixedly arranged in the right end of the frame body, and a driving roller for driving and conveying the net belt with the net holes is fixedly sleeved on an output shaft of the net belt transmission motor;

The net belt guide shafts are sequentially rotatably arranged on the right inner wall and the bottom inner wall of the frame body, the left bottom of the frame body and the left inner wall of the frame body, and the net belts of the net holes are sequentially connected with each other in a transmission manner through the driving roller and each net belt guide shaft;

The upper surface of the grid hole mesh belt is used for conveying the material after flame compounding;

The net belt deviation correcting device is arranged on the left side of the inner wall of the bottom of the frame body and is used for preventing the net belt of the net hole from deviating;

The net belt tightness adjusting rack is fixedly arranged at the bottom of the right side of the rack body; the mesh belt tightness adjusting rack is used for adjusting tightness of the mesh belt with the mesh holes;

The air blowing cover height adjusting rack is fixedly arranged in the rack body and is respectively arranged at two sides of the first upper air blowing cover and the second upper air blowing cover; the blast cover height adjustment frame is used for adjusting the distance between the first upper blast cover, the second upper blast cover and the surface of the material according to the thickness of the material.

2. The odor removal structure of a flame combining machine of claim 1, wherein said first and second upper air ducts each employ a high temperature resistant hose.

3. The odor removing structure of a flame combining machine according to claim 1, wherein said first lower suction duct and said second lower suction duct are each a high temperature resistant hose.

4. The deodorizing structure of a flame combining machine according to claim 1, wherein the air guide mechanism comprises a cross rod and a plurality of guide plates which are respectively movably arranged in the first upper blowing cover and the second upper blowing cover, wherein both ends of the top of the cross rod are fixedly connected with sliding frames, and the top ends of the sliding frames are slidably arranged on the inner wall of the top of the first upper blowing cover; a screw rod motor is fixedly arranged on the left inner wall of the first upper blowing cover, an output shaft of the screw rod motor is fixedly connected with a screw rod, a screw rod nut is fixedly sleeved on the sliding frame, and the screw rod is in threaded transmission connection with the screw rod nut; the top fixedly connected with pivot of horizontal pole, and pivot rotation installs in first upper blast cover, fixedly connected with linkage round pin on the horizontal pole, be equipped with the linkage on the baffle and lead to the groove, and the linkage round pin runs through in the linkage and leads to the groove and with the inner wall sliding connection of linkage through the groove.

5. The odor elimination structure of a flame combining machine according to claim 4, wherein a plurality of guide plates are arranged at equal intervals; the top of carriage is fixed and is provided with the slider, and the fixed slide rail that is provided with on the top inner wall of first upper blowing hood, and slider slidable mounting is on the slide rail.

6. The deodorizing structure of a flame combining machine according to claim 4, wherein the air guiding mechanism further comprises auxiliary air guiding blades movably mounted on two sides of the guide plate respectively, the two sides of the guide plate are fixedly provided with adapter seats, the adapter seats are provided with adapter holes, the tops of the auxiliary air guiding blades are fixedly connected with adapter shafts, and one ends of the adapter shafts are rotatably mounted in the adapter holes; the switching shaft positioned in the switching hole is also sleeved with a spring, one end of the spring is fixedly connected to the inner wall of the switching hole, and the other end of the spring is fixedly connected to the switching shaft.

7. The deodorizing structure for flame combining machine as set forth in claim 6, wherein a bearing is fixedly installed in the transfer hole, and one end of the transfer shaft is rotatably installed on the bearing.