CN216936891U - Curing and feeding device for processing air inlet temperature and pressure sensor - Google Patents

Abstract

The utility model discloses a curing and feeding device for processing an air inlet temperature and pressure sensor, which belongs to the technical field of temperature and pressure sensors and comprises a bottom supporting box, wherein the upper surface of the bottom supporting box is fixedly connected with the lower surface of a curing furnace body, the right side surface of the curing furnace body is fixedly connected with the left side surface of a preheating box, and the upper surface of the preheating box is clamped with a first air pipe. According to the utility model, through arranging the first connecting frame, the second connecting frame, the rotating blades, the pressing plates, the inclined rods, the pin shafts, the vertical plates, the first air pipes, the connecting air pump and the curing furnace body, when the high-temperature gas is discharged, the connecting air pump stops working, the elastic component drives the inclined rods to rotate, the two pressing plates move close to each other and are in contact with the surface of the conveying belt, at the moment, the primary exhaust and feeding processes are completed, the feeding process is smoothly and efficiently carried out, and the situation that a large amount of heat is wasted when the curing furnace body is opened is avoided.

Description

Curing and feeding device for processing air inlet temperature and pressure sensor

Technical Field

The utility model belongs to the technical field of temperature and pressure sensors, and particularly relates to a curing and feeding device for processing an air inlet temperature and pressure sensor.

Background

The air inlet temperature and pressure sensor needs to be subjected to gluing or glue pouring operation in the processing process, the curing operation needs to be carried out after gluing or glue pouring, part of the curing process adopts normal-temperature curing, the consumed time is long, manual curing by using related equipment is an existing common means, the part of the sensor is made of plastic materials, the specific heat capacity of the coated glue and the plastic has a certain difference, so that when the sensor is subjected to high-temperature rapid heating, the glue can be rapidly heated, but the plastic part is heated at a low speed and has obvious temperature gradient, the bonding performance between the glue curing process and the plastic can be influenced, the same problem can exist when the sensor is cooled, rapid cooling is carried out, the temperature reduction speed has a certain difference due to the difference of the specific heat capacity between the glue and the plastic, the feeding part of the curing furnace is manually opened by workers to take and place raw materials in the heating and curing process, the operation is more tedious, the operation danger exists easily, and the heat probably extravagant condition exists simultaneously, therefore needs an intake temperature pressure sensor processing to solve above-mentioned problem with solidification loading attachment.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects in the prior art, the utility model provides a curing and feeding device for processing an air inlet temperature and pressure sensor, which solves the problem that when a component part of the sensor is made of a plastic material and the specific heat capacity of the coated glue and the plastic is different, when the sensor is rapidly heated at a high temperature, the glue can be heated up rapidly, but the heating speed of the plastic part is slower, and obvious temperature gradient exists, which can affect the bonding performance between the glue curing process and the plastic, there may be the same problem when cooling down, rapid cooling, and the specific heat capacity difference between glue and the plastics leads to the temperature reduction speed to have certain difference, and the heating curing process material loading part of curing oven relies on the staff to open the furnace gate manually and gets and put the raw materials, and the operation is comparatively loaded down with trivial details, has the danger of operation easily, and the problem that the heat probably extravagant condition exists simultaneously.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a temperature pressure sensor processing of admitting air is with solidification loading attachment, includes bottom support box, the upper surface of bottom support box and the lower fixed surface of solidification furnace body are connected, the right flank of solidification furnace body and the left surface fixed connection of preheating cabinet, the upper surface joint of preheating cabinet has first trachea, first tracheal bottom is linked together with the surface of first carriage, the upper surface and the lower surface of first carriage all are provided with the carriage release lever, two the other end of carriage release lever all is provided with the clamp plate, two the one end that the carriage release lever is relative is provided with same control assembly.

The lower surface of first linking frame is linked together with the tracheal one end of second, the tracheal other end of second is linked together with the surface of second linking frame, the second linking frame sets up at the preheating cabinet inner wall, preheating cabinet inner wall and solidification furnace body inner wall all are provided with the fixed plate, corresponding two the opposite face of fixed plate is provided with same transfer roller, and is a plurality of the surface of transfer roller is provided with same conveyer belt, rightmost side the back of transfer roller is provided with the rotary vane, the back of preheating cabinet is linked together with the one end of air duct.

The other end of air duct is linked together with the surface of cooling box, the right flank of cooling box and the left surface fixed connection of solidification furnace body, first tracheal other end is provided with exhaust subassembly, exhaust subassembly sets up the upper surface at the backing plate, the left surface of backing plate and the right flank fixed connection of solidification furnace body, exhaust subassembly sets up the right flank at the solidification furnace body, the back of solidification furnace body is provided with heating element.

As a further scheme of the utility model: the upper surface and the lower surface of the control assembly are respectively provided with an elastic assembly, the elastic assemblies are sleeved on the outer surface of the moving rod, and the other ends of the elastic assemblies are fixedly connected with the inner wall of the first connecting frame.

As a further scheme of the utility model: the control assembly comprises two connecting frames, wherein the two opposite sides of the connecting frames are fixedly connected with one ends, opposite to the two moving rods, of the connecting frames, the two opposite sides of the connecting frames are fixedly connected with one ends, close to the two elastic assemblies, of the two elastic assemblies, the inner walls of the connecting frames are hinged to the outer surfaces of the inclined rods through pin shafts, and the other ends of the inclined rods are hinged to the outer surface of the same vertical plate.

As a further scheme of the utility model: the position of riser is corresponding with first tracheal position, two the opposite face of clamp plate respectively with the upper surface and the lower surface overlap joint of conveyer belt, the surface and the standing groove inner wall overlap joint of clamp plate, the standing groove is seted up at the connecting hole inner wall, the right flank at the solidification furnace body is seted up to the connecting hole, the shape and the position and the size of connecting hole are corresponding with the position and the size of conveyer belt respectively.

As a further scheme of the utility model: the first connecting frame is clamped on the inner wall of the curing furnace body, the position of the second air pipe corresponds to that of the rotating blade, eight placing frames are arranged on the outer surface of the conveying belt, and a sealing door is arranged on the right side face of the preheating box.

As a further scheme of the utility model: the exhaust assembly is including connecting the air pump, the right flank of connecting the air pump communicates with tracheal left end, the lower surface of connecting the air pump is connected with the upper surface fixed connection of backing plate, the left flank of connecting the air pump is linked together with the one end of first intermediate tube, the other end of first intermediate tube is linked together with the right flank of rose box, the lower surface of rose box is connected with the upper surface fixed connection of backing plate, the upper surface of rose box is linked together with the one end of second intermediate tube, the other end of second intermediate tube is linked together with the right flank of solidification furnace body.

As a further scheme of the utility model: the outer surface of the air duct is fixedly connected with the inner wall of the fixing sleeve, the front surface of the fixing sleeve is fixedly connected with the back surface of the curing furnace body, and the front surface of the curing furnace body is provided with an observation control door.

As a further scheme of the utility model: the inner wall of the conveying belt is provided with a heat conduction air outlet cylinder, the heat conduction air outlet cylinder is arranged on the lower surface of the inner wall of the preheating box, the back face of the heat conduction air outlet cylinder is communicated with one end of a third air pipe, and the other end of the third air pipe is communicated with the outer surface of the second connecting frame.

As a further scheme of the utility model: the left surface of solidification furnace body is provided with the control cabinet, the position of clamp plate is corresponding with the position of one of them transfer roller, the clamp plate sets up to the rectangle, the size of clamp plate is corresponding with the size of conveyer belt.

As a further scheme of the utility model: the lower surface of the preheating box is fixedly connected with the upper surface of the supporting inclined block, and the left side surface of the supporting inclined block is fixedly connected with the right side surface of the curing furnace body.

(III) advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

1. the curing feeding device for processing the air inlet temperature and pressure sensor is characterized in that a first connecting frame, a second connecting frame, a rotating blade, a pressing plate, inclined rods, a pin shaft, a vertical plate, a first air pipe, a connecting air pump and a curing furnace body are arranged, when the connecting air pump works to draw and discharge part of high-temperature gas in the curing furnace body into the first connecting frame, the high-temperature gas impacts on the surface of the vertical plate to control the two inclined rods to mutually keep away from and rotate, meanwhile, the two moving rods and the pressing plate keep away from and move away from each other and are separated from a conveying belt, the high-temperature gas passes through the first connecting frame to enter the second connecting frame and blow the rotating blade to rotate, the rotating blade drives a conveying roller to rotate, meanwhile, the conveying belt drives a surface placing frame and a workpiece to move leftwards over the pressing plate to cross the pressing plate, after the high-temperature gas is discharged, the connecting air pump stops working, at the moment, an elastic component drives the inclined rods to rotate, the two pressing plates mutually approach and are contacted with the surface of the conveying belt, the process of once exhausting and feeding is completed at the moment, the feeding process is smoothly and efficiently carried out, and the condition that a curing furnace body is opened to waste a large amount of heat is avoided.

2. This processing of inlet air temperature pressure sensor is with solidification loading attachment, through setting up first trachea, the second trachea, the third trachea, heat conduction gas outlet cylinder, preheating box and cooling box, high-temperature gas strikes the riser and removes and discharge into the preheating box through heat conduction gas outlet cylinder after the rotating vane rotates, gas lower than the solidification temperature preheats the work piece, keep corresponding time simultaneously, it is difficult for obvious temperature gradient to appear in subsequent solidification heating process simultaneously to make the work piece accomplish after preheating, the gas of further cooling gets into the cooling box through the air duct after preheating simultaneously, make the cooling box keep the uniform temperature, rapid cooling can not appear and lead to the obvious condition of temperature gradient, preheating and gentle cooling of work piece solidification front and back is gone on smoothly stably, make the temperature gradient condition obviously improve, guarantee the effect of solidification to a certain extent.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic three-dimensional structure of the preheating box of the present invention;

FIG. 3 is a schematic rear perspective view of the present invention;

FIG. 4 is a schematic left-side perspective view of the present invention;

FIG. 5 is a schematic diagram of a rear perspective sectional view of the preheating chamber according to the present invention;

FIG. 6 is an enlarged view of the portion A of the present invention;

FIG. 7 is a perspective view of a control assembly according to the present invention;

FIG. 8 is an enlarged view of part B of the present invention;

in the figure: 1. a bottom support box; 2. curing the furnace body; 3. an observation control gate; 4. a preheating box; 5. supporting the inclined block; 6. a sealing door; 7. a first air pipe; 8. a first connection frame; 9. a second air pipe; 10. a travel bar; 11. pressing a plate; 12. a control component; 121. a connecting frame; 122. a pin shaft; 123. a diagonal bar; 124. a vertical plate; 13. an elastic component; 14. connecting holes; 15. a placement groove; 16. a fixing plate; 17. a conveying roller; 18. a conveyor belt; 19. placing the frame; 20. a heat conduction air outlet cylinder; 21. a third air pipe; 22. a second connection frame; 23. rotating the leaf; 24. an exhaust assembly; 241. connecting an air pump; 242. a first intermediate pipe; 243. a filter box; 244. a second intermediate pipe; 25. a base plate; 26. an air duct; 27. fixing a sleeve; 28. a heating assembly; 29. a cooling box; 30. a console.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 8, the present invention provides a technical solution: a solidification feeding device for processing an air inlet temperature and pressure sensor comprises a bottom supporting box 1, wherein the upper surface of the bottom supporting box 1 is fixedly connected with the lower surface of a solidification furnace body 2, the right side surface of the solidification furnace body 2 is fixedly connected with the left side surface of a preheating box 4, the upper surface of the preheating box 4 is connected with a first air pipe 7 in a clamping manner, through arranging the first air pipe 7, the first air pipe 7 realizes connection between a connecting air pump 241 and a first connecting frame 8, high-temperature gas discharged by the first air pipe 7 realizes impact control on a vertical plate 124, the bottom end of the first air pipe 7 is communicated with the outer surface of the first connecting frame 8, the upper surface and the lower surface of the first connecting frame 8 are both provided with a movable rod 10, through arranging the movable rod 10 and a pressing plate 11, the movable rod 10 can control the pressing plate 11 while moving, the movable control of the two pressing plates 11 is convenient to realize, and simultaneously when the pressing plate 11 is contacted with a conveying belt 18, the device can play a certain sealing role in the position of the connecting hole 14 to separate the preheating box 4 from the curing furnace body 2, the other ends of the two moving rods 10 are both provided with a pressing plate 11, and the opposite ends of the two moving rods 10 are provided with the same control assembly 12.

The lower surface of the first connecting frame 8 is communicated with one end of the second air pipe 9, the other end of the second air pipe 9 is communicated with the outer surface of the second connecting frame 22, the second connecting frame 22 is arranged on the inner wall of the preheating box 4, the inner wall of the preheating box 4 and the inner wall of the curing furnace body 2 are both provided with fixed plates 16, the same conveying rollers 17 are arranged on the opposite surfaces of the two corresponding fixed plates 16, the outer surfaces of a plurality of conveying rollers 17 are provided with the same conveying belt 18, the conveying rollers 17 and the conveying belts 18 are arranged, the conveying belts 18 can be controlled to rotate when the conveying rollers 17 rotate, meanwhile, the conveying belts 18 convey and move the surface placing frames 19 and the workpieces to the left in the curing furnace body 2, the back surface of the rightmost conveying roller 17 is provided with rotating blades 23, and the rotating blades 23 can rotate when being impacted, so that the impact on the rotating blades 23 can be realized when the air is exhausted by the air pump 241, the rotation operation of the conveying roller 17 is controlled, and the back surface of the preheating box 4 is communicated with one end of the air guide pipe 26.

The other end of air duct 26 is linked together with cooling box 29's surface, through setting up cooling box 29, let in the gas in the air duct 26 in the cooling box 29, avoid solidification back work piece rapid cooling, cooling box 29's the right flank and the left surface fixed connection of solidification furnace body 2, the other end of first trachea 7 is provided with exhaust subassembly 24, exhaust subassembly 24 sets up the upper surface at backing plate 25, the left surface of backing plate 25 and the right surface fixed connection of solidification furnace body 2, exhaust subassembly 24 sets up the right flank at solidification furnace body 2, the back of solidification furnace body 2 is provided with heating element 28.

As shown in fig. 6 and 7, the upper surface and the lower surface of the control component 12 are provided with elastic components 13, the elastic components 13 are sleeved on the outer surface of the moving rod 10, the other end of the elastic components 13 is fixedly connected with the inner wall of the first connecting frame 8, by arranging the elastic components 13, the elastic components 13 apply elastic force to the connecting frame 121 and the moving rod 10, it is ensured that the moving rod 10 cannot shake randomly when not receiving other acting force, after the gas impact riser 124 is finished, the elastic components 13 drive the moving rod 10 to reset, and the process that the pressing plate 11 is in contact with the conveyor belt 18 again is realized.

As shown in fig. 7, the control assembly 12 includes two connection frames 121, opposite sides of the two connection frames 121 are respectively fixedly connected to opposite ends of the two movable rods 10, opposite sides of the two connection frames 121 are respectively fixedly connected to opposite ends of the two elastic assemblies 13, an inner wall of the connection frame 121 is hinged to an outer surface of the inclined rod 123 through a pin 122, the other ends of the two inclined rods 123 are hinged to an outer surface of the same vertical plate 124, the inclined rod 123, the pin 122 and the vertical plate 124 are arranged, when the vertical plate 124 is impacted by high-temperature gas, the vertical plate 124 extrudes the inclined rod 123, the inclined rod 123 rotates away from each other, and further the two connection frames 121 are controlled to move away from each other.

As shown in fig. 2 and 6, the position of the vertical plate 124 corresponds to the position of the first air tube 7, the opposite surfaces of the two pressing plates 11 are respectively lapped with the upper surface and the lower surface of the conveyor belt 18, the outer surface of the pressing plate 11 is lapped with the inner wall of the placing groove 15, by arranging the placing groove 15 and the connecting hole 14, the connecting hole 14 is used for driving the workpiece to move into the curing furnace body 2 by the rotation of the conveyor belt 18, the placing groove 15 can be used for placing and limiting the pressing plate 11, the smooth and stable movement of the pressing plate 11 in the process of being driven by the moving rod 10 is ensured, the placing groove 15 is arranged on the inner wall of the connecting hole 14, the connecting hole 14 is arranged on the right side surface of the curing furnace body 2, and the shape, the position and the size of the connecting hole 14 respectively correspond to the position and the size of the conveyor belt 18.

As shown in fig. 2 and 5, the first connecting frame 8 is clamped on the inner wall of the curing furnace body 2, the second air pipe 9 is positioned corresponding to the rotating blade 23, eight placing frames 19 are arranged on the outer surface of the conveyor belt 18, and the sealing door 6 is arranged on the right side surface of the preheating box 4.

As shown in fig. 8, the exhaust assembly 24 includes a connection air pump 241, a right side surface of the connection air pump 241 is communicated with a left end of the first air pipe 7, a lower surface of the connection air pump 241 is fixedly connected with an upper surface of the backing plate 25, a left side surface of the connection air pump 241 is communicated with one end of a first intermediate pipe 242, the other end of the first intermediate pipe 242 is communicated with a right side surface of a filter tank 243, a lower surface of the filter tank 243 is fixedly connected with an upper surface of the backing plate 25, an upper surface of the filter tank 243 is communicated with one end of a second intermediate pipe 244, and the other end of the second intermediate pipe 244 is communicated with a right side surface of the curing furnace body 2.

As shown in fig. 1 and 4, the surface of air duct 26 and the fixed cover 27 inner wall fixed connection, the front of fixed cover 27 and the back fixed connection of solidification furnace body 2, through setting up fixed cover 27, fixed cover 27 realizes the support to air duct 26, guarantee the stable placement of air duct 26, air duct 26 can realize communicateing preheating cabinet 4 and cooling box 29, make things convenient for gaseous circulation, the front of solidification furnace body 2 is provided with observation control door 3, the lower surface of preheating cabinet 4 and the upper surface fixed connection who supports sloping block 5, the left surface that supports sloping block 5 and the right flank fixed connection of solidification furnace body 2.

As shown in fig. 5, the inner wall of the conveyor belt 18 is provided with a heat conduction gas outlet cylinder 20, by arranging the heat conduction gas outlet cylinder 20, the heat conduction gas outlet cylinder 20 can directly impact high-temperature gas on the surface of the conveyor belt 18, so as to rapidly heat the conveyor belt 18, and simultaneously, the gas is discharged into the preheating box 4, the heat conduction gas outlet cylinder 20 is arranged on the lower surface of the inner wall of the preheating box 4, the back surface of the heat conduction gas outlet cylinder 20 is communicated with one end of a third gas pipe 21, and the other end of the third gas pipe 21 is communicated with the outer surface of a second connecting frame 22.

As shown in fig. 4 and 5, the left side surface of the curing oven 2 is provided with a console 30, the position of the platen 11 corresponds to the position of one of the conveying rollers 17, the platen 11 is provided in a rectangular shape, and the size of the platen 11 corresponds to the size of the conveying belt 18.

The working principle of the utility model is as follows:

s1, when the feeding is needed, the connection air pump 241 is directly controlled to work, the connection air pump 241 sucks the high-temperature gas in the curing furnace body 2 and discharges the high-temperature gas into the first connecting frame 8, the high-temperature gas impacts the surface of the vertical plate 124 and extrudes the two inclined rods 123 to rotate away from each other, meanwhile, the two moving rods 10 drive the two pressing plates 11 to move away from each other to be separated from the conveyor belt 18, and then the high-temperature gas flows to the second connecting frame 22 and impacts the rotating blades 23 to rotate;

s2, simultaneously, the rotating blade 23 drives the conveying roller 17 to rotate and simultaneously controls the conveying belt 18 to rotate, the conveying belt 18 drives the placing frame 19 and the workpiece to move leftwards to enter the curing furnace body 2, after the feeding is finished, the control connection air pump 241 stops working, simultaneously, the rotating blade 23 and the conveying roller 17 stop rotating, simultaneously, the elastic component 13 drives the inclined rods 123 to mutually approach and rotate, and simultaneously, the two pressing plates 11 mutually approach and contact with the surface of the conveying belt 18;

s3, the gas in the second connecting frame 22 enters the preheating box 4 through the heat conduction gas outlet cylinder 20 to preheat the workpiece in the preheating box 4, and then the cooled gas enters the cooling box 29 through the gas guide tube 26 to realize slow cooling of the workpiece after solidification.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides an intake air temperature pressure sensor processing is with solidification loading attachment, includes bottom sprag box (1), its characterized in that: the upper surface of the bottom supporting box (1) is fixedly connected with the lower surface of the curing furnace body (2), the right side surface of the curing furnace body (2) is fixedly connected with the left side surface of the preheating box (4), the upper surface of the preheating box (4) is connected with a first air pipe (7) in a clamping manner, the bottom end of the first air pipe (7) is communicated with the outer surface of a first connecting frame (8), the upper surface and the lower surface of the first connecting frame (8) are respectively provided with a moving rod (10), the other end of each of the two moving rods (10) is respectively provided with a pressing plate (11), and one end, opposite to each of the two moving rods (10), is provided with a same control assembly (12);

the lower surface of the first connecting frame (8) is communicated with one end of a second air pipe (9), the other end of the second air pipe (9) is communicated with the outer surface of a second connecting frame (22), the second connecting frame (22) is arranged on the inner wall of the preheating box (4), fixing plates (16) are arranged on the inner wall of the preheating box (4) and the inner wall of the curing furnace body (2), the same conveying rollers (17) are arranged on the opposite surfaces of the two corresponding fixing plates (16), the same conveying belts (18) are arranged on the outer surfaces of the conveying rollers (17), rotary blades (23) are arranged on the back surfaces of the rightmost conveying rollers (17), and the back surface of the preheating box (4) is communicated with one end of an air guide pipe (26);

the other end of air duct (26) is linked together with the surface of cooling box (29), the right flank of cooling box (29) and the left flank fixed connection of solidification furnace body (2), the other end of first trachea (7) is provided with exhaust subassembly (24), exhaust subassembly (24) set up the upper surface at backing plate (25), the left flank of backing plate (25) and the right flank fixed connection of solidification furnace body (2), exhaust subassembly (24) set up the right flank at solidification furnace body (2), the back of solidification furnace body (2) is provided with heating element (28).

2. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 1 characterized by: the upper surface and the lower surface of the control component (12) are respectively provided with an elastic component (13), the elastic components (13) are sleeved on the outer surface of the moving rod (10), and the other end of each elastic component (13) is fixedly connected with the inner wall of the first connecting frame (8).

3. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 2 characterized in that: the control assembly (12) comprises two connecting frames (121), wherein the back faces of the connecting frames (121) are respectively fixedly connected with one ends, opposite to the two moving rods (10), of the connecting frames (121) are respectively fixedly connected with one ends, close to the two elastic assemblies (13), of the back faces of the connecting frames (121), the inner walls of the connecting frames (121) are hinged to the outer surface of the inclined rod (123) through pin shafts (122), and the other ends of the inclined rods (123) are hinged to the outer surface of the same vertical plate (124).

4. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 3 characterized by: the position of riser (124) is corresponding with the position of first trachea (7), two the opposite face of clamp plate (11) is respectively with the upper surface and the lower surface overlap joint of conveyer belt (18), the surface and standing groove (15) inner wall overlap joint of clamp plate (11), standing groove (15) are seted up at connecting hole (14) inner wall, the right flank at solidification furnace body (2) is seted up in connecting hole (14), the shape and the position and the size of connecting hole (14) are corresponding with the position and the size of conveyer belt (18) respectively.

5. The solidification feeding device for processing the intake air temperature and pressure sensor according to claim 1, wherein: the inner wall of solidification furnace body (2) joint is in first linking frame (8), the position of second trachea (9) is corresponding with the position of rotating vane (23), the surface of conveyer belt (18) is provided with eight and places frame (19), the right flank of preheating cabinet (4) is provided with sealing door (6).

6. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 1 characterized by: the exhaust assembly (24) is including connecting air pump (241), the right flank of connecting air pump (241) communicates with the left end of first trachea (7), the lower surface of connecting air pump (241) is connected with the upper surface fixed of backing plate (25), the left flank of connecting air pump (241) is linked together with the one end of first intermediate tube (242), the other end of first intermediate tube (242) is linked together with the right flank of rose box (243), the lower surface of rose box (243) is connected with the upper surface fixed of backing plate (25), the upper surface of rose box (243) is linked together with the one end of second intermediate tube (244), the other end of second intermediate tube (244) is linked together with the right flank of solidification furnace body (2).

7. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 1 characterized by: the surface and the fixed cover (27) inner wall fixed connection of air duct (26), the front of fixed cover (27) and the back fixed connection of solidification furnace body (2), the front of solidification furnace body (2) is provided with observation control door (3).

8. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 1 characterized by: the inner wall of the conveyor belt (18) is provided with a heat-conducting air outlet cylinder (20), the heat-conducting air outlet cylinder (20) is arranged on the lower surface of the inner wall of the preheating box (4), the back surface of the heat-conducting air outlet cylinder (20) is communicated with one end of a third air pipe (21), and the other end of the third air pipe (21) is communicated with the outer surface of a second connecting frame (22).

9. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 1 characterized by: the left side of the curing furnace body (2) is provided with a control console (30), the position of the pressing plate (11) corresponds to the position of one of the conveying rollers (17), the pressing plate (11) is set to be rectangular, and the size of the pressing plate (11) corresponds to the size of the conveying belt (18).

10. The inlet air temperature pressure sensor processing is with solidification loading attachment of claim 1 characterized by: the lower surface of the preheating box (4) is fixedly connected with the upper surface of the supporting inclined block (5), and the left side surface of the supporting inclined block (5) is fixedly connected with the right side surface of the curing furnace body (2).

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