CN115281253B - Liquefied gas carding machine based on lower hot air system - Google Patents

Abstract

The utility model provides a liquefied gas reason strip machine based on hot air system down, includes pillar and gasifier, the pillar top is fixed with heating mechanism, heating mechanism includes air guide frame, first outlet duct, kitchen and connecting rod, the air guide frame is inside hollow framework structure, the air guide frame inboard is provided with a plurality of kitchen ranges through connecting rod and first outlet duct separation, kitchen range bottom surface links to each other with the gasifier through first pipe. According to the invention, the air is led into the air guide frame through the fan, the air is led into each first air outlet pipe from the air guide frame, at the moment, the heat emitted by the cooking range can be transmitted to heat the air in the first air outlet pipe through the first air outlet pipe, and then the heated air is discharged through the first air outlet pipe, so that the rising of hot air is promoted, tea leaves positioned at the top of each cooking range gap can be heated, the heating uniformity of the tea leaves is ensured, and the tea leaf carding efficiency and effect are improved.

Description

Liquefied gas carding machine based on lower hot air system

Technical Field

The invention belongs to the technical field of tea processing equipment, and particularly relates to a liquefied gas carding machine based on a lower hot air system.

Background

When processing the tealeaves production of strip, pile up the agglomeration and form the caking for preventing tealeaves to need guarantee the looseness of tealeaves, and still need design after adjusting to the strip to tealeaves, generally will lead into inside reason strip machine with tealeaves, utilize the inside reciprocal structure of rocking of reason strip machine to disperse tealeaves, and utilize a plurality of kitchen ranges to heat tealeaves in tealeaves bottom simultaneously, promote tealeaves heating to expand and form the strip.

However, in order to prevent overheating among a plurality of cooking tops, the prior carding machine needs to be arranged separately among the cooking tops, and when the cooking tops rise to heat tea leaves, the tea leaves at the tops of the separation gaps of the cooking tops cannot be directly heated by the rising hot air, so that uneven heating of the tea leaves is caused, and the carding efficiency and effect of the tea leaves are reduced.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a liquefied gas carding machine based on a lower hot air system, which has the following specific technical scheme:

the utility model provides a liquefied gas reason strip machine based on hot air system down, includes pillar and gasifier, the pillar top is fixed with heating mechanism, heating mechanism includes air guide frame, first outlet duct, kitchen and connecting rod, the air guide frame is inside hollow framework structure, air guide frame inside wall parallel connection has two connecting rods, air guide frame inside wall link up and is connected with first outlet duct, a plurality of gas pockets have been seted up to first outlet duct top surface, first outlet duct parallel arrangement has a plurality ofly, connecting rod and first outlet duct set up perpendicularly, the air guide frame inboard is provided with a plurality of kitchen ranges through connecting rod and first outlet duct separation, kitchen bottom surface links to each other with the gasifier through first pipe;

the top surface of the air guide frame is connected with a carding mechanism, one side of the air guide frame is provided with a motor, the rotating top end of the motor is connected with a cam for driving the carding mechanism to move, and the other side of the air guide frame is connected with a fan in a penetrating way.

Further, reason strip mechanism includes fixed frame, gyro wheel, push rod, slide bar, spring, feed tray and receives the material subassembly, fixed frame slope sets up in the air guide frame top surface, fixed frame inner wall parallel connection has two slide bars, the inside receipts material subassembly that is provided with of fixed frame, receive the material subassembly slip and cup joint in the slide bar outer wall, receive material subassembly one side and be connected with the push rod, push rod and slide bar parallel arrangement, the push rod slip is pegged graft in fixed frame inside, the push rod tip rotates and is connected with the gyro wheel, gyro wheel one side is laminated with the cam lateral wall, the slide bar outer wall has cup jointed the spring, spring coupling is kept away from between push rod one side inner wall and the receipts material subassembly lateral wall in fixed frame, it is equipped with the clearance to receive between material subassembly and be close to slide bar one side and the fixed frame, the bottom surface of fixed frame is provided with the feed tray, the feed tray sets up in the clearance bottom.

Further, receive material subassembly includes fixed column, first side post, reason strip dish and second sideslip post, first side post slides and cup joints in keeping away from the slide bar outer wall of unloading dish, the second sideslip post slides and cup joints in being close to the slide bar outer wall of unloading dish, is connected with two fixed columns and forms the framework perpendicularly between first side post and the second sideslip post, the inside reason strip dish that is provided with of framework, second sideslip post top surface is provided with the recess, recess bottom surface height is less than reason strip dish bottom surface height.

Further, the strip tidying disc comprises a guide groove and a seal, the guide groove is of a U-shaped structure, a plurality of air holes are formed in the circular arc bottom surface of the guide groove, and the guide groove and the seal are sequentially connected with one another at intervals.

Furthermore, the bottom surface of the seal is of a bump structure, the bump is inserted between the two guide grooves, and the top surface of the seal is of a semicircular arc structure.

Further, the strip tidying disc further comprises a fixed block and a second air outlet pipe, the outer wall of the second air outlet pipe is connected with the fixed block, one side of the fixed block is connected to the inner wall of the guide chute, the second air outlet pipe is arranged on the vertical central line of the guide chute, the second air outlet pipe is arranged at intervals with the inner wall of the guide chute, and a plurality of air holes are formed in the bottom surface of the second air outlet pipe;

an inner cavity is formed in the first side sliding column, a second guide pipe communicated with the inner cavity is connected to the bottom surface of the first side sliding column, and the second guide pipe is of an L-shaped structure;

the inner wall of the air guide frame, which is close to one side of the first side sliding column, is provided with a through hole;

one end of the second air outlet pipe is in through connection with the inner cavity, the port of the second guide pipe is attached to the inner side wall of the air guide frame, and the port of the second guide pipe is in through connection with the through hole through sliding of the first sideslip column.

Further, the limiting frame is fixed on the inner side wall of the air guide frame, the through hole is formed in the limiting frame, and the port of the second guide pipe is inserted into the limiting frame in a sliding mode.

Further, the top surface of the carding mechanism is provided with a top cover in a sealing manner, the fan comprises an air inlet and an air outlet, the air inlet of the fan is in through connection with the inside of the top cover, the air outlet of the fan is in through connection with the inside of the air guide frame, and the inside of the top cover is provided with a feed hopper in a through manner.

The beneficial effects of the invention are as follows: when utilizing a plurality of kitchen to heat tealeaves on the reason strip mechanism, inside leading-in air frame of air through the fan, the air is led into each first outlet duct from the air frame, the heat that the kitchen distributes can pass through first outlet duct transmission to the inside air heating of first outlet duct this moment, then the air of heating is discharged through first outlet duct, the steam has been promoted and rising, and can be located the tealeaves at each kitchen clearance top and heat, guaranteed the homogeneity to tealeaves heating, thereby improved reason strip efficiency and the effect to tealeaves.

Drawings

FIG. 1 shows a schematic diagram of the overall structure of a liquefied gas carding machine based on a lower hot air system;

FIG. 2 shows an exploded view of the overall structure of the present invention;

FIG. 3 shows a schematic view of the gasifier and the various burner connections of the present invention;

FIG. 4 shows a schematic view of the cam and roller engagement structure of the present invention;

FIG. 5 shows a schematic structural view of the carding mechanism of the invention;

FIG. 6 shows a schematic view of the connecting structure of the carding disc of the invention;

FIG. 7 is a sectional view showing the connection structure of the air guide frame and the carding mechanism of the present invention;

FIG. 8 shows a schematic view of the second conduit and through-hole of the present invention in an unaccessed state;

FIG. 9 shows a second conduit and through-hole on-state schematic of the present invention;

FIG. 10 shows a cross-sectional view of the attachment structure of the top cover and feed hopper of the present invention;

the figure shows: 1. a gasifier; 11. a first conduit; 2. a support post; 3. a heating mechanism; 31. an air guide frame; 311. a through hole; 312. a limit frame; 32. a first air outlet pipe; 33. a cooking range; 34. a connecting rod; 4. a motor; 5. a strip tidying mechanism; 51. a fixed frame; 52. a roller; 53. a push rod; 54. a slide bar; 55. a spring; 56. a blanking disc; 57. a material receiving assembly; 571. fixing the column; 572. a first side strut; 5721. an inner cavity; 5722. a second conduit; 573. a strip tidying disc; 5731. a guide groove; 5732. a seal; 5733. a fixed block; 5734. a second air outlet pipe; 574. a second sideslip column; 6. a cam; 7. a feed hopper; 8. a top cover; 9. a blower.

Detailed Description

The present invention will be described in further detail with reference to the following examples in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a liquefied gas reason strip machine based on hot air system down, includes pillar 2 and gasifier 1, pillar 2 top is fixed with heating mechanism 3, heating mechanism 3 includes air guide frame 31, first outlet duct 32, kitchen range 33 and connecting rod 34, air guide frame 31 is inside hollow frame structure, air guide frame 31 inside wall parallel connection has two connecting rods 34, air guide frame 31 inside wall through connection has first outlet duct 32, a plurality of gas pockets have been seted up to first outlet duct 32 top surface, first outlet duct 32 parallel arrangement has a plurality of, connecting rod 34 and first outlet duct 32 set up perpendicularly, air guide frame 31 inboard is provided with a plurality of kitchen ranges 33 through connecting rod 34 and first outlet duct 32 separation, the kitchen range 33 bottom surface links to each other with gasifier 1 through first pipe 11;

the top surface of the air guide frame 31 is connected with a carding mechanism 5, one side of the air guide frame 31 is provided with a motor 4, the rotating top end of the motor 4 is connected with a cam 6 for driving the carding mechanism 5 to move, and the other side of the air guide frame 31 is connected with a fan 9 in a penetrating way;

when the tea leaves on the strip tidying mechanism 5 are heated by the plurality of cooking heads 33, air is led into the air guide frame 31 through the fan 9, the air is led into each first air outlet pipe 32 from the air guide frame 31, at the moment, the heat emitted by the cooking heads 33 can be transferred to heat the air inside the first air outlet pipes 32 through the first air outlet pipes 32, then the heated air is discharged through the first air outlet pipes 32, so that hot air is promoted to rise, the tea leaves at the top of the gaps of each cooking head 33 can be heated, the uniformity of heating the tea leaves is guaranteed, and the strip tidying efficiency and effect of the tea leaves are improved.

As shown in fig. 2, fig. 4 and fig. 5, the carding mechanism 5 comprises a fixed frame 51, a roller 52, a push rod 53, a slide bar 54, a spring 55, a blanking disc 56 and a receiving component 57, wherein the fixed frame 51 is obliquely arranged on the top surface of the air guide frame 31, two slide bars 54 are connected in parallel with the inner wall of the fixed frame 51, the receiving component 57 is arranged in the fixed frame 51, the receiving component 57 is in sliding sleeve connection with the outer wall of the slide bar 54, one side of the receiving component 57 is connected with the push rod 53, the push rod 53 is arranged in parallel with the slide bar 54, the push rod 53 is in sliding insertion connection with the inside of the fixed frame 51, the end part of the push rod 53 is rotationally connected with the roller 52, one side of the roller 52 is attached to the side wall of the cam 6, the outer wall of the slide bar 54 is in sleeve connection with the spring 55, the spring 55 is connected between the inner wall of one side of the fixed frame 51, which is far away from the push rod 53, and the side of the receiving component 57, a gap is arranged between one side of the receiving component 57, the bottom of the fixed frame 51 is provided with the blanking disc 56, and the blanking disc 56 is arranged at the bottom of the gap.

The push rod 53 is driven to move in the fixed frame 51 through the rotating cam 6, the material receiving component 57 is pushed to slide on the slide rod 54, the material receiving component 57 is matched with the spring 55 to reciprocate, tea leaves are conveyed and tidied, and finally the tea leaves are guided out through the blanking disc 56.

The material receiving assembly 57 comprises a fixing column 571, a first sideslip column 572, a strip tidying disc 573 and a second sideslip column 574, wherein the first sideslip column 572 is in sliding sleeve connection with the outer wall of the sliding rod 54 far away from the blanking disc 56, the second sideslip column 574 is in sliding sleeve connection with the outer wall of the sliding rod 54 close to the blanking disc 56, two fixing columns 571 are vertically connected between the first sideslip column 572 and the second sideslip column 574 to form a frame, the strip tidying disc 573 is arranged in the frame, the top surface of the second sideslip column 574 is provided with a groove, and the bottom surface height of the groove is lower than the bottom surface height of the strip tidying disc 573;

the formed frame body drives the carding disc 573 to reciprocate in the horizontal direction, and after the tea carding disc 573 is utilized to spread tea carding, the tea carding is guided out into the blanking disc 56 through the groove of the second sideslip column 574, so that the tea carding machine is convenient to discharge.

As shown in fig. 6, the carding disc 573 includes a guide groove 5731 and a seal 5732, the guide groove 5731 has a U-shaped structure, a plurality of air holes are formed in the circular bottom surface of the guide groove 5731, and the guide groove 5731 and the seal 5732 are sequentially connected with a plurality of air holes at intervals;

through adopting the baffle box 5731 of a plurality of U font to heat and rock the tealeaves that gets into simultaneously, the upset of tealeaves of being convenient for to increased the heating area to tealeaves, thereby improved the effect to tealeaves reason strip of rocking.

The bottom surface of the seal 5732 is of a bump structure, the bump is inserted between the two guide grooves 5731, and the top surface of the seal 5732 is of a semicircular arc structure; the lug that strip of paper used for sealing 5732 adopted is connected between two baffle boxes 5731, has increased connection structure intensity to adopt semi-circular arc top surface to be convenient for tealeaves landing to baffle box 5731 inside.

As shown in fig. 7, 8 and 9, the strip tidying tray 573 further includes a fixing block 5733 and a second air outlet pipe 5734, the outer wall of the second air outlet pipe 5734 is connected with the fixing block 5733, one side of the fixing block 5733 is connected to the inner wall of the guide groove 5731, the second air outlet pipe 5734 is disposed on the vertical central line of the guide groove 5731, the second air outlet pipe 5734 is disposed at an interval with the inner wall of the guide groove 5731, and a plurality of air holes are formed in the bottom surface of the second air outlet pipe 5734;

an inner cavity 5721 is formed in the first sideslip column 572, a second conduit 5722 communicated with the inner cavity 5721 is connected to the bottom surface of the first sideslip column 572, and the second conduit 5722 has an L-shaped structure;

the inner wall of the air guide frame 31, which is close to one side of the first side sliding column 572, is provided with a through hole 311;

one end of the second air outlet pipe 5734 is connected with the inner cavity 5721 in a penetrating way, the port of the second guide pipe 5722 is attached to the inner side wall of the air guide frame 31, and the port of the second guide pipe 5722 is connected with the through hole 311 in a penetrating way through the sliding of the first side sliding column 572;

the first side sliding column 572 is pushed to slide so that tea leaves in the guide groove 5731 shake and heat, meanwhile, the second guide pipe 5722 is repeatedly in butt joint with the through holes 311 of the air guide frame 31, hot air in the air guide frame 31 is led into each second air outlet pipe 5734 through the second guide pipe 5722 and the inner cavity 5721 of the first side sliding column 572, and the hot air is led out into the guide groove 5731 from air holes in the bottom surface of the second air outlet pipe 5734, so that tea leaves on the upper layer of the guide groove 5731 can be heated, and the heating uniformity of the tea leaves is further improved;

at the moment of moving the second guide pipe 5722 to be in butt joint with the through hole 311 of the air guide frame 31, hot air is instantaneously guided out from the air holes on the bottom surface of the second guide pipe 5722, and can impact the tea stacked in the guide groove 5731, so that the tea is promoted to be dispersed, and the tea is promoted to be stretched.

The inner side wall of the air guide frame 31 is fixed with a limit frame 312, the through hole 311 is arranged in the limit frame 312, and the port of the second conduit 5722 is inserted in the limit frame 312 in a sliding manner;

the limiting frame 312 is utilized to limit the sliding of the second guide tube 5722, so that the butt joint guidance of the second guide tube 5722 and the through hole 311 is improved, and the butt joint position of the second guide tube 5722 and the through hole 311 is sealed.

As shown in fig. 2 and 10, the top surface of the strip tidying mechanism 5 is provided with a top cover 8 in a sealing manner, the fan 9 comprises an air inlet and an air outlet, the air inlet of the fan 9 is in through connection with the inside of the top cover 8, the air outlet of the fan 9 is in through connection with the inside of the air guide frame 31, and the inside of the top cover 8 is provided with a feed hopper 7 in a penetrating manner;

after heating tealeaves on reason strip mechanism 5, hot-blast rising to the inside of top cap 8 that continues, reuse fan 9 will heat-seal to draw back to the air guide frame 31 inside this moment to the steam that produces is recycled, has improved the thermal utilization ratio that produces tealeaves heating.

In the practice of the present invention,

firstly, according to fig. 1-5, the gasifier 1 is opened, liquefied gas is led into each cooking range 33 through a first conduit 11, the cooking range 33 is ignited and opened, heat generated by the cooking range 33 heats a first air outlet pipe 32, then tea leaves are led into a top cover 8 through a feed hopper 7, the tea leaves fall on a carding disc 573 and are close to a first side sliding column 572, a motor 4 is started to drive a cam 6 to rotate, the cam 6 pushes a roller 52 in the rotating process, a push rod 53 slides in a fixed frame 51, the push rod 53 pushes a fixed column 571 to enable the first side sliding column 572 and a second side sliding column 574 to slide on two sliding rods 54 respectively, springs 55 are compressed, and the compressed springs 55 push the first side sliding column 572 and the second side sliding column 574 to return to do reciprocating motion along with the continued rotation of the cam 6, so that the carding disc 573 can do reciprocating shaking of the tea leaves in the horizontal direction;

the fan 9 is started to guide air into the air guide frame 31 and disperse and guide the air into each first air outlet pipe 32, after the heat is conducted through the first air outlet pipes 32, the heated hot air is discharged upwards from air holes on the top surfaces of the first air outlet pipes 32 and drives the hot air heated by each cooking range 33 to rise, tea leaves on the tea leaf tidying tray 573 are heated, and meanwhile, under the inclined arrangement of the fixed frame 51, when the tea leaves on the tea leaf tidying tray 573 shake in a reciprocating mode and are heated and unfolded for shaping, the tea leaves move towards the second sideslip column 574, fall on the blanking tray 56 through grooves on the second sideslip column 574, and the tea leaf tidying shaping is completed;

the hot air after heating the tea leaves continuously rises to the inside of the top cover 8, and is pumped into the air guide frame 31 under the action of the fan 9, so that the air is not required to be heated again, and the recycling of the hot air is realized;

according to fig. 5 and 6, when the tea leaves just fall on the carding disc 573, the tea leaves slide downwards into the U-shaped guide grooves 5731 through the semicircular top surfaces of the seals 5732, the guide grooves 5731 reciprocate along the axial direction of the sliding rods 54 along with the fixed columns 571, so that the circular arc bottom surfaces of the tea leaves in the guide grooves 5731 reciprocate along with the guide grooves 5731, when the reciprocation is converted, the tea leaves are reciprocated and swayed, the inertia of the movement of the tea leaves is utilized to enable the tea leaves to overturn in the guide grooves 5731, meanwhile, hot air generated by the bottom cooking stove 33 and hot air guided out by the first air outlet pipes 32 pass through air holes in the bottom surfaces of the guide grooves 5731 to heat the tea leaves in the guide grooves 5731 uniformly, and the carding effect of the tea leaves is ensured;

then according to fig. 6-9, when the first side sliding column 572 is pushed to reciprocate on the sliding rod 54, the first side sliding column 572 drives the second guide tube 5722 to move, so that the second guide tube 5722 is attached to the inner side wall of the air guide frame 31 and slides along the limit frame 312, when the second guide tube slides to be in butt joint with the through hole 311, hot air in the air guide frame 31 passes through the second guide tube 5722 and the inner cavity 5721 of the first side sliding column 572, and then is redispersed into the second air outlet tube 5734 in each guide groove 5731, and the hot air is led out through air holes in the bottom surface of the second air outlet tube 5734, so that the upper part of tea can be heated, and the heating uniformity of the tea is further improved;

and at the moment when the second guide pipe 5722 is communicated with the air guide frame 31, the hot air led out by the second air outlet pipe 5734 has impact force, and the second guide pipe 5722 is close to the larger led out of the first sideslip column 572, so that tea leaves just led into the guide groove 5731 can be blown, the dispersion of the tea leaves is promoted, and the dispersion, the expansion and the shaping of the tea leaves are facilitated.

The foregoing description of the preferred embodiment of the invention is not intended to limit the invention to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (4)

1. Liquefied gas carding machine based on hot air system down, its characterized in that: the gas guide frame is characterized by comprising a support column (2) and a gasifier (1), wherein a heating mechanism (3) is fixed at the top end of the support column (2), the heating mechanism (3) comprises a gas guide frame (31), a first gas outlet pipe (32), a cooking stove (33) and a connecting rod (34), the gas guide frame (31) is of a hollow frame structure, two connecting rods (34) are connected in parallel to the inner side wall of the gas guide frame (31), the first gas outlet pipe (32) is connected in a penetrating manner to the inner side wall of the gas guide frame (31), a plurality of gas holes are formed in the top surface of the first gas outlet pipe (32), a plurality of gas outlets are formed in the first gas outlet pipe (32) in parallel, the connecting rod (34) and the first gas outlet pipe (32) are vertically arranged, a plurality of cooking stoves (33) are separated from the inner side of the gas guide frame (31) through the connecting rod (34) and the first gas outlet pipe (32), and the bottom surface of the cooking stove (33) is connected with the gasifier (1) through a first guide pipe (11).

The top surface of the air guide frame (31) is connected with a carding mechanism (5), one side of the air guide frame (31) is provided with a motor (4), the rotating top end of the motor (4) is connected with a cam (6) for driving the carding mechanism (5) to move, and the other side of the air guide frame (31) is connected with a fan (9) in a penetrating way;

the strip tidying mechanism (5) comprises a fixed frame (51), idler wheels (52), push rods (53), sliding rods (54), springs (55), a blanking disc (56) and a receiving component (57), wherein the fixed frame (51) is obliquely arranged on the top surface of the air guide frame (31), two sliding rods (54) are connected with the inner wall of the fixed frame (51) in parallel, the receiving component (57) is arranged inside the fixed frame (51), the receiving component (57) is sleeved on the outer wall of the sliding rods (54) in a sliding manner, one side of the receiving component (57) is connected with the push rods (53), the push rods (53) are arranged in the fixed frame (51) in parallel, the end parts of the push rods (53) are rotationally connected with the idler wheels (52), one side of each idler wheel (52) is attached to the side wall of each cam (6), the outer wall of each sliding rod (54) is sleeved with the springs (55), the springs (55) are connected between the inner wall of one side of the fixed frame (51) far away from the push rods (53) and the side wall of the receiving component (57), one side of the receiving component (57) is connected with the push rods (53), one side of the push rods (53) is close to the fixed disc (56) is arranged on the bottom surface (51), the blanking disc (56) is arranged at the bottom of the gap;

the material collecting assembly (57) comprises a fixing column (571), a first side sliding column (572), a strip tidying disc (573) and a second side sliding column (574), wherein the first side sliding column (572) is in sliding sleeve connection with the outer wall of a sliding rod (54) far away from the blanking disc (56), the second side sliding column (574) is in sliding sleeve connection with the outer wall of the sliding rod (54) close to the blanking disc (56), two fixing columns (571) are vertically connected between the first side sliding column (572) and the second side sliding column (574) and form a frame, the strip tidying disc (573) is arranged in the frame, the top surface of the second side sliding column (574) is provided with a groove, and the bottom surface height of the groove is lower than that of the strip tidying disc (573);

the strip tidying disc (573) comprises a guide groove (5731) and a seal (5732), the guide groove (5731) is of a U-shaped structure, a plurality of air holes are formed in the circular arc bottom surface of the guide groove (5731), and the guide groove (5731) and the seal (5732) are sequentially connected at intervals;

the strip tidying disc (573) further comprises a fixed block (5733) and a second air outlet pipe (5734), the fixed block (5733) is connected to the outer wall of the second air outlet pipe (5734), one side of the fixed block (5733) is connected to the inner wall of the guide groove (5731), the second air outlet pipe (5734) is arranged on the vertical central line of the guide groove (5731), the second air outlet pipe (5734) and the inner wall of the guide groove (5731) are arranged at intervals, and a plurality of air holes are formed in the bottom surface of the second air outlet pipe (5734);

an inner cavity (5721) is formed in the first sideslip column (572), a second conduit (5722) communicated with the inner cavity (5721) is connected to the bottom surface of the first sideslip column (572), and the second conduit (5722) is of an L-shaped structure;

the inner wall of the air guide frame (31) close to one side of the first side sliding column (572) is provided with a through hole (311);

one end of the second air outlet pipe (5734) is in through connection with the inner cavity (5721), the port of the second guide pipe (5722) is attached to the inner side wall of the air guide frame (31), and the port of the second guide pipe (5722) is in through connection with the through hole (311) through sliding of the first side sliding column (572).

2. The liquefied gas carding machine based on a lower hot air system as claimed in claim 1, wherein: the bottom surface of the seal (5732) is of a bump structure, the bump is inserted between the two guide grooves (5731), and the top surface of the seal (5732) is of a semicircular arc structure.

3. The liquefied gas carding machine based on a lower hot air system as claimed in claim 2, wherein: the inner side wall of the air guide frame (31) is fixedly provided with a limiting frame (312), the through hole (311) is arranged inside the limiting frame (312), and the port of the second conduit (5722) is inserted inside the limiting frame (312) in a sliding manner.

4. A liquefied gas carding machine based on a lower hot air system according to claim 3, characterized in that: the top surface of the carding mechanism (5) is provided with a top cover (8) in a sealing manner, the fan (9) comprises an air inlet and an air outlet, the air inlet of the fan (9) is in through connection with the inside of the top cover (8), the air outlet of the fan (9) is in through connection with the inside of the air guide frame (31), and the inside of the top cover (8) is provided with a feed hopper (7) in a penetrating manner.