CN113599916A

CN113599916A - Natural gas-solid separation equipment with heat dissipation and slag discharge functions

Info

Publication number: CN113599916A
Application number: CN202110920254.5A
Authority: CN
Inventors: 王琪
Original assignee: Individual
Current assignee: Wang Liang
Priority date: 2021-08-11
Filing date: 2021-08-11
Publication date: 2021-11-05
Anticipated expiration: 2041-08-11
Also published as: CN113599916B

Abstract

The invention relates to natural gas-solid separation equipment, in particular to natural gas-solid separation equipment with a heat dissipation and slag removal function, which comprises a base, a gas pipe, a filter cylinder, a conveying pipe, a rotary screening component and the like; fixedly connected with gas-supply pipe on the base, gas-supply pipe one end hookup has the cartridge filter, and the conveyer pipe rigid coupling is on the base, and conveyer pipe one end and cartridge filter hookup are provided with the rotary screen in the gas-supply pipe and remove the subassembly. The power fan wheel and the device on the power fan wheel are pushed to rotate through the air flow, so that the equipment operates, the screening cone blocks solid impurities in the natural gas, and the screening cone rotates fast to push the solid impurities to the inner wall of the filter cylinder, so that the solid impurities slide to the bottom in the filter cylinder, and the purpose of gas-solid separation of the natural gas is achieved.

Description

Natural gas-solid separation equipment with heat dissipation and slag discharge functions

Technical Field

The invention relates to natural gas-solid separation equipment, in particular to natural gas-solid separation equipment with a heat dissipation and deslagging function.

Background

The natural gas filtering separator is a three-stage filtering device for carrying out rough filtering, semi-fine filtering and fine filtering on natural gas by the mechanisms of centrifugal separation, silk screen mist trapping and coagulation interception, is a high-efficiency purifying device for removing solid impurities and liquid impurities in gas, and the conventional one-stage rough filtering device is a device for separating a gas-solid system or a solid-liquid system.

Current one-level coarse filtration equipment is in the use, because can produce the friction between impurity and the equipment, can lead to the inside high temperature that forms of equipment for a long time, and high temperature can increase natural gas explosion risk, and the security is lower, and the back that finishes of separation needs to be taken out the impurity of separating from the separator, needs to close the separator earlier, and the transportation of suspension natural gas influences the supply of follow-up natural gas.

Disclosure of Invention

The invention aims to provide natural gas-solid separation equipment with a heat dissipation and deslagging function, which can separate natural gas from gas, can realize the purpose of conveying the natural gas when cleaning solid impurities, can cool the inner wall of a pipeline and can reduce the explosion risk of the natural gas, and overcomes the defects that the existing device is low in safety and influences the supply of subsequent natural gas when cleaning impurities.

The technical scheme of the invention is as follows: the utility model provides a natural gas-solid splitter with sediment function is arranged in heat dissipation, the gas-supply pipe, the cartridge filter, the conveyer pipe, the rotary screen removes the subassembly, coolant liquid radiator unit, the pipeline subassembly that opens and shuts, stroke increase subassembly and scarfing cinder subassembly, fixedly connected with gas-supply pipe on the base, gas-supply pipe one end hookup has the cartridge filter, the conveyer pipe rigid coupling is on the base, conveyer pipe one end and cartridge filter hookup, be provided with the rotary screen in the gas-supply pipe and remove the subassembly, the rotary screen removes the subassembly and is located the cartridge filter, coolant liquid radiator unit sets up on the cartridge filter, all be equipped with the pipeline subassembly that opens and shuts on gas-supply pipe and the conveyer pipe, stroke increase subassembly is located on the pipeline subassembly that opens and shuts, scarfing cinder subassembly sets up on stroke increase subassembly.

Further, the rotary screen removes the subassembly including the backup pad, the rotary rod, the power fan wheel, rotate the circle frame, fixed ring gear, the mounting panel, the screening bull stick, the transfer line, drive gear and screening centrum, the backup pad has been welded in the gas-supply pipe, the rotation is connected with the rotary rod in the backup pad, the welding has the power fan wheel on the rotary rod, the rigid coupling has the rotation circle frame on the rotary rod, be provided with fixed ring gear on the rotation circle frame, cartridge filter inner wall fixed mounting has the mounting panel, the rotation is connected with the screening bull stick on the mounting panel, the same rotary type of transfer line is connected on the mounting panel, the rigid coupling has drive gear on the screening bull stick, same rigid coupling has drive gear on the transfer line, two drive gear intermeshing, one of them drive gear meshes with fixed ring gear, be provided with three screening centrums on the screening bull stick.

Further, coolant liquid radiator unit is including the transmission shaft, little bevel gear, big bevel gear, the bevel gear ring, coolant liquid shell and coolant liquid push pedal, the transmission shaft rotary type is connected on the cartridge filter, the rigid coupling has little bevel gear on the rotary rod, the same rigid coupling has little bevel gear on the transmission shaft, two little bevel gears agree with each other, big bevel gear welds on the transmission shaft, the rotation type is connected with the bevel gear ring on the cartridge filter, bevel gear ring agrees with each other with big bevel gear, be provided with the coolant liquid shell on the cartridge filter, the rigid coupling has the coolant liquid push pedal on the bevel gear ring, the coolant liquid push pedal is connected with the coolant liquid shell rotary type.

Further, the pipeline subassembly that opens and shuts is including the arc dish, the arc connecting pipe, the layer board, electric putter, the power rack, open-close plate and the gear that opens and shuts, the arc dish sets up on the gas-supply pipe, be provided with the arc dish on the conveyer pipe equally, the common welding has the arc connecting pipe on two arc dishes, the rigid coupling has the layer board on one of them arc dish, fixed mounting has electric putter on the layer board, the welding of electric putter telescopic shaft one end has the power rack, the rotation type is connected with open-close plate on the arc dish, open-close plate and arc connecting pipe contact, one of them open-close plate and gas-supply pipe contact, another open-close plate and conveyer pipe mutual contact, fixed mounting has the gear that opens and shuts on the open-close plate, the gear that opens and shuts agrees with each other with the power rack.

Further, the stroke increase subassembly is including fixed rack, the L shaped plate, the rotation axis, the pinion, the gear wheel, first guide bar, second guide bar and removal rack, the welding of power rack one end has fixed rack, the rigid coupling has the L shaped plate on another department's arc dish, the last rotation type of L shaped plate is connected with the rotation axis, be provided with the pinion on the rotation axis, pinion and fixed rack intermeshing, the gear wheel sets up on the rotation axis equally, fixed mounting has first guide bar on the L shaped plate, the rigid coupling has the second guide bar on the arc dish of same department, common slidingtype connection has the removal rack on first guide bar and the second guide bar, remove rack and gear wheel meshing.

Furthermore, the slag removal assembly comprises an L-shaped connecting frame and a slag removal pull rod, the L-shaped connecting frame is welded at the bottom of the movable rack, the slag removal pull rod is welded at one end of the L-shaped connecting frame, and the slag removal pull rod is in limit connection with the filter cartridge.

Furthermore, the device also comprises a closing valve, the conveying pipe is internally and rotatably connected with the closing valve, and the air conveying pipe is also and rotatably connected with the closing valve.

The invention has the beneficial effects that:

the power fan wheel and the device on the power fan wheel are pushed to rotate through the air flow, so that the equipment operates, the screening cone blocks solid impurities in the natural gas, and the screening cone rotates fast to push the solid impurities to the inner wall of the filter cylinder, so that the solid impurities slide to the bottom in the filter cylinder, and the purpose of gas-solid separation of the natural gas is achieved.

Rotate the coolant liquid of storing between cartridge filter and the coolant liquid shell through the coolant liquid push pedal and mix, the coolant liquid cools off the cartridge filter, and the natural gas is carried to the conveyer pipe in succession, avoids a large amount of solid impurity and strains a section of thick bamboo inner wall friction and cause the cartridge filter inner wall to produce high temperature, reduces the natural gas explosion risk.

The solid impurities at the bottom in the filter cartridge are taken out through the slag removal pull rod towards the direction of keeping away from the supporting plate, the separated solid impurities are removed, the solid impurities at the bottom in the filter cartridge are prevented from being accumulated too much, and meanwhile, natural gas in the gas pipe can be conveyed into the conveying pipe through the arc-shaped connecting pipe, so that the purpose of conveying the natural gas when the solid impurities are cleaned is realized.

Drawings

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

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

Fig. 3 is a schematic view of the present invention in a partially cut-away perspective structure.

Fig. 4 is an enlarged schematic view of the structure of the present invention a.

FIG. 5 is a schematic perspective view of a portion of the rotary sifting assembly of the present invention.

Fig. 6 is a schematic partial sectional perspective view of the cooling liquid heat dissipation assembly of the present invention.

Fig. 7 is a partial perspective view of the pipe opening and closing assembly according to the present invention.

Fig. 8 is a schematic view of a partially cut-away perspective structure of the pipe opening and closing assembly of the present invention.

Fig. 9 is a perspective view of the stroke increasing assembly of the present invention.

FIG. 10 is a schematic sectional perspective view of the slag removal assembly of the present invention.

Reference numerals: 1_ base, 2_ gas pipe, 21_ filter cartridge, 3_ delivery pipe, 4_ rotary screening component, 41_ support plate, 42_ rotary rod, 43_ power fan wheel, 44_ rotary round rack, 45_ fixed gear ring, 46_ mounting plate, 47_ screening rotary rod, 48_ transmission rod, 49_ transmission gear, 410_ screening cone, 5_ coolant heat dissipation component, 51_ transmission shaft, 52_ small bevel gear, 53_ large bevel gear, 54_ bevel gear ring, 55_ coolant housing, 56_ coolant push plate, 6_ pipe opening and closing component, 61_ arc disk, 62_ arc connection pipe, 63_ support plate, 64_ electric push rod, 65_ power rack, 66_ opening plate, 67_ opening and closing gear, 7_ stroke increasing component, 71_ fixed rack, 72_ L-shaped plate, 73_ rotary shaft, 74_ small gear, 75_ large gear, 76_ first guide rod, 77_ second guide rod, 78_ moving rack, 8_ slag removal assembly, 81_ L-shaped connecting frame, 82_ slag removal pull rod, 9_ closing valve.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

The embodiment is a natural gas-solid separation device with heat dissipation and slag discharge functions, as shown in fig. 1-10, comprising a base 1, a gas pipe 2, a filter cartridge 21, a conveying pipe 3, a rotary screening component 4, a cooling liquid heat dissipation component 5, a pipe opening and closing component 6, a stroke increasing component 7 and a slag removal component 8, wherein the gas pipe 2 for conveying natural gas is fixedly connected to the base 1, one end of the gas pipe 2 is connected with the filter cartridge 21, the conveying pipe 3 for conveying natural gas is fixedly connected to the base 1, one end of the conveying pipe 3 is connected with the filter cartridge 21 far away from the gas pipe 2, the gas pipe 2 is internally provided with the rotary screening component 4 for separating natural gas, the rotary screening component 4 is positioned in the filter cartridge 21, the cooling liquid heat dissipation component 5 for cooling the filter cartridge 21 is arranged on the filter cartridge 21, the gas pipe 2 and the conveying pipe 3 are both provided with the pipe opening and closing component 6, the stroke increasing assembly 7 is arranged on the pipeline opening and closing assembly 6, and the slag removal assembly 8 for removing solid impurities at the bottom in the filter cylinder 21 is arranged on the stroke increasing assembly 7.

The rotary screen removing component 4 comprises a support plate 41, a rotating rod 42, a power fan wheel 43, a rotating round rack 44, a fixed gear ring 45, a mounting plate 46, a screening rotating rod 47, a transmission rod 48, a transmission gear 49 and a screening cone 410, wherein the support plate 41 is welded in the gas transmission pipe 2, the rotating rod 42 is rotatably connected on the support plate 41, the power fan wheel 43 for transmitting power is welded on the rotating rod 42 close to the support plate 41, the rotating round rack 44 is fixedly connected on the rotating rod 42 far away from the support plate 41, the fixed gear ring 45 is arranged on the rotating round rack 44, the mounting plate 46 is fixedly arranged on the inner wall of the filter cartridge 21, the screening rotating rod 47 is rotatably connected on the mounting plate 46, the transmission rod 48 is also rotatably connected on the mounting plate 46, the transmission gear 49 is fixedly connected on the screening rotating rod 47, the transmission gear 49 is also fixedly connected on the transmission rod 48, the two transmission gears 49 are mutually meshed, wherein the transmission gear 49 is meshed with the fixed gear ring 45, the screening rotating rod 47 is provided with three screening cones 410, and the screening cones 410 are used for blocking solid impurities in the natural gas.

The cooling liquid heat dissipation assembly 5 comprises a transmission shaft 51, a small bevel gear 52, a large bevel gear 53, a bevel gear ring 54, a cooling liquid shell 55 and a cooling liquid push plate 56, wherein the transmission shaft 51 is rotatably connected to the filter cylinder 21, the small bevel gear 52 is fixedly connected to a rotating rod 42 close to the rotating circular frame 44, the small bevel gear 52 is fixedly connected to the transmission shaft 51, the two small bevel gears 52 are mutually engaged, the large bevel gear 53 is welded to the transmission shaft 51 far away from the small bevel gear 52, the filter cylinder 21 is rotatably connected with the bevel gear ring 54, the bevel gear ring 54 is mutually engaged with the large bevel gear 53, the filter cylinder 21 is provided with the cooling liquid shell 55, the bevel gear ring 54 is fixedly connected with the cooling liquid push plate 56, the cooling liquid push plate 56 is rotatably connected with the cooling liquid shell 55, and the cooling liquid push plate 56 is used for stirring the cooling liquid stored between the filter cylinder 21 and the cooling liquid shell 55.

The pipeline opening and closing assembly 6 comprises an arc-shaped disc 61, an arc-shaped connecting pipe 62, a supporting plate 63, an electric push rod 64, a power rack 65, an opening plate 66 and an opening and closing gear 67, wherein the arc-shaped disc 61 is arranged on the gas transmission pipe 2, the arc-shaped disc 61 is also arranged on the delivery pipe 3, the arc-shaped connecting pipe 62 is welded on the two arc-shaped discs 61 together, wherein, a supporting plate 63 is fixedly connected on one arc-shaped disc 61, an electric push rod 64 is fixedly arranged on the supporting plate 63, a power rack 65 is welded at one end of a telescopic shaft of the electric push rod 64, an opening plate 66 is rotatably connected on the arc-shaped disc 61, the opening plate 66 is contacted with the arc-shaped connecting pipe 62, one of the open close plates 66 is contacted with the air pipe 2, the other open close plate 66 is contacted with the conveying pipe 3, the open close plate 66 is used for blocking the air pipe 2 and the conveying pipe 3, an open close gear 67 is fixedly arranged on the open close plate 66, and the open close gear 67 is matched with the power rack 65.

The stroke increasing assembly 7 comprises a fixed rack 71, an L-shaped plate 72, a rotating shaft 73, a pinion 74, a gearwheel 75, a first guide rod 76, a second guide rod 77 and a moving rack 78, wherein the fixed rack 71 is welded at one end of a power rack 65 far away from the electric push rod 64, the L-shaped plate 72 is fixedly connected to the other arc-shaped plate 61, the rotating shaft 73 is rotatably connected to the L-shaped plate 72, the pinion 74 is arranged on the rotating shaft 73 close to the L-shaped plate 72, the pinion 74 and the fixed rack 71 are meshed with each other, the gearwheel 75 is arranged on the rotating shaft 73 far away from the L-shaped plate 72, the first guide rod 76 is fixedly installed on the L-shaped plate 72, the second guide rod 77 is fixedly connected to the arc-shaped plate 61, the moving rack 78 is jointly slidably connected to the first guide rod 76 and the second guide rod 77, and the moving rack 78 is meshed with the gearwheel 75.

The slag removal component 8 comprises an L-shaped connecting frame 81 and a slag removal pull rod 82, the L-shaped connecting frame 81 is welded at the bottom of the movable rack 78, the slag removal pull rod 82 is welded at one end, far away from the L-shaped connecting frame 81 of the movable rack 78, of the L-shaped connecting frame 81, the slag removal pull rod 82 is used for taking out solid impurities at the bottom in the filter cylinder 21, and the slag removal pull rod 82 is in limit connection with the filter cylinder 21.

Still including closed valve 9, the internal rotation formula of conveyer pipe 3 is connected with closed valve 9, and the same rotary type is connected with closed valve 9 in the gas-supply pipe 2, and closed valve 9 is used for closing gas-supply pipe 2 and conveyer pipe 3.

The transportation pipeline links to each other with gas-supply pipe 2 and conveyer pipe 3 respectively, when this equipment normally operates, the transportation pipeline carries the natural gas to in the gas-supply pipe 2, because the open-close board 66 blocks the gas-supply pipe 2, the natural gas in the gas-supply pipe 2 can be carried to the cartridge filter 21 in, the air current can promote power fan wheel 43 and the device rotation on it, thereby fixed ring gear 45 drives two drive gear 49 and rotates fast, and then drive gear 49 drives screening bull stick 47 and screening centrum 410 and rotates fast, screening centrum 410 blocks the solid impurity in the natural gas, screening centrum 410 rotates fast and pushes away solid impurity to the cartridge filter 21 inner wall, solid impurity can be along the landing of cartridge filter 21 inner wall to the bottom in the cartridge filter 21, the natural gas is carried to in the conveyer pipe 3 thereupon. A large amount of solid impurities are pushed to the inner wall of the filter cylinder 21 to generate friction, the inner wall of the filter cylinder 21 is easily caused to generate high temperature, the power fan wheel 43 and the upper device thereof rotate, the small bevel gear 52 can drive the transmission shaft 51 and the large bevel gear 53 to rotate, the large bevel gear 53 drives the bevel gear ring 54 and the upper device thereof to rotate, the cooling liquid push plate 56 rotates to stir the cooling liquid stored between the filter cylinder 21 and the cooling liquid shell 55, and the cooling liquid cools the filter cylinder 21.

When the solid impurities at the bottom in the filter cylinder 21 are accumulated to a certain amount, the separated solid impurities need to be removed, a worker manually rotates the two close valves 9 to prevent the natural gas in the gas pipe 2 from entering the filter cylinder 21, the filter cylinder 21 is not communicated with the conveying pipe 3, then the electric push rod 64 is controlled to extend, the electric push rod 64 extends to drive the power rack 65 and the fixed rack 71 to move in the direction away from the supporting plate 63, the power rack 65 drives the opening and closing gear 67 and the opening and closing plate 66 to rotate, the opening and closing plate 66 does not block the gas pipe 2 and the conveying pipe 3 any more, so that the gas pipe 2, the arc-shaped connecting pipe 62 and the conveying pipe 3 are communicated, the natural gas in the gas pipe 2 is conveyed into the conveying pipe 3 through the arc-shaped connecting pipe 62, meanwhile, the fixed rack 71 drives the pinion gear 74 and the bull gear 75 to rotate, the bull gear 75 drives the moving rack 78 and the device on the bull gear 75 to move in the direction away from the supporting plate 63, the slag removal pull rod 82 carries out solid impurities at the bottom in the filter cylinder 21.

When solid impurities in the filter cartridge 21 are cleaned up, a worker controls the electric push rod 64 to contract, the electric push rod 64 contracts to drive the power rack 65 and the fixed rack 71 to move towards the direction close to the supporting plate 63, the power rack 65 drives the opening and closing gear 67 and the opening and closing plate 66 to rotate, the opening and closing plate 66 blocks the gas pipe 2 and the conveying pipe 3, the fixed rack 71 drives the small gear 74 and the large gear 75 to rotate, and the large gear 75 drives the movable rack 78 and the device on the movable rack to move towards the direction close to the supporting plate 63 to reset. Finally the operator turns the two closing valves 9 so that the natural gas enters the delivery pipe 3 through the filter cartridge 21.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a natural gas-solid splitter with sediment function is arranged in heat dissipation which characterized in that: including the base, the gas-supply pipe, the cartridge filter, the conveyer pipe, the rotary screen removes the subassembly, the coolant liquid radiator unit, the pipeline subassembly that opens and shuts, stroke increase subassembly and scarfing cinder subassembly, fixedly connected with gas-supply pipe on the base, gas-supply pipe one end hookup has the cartridge filter, the conveyer pipe rigid coupling is on the base, conveyer pipe one end and cartridge filter hookup, be provided with the rotary screen in the gas-supply pipe and remove the subassembly, the rotary screen removes the subassembly and is located the cartridge filter, the coolant liquid radiator unit sets up on the cartridge filter, all be equipped with the pipeline subassembly that opens and shuts on gas-supply pipe and the conveyer pipe, the stroke increase subassembly is located on the pipeline subassembly that opens and shuts, the scarfing cinder subassembly sets up on stroke increase subassembly.

2. The gas-solid separation device with heat dissipation and slag discharge functions for natural gas as claimed in claim 1, wherein: the rotary screen removes the subassembly including the backup pad, the rotary rod, the power fan wheel, rotate the circle frame, fixed ring gear, the mounting panel, the screening bull stick, the transfer line, drive gear and screening centrum, the welding has the backup pad in the gas-supply pipe, the rotation type is connected with the rotary rod in the backup pad, the welding has the power fan wheel on the rotary rod, the rigid coupling has the rotation circle frame on the rotary rod, be provided with fixed ring gear on the rotation circle frame, cartridge filter inner wall fixed mounting has the mounting panel, the rotation type is connected with the screening bull stick on the mounting panel, the same rotary type of transfer line is connected on the mounting panel, the rigid coupling has drive gear on the screening bull stick, same rigid coupling has drive gear on the transfer line, two drive gear intermeshing, one of them drive gear and fixed ring gear meshing, be provided with three screening centrums on the screening bull stick.

3. The gas-solid separation device with heat dissipation and slag discharge functions for natural gas as claimed in claim 2, wherein: coolant liquid radiator unit is including the transmission shaft, little bevel gear, big bevel gear, the bevel gear ring, coolant liquid shell and coolant liquid push pedal, the transmission shaft rotary type is connected on the cartridge filter, the rigid coupling has little bevel gear on the rotary rod, the same rigid coupling has little bevel gear on the transmission shaft, two little bevel gears agree with each other, big bevel gear welds on the transmission shaft, the last rotation type of cartridge filter is connected with the bevel gear ring, the bevel gear ring agrees with each other with big bevel gear, be provided with the coolant liquid shell on the cartridge filter, the rigid coupling has the coolant liquid push pedal on the bevel gear ring, the coolant liquid push pedal is connected with coolant liquid shell rotary type.

4. The gas-solid separation device with heat dissipation and slag discharge functions for natural gas as claimed in claim 3, wherein: the pipeline subassembly that opens and shuts is including the arc dish, the arc connecting pipe, the layer board, electric putter, the power rack, open-close plate and the gear that opens and shuts, the arc dish sets up on the gas-supply pipe, be provided with the arc dish on the conveyer pipe equally, the common welding has the arc connecting pipe on two arc dishes, the rigid coupling has the layer board on one of them arc dish, fixed mounting has electric putter on the layer board, the welding of electric putter telescopic shaft one end has the power rack, the rotation type is connected with open-close plate on the arc dish, open-close plate and arc connecting pipe contact, one of them open-close plate and gas-supply pipe contact, another open-close plate and conveyer pipe contact each other, fixed mounting has the gear that opens and shuts on the open-close plate, the gear that opens and shuts agrees with each other with the power rack.

5. The gas-solid separation device with heat dissipation and slag discharge functions for natural gas as claimed in claim 4, wherein: the stroke increase subassembly is including fixed rack, the L shaped plate, the rotation axis, the pinion, the gear wheel, first guide bar, second guide bar and removal rack, the welding of power rack one end has fixed rack, the rigid coupling has the L shaped plate on another department's arc dish, the last rotation type of L shaped plate is connected with the rotation axis, be provided with the pinion on the rotation axis, pinion and fixed rack intermeshing, the gear wheel sets up on the rotation axis equally, fixed mounting has first guide bar on the L shaped plate, the rigid coupling has the second guide bar on the arc dish with the department, common sliding type connection has the removal rack on first guide bar and the second guide bar, remove rack and gear wheel engagement.

6. The gas-solid separation device with heat dissipation and slag discharge functions for natural gas as claimed in claim 5, wherein: the slag removal assembly comprises an L-shaped connecting frame and a slag removal pull rod, the L-shaped connecting frame is welded at the bottom of the movable rack, the slag removal pull rod is welded at one end of the L-shaped connecting frame, and the slag removal pull rod is in limit connection with the filter cartridge.

7. The gas-solid separation device with heat dissipation and slag discharge functions for natural gas as claimed in claim 6, wherein: the device also comprises a closing valve, wherein the conveying pipe is internally and rotatably connected with the closing valve, and the air conveying pipe is internally and rotatably connected with the closing valve.