CN113019020A - Lifting type pulse dust removal experiment gas bag - Google Patents

Abstract

The application discloses over-and-under type pulse dust removal experiment gas package, including a inclusion, the inclusion is oval jar form, air inlet and gas outlet have been seted up on the inclusion, still include rand and installation frame, the rand is circular rand, the installation frame is the hollow form installation frame of cuboid, the rand is fixed to be set up in the installation frame, the inclusion card clamp in the rand, the inclusion with rand interference fit. The invention has the following beneficial effects: through setting up installation frame and rand, utilize the rand in the installation frame to press from both sides tight inclusion, when the transport is fixed only need carry fixed installation frame can, and because the installation frame is the cuboid form, so only need directly process the installation frame when the equipment fix on scissors fork elevating platform can, need not the dismouting gas bag during the gassing, it is more convenient to use.

Description

Lifting type pulse dust removal experiment gas bag

Technical Field

The invention relates to the field of teaching experiment equipment, in particular to a lifting type pulse dust removal experiment air bag.

Background

Patent CN110120171A provides a pulse jetting dust removal experiment gas bag auxiliary device, and this kind of auxiliary device can briefly be unsealed into four most briefly, and the first part is the travelling car, and the second part is the scissors fork elevating platform, and the third part is the slip clamping structure (including mounting rail, adjusting screw and bearing plate portion) of installing on the elevating platform mounting panel, and the fourth part is the gas bag promptly. In order to ensure that the air bag is stably clamped, the sliding clamping structure needs to work frequently, so the sliding clamping structure is easy to wear in work, the damage rate of parts such as the mounting rail, the adjusting screw rod and the bearing plate is very high, and the mounting plate on the scissor fork lifting platform is damaged to a certain extent when the parts are replaced every time, so that the auxiliary device with the structure is difficult to maintain in use, and the maintenance cost is relatively high.

Disclosure of Invention

The invention provides a lifting type pulse dust removal experiment air bag aiming at the problems.

The technical scheme adopted by the invention is as follows:

the utility model provides an over-and-under type pulse dust removal experiment gas bag, includes the inclusion, the inclusion is oval jar form, air inlet and gas outlet have been seted up on the inclusion, still include rand and installation frame, the rand is circular rand, the installation frame is the hollow form installation frame of cuboid, the rand is fixed to be set up in the installation frame, the inclusion card clamp in the rand, the inclusion with rand interference fit.

The gas bag in this structure through setting up installation frame and rand, utilizes the rand in the installation frame to press from both sides tight inclusion, when the transport is fixed only need carry fixed installation frame can, and because the installation frame is the cuboid form, so only need when the equipment directly process the installation frame fix on scissors fork elevating platform can, need not dismouting gas bag when aerifing the gassing, it is more convenient to use.

Optionally, the bag further comprises a gasket, the gasket is arranged between the bag body and the clamping ring, and the gasket is made of silica gel.

The effect that sets up the packing ring is guaranteed that the rand can press from both sides tight inclusion, and the inclusion can not take place to rock, improves the operating safety factor of inclusion.

Optionally, an inner ring surface and an outer ring surface are arranged on the washer, a triangular protrusion is arranged on the outer ring surface, and a semi-cylindrical protrusion is arranged on the inner ring surface; and the same radius line of the gasket does not simultaneously have triangular bulges and semi-cylindrical bulges.

Set up triangle-shaped arch on the outer anchor ring, be provided with the semicircle post arch on the interior anchor ring, be in order to push up rand and inclusion like this for improve the stability between inclusion, packing ring and the rand three, avoid taking place relative rotation between the three. At present, the traditional gasket has two forms, one is that the inner ring surface and the outer picture are both planes, and relative slip still easily occurs due to the planes; the second one is that all be triangle-shaped protruding on utilizing outer anchor ring and the picture outward, but has two triangle-shaped protruding on the same radius line simultaneously, and the packing ring of this kind of structure is because both sides all are triangle-shaped protruding, and the extrusion deformation that the triangle-shaped protruding emergence when the equipment of both sides all is on a straight line, and the packing ring resistance is great when filling in between rand and the inclusion like this, is difficult for filling in. And in this kind of packing ring, outer anchor ring is three horn shapes protruding, interior anchor ring is the semicircle column protruding, two kinds of bellied shapes are different, the deformation that takes place when receiving the extrusion is different like this, and because there are three horn shapes protruding and semicircle column protruding on the same radius line of packing ring simultaneously, when three horn shapes are protruding to receive the extrusion with semicircle column, can take place wrong twist-turn (similar to S type is crooked), can reduce the resistance of packing ring when packing into between rand and the inclusion like this, ensure to assemble more smoothly. Simultaneously because this kind of wrong twist is turned round, the packing ring is stronger at the elastic adaptability between rand and inclusion, even when the packing ring takes place great wearing and tearing, still can guarantee to push up tight rand and inclusion.

Optionally, still include a plurality of hollow zinc pipes, the rand is the rand of iron, the zinc pipe is located between two adjacent triangle-shaped archs, and the pipe wall of zinc pipe pastes tightly rand and packing ring, and the zinc pipe pastes tightly a triangle-shaped arch at most.

Because the clamping ring is made of steel, the steel is easy to corrode, once the steel is corroded, the gasket is easy to be clamped on the clamping ring, the gasket and the bag body are very difficult to disassemble, in order to avoid the phenomenon that the clamping ring is corroded and clamped, a zinc tube is plugged between the clamping ring and the gasket, due to the galvanic effect, the zinc tube is corroded, the gasket is prevented from being clamped on the clamping ring, and due to the fact that the zinc tube is small in size and is plugged between the gasket and the clamping ring, even if the zinc tube is corroded, the gasket can be smoothly separated from the clamping ring after the zinc tube is knocked off or broken. Simultaneously because the zinc pipe sets up between two triangle-shaped archs, and the zinc pipe pastes tight triangle-shaped arch at most, can guarantee like this that the zinc pipe is the tight semicircle column bellied of top, the existence of zinc pipe can play the effect of the tight inclusion in top like this, ensures that the cooperation stability between inclusion and the packing ring is higher.

Optionally, still include the magnet piece, the inclusion is the inclusion of iron, the magnet piece sets up between two adjacent semicylindrical archs, and the magnet piece adsorbs on the inclusion.

The magnet block is arranged to play a role of sliding obstruction, so that the probability of relative sliding between the bag body and the gasket is reduced.

Optionally, the gas bag further comprises a conduit and an electromagnetic regulating valve, wherein the electromagnetic regulating valve is arranged on the conduit, and the conduit is arranged on the gas inlet and the gas outlet of the gas bag.

Optionally, the guide tube is provided with a plurality of bending angles.

The bending angle is arranged to play a certain buffering role on the air flow when the electromagnetic regulating valve is switched on and off, so that tremble caused by too fast air flow is avoided.

Optionally, a plurality of caulking grooves are formed in the mounting frame, and the conduit is clamped and embedded in the caulking grooves.

Because in the twinkling of an eye that the electromagnetic regulating valve switched, probably can arouse the tremble of pipe, to avoid the pipe because the fracture phenomenon that appears of long-term tremble, so further set up the caulking groove on the installation frame, utilize the caulking groove to come the clamping fixed pipe, avoid the pipe because the phenomenon that the fracture appears of tremble.

Optionally, the mounting frame further comprises a cushion block, and the cushion block is fixedly arranged on the mounting frame.

The effect of cushion will install the frame bed-up certain angle.

Optionally, the scissors fork lifting platform is arranged on the moving trolley, and the frame is arranged on the scissors fork lifting platform.

The invention has the beneficial effects that: through setting up installation frame and rand, utilize the rand in the installation frame to press from both sides tight inclusion, when the transport is fixed only need carry fixed installation frame can, and because the installation frame is the cuboid form, so only need directly process the installation frame when the equipment fix on scissors fork elevating platform can, need not the dismouting gas bag during the gassing, it is more convenient to use.

Description of the drawings:

FIG. 1 is a schematic view of the mating relationship of a mounting frame to a bag body;

FIG. 2 is a top view of the mounting frame;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a schematic diagram of the position relationship among the collar, the gasket and the bag body.

The figures are numbered: 1. the device comprises a bag body, 2, a conduit, 3, a mounting frame, 301, a caulking groove, 4, a cushion block, 5, an electromagnetic adjusting valve, 6, a clamping ring, 7, a gasket, 701, a triangular protrusion, 702, a semicircular protrusion, 8, a zinc tube, 9 and a magnet block.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and fig. 3, a lift type pulse dust removal experiment gas bag, including inclusion 1, inclusion 1 is oval jar form, air inlet and gas outlet have been seted up on inclusion 1, still include rand 6 and installation frame 3, rand 6 is circular rand 6, installation frame 3 is the hollow form installation frame 3 of cuboid, rand 6 is fixed to be set up in installation frame 3, inclusion 1 clamping in rand 6, inclusion 1 with 6 interference fit of rand.

Air bag in this structure, through setting up installation frame 3 and rand 6, utilize rand 6 in the installation frame 3 to press from both sides tight inclusion 1, when the transport is fixed only need carry fixed mounting frame 3 can, and because installation frame 3 is the cuboid form, so only need during the equipment directly process installation frame 3 fix on scissors fork elevating platform can, need not dismouting air bag during aerifing the gassing, it is more convenient to use.

Example 2

As shown in fig. 1, 2, 3 and 4, a lift type pulse dust removal experiment gas bag, including inclusion 1, inclusion 1 is oval jar form, air inlet and gas outlet have been seted up on inclusion 1, still include rand 6 and installation frame 3, rand 6 is circular rand 6, installation frame 3 is the hollow form installation frame 3 of cuboid, rand 6 is fixed to be set up in installation frame 3, inclusion 1 card in rand 6, inclusion 1 with 6 interference fit of rand.

Air bag in this structure, through setting up installation frame 3 and rand 6, utilize rand 6 in the installation frame 3 to press from both sides tight inclusion 1, when the transport is fixed only need carry fixed mounting frame 3 can, and because installation frame 3 is the cuboid form, so only need during the equipment directly process installation frame 3 fix on scissors fork elevating platform can, need not dismouting air bag during aerifing the gassing, it is more convenient to use.

As shown in fig. 1, 2, 3 and 4, the bag further comprises a gasket 7, wherein the gasket 7 is arranged between the bag body 1 and the collar 6, and the gasket 7 is made of silica gel 7.

The effect that sets up packing ring 7 guarantees that rand 6 can press from both sides tight inclusion 1, and inclusion 1 can not take place to rock, improves inclusion 1's operating safety factor.

As shown in fig. 1, 2, 3 and 4, the gasket 7 is provided with an inner annular surface and an outer annular surface, the outer annular surface is provided with a triangular protrusion 701, and the inner annular surface is provided with a semi-cylindrical protrusion; and the triangular protrusion 701 and the semi-cylindrical protrusion are not simultaneously present on the same radius line of the gasket 7.

The outer annular surface is provided with a triangular protrusion 701, the inner annular surface is provided with a semi-cylindrical protrusion so as to tightly push the clamping ring 6 and the bag body 1, so that the stability among the bag body 1, the gasket 7 and the clamping ring 6 is improved, and the relative rotation among the bag body 1, the gasket 7 and the clamping ring 6 is avoided. At present, the traditional gasket 7 has two forms, one is that the inner ring surface and the outer picture are both planes, and relative slip still easily occurs due to the planes; the second is that all be triangle-shaped protruding 701 on utilizing outer anchor ring face and the picture outward, but have two triangle-shaped protruding 701 on the same radius line simultaneously, and the packing ring 7 of this kind of structure is because both sides all are triangle-shaped protruding 701, and the extrusion deformation that the triangle-shaped protruding 701 of both sides took place when the equipment is all on a straight line, and the packing ring 7 resistance is great when packing into between rand 6 and the inclusion 1 like this, is difficult for packing into. And in this kind of packing ring 7, outer anchor ring is three horn shapes protruding 701, interior anchor ring is the semicircle column arch, two kinds of bellied shapes are different, receive the deformation that takes place when extrudeing like this different, and because there are three horn shapes protruding 701 and semicircle column arch on the same radius line of packing ring 7 simultaneously, when three horn shapes protruding 701 and semicircle column arch 702 receive the extrusion, can take place the wrong twist and turn round (similar to S type bending), can reduce the resistance of packing ring 7 when packing into between rand 6 and the inclusion 1 like this, ensure to assemble more smoothly. Meanwhile, due to the wrong twisting and twisting, the gasket 7 has stronger elastic adaptability between the clamping ring 6 and the bag body 1, and even if the gasket 7 is greatly abraded, the clamping ring 6 and the bag body 1 can still be tightly propped.

As shown in fig. 1, 2, 3 and 4, the metal pipe clamp further comprises a plurality of hollow zinc pipes 8, the clamping ring 6 is an iron clamping ring 6, the zinc pipes 8 are located between two adjacent triangular protrusions 701, the pipe wall of each zinc pipe 8 is tightly attached to the clamping ring 6 and the gasket 7, and at most one triangular protrusion 701 is tightly attached to each zinc pipe 8.

Because the clamping ring 6 is made of steel, the steel is easy to corrode, once the steel is corroded, the gasket 7 is easy to be clamped on the clamping ring 6, the gasket 7 and the bag body 1 are very difficult to disassemble, in order to avoid the phenomenon that the clamping ring 6 is corroded and clamped, a zinc tube 8 is plugged between the clamping ring 6 and the gasket 7, the zinc tube 8 can be corroded due to the galvanic effect, the gasket 7 is prevented from being clamped on the clamping ring 6, and the zinc tube 8 is small in size and is plugged between the gasket 7 and the clamping ring 6, so that the gasket 7 can be smoothly separated from the clamping ring 6 after the zinc tube 8 is knocked off or broken even if the zinc tube 8 is corroded. Meanwhile, the zinc tube 8 is arranged between the two triangular protrusions 701, and the zinc tube 8 is tightly attached to one of the triangular protrusions 701 at most, so that the zinc tube 8 can be tightly propped against the semi-cylindrical protrusion, the zinc tube 8 can play a role in tightly propping the bag body 1, and the high matching stability between the bag body 1 and the gasket 7 is ensured.

As shown in fig. 1, 2, 3 and 4, the bag further comprises a magnet block 9, the bag body 1 is made of iron, the magnet block 9 is arranged between two adjacent semi-cylindrical protrusions, and the magnet block 9 is adsorbed on the bag body 1.

The magnet block 9 is arranged to play a role of a sliding block, so that the probability of relative sliding between the bag body 1 and the gasket 7 is reduced.

Example 3

As shown in fig. 1, 2, 3 and 4, a lift pulse dust removal experiment gas bag, including inclusion 1, inclusion 1 is oval jar form, air inlet and gas outlet have been seted up on inclusion 1, still include rand 6 and installation frame 3, rand 6 is circular rand 6, installation frame 3 is the hollow form installation frame 3 of cuboid, rand 6 is fixed to be set up in installation frame 3, inclusion 1 clamping in rand 6, inclusion 1 with 6 interference fit of rand.

Air bag in this structure, through setting up installation frame 3 and rand 6, utilize rand 6 in the installation frame 3 to press from both sides tight inclusion 1, when the transport is fixed only need carry fixed mounting frame 3 can, and because installation frame 3 is the cuboid form, so only need during the equipment directly process installation frame 3 fix on scissors fork elevating platform can, need not dismouting air bag during aerifing the gassing, it is more convenient to use.

As shown in fig. 1, 2, 3 and 4, the gas bag further comprises a conduit 2 and an electromagnetic regulating valve 5, wherein the electromagnetic regulating valve 5 is installed on the conduit 2, and the conduit 2 is installed on both the gas inlet and the gas outlet of the gas bag.

As shown in fig. 1, 2, 3 and 4, the guide tube 2 is provided with a plurality of bending angles.

The bending angle is arranged to play a certain buffering role in the process of opening and closing the electromagnetic adjusting valve 5, so that trembling caused by too fast air flow is avoided.

As shown in fig. 1, 2, 3 and 4, the mounting frame 3 is provided with a plurality of slots 301, and the guide tube 2 is inserted into the slots 301.

Because the vibration of the catheter 2 is possibly caused at the moment of opening and closing the electromagnetic adjusting valve 5, and the cracking phenomenon of the catheter 2 caused by the long-term vibration is avoided, the installation frame 3 is further provided with the caulking groove 301, the caulking groove 301 is used for clamping and fixing the catheter 2, and the cracking phenomenon of the catheter 2 caused by the vibration is avoided.

Example 5

As shown in fig. 1, 2, 3 and 4, a lift type pulse dust removal experiment gas bag, including inclusion 1, inclusion 1 is oval jar form, air inlet and gas outlet have been seted up on inclusion 1, still include rand 6 and installation frame 3, rand 6 is circular rand 6, installation frame 3 is the hollow form installation frame 3 of cuboid, rand 6 is fixed to be set up in installation frame 3, inclusion 1 card in rand 6, inclusion 1 with 6 interference fit of rand.

Air bag in this structure, through setting up installation frame 3 and rand 6, utilize rand 6 in the installation frame 3 to press from both sides tight inclusion 1, when the transport is fixed only need carry fixed mounting frame 3 can, and because installation frame 3 is the cuboid form, so only need during the equipment directly process installation frame 3 fix on scissors fork elevating platform can, need not dismouting air bag during aerifing the gassing, it is more convenient to use.

As shown in fig. 1, 2, 3 and 4, the bag further comprises a gasket 7, wherein the gasket 7 is arranged between the bag body 1 and the collar 6, and the gasket 7 is made of silica gel 7.

The effect that sets up packing ring 7 guarantees that rand 6 can press from both sides tight inclusion 1, and inclusion 1 can not take place to rock, improves inclusion 1's operating safety factor.

As shown in fig. 1, 2, 3 and 4, the gasket 7 is provided with an inner annular surface and an outer annular surface, the outer annular surface is provided with a triangular protrusion 701, and the inner annular surface is provided with a semi-cylindrical protrusion; and the triangular protrusion 701 and the semi-cylindrical protrusion are not simultaneously present on the same radius line of the gasket 7.

The outer annular surface is provided with a triangular protrusion 701, the inner annular surface is provided with a semi-cylindrical protrusion so as to tightly push the clamping ring 6 and the bag body 1, so that the stability among the bag body 1, the gasket 7 and the clamping ring 6 is improved, and the relative rotation among the bag body 1, the gasket 7 and the clamping ring 6 is avoided. At present, the traditional gasket 7 has two forms, one is that the inner ring surface and the outer picture are both planes, and relative slip still easily occurs due to the planes; the second is that all be triangle-shaped protruding 701 on utilizing outer anchor ring face and the picture outward, but have two triangle-shaped protruding 701 on the same radius line simultaneously, and the packing ring 7 of this kind of structure is because both sides all are triangle-shaped protruding 701, and the extrusion deformation that the triangle-shaped protruding 701 of both sides took place when the equipment is all on a straight line, and the packing ring 7 resistance is great when packing into between rand 6 and the inclusion 1 like this, is difficult for packing into. And in this kind of packing ring 7, outer anchor ring is three horn shapes protruding 701, interior anchor ring is the semicircle column arch, two kinds of bellied shapes are different, receive the deformation that takes place when extrudeing like this different, and because there are three horn shapes protruding 701 and semicircle column arch on the same radius line of packing ring 7 simultaneously, when three horn shapes protruding 701 and semicircle column arch 702 receive the extrusion, can take place the wrong twist and turn round (similar to S type bending), can reduce the resistance of packing ring 7 when packing into between rand 6 and the inclusion 1 like this, ensure to assemble more smoothly. Meanwhile, due to the wrong twisting and twisting, the gasket 7 has stronger elastic adaptability between the clamping ring 6 and the bag body 1, and even if the gasket 7 is greatly abraded, the clamping ring 6 and the bag body 1 can still be tightly propped.

As shown in fig. 1, 2, 3 and 4, the metal pipe clamp further comprises a plurality of hollow zinc pipes 8, the clamping ring 6 is an iron clamping ring 6, the zinc pipes 8 are located between two adjacent triangular protrusions 701, the pipe wall of each zinc pipe 8 is tightly attached to the clamping ring 6 and the gasket 7, and at most one triangular protrusion 701 is tightly attached to each zinc pipe 8.

Because the clamping ring 6 is made of steel, the steel is easy to corrode, once the steel is corroded, the gasket 7 is easy to be clamped on the clamping ring 6, the gasket 7 and the bag body 1 are very difficult to disassemble, in order to avoid the phenomenon that the clamping ring 6 is corroded and clamped, a zinc tube 8 is plugged between the clamping ring 6 and the gasket 7, the zinc tube 8 can be corroded due to the galvanic effect, the gasket 7 is prevented from being clamped on the clamping ring 6, and the zinc tube 8 is small in size and is plugged between the gasket 7 and the clamping ring 6, so that the gasket 7 can be smoothly separated from the clamping ring 6 after the zinc tube 8 is knocked off or broken even if the zinc tube 8 is corroded. Meanwhile, the zinc tube 8 is arranged between the two triangular protrusions 701, and the zinc tube 8 is tightly attached to one of the triangular protrusions 701 at most, so that the zinc tube 8 can be tightly propped against the semi-cylindrical protrusion, the zinc tube 8 can play a role in tightly propping the bag body 1, and the high matching stability between the bag body 1 and the gasket 7 is ensured.

As shown in fig. 1, 2, 3 and 4, the bag further comprises a magnet block 9, the bag body 1 is made of iron, the magnet block 9 is arranged between two adjacent semi-cylindrical protrusions, and the magnet block 9 is adsorbed on the bag body 1.

The magnet block 9 is arranged to play a role of a sliding block, so that the probability of relative sliding between the bag body 1 and the gasket 7 is reduced.

As shown in fig. 1, 2, 3 and 4, the gas bag further comprises a conduit 2 and an electromagnetic regulating valve 5, wherein the electromagnetic regulating valve 5 is installed on the conduit 2, and the conduit 2 is installed on both the gas inlet and the gas outlet of the gas bag.

As shown in fig. 1, 2, 3 and 4, the guide tube 2 is provided with a plurality of bending angles.

The bending angle is arranged to play a certain buffering role in the process of opening and closing the electromagnetic adjusting valve 5, so that trembling caused by too fast air flow is avoided.

As shown in fig. 1, 2, 3 and 4, the mounting frame 3 is provided with a plurality of slots 301, and the guide tube 2 is inserted into the slots 301.

Because the vibration of the catheter 2 is possibly caused at the moment of opening and closing the electromagnetic adjusting valve 5, and the cracking phenomenon of the catheter 2 caused by the long-term vibration is avoided, the installation frame 3 is further provided with the caulking groove 301, the caulking groove 301 is used for clamping and fixing the catheter 2, and the cracking phenomenon of the catheter 2 caused by the vibration is avoided.

As shown in fig. 1, 2, 3 and 4, the device further comprises a cushion block 4, and the cushion block 4 is fixedly arranged on the mounting frame 3.

The mounting frame 3 is lifted at an angle by the action of the spacer 4.

As shown in fig. 1, 2, 3 and 4, the scissors assembly further comprises a moving trolley and a scissors fork lifting platform, wherein the scissors fork lifting platform is installed on the moving trolley, and the frame is arranged on the scissors fork lifting platform.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, which is defined by the claims and their equivalents, and can be directly or indirectly applied to other related fields of technology.

Claims (10)

1. The utility model provides an over-and-under type pulse dust removal experiment gas bag, includes the inclusion, the inclusion is oval jar form, air inlet and gas outlet have been seted up on the inclusion, its characterized in that still includes rand and installation frame, the rand is circular rand, the installation frame is the hollow form installation frame of cuboid, the rand is fixed to be set up in the installation frame, the inclusion dop in the rand, the inclusion with rand interference fit.

2. The lift type pulse dust removal experiment gas bag according to claim 1, further comprising a gasket, wherein the gasket is arranged between the bag body and the retainer ring, and the gasket is made of silica gel.

3. The lift type pulse dust removal experiment air bag according to claim 2, wherein an inner ring surface and an outer ring surface are arranged on the gasket, a triangular protrusion is arranged on the outer ring surface, and a semi-cylindrical protrusion is arranged on the inner ring surface; and the same radius line of the gasket does not simultaneously have triangular bulges and semi-cylindrical bulges.

4. The lift type pulse dust removal experimental gas bag as claimed in claim 3, further comprising a plurality of hollow zinc tubes, wherein the clamping rings are iron clamping rings, the zinc tubes are located between two adjacent triangular protrusions, the tube walls of the zinc tubes are tightly attached to the clamping rings and the gaskets, and at most one triangular protrusion is tightly attached to the zinc tubes.

5. The lifting type pulse dust removal experiment gas bag as claimed in claim 3, further comprising a magnet block, wherein the bag body is made of iron, the magnet block is arranged between two adjacent semi-cylindrical protrusions, and the magnet block is adsorbed on the bag body.

6. The lift type pulse dust removal experiment air bag according to claim 1, further comprising a conduit and an electromagnetic regulating valve, wherein the electromagnetic regulating valve is installed on the conduit, and the conduit is installed on both the air inlet and the air outlet of the air bag.

7. The lift type pulse dust removal experimental gas bag according to claim 6, wherein a plurality of bending angles are arranged on the guide pipe.

8. The lift type pulse dust removal experiment air bag according to claim 6, wherein a plurality of caulking grooves are formed in the mounting frame, and the conduit is clamped and embedded in the caulking grooves.

9. The lift type pulse dust removal experimental gas bag according to claim 1, further comprising a cushion block, wherein the cushion block is fixedly arranged on the mounting frame.

10. The lift type pulse dust removal experimental gas bag according to claim 1, further comprising a moving trolley and a scissor fork lifting table, wherein the scissor fork lifting table is installed on the moving trolley, and the frame is arranged on the scissor fork lifting table.

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