CN114939313B - Pulse bag type dust collector with vibrating ash bucket structure and dust collection method thereof - Google Patents

Abstract

The utility model discloses a pulse bag type dust collector with a vibration dust hopper structure and a dust collection method thereof, and belongs to the technical field of pulse bag type dust collectors. In order to solve the problem that dust attached to the inner wall of the dust hopper cannot be vibrated and shaken off, and the dust cleaning efficiency is reduced, the dust cleaning device can utilize the vibration ash shaking mechanism to vibrate and shake off the dust attached to the inner wall of the dust hopper, so that the dust can be effectively cleaned, the dust cleaning burden of operators is reduced, the dust cleaning efficiency is improved, and the vibration ash shaking hammer head can be conveniently replaced and maintained by utilizing the reverse linkage mechanism, so that the dust cleaning device is convenient to use.

Description

Pulse bag type dust collector with vibrating ash bucket structure and dust collection method thereof

Technical Field

The utility model relates to the technical field of pulse bag type dust collectors, in particular to a pulse bag type dust collector with a vibrating ash bucket structure and a dust collecting method thereof.

Background

The pulse bag type dust collector is mature and relatively perfect high-efficiency dust collection equipment.

The Chinese patent with publication number of CN207822682U discloses a pulse bag type dust collector, which comprises a motor, a fan, a base, a drain pipe, an air bag, a pulse valve, a compressed air input pipe, an upper box body, an access door, a lower box body, a screw conveyor, a discharging motor, an ash discharging valve, a filter bag, a bag cage, an ash discharging hole and transmission equipment, wherein the motor is connected with the fan through the transmission equipment, the motor and the fan are arranged above the base, the fan is connected with the filter bag and the bag cage, the air bag is arranged at the tops of the filter bag and the bag cage, the pulse valve is arranged above the air bag, the drain pipe and the compressed air input pipe are respectively arranged at two sides of the bottom of the air bag, the access door is arranged in the middle of the upper box body, the lower box body is arranged at the bottom of the upper box body, the screw conveyor is arranged at the bottom of the lower box body, and the screw conveyor is arranged between the discharging motor and the ash discharging valve. The dust filter has good dust filtering effect and excitation effect, can intensively recycle the dust and discharge the dust through a machine, and realizes controllable and easy operation treatment of dust recycling. However, the above patent suffers from the following drawbacks:

the dust attached to the inner wall of the dust hopper cannot be vibrated and shaken off, so that the dust cannot be effectively cleaned, the cleaning load of operators on the dust is increased, and the dust cleaning efficiency is reduced.

Disclosure of Invention

The utility model aims to provide a pulse bag type dust collector with a vibrating dust hopper structure and a dust collection method thereof, wherein dust attached to the inner wall of the dust hopper can be vibrated and shaken off by utilizing a vibrating dust shaking mechanism, so that the dust can be effectively cleaned, the cleaning load of operators on the dust is reduced, the dust cleaning efficiency is improved, the vibrating dust shaking hammer head can be conveniently replaced and maintained by utilizing a reverse linkage mechanism, and the dust collection device is convenient to use, so that the problems in the background art are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a pulse bag collector with vibration ash bucket structure, includes the dust removal box, and the support base is installed to the upper end of dust removal box, be provided with dust removal fan on the support base, dust removal fan connects the dust removal box, the upper end of dust removal box still is provided with the air pocket, the lower extreme of dust removal box is provided with the ash bucket, be provided with vibration ash tremble mechanism on the ash bucket, vibration ash tremble mechanism is used for vibration to tremble the dust that adheres to on the ash bucket inner wall.

Further, the vibration ash shaking mechanism comprises a vibration ash shaking support, a driving motor, a driving screw, a driving belt and a driven screw, wherein the vibration ash shaking support is arranged on the inner wall of the ash bucket, the driving motor is arranged on the inner side of the vibration ash shaking support, an output shaft of the driving motor is connected with the driving screw through a coupling, the driving screw is connected with the driven screw through the driving belt and a belt pulley, and the driving screw and the driven screw are arranged on the vibration ash shaking support through bearings.

Further, the vibration ash shaking mechanism comprises a traction slide plate, a traction connecting rod and a vibration ash shaking component, wherein the driving screw rod and the driven screw rod are in threaded connection with the traction slide plate, the traction connecting rod is installed on the traction slide plate, and the traction connecting rod is connected with the vibration ash shaking component.

Further, the vibration tremble the ash subassembly and tremble ash base and shake the ash and beat the head including vibration, vibration tremble ash base connection and vibration tremble ash base and pass through buffer spring and flexible guide bar and connect on vibration tremble ash support, vibration trembles and is provided with vibration on the ash base and trembles the ash and beat the head, vibration trembles the ash and beat the head and pass through reverse link mechanism to be fixed on vibration tremble ash base.

Further, one end of the buffer spring and one end of the telescopic guide rod are connected to the vibration ash shaking base, and the other end of the buffer spring and the other end of the telescopic guide rod are connected to the vibration ash shaking support.

Further, reverse link gear includes first driving lever, second driving lever, supports pivot and linkage turn pole, the lower extreme of first driving lever and second driving lever is all installed on vibration shake grey base through supporting the pivot, first driving lever and second driving lever are located vibration shake grey base and swing joint in supporting the pivot, support the pivot and install the inboard at vibration shake grey base, the linkage turn pole is all installed to the upper end of first driving lever and second driving lever, the linkage turn pole is located the side that vibration tremble grey and beats the head and inserts vibration shake grey and beat the head.

Further, reverse link gear still includes fixed bolster, compression spring, flexible guide post, connection base plate and reverse inserted bar, the upper end of first driving lever and second driving lever is fixed through reverse inserted bar, reverse inserted bar is connected on connection base plate, connection base plate passes through compression spring and flexible guide post and connects on the fixed bolster, the fixed bolster is installed on vibration shake grey base.

Further, the reverse plug-in rod comprises an outer supporting seat, a movable shaft and an inner plug-in piece, wherein the inner plug-in piece is inserted into the first deflector rod and the second deflector rod and is connected to the outer supporting seat through the movable shaft, and the outer supporting seat is arranged on the connecting substrate.

Further, a limit guide groove for inserting or rotating out the linkage turning rod is formed in the side face of the vibration ash shaking hammer.

According to another aspect of the present utility model, there is provided a dust removing method of a pulse bag type dust collector having a vibrating hopper structure, comprising the steps of:

s1: the driving motor is started and drives the driving screw rod to rotate, and the driving screw rod is connected with the driven screw rod through the driving belt and the belt pulley, so that the driving screw rod rotates to drive the driving belt and the driven screw rod to rotate along with the driving belt and the belt pulley;

s2: the driving screw rod and the driven screw rod drive the traction sliding plate to move transversely in the rotating process, and the traction sliding plate moves to drive the traction connecting rod and the vibration ash shaking component to move transversely, so that the vibration ash shaking component continuously hammers the ash bucket under the traction guiding action of the buffer spring and the telescopic guide rod, and dust attached to the inner wall of the ash bucket shakes off in a vibration mode.

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

1. the utility model relates to a pulse bag type dust collector with a vibrating dust hopper structure and a dust removing method thereof, wherein a vibrating dust shaking mechanism is arranged on the dust hopper and comprises a vibrating dust shaking bracket, a driving motor, a driving screw, a transmission belt, a driven screw, a traction sliding plate, a traction connecting rod and a vibrating dust shaking component, wherein the driving motor is started and drives the driving screw to rotate, the driving screw is connected with the driven screw through the transmission belt and a belt pulley, so that the driving screw can rotate to drive the transmission belt and the driven screw to rotate along with the driven screw, the driving screw and the driven screw can drive the traction sliding plate to transversely move along with the driven screw in the rotating process, and the traction sliding plate can drive the traction connecting rod and the vibrating dust shaking component to transversely move along with the traction sliding plate, so that the vibrating dust shaking component continuously hammers the dust hopper under the traction guiding action of a buffer spring and a telescopic guide rod, and dust adhered on the inner wall of the dust hopper can be vibrated and shaken off by utilizing the vibrating dust shaking mechanism, so that dust can be effectively cleaned, an operator can lighten the dust cleaning burden on the inner wall of the dust and the dust cleaning efficiency is improved.

2. The utility model relates to a pulse bag type dust collector with a vibration ash bucket structure and a dust removing method thereof, wherein a vibration ash shaking component comprises a vibration ash shaking base and a vibration ash shaking hammer head, the vibration ash shaking hammer head is fixed on the vibration ash shaking base through a reverse linkage mechanism, the reverse linkage mechanism comprises a first deflector rod, a second deflector rod, a supporting rotating shaft, a linkage turning rod, a fixed support, a compression spring, a telescopic guide column, a connecting substrate and a reverse inserted link, the reverse inserted link comprises an outer supporting seat, a movable shaft and an inner insert, and the vibration ash shaking hammer head can be quickly installed on the vibration ash shaking base or can be quickly detached from the vibration ash shaking base by utilizing the reverse linkage mechanism, so that the vibration ash shaking hammer head is convenient to replace and maintain and is convenient to use.

Drawings

FIG. 1 is a front view of a pulse bag house dust collector having a vibrating hopper construction of the present utility model;

FIG. 2 is a cross-sectional elevation view of the ash bucket of the present utility model with a vibratory ash shaking mechanism;

FIG. 3 is a cross-sectional elevation view of the vibratory ash shaker of the present utility model;

FIG. 4 is an enlarged view of the utility model at A in FIG. 3;

FIG. 5 is an enlarged view of a raised vibratory ash support frame of the vibratory ash assembly of the present utility model;

FIG. 6 is a front view of the vibratory ash assembly of the utility model;

FIG. 7 is a top view of the vibratory ash assembly of the utility model;

FIG. 8 is a cross-sectional view of a fixed vibratory ash-shaking hammer of the present utility model;

FIG. 9 is a cross-sectional view of the loose vibratory ash-shaking hammer of the linkage turning bar of the present utility model;

FIG. 10 is a schematic view of a first lever interface linkage turning lever of the present utility model;

FIG. 11 is an enlarged view of FIG. 7 at B in accordance with the present utility model;

FIG. 12 is a partial side elevational view of the first lever with the insert secured therein of the present utility model;

FIG. 13 is a partial side view of an inner insert of the present utility model with the first lever unsecured.

In the figure: 1. a dust removal box; 2. a support base; 3. a dust removal fan; 4. an air bag; 5. an ash bucket; 6. a vibration ash shaking mechanism; 61. vibrating the ash shaking support; 62. a driving motor; 63. driving a screw rod; 64. a drive belt; 65. a driven screw rod; 66. traction skateboard; 67. a traction link; 68. vibrating the ash shaking component; 681. vibrating the ash shaking base; 682. vibrating and shaking the ash hammer; 69. a buffer spring; 610. a telescopic guide rod; 7. a reverse linkage mechanism; 71. a first deflector rod; 72. a second deflector rod; 73. supporting a rotating shaft; 74. a linkage turning rod; 75. a fixed bracket; 76. a compression spring; 77. a telescopic guide post; 78. a connection substrate; 79. reverse inserted link; 791. an outer support base; 792. a movable shaft; 793. an insert.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, a pulse bag type dust collector with vibrating dust hopper structure, including dust removal box 1, support base 2 is installed to dust removal box 1's upper end, be provided with dust removal fan 3 on the support base 2, dust removal fan 3 connects dust removal box 1, dust removal box 1's upper end still is provided with air pocket 4, dust removal box 1's lower extreme is provided with dust hopper 5, be provided with vibration dust tremble mechanism 6 on the dust hopper 5, vibration dust tremble mechanism 6 is used for vibrating the dust of trembling attached to on the dust hopper 5 inner wall, utilize vibration dust tremble mechanism 6 can shake the dust of attaching on the dust hopper 5 inner wall and tremble, make the dust can obtain the clearance effectively, the clearance burden of operating personnel to the dust has been alleviateed, and dust clearance efficiency is improved.

Referring to fig. 3, the vibration ash shaking mechanism 6 includes a vibration ash shaking support 61, a driving motor 62, a driving screw 63, a driving belt 64 and a driven screw 65, the vibration ash shaking support 61 is mounted on the inner wall of the ash bucket 5, the driving motor 62 is disposed on the inner side of the vibration ash shaking support 61, an output shaft of the driving motor 62 is connected with the driving screw 63 through a coupling, the driving screw 63 is connected with the driven screw 65 through the driving belt 64 and a belt pulley, and the driving screw 63 and the driven screw 65 are mounted on the vibration ash shaking support 61 through bearings.

The driving motor 62 is started and drives the driving screw 63 to rotate, and the driving screw 63 is connected with the driven screw 65 through the transmission belt 64 and the belt pulley, so that the driving screw 63 rotates to drive the transmission belt 64 and the driven screw 65 to rotate.

Referring to fig. 4-5, the vibratory ash shaking mechanism 6 includes a traction slide 66, a traction link 67, and a vibratory ash shaking assembly 68, wherein the driving screw 63 and the driven screw 65 are both in threaded connection with the traction slide 66, the traction link 67 is mounted on the traction slide 66, and the traction link 67 is connected with the vibratory ash shaking assembly 68.

The driving motor 62 is started and drives the driving screw 63 to rotate, and the driving screw 63 is connected with the driven screw 65 through the transmission belt 64 and the belt pulley, so that the driving screw 63 rotates to drive the transmission belt 64 and the driven screw 65 to rotate along with the driving screw 63, the driven screw 65 can drive the traction sliding plate 66 to move transversely along with the driving screw 63 and the driven screw 65, the traction sliding plate 66 can drive the traction connecting rod 67 and the vibration ash shaking component 68 to move transversely along with the driving screw 66, the vibration ash shaking component 68 continuously hammers the ash hopper 5 under the traction guiding action of the buffer spring 69 and the telescopic guide rod 610, and dust attached on the inner wall of the ash hopper 5 is vibrated and shaken off, so that the dust can be effectively cleaned.

Referring to fig. 6, the vibration ash shaking assembly 68 includes a vibration ash shaking base 681 and a vibration ash shaking hammer 682, the vibration ash shaking base 681 is connected to the traction link 67 and the vibration ash shaking base 681 is connected to the vibration ash shaking support 61 through the buffer spring 69 and the telescopic guide rod 610, the vibration ash shaking base 681 is provided with the vibration ash shaking hammer 682, and the vibration ash shaking hammer 682 is fixed to the vibration ash shaking base 681 through the reverse linkage 7.

The reverse linkage mechanism 7 can be utilized to enable the vibration ash shaking hammer 682 to be rapidly installed on the vibration ash shaking base 681 or enable the vibration ash shaking hammer 682 to be rapidly detached from the vibration ash shaking base 681, so that the vibration ash shaking hammer 682 is convenient to replace and maintain and convenient to use.

One end of the buffer spring 69 and the telescopic guide rod 610 is connected to the vibration ash shaking base 681, and the other end of the buffer spring 69 and the telescopic guide rod 610 is connected to the vibration ash shaking support 61.

Referring to fig. 7 to 10, the reverse linkage mechanism 7 includes a first shifter 71, a second shifter 72, a supporting shaft 73 and a linkage turning lever 74, wherein the lower ends of the first shifter 71 and the second shifter 72 are mounted on a vibration ash shaking base 681 through the supporting shaft 73, the first shifter 71 and the second shifter 72 are located in the vibration ash shaking base 681 and are movably connected to the supporting shaft 73, the supporting shaft 73 is mounted on the inner side of the vibration ash shaking base 681, the upper ends of the first shifter 71 and the second shifter 72 are mounted with the linkage turning lever 74, the linkage turning lever 74 is located on the side surface of the vibration ash shaking head 682 and is inserted into the vibration ash shaking head 682, and the side surface of the vibration ash shaking head 682 is provided with a limit guide groove for inserting or turning out the linkage turning lever 74.

Referring to fig. 11-13, the reverse linkage 7 further includes a fixing bracket 75, a compression spring 76, a telescopic guide post 77, a connection base plate 78 and a reverse inserting rod 79, wherein the upper ends of the first shifting rod 71 and the second shifting rod 72 are fixed by the reverse inserting rod 79, limiting grooves for inserting the reverse inserting rod 79 are formed in the first shifting rod 71 and the second shifting rod 72, the reverse inserting rod 79 is connected to the connection base plate 78, the connection base plate 78 is connected to the fixing bracket 75 by the compression spring 76 and the telescopic guide post 77, and the fixing bracket 75 is mounted on a vibration ash shaking base 681.

The reverse lever 79 includes an outer support base 791, a movable shaft 792, and an inner insert 793, the inner insert 793 is inserted into the first and second levers 71 and 72 and the inner insert 793 is connected to the outer support base 791 through the movable shaft 792, and the outer support base 791 is mounted on the connection base 78.

The disassembly process of the vibration ash shaking hammer 682: pushing the inner insert 793 to move toward the direction approaching the connection base plate 78 and the connection base plate 78 presses the compression spring 76 and the telescopic guide post 77, so that the inner insert 793 is not inserted into the first deflector rod 71 and the second deflector rod 72 any more and the inner insert 793 rotates 90 ° to the vertical state in the outer support seat 791 under the supporting action of the movable shaft 792, and as the inner insert 793 is not fixed to the first deflector rod 71 and the second deflector rod 72 any more, the first deflector rod 71 and the second deflector rod 72 are reversely shifted, so that the first deflector rod 71 and the second deflector rod 72 pull the linkage turning rod 74 to rotate under the supporting action of the supporting shaft 73, so that the linkage turning rod 74 rotates to be separated from the vibratory ash shaking head 682, and at this time, the vibratory ash shaking head 682 can be quickly detached from the vibratory ash shaking base 681 due to the fact that the linkage turning rod 74 is not fixed.

The installation process of the vibration ash shaking hammer 682 comprises the following steps: the vibrating ash shaking hammer 682 is mounted on the vibrating ash shaking base 681, the first deflector rod 71 and the second deflector rod 72 are oppositely poked, the first deflector rod 71 and the second deflector rod 72 pull the linkage turning rod 74 to rotate under the supporting action of the supporting rotating shaft 73, the linkage turning rod 74 rotates to be inserted into the vibrating ash shaking hammer 682, the inner insert 793 is pushed to move towards the direction close to the connecting base 78, the connecting base 78 presses the compression spring 76 and the telescopic guide column 77, the inner insert 793 is loosened after rotating 90 degrees to the horizontal state under the supporting action of the movable shaft 792, and the compression spring 76 and the telescopic guide column 77 are not stretched by the extrusion force any more, so that the inner insert 793 is pushed to be inserted into the first deflector rod 71 and the second deflector rod 72, and the vibrating ash shaking hammer 682 is rapidly mounted on the vibrating ash shaking base 681.

In order to better demonstrate the dust removal flow of the pulse bag type dust collector with the vibration ash bucket structure, the embodiment now provides a dust removal method of the pulse bag type dust collector with the vibration ash bucket structure, which comprises the following steps:

s1: the driving motor 62 is started and drives the driving screw 63 to rotate, and the driving screw 63 is connected with the driven screw 65 through the transmission belt 64 and the belt pulley, so that the driving screw 63 rotates to drive the transmission belt 64 and the driven screw 65 to rotate along with the driving screw;

s2: the driving screw 63 and the driven screw 65 drive the traction slide plate 66 to move transversely in the rotating process, and the traction slide plate 66 moves to drive the traction connecting rod 67 and the vibration ash shaking component 68 to move transversely, so that the vibration ash shaking component 68 continuously hammers the ash bucket 5 under the traction guiding action of the buffer spring 69 and the telescopic guide rod 610, and dust attached to the inner wall of the ash bucket 5 is vibrated and shaken off.

In summary, according to the pulse bag type dust collector with the vibrating dust hopper structure and the dust removing method thereof, the driving motor 62 is started and drives the driving screw 63 to rotate, the driving screw 63 is connected with the driven screw 65 through the driving belt 64 and the belt pulley, so that the driving screw 63 rotates and can drive the driving belt 64 and the driven screw 65 to rotate along with the driven screw 65, the driving screw 63 and the driven screw 65 can drive the traction sliding plate 66 to transversely move along with the rotation, the traction sliding plate 66 can drive the traction connecting rod 67 and the vibrating dust shaking assembly 68 to transversely move along with the traction connecting rod, the vibrating dust shaking assembly 68 continuously hammers the dust hopper 5 under the traction guiding action of the buffer spring 69 and the telescopic guide rod 610, dust attached to the inner wall of the dust hopper 5 can be vibrated and shaken off by the vibrating dust shaking mechanism 6, the dust can be effectively cleaned, the dust cleaning burden of operators is reduced, the dust cleaning efficiency is improved, the vibrating dust shaking head 682 is fixed on the vibrating dust shaking base 681 through the reversing mechanism 7, the vibrating dust shaking head 682 can be rapidly installed on the vibrating dust shaking base 681, and the vibrating dust shaking head 682 can be rapidly removed from the vibrating dust shaking base 681 through the reversing mechanism, and the vibrating dust shaking head 682 is convenient to be quickly removed.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should be covered by the protection scope of the present utility model by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (4)

1. The utility model provides a pulse bag collector with vibration ash bucket structure, includes dust removal box (1), support base (2) are installed to the upper end of dust removal box (1), be provided with dust removal fan (3) on support base (2), dust removal fan (3) are connected dust removal box (1), the upper end of dust removal box (1) still is provided with air pocket (4), a serial communication port, the lower extreme of dust removal box (1) is provided with ash bucket (5), be provided with vibration ash tremble mechanism (6) on ash bucket (5), vibration ash tremble mechanism (6) are used for vibration ash tremble attached dust on the inner wall of ash bucket (5);

the vibration ash shaking mechanism (6) comprises a vibration ash shaking support (61), a driving motor (62), a driving screw (63), a transmission belt (64) and a driven screw (65), wherein the vibration ash shaking support (61) is arranged on the inner wall of an ash bucket (5), the driving motor (62) is arranged on the inner side of the vibration ash shaking support (61), the driving screw (63) is connected with an output shaft of the driving motor (62) through a coupling, the driving screw (63) is connected with the driven screw (65) through the transmission belt (64) and a belt pulley, and the driving screw (63) and the driven screw (65) are arranged on the vibration ash shaking support (61) through bearings;

the vibration ash shaking mechanism (6) comprises a traction slide plate (66), a traction connecting rod (67) and a vibration ash shaking component (68), wherein the traction slide plate (66) is connected with the driving screw rod (63) and the driven screw rod (65) in a threaded mode, the traction connecting rod (67) is installed on the traction slide plate (66), and the vibration ash shaking component (68) is connected with the traction connecting rod (67);

the vibration ash shaking component (68) comprises a vibration ash shaking base (681) and a vibration ash shaking hammer (682), wherein the vibration ash shaking base (681) is connected to the traction connecting rod (67) and is connected to the vibration ash shaking support (61) through the buffer spring (69) and the telescopic guide rod (610), the vibration ash shaking base (681) is provided with the vibration ash shaking hammer (682), and the vibration ash shaking hammer (682) is fixed on the vibration ash shaking base (681) through the reverse linkage mechanism (7);

the reverse linkage mechanism (7) comprises a first deflector rod (71), a second deflector rod (72), a supporting rotating shaft (73) and a linkage turning rod (74), wherein the lower ends of the first deflector rod (71) and the second deflector rod (72) are respectively arranged on a vibration ash shaking base (681) through the supporting rotating shaft (73), the first deflector rod (71) and the second deflector rod (72) are positioned in the vibration ash shaking base (681) and are movably connected to the supporting rotating shaft (73), the supporting rotating shaft (73) is arranged on the inner side of the vibration ash shaking base (681), the upper ends of the first deflector rod (71) and the second deflector rod (72) are respectively provided with the linkage turning rod (74), and the linkage turning rod (74) is positioned on the side surface of the vibration ash shaking hammer (682) and is inserted into the vibration ash shaking hammer (682);

the reverse linkage mechanism (7) further comprises a fixed support (75), a compression spring (76), a telescopic guide column (77), a connecting substrate (78) and a reverse inserting rod (79), wherein the upper ends of the first shifting rod (71) and the second shifting rod (72) are fixed through the reverse inserting rod (79), the reverse inserting rod (79) is connected to the connecting substrate (78), the connecting substrate (78) is connected to the fixed support (75) through the compression spring (76) and the telescopic guide column (77), and the fixed support (75) is arranged on the vibration ash shaking base (681);

the reverse plug-in rod (79) comprises an outer supporting seat (791), a movable shaft (792) and an inner plug-in piece (793), wherein the inner plug-in piece (793) is inserted into the first deflector rod (71) and the second deflector rod (72) and the inner plug-in piece (793) is connected onto the outer supporting seat (791) through the movable shaft (792), and the outer supporting seat (791) is mounted on the connecting substrate (78).

2. A pulse bag house dust collector with a vibrating dust hopper structure according to claim 1, characterized in that one end of the buffer spring (69) and the telescopic guide rod (610) are connected to the vibrating dust shaking base (681), and the other end of the buffer spring (69) and the telescopic guide rod (610) are connected to the vibrating dust shaking support (61).

3. A pulse bag filter with a vibrating hopper structure as claimed in claim 2, characterized in that the side of the vibrating ash shaking hammer head (682) is provided with a limit guide groove for the linkage turning rod (74) to be inserted into or turned out.

4. A method of removing dust from a pulse bag house having a vibrating hopper construction as claimed in claims 1-3, comprising the steps of:

s1: the driving motor (62) is started and drives the driving screw rod (63) to rotate, and the driving screw rod (63) is connected with the driven screw rod (65) through the transmission belt (64) and the belt pulley, so that the driving screw rod (63) can rotate to drive the transmission belt (64) and the driven screw rod (65) to rotate along with the driving screw rod;

s2: the driving screw rod (63) and the driven screw rod (65) drive the traction sliding plate (66) to transversely move along with the rotation process, the traction sliding plate (66) moves to drive the traction connecting rod (67) and the vibration ash shaking component (68) to transversely move along with the rotation process, the vibration ash shaking component (68) continuously hammers the ash bucket (5) under the traction and guide actions of the buffer spring (69) and the telescopic guide rod (610), and dust attached to the inner wall of the ash bucket (5) shakes off in a vibration mode.