CN213965699U - Filter element ash handling equipment - Google Patents

Abstract

A filter element ash removal device relates to the field of air purification, including an air purification box, wherein the air purification box comprises two left and right symmetrical purification box plates, the two purification box plates are respectively provided with sealing holes, the air purification box A rotating mechanism is slidably connected in the left sealing hole of the purification box, a filtering mechanism is installed on the rotating mechanism, a propulsion mechanism is slidably connected on the left side of the rotating mechanism, and a vacuum mechanism is installed on the right side of the purification box plate. The utility model can push the filter mechanism to enter the vacuum mechanism to remove dust or return to the working position through the push mechanism. During the push process, the dirty air outlet in the purification box plate is closed by the baffle plate and cannot leak out, no shutdown is required for dust removal, and the continuous workability is good. It will not affect the process and efficiency of the project. The filter mechanism can be driven to rotate in the vacuum mechanism through the rotating mechanism, and the dust accumulated on the filter element is thrown away by centrifugal force, and the dust removal efficiency is high.

Description

Filter element ash handling equipment

Technical Field

The utility model belongs to the technical field of air purification and specifically relates to a filter core ash handling equipment is related to.

Background

With the increasing emphasis of the country on environmental protection and the high requirements of people on the air quality of the living environment, the body shadow of the air purifier cannot be left in various industries and lives at present, the air purifier commonly used in the market at present introduces polluted air into the filter element, the polluted air is filtered by the filter element and then is discharged as clean air, a large amount of dust can be accumulated on the filter element after the filter element is used for a long time, the dust removal effect is greatly influenced, the dust on the filter element needs to be removed and then is continuously used, the dust removal technology of the filter element at present generally uses high-pressure air pulse to strike the filter element, although the dust on the filter element can be removed, the dust on the filter element can fly in the removal process, the air filtration effect is reduced, in addition, most air purifiers need to stop during dust removal, the engineering operation is suspended, the working efficiency is seriously influenced, the dust removal is not thorough, the sealing performance is poor, the filter element replacement also needs to be stopped first, so that the use is very inconvenient and the limitation is large.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the background technology, the utility model discloses a filter element dust removing device, the utility model can push a filter mechanism to enter a vacuum mechanism for dust removal or return to a working position through a pushing mechanism, the dirty air outlet in a purifying box plate is sealed by a baffle disc and can not leak in the pushing process, the machine does not need to be stopped for dust removal, the continuous working performance is good, the process and the efficiency of the engineering can not be influenced, the filter mechanism can be driven to rotate in the vacuum mechanism through a rotating mechanism, the dust accumulated on a filter element is thrown by utilizing centrifugal force, the dust removing efficiency is high, the dust removal is thorough, the dust accumulated on the filter element can be rapidly settled after being separated through the vacuum mechanism, the pollution caused by flying is avoided, meanwhile, the filter element can be prevented from generating static electricity with air friction in the process of rotating dust removal, the dust removing effect is influenced, the scrapped filter mechanism can be conveniently replaced, the operation is simple, the filter mechanism does not need to be replaced after shutdown, and the working efficiency is high.

In order to realize the utility model aims at, the utility model adopts the following technical scheme:

the utility model provides a filter core ash handling equipment, includes air purification case, air purification case includes the purification boxboard that two bilateral symmetry set up, sealed hole has been seted up on two purification boxboards respectively, sliding connection has rotary mechanism in air purification case's the sealed downthehole of left side, the last filtering mechanism of installing of rotary mechanism, rotary mechanism's left side sliding connection has advancing mechanism, vacuum mechanism is installed on the right side of purification boxboard, vacuum mechanism's upper end sealing connection has trades filter core mechanism, vacuum mechanism's lower extreme is equipped with receives grey mechanism.

Advancing mechanism includes the pneumatic flexible pipe, sliding connection has the telescopic link on the pneumatic flexible pipe, the mounting hole has been seted up to the inside of telescopic link, the end of telescopic link is fixed with the fender dish, the centre bore has been seted up at the middle part of fender dish, the side equidistance that the inside of telescopic link is located the mounting hole has been seted up and is no less than eight spouts, sliding connection has the slide on the eight spouts respectively.

Be connected with shift ring and pressure disk on two sealed holes respectively, the centre bore of pressure disk has the pivot through threaded connection, the shift ring is fixed in the pivot through the connecting rod that is no less than four, there is the main shaft of motor left side through the coupling joint of pivot, the outer end equidistance of motor is fixed with and is no less than eight slides.

The filter mechanism comprises a first mounting ring and a second mounting ring, the first mounting ring and the second mounting ring are connected to the moving ring and the pressure plate through buckles respectively, two ends of the filter element are connected between the first mounting ring and the second mounting ring through buckles respectively, and the filter element is in a cylindrical shape with openings at two ends.

The vacuum mechanism comprises a vacuum box, and a sealing opening is formed in the upper end of the vacuum box.

The filter element replacing mechanism comprises a cover plate, the cover plate is connected to the sealing port in a sealing mode, a handle is fixed to the middle of the cover plate, a vacuum tube is fixed to the cover plate, and the vacuum tube is communicated with the space inside the vacuum box.

The ash collecting mechanism comprises an ash collecting bucket which is fixed at the lower end of the vacuum box, the ash collecting bucket is funnel-shaped, and a sealing plate is installed at the lower end of the ash collecting bucket.

Since the technical scheme is used, the utility model discloses following beneficial effect has:

the utility model relates to a filter element dust removing device, can promote the filter mechanism to enter the vacuum mechanism dust removal or get back to the operating position through advancing mechanism, dirty air outlet in the purifying box board is blocked by the fender dish and can not leak in the promotion process, the machine does not need to be shut down for dust removal, the continuous working performance is good, the process and efficiency of the engineering can not be influenced, the filter mechanism can be driven to rotate in the vacuum mechanism through the rotating mechanism, the dust accumulated on the filter element is thrown by utilizing the centrifugal force, the dust removal efficiency is high, the dust removal is thorough, the dust accumulated on the filter element can be rapidly settled after being separated through the vacuum mechanism, the pollution caused by flying is avoided, meanwhile, the filter element can be prevented from generating static electricity with the air friction in the process of rotating dust removal, the dust removal effect is influenced, the scrapped filter mechanism can be conveniently replaced through replacing the filter element mechanism, the operation is simple, the filter mechanism does not need to be replaced without stopping the machine, the working efficiency is high.

Drawings

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

FIG. 2 is a schematic view of the internal three-dimensional structure of the present invention;

fig. 3 is a partial enlarged view of a portion a of fig. 2 according to the present invention.

1. An air purification box; 101. purifying the box board; 102. sealing the hole; 2. a propulsion mechanism; 201. a pneumatic telescopic pipe; 202. a telescopic rod; 3. a rotation mechanism; 301. mounting holes; 302. a catch tray; 303. a central bore; 304. a chute; 305. a motor; 306. a slide plate; 307. a rotating shaft; 308. a connecting rod; 309. a moving ring; 310. a platen; 4. an installation mechanism; 401. a first mounting ring; 402. a second mounting ring; 403. a filter element; 5. a vacuum mechanism; 501. a vacuum box; 502. sealing the opening; 6. a dust collecting mechanism; 601. an ash collecting hopper; 602. a sealing plate; 7. a filter element replacing mechanism; 701. a cover plate; 702. a handle; 703. a vacuum tube.

Detailed Description

The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.

Combine 1~3 of attached drawing a filter core ash handling equipment, including air purification case 1, air purification case 1 includes the purification boxboard 101 that two bilateral symmetry set up, sealed hole 102 has been seted up on two purification boxboards 101 respectively, sliding connection has rotary mechanism 3 in the left side sealed hole 102 of air purification case 1, the last filter equipment 4 of installing of rotary mechanism 3, rotary mechanism 3's left side sliding connection has advancing mechanism 2, vacuum mechanism 5 is installed on the right side of purification boxboard 101, vacuum mechanism 5's upper end sealing connection has trades filter core mechanism 7, vacuum mechanism 5's lower extreme is equipped with receipts ash mechanism 6.

The propelling mechanism 2 comprises a pneumatic telescopic pipe 201, the starting telescopic pipe 201 is fixed on an external fixing part, a telescopic rod 202 is connected to the pneumatic telescopic pipe 201 in a sliding mode, a mounting hole 301 is formed in the telescopic rod 202, a baffle disc 302 is fixed at the tail end of the telescopic rod 202, a central hole 303 is formed in the middle of the baffle disc 302, at least eight sliding grooves 304 are formed in the side face of the mounting hole 301 in the telescopic rod 202 in an equidistant mode, and sliding plates 306 are connected to the eight sliding grooves 304 in a sliding mode respectively.

The two sealing holes 102 are respectively connected with a moving ring 309 and a pressure plate 310, the central hole of the pressure plate 310 is connected with a rotating shaft 307 through threads, the moving ring 309 is fixed on the rotating shaft 307 through not less than four connecting rods 308, the left side of the rotating shaft 307 is connected with a main shaft of a motor 305 through a coupler, and not less than eight sliding plates 306 are fixed at the outer end of the motor 305 at equal intervals.

The filter mechanism 4 includes a first mounting ring 401 and a second mounting ring 402, the first mounting ring 401 and the second mounting ring 402 are respectively connected to the moving ring 309 and the pressure plate 310 by a snap, both ends of the filter element 403 are respectively connected between the first mounting ring 401 and the second mounting ring 402 by a snap, and the filter element 403 is cylindrical with both ends open.

The vacuum mechanism 5 comprises a vacuum box 501, and a sealing port 502 is formed at the upper end of the vacuum box 501.

The filter element replacing mechanism 7 comprises a cover plate 701, the cover plate 701 is connected to the sealing port 502 in a sealing mode, a handle 702 is fixed in the middle of the cover plate 701, a vacuum pipe 703 is fixed on the cover plate 701, and the vacuum pipe 703 is communicated with the space inside the vacuum box 501.

The ash collecting mechanism 6 comprises an ash collecting hopper 601, the ash collecting hopper 601 is fixed at the lower end of the vacuum box 501, the ash collecting hopper 601 is funnel-shaped, and a sealing plate 602 is installed at the lower end of the ash collecting hopper 601.

When the dust removing device for the filter element is used, external dirty air enters the inside of the purification box plate 101 from an air inlet through the compression of a fan on the air purification box, the clean air is discharged from the inside of the purification box plate 101 through a connecting rod 308 after being filtered by the filter element 403, the purification is completed, a large amount of dust is accumulated on the filter element 403 after the filter element 403 is used for a period of time, the dust on the filter element 403 needs to be removed, the pneumatic telescopic pipe 201 drives the telescopic rod 202 to extend, the telescopic rod 202 drives the baffle disc 302 to be in contact with the moving ring 309, the motor 305 just reaches the limit position and moves along with the telescopic rod 202, the baffle disc 302 and the rotating shaft 307 push the connecting rod 308, the moving ring 309 and the pressure plate 310 to move towards the inside of the vacuum box 501, the outlet of the dirty air in the purification box plate 101 is sealed at the filter element 403, the dirty air can only be filtered from other filter elements 403 mounted on the purification box plate 101 and then discharged, and the telescopic rod 202 moves towards the direction of the vacuum box 501 to the limit position, the telescopic rod 202 seals the sealing hole 102 close to the vacuum box 501, the moving ring 309 and the pressure plate 310 are not in contact with other parts, a vacuum machine connected with the vacuum tube 703 is started to pump out air in the vacuum box 501 through the vacuum tube 703, after the vacuum box 501 is in a vacuum state, the motor 305 is started to drive the rotating shaft 307 to rotate at a high speed, the rotating shaft 307 drives the connecting rod 308, the moving ring 309 and the pressure plate 310 to rotate at a high speed, the moving ring 309 and the pressure plate 310 drive the first mounting ring 401, the second mounting ring 402 and the filter element 403 to rotate at a high speed, dust on the filter element 403 is thrown into the vacuum box 501 by the centrifugal force of rotation, the vacuum state in the vacuum box 501 enables dust micro particles to rapidly settle, when more dust is stored in the vacuum box 501, the dust can be taken out by opening the sealing plate 602, after dust removal of the filter element 403 is completed, the pneumatic telescopic tube 201 drives the telescopic rod 202 to move towards the pneumatic telescopic tube 201, the filter element 403 is driven to return to the working position between the two purification box plates 101 in the above manner, the moving ring 309 and the pressure plate 310 are respectively sealed on the two sealing holes 102, the telescopic rod 202 is continuously contracted, the sliding plate 306 on the motor 305 slides on the sliding groove 304, the baffle disc 302 is separated from the moving ring 309, so that the clean air filtered by the filter element 403 can be discharged through the connecting rod 308 and the moving ring 309, after the filter mechanism 4 is used for a long time and is scrapped, the cover plate 701 can be opened through the handle 702 when the filter element 403 enters the vacuum box 501, the pressure plate 310 is screwed down from the rotating shaft 307, and after the filter mechanism 4 is replaced, the pressure plate 310 is screwed down to fix the filter mechanism 4 between the moving ring 309 and the pressure plate.

The present invention is not described in detail in the prior art, and although the present invention has been specifically shown and described in connection with the preferred embodiments, the method and the way of specifically implementing the technical solution are numerous, and only the preferred embodiments of the present invention are described above, but those skilled in the art should understand that the present invention can be variously changed in form and detail without departing from the spirit and scope of the present invention defined by the appended claims, and all of them are the protection scope of the present invention.

Claims (7)

1. A filter element ash removal device, comprising an air purification box (1), characterized in that: the air purification box (1) comprises two left and right symmetrical purification box plates (101), the two purification box plates (101) are respectively provided with sealing holes (102), and a rotary mechanism (3) is slidably connected to the left sealing hole (102) of the air purification box (1), and a filter is installed on the rotary mechanism (3). Mechanism (4), a propulsion mechanism (2) is slidably connected to the left side of the rotating mechanism (3), a vacuum mechanism (5) is installed on the right side of the purification box plate (101), and the vacuum mechanism (5) A filter element replacement mechanism (7) is sealingly connected to the upper end of the vacuum mechanism (5), and a dust collecting mechanism (6) is arranged at the lower end of the vacuum mechanism (5). 2. The filter element dust removal device according to claim 1, wherein the propulsion mechanism (2) comprises a pneumatic telescopic tube (201), and a telescopic rod (202) is slidably connected to the pneumatic telescopic tube (201). A mounting hole (301) is opened inside the telescopic rod (202), a baffle plate (302) is fixed at the end of the telescopic rod (202), and a center hole (303) is opened in the middle of the baffle plate (302). ), the interior of the telescopic rod (202) is located on the side of the installation hole (301) and is provided with no less than eight chutes (304) at equal distances, and slide plates are respectively slidably connected to the eight chutes (304). (306). 3. The filter element ash removal device according to claim 2, wherein the two sealing holes (102) are respectively connected with a moving ring (309) and a pressure plate (310), and the pressure plate (310) A rotating shaft (307) is threadedly connected to the central hole of the rotating shaft (307), the moving ring (309) is fixed on the rotating shaft (307) through no less than four connecting rods (308), and the left side of the rotating shaft (307) is connected to the rotating shaft (307). The shaft is connected with the main shaft of the motor (305), and no less than eight sliding plates (306) are fixed at the outer end of the motor (305) at equal distances. 4. The filter element dust removal device according to claim 1, wherein the filter mechanism (4) comprises a first installation ring (401) and a second installation ring (402), the first installation ring (401) ) and the second mounting ring (402) are respectively connected to the moving ring (309) and the pressure plate (310) by snaps, and both ends of the filter element (403) are respectively connected to the first mounting ring (401) by snaps Between the filter element (403) and the second mounting ring (402), the filter element (403) is cylindrical with open ends. 5 . The filter element dust removal device according to claim 1 , wherein the vacuum mechanism ( 5 ) comprises a vacuum box ( 501 ), and the upper end of the vacuum box ( 501 ) is provided with a sealing port ( 502 ). 6 . 6. The filter element dust removal device according to claim 1, characterized in that: the filter element replacement mechanism (7) comprises a cover plate (701), and the cover plate (701) is sealingly connected to the sealing port (502), A handle (702) is fixed in the middle of the cover plate (701), a vacuum tube (703) is fixed on the cover plate (701), and the vacuum tube (703) communicates with the space inside the vacuum box (501). 7 . The filter element ash removal device according to claim 1 , wherein the ash collecting mechanism ( 6 ) comprises an ash collecting hopper ( 601 ), and the ash collecting hopper ( 601 ) is fixed on the bottom of the vacuum box ( 501 ). 8 . At the lower end, the shape of the ash collecting hopper (601) is a funnel shape, and a sealing plate (602) is installed on the lower end of the ash collecting hopper (601).

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