CN213668436U - Filter element dust remover ash discharging device - Google Patents

Abstract

A filter element dust remover ash discharging device relates to the field of air purification, wherein an ash hopper is funnel-shaped, a sealing mechanism is fixed at the lower end of the ash hopper, the sealing mechanism comprises a sealing cylinder, the sealing cylinder is formed at the lower end of the ash hopper, an outer fixed shaft is fixed at the outer part of one end of the sealing cylinder, and a rotating rod is rotatably connected at the outer part of the other end of the sealing cylinder; the utility model discloses an it utilizes magnetic force to separate empty transmission to advance grey contactless drive mechanism and stirring contactless drive mechanism, guarantee the integrative nature and the leakproofness of a sealed section of thick bamboo and through going out grey mechanism of intaking to a sealed section of thick bamboo injected water totally sealed, avoid leaking the grey phenomenon and taking place in device operation process, avoid causing the pollution to the environment, air purification is effectual, can cut off the contact with the ash bucket when carrying out the ash removal operation through advancing grey mechanism, can operate at the filter during operation, adapt to various operating conditions.

Description

Filter element dust remover ash discharging device

Technical Field

The utility model belongs to the technical field of air purification and specifically relates to a filter core dust remover ash discharging device is related to.

Background

Along with the emphasis of the country on environmental protection and the increasing requirements of people on living environment and air quality, the filter element type air purifier in various aspects of industry and life is more and more widely used at present, a filter element dust remover adsorbs and accumulates a lot of dust on a filter element after being used for a period of time, the dust falls into a dust hopper after being cleaned by a special device, the dust collected in the dust hopper needs to be cleaned when exceeding a certain amount, the filter element purifier on the market at present mainly adopts a dust discharge valve to discharge dust, the dust discharge valve is provided with pores, the dust is very fine, dust is easy to leak under the working environment that the air pressure in the dust hopper is higher than the external air pressure, the environment is seriously polluted, in addition, the dust discharge is carried out under the condition that the machine stops running, the dust remover is not allowed to stop working in some occasions, the engineering progress is greatly influenced, the limitation is large, and in the normal dust discharge process when the machine is stopped, the dust is easy to float secondarily, the dust is very inconvenient to discharge, and the dust is easy to float and spill after being taken out and is not easy to process.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the background art, the utility model discloses an ash discharging device of a filter element dust remover, which utilizes magnetic force to separate transmission through an ash inlet non-contact transmission mechanism and a stirring non-contact transmission mechanism to ensure the integrity and the tightness of a sealing cylinder and completely seal the sealing cylinder by injecting water into the sealing cylinder through an ash outlet water inlet mechanism, thereby avoiding the ash leakage phenomenon in the operation process of the device, avoiding the pollution to the environment, having good air purification effect, being capable of separating the connection with an ash hopper during the ash removing operation through the ash inlet mechanism, can be operated when the filter works, is suitable for various working conditions, can inject water into the sealing cylinder through the ash discharging and water feeding mechanism, can stir the mixture of dust and water through stirring contactless drive mechanism, be the mud form behind the play ash, the dust can not the secondary spill, and it is convenient to go out the ash, easily handles.

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

the utility model provides a filter core dust remover ash discharging device, includes the ash bucket, the ash bucket is the infundibulate, the lower extreme of ash bucket is fixed with sealing mechanism, sealing mechanism is including a sealed section of thick bamboo, a sealed section of thick bamboo shaping is in the lower extreme of ash bucket, the one end external fixation of a sealed section of thick bamboo has the outer fixed axle, the other end external rotation of a sealed section of thick bamboo is connected with the commentaries on classics stick, install the observation window on the sealed section of thick bamboo, the lower extreme of ash bucket is through advancing ash chute and sealed section of thick bamboo intercommunication, sealing mechanism's one side is installed into ash contactless drive mechanism, stirring contactless drive mechanism is installed to sealing mechanism's opposite side, the intercommunication has ash-out water inlet mechanism in the sealing mechanism, the internal rotation of a sealed section of thick bamboo is connected with rabbling mechanism.

The ash discharging and water feeding mechanism comprises an upwarp pipe, the upwarp pipe is fixed on the sealing barrel, a lower bent pipe is communicated with the upwarp pipe, the upwarp pipe and the lower bent pipe are both arc-shaped, the highest point of the upwarp pipe and the highest point of the lower bent pipe are higher than that of the sealing barrel, the radian of the upwarp pipe upwarps, and the radian of the lower bent pipe bends downwards.

It includes first baffle to advance grey contactless drive mechanism, first baffle is fixed on outer fixed axle, the side that outer fixed axle is located first baffle and keeps away from a sealed cylinder rotates and is connected with first bar magnet, the upper end of first bar magnet is connected with the mounting panel through reset spring, the mounting panel is fixed on a sealed cylinder, the side of first bar magnet is fixed with the handle through the connecting plate, the inside one end that is close to first bar magnet of sealed cylinder is fixed with interior fixed axle with the position of axle center with the outer fixed axle, be fixed with the second baffle on the interior fixed axle, the one side that lies in the second baffle on the interior fixed axle and keeps away from first baffle rotates and is connected with second bar magnet, the other end of interior fixed axle is fixed with the connector.

The stirring non-contact transmission mechanism comprises a motor, a main shaft of the motor is connected to a rotating rod through a coupling, a third baffle is fixed to the rotating rod, and one side, far away from the sealing barrel, of the third baffle on the rotating rod is connected with a third bar magnet through a key.

The rabbling mechanism includes the pivot, the one end that the inside of a sealed section of thick bamboo is close to the motor rotates with the position of commentaries on classics excellent with the axle center and is connected with the pivot, the other end of pivot passes through the bearing and connects on the connector, the one end that the pivot is close to the motor is fixed with the fourth baffle, it has fourth bar magnet to lie in the one side that the motor was kept away from to the fourth baffle in the pivot through the key connection, the side of pivot is fixed with the spiral plate.

The ash feeding mechanism comprises an arc-shaped plate, the arc-shaped plate is arc-shaped, one end of the arc-shaped plate is fixed on the second bar magnet through a connecting block, the other end of the arc-shaped plate is fixed on a lantern ring through a connecting rod, and the lantern ring is connected to the rotating shaft through a bearing.

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

a filter core dust remover goes out grey device, utilize magnetic force to separate empty transmission through advancing grey contactless drive mechanism and stirring contactless drive mechanism, guarantee the wholeness and the leakproofness of a sealed section of thick bamboo and advance water mechanism through going out the ash and seal a sealed section of thick bamboo completely to sealed section of thick bamboo injected water, avoid taking place at device operation in-process ash leakage phenomenon, avoid causing the pollution to the environment, air purification is effectual, can cut off the contact with the ash fill when carrying out the ash removal operation through advancing grey mechanism, can operate at the filter during operation, adapt to various operating conditions, advance water injection in the water mechanism can toward a sealed section of thick bamboo through going out the ash, can stir the mixture of dust and water through stirring contactless drive mechanism, go out the ash after for the mud form, the dust can not the secondary waft, it is convenient to go out the ash, easy to handle.

Drawings

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

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

FIG. 3 is a schematic view of the bottom view of the present invention;

fig. 4 is a perspective view of the internal structure of the present invention;

fig. 5 is a schematic half-sectional perspective view of the internal structure of the present invention.

1. An ash hopper; 101. an ash inlet groove; 2. a sealing mechanism; 201. a sealing cylinder; 202. an outer fixed shaft; 203. rotating the rod; 204. an observation window; 3. ash feeding non-contact transmission mechanism; 301. a first bar magnet; 302. mounting a plate; 303. a return spring; 304. a connecting plate; 305. a handle; 306. an inner fixed shaft; 307. a first baffle plate; 308. a second baffle; 309. a second bar magnet; 310. a connector; 4. a stirring non-contact transmission mechanism; 401. a motor; 402. a third bar magnet; 403. a third baffle plate; 404. a fourth bar-shaped magnet; 405. a fourth baffle; 5. a dust outlet and water inlet mechanism; 501. raising the pipe; 502. a lower bent pipe; 6. an ash feeding mechanism; 601. an arc-shaped plate; 602. connecting blocks; 603. a connecting rod; 604. a collar; 7. a stirring mechanism; 701. a rotating shaft; 702. a spiral plate.

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 the filter core dust remover ash discharging device of fig. 1~5, including ash bucket 1, ash bucket 1 is the infundibulate, the lower extreme of ash bucket 1 is fixed with sealing mechanism 2, sealing mechanism 2 is including sealed section of thick bamboo 201, sealed section of thick bamboo 201 is formed in the lower extreme of ash bucket 1, the one end external fixation of sealed section of thick bamboo 201 has outer fixed axle 202, the other end external rotation of sealed section of thick bamboo 201 is connected with commentaries on classics stick 203, install observation window 204 on the sealed section of thick bamboo 201, the lower extreme of ash bucket 1 is through advancing ash groove 101 and sealed section of thick bamboo 201 intercommunication, ash contactless drive mechanism 3 is installed into to one side of sealing mechanism 2, stirring contactless drive mechanism 4 is installed to the opposite side of sealing mechanism 2, the intercommunication has ash outlet water inlet mechanism 5 on the sealing mechanism 2, the internal rotation of sealed section of thick bamboo 201 is connected with rabbling mechanism 7, it is connected.

The ash discharging and water feeding mechanism 5 comprises an upward-warping pipe 501, the upward-warping pipe 501 is fixed on the sealing cylinder 201, the upward-warping pipe 501 is communicated with a lower bent pipe 502, the upward-warping pipe 501 and the lower bent pipe 502 are both arc-shaped, semi-solid plaster can pass through the upward-warping pipe 501 and the lower bent pipe 502 conveniently, the highest point of the upward-warping pipe 501 and the highest point of the lower bent pipe 502 are higher than that of the sealing cylinder 201, the upward-warping pipe 501 can be sealed when water is injected into the upward-warping pipe 501, internal gas can leak only when the internal pressure of the upward-warping pipe 501 can extrude the water out of the ash discharging and water feeding mechanism 50 into the ash non-contact transmission mechanism 3, the radian of the upward-warping pipe 501 is upward warped, the radian of the lower bent pipe 502 is downward, and the opening of the lower bent pipe 502 is downward.

The ash-entering non-contact transmission mechanism 3 comprises a first baffle plate 307, the first baffle plate 307 is fixed on an outer fixed shaft 202, the first baffle plate 307 can prevent a first bar-shaped magnet 301 from contacting with a sealing cylinder 201 to increase friction force under the action of magnetic force, the outer fixed shaft 202 is positioned on the side surface of the first baffle plate 307 far away from the sealing cylinder 201 and is rotatably connected with the first bar-shaped magnet 301, so that the first bar-shaped magnet 301 can rotate on the outer fixed shaft 202 and drive a second bar-shaped magnet 309 to rotate through magnetic force to complete specific actions, the upper end of the first bar-shaped magnet 301 is connected with a mounting plate 302 through a return spring 303, the mounting plate 302 is fixed on the sealing cylinder 201, the side surface of the first bar-shaped magnet 301 is fixed with a handle 305 through a connecting plate 304, an inner fixed shaft 306 is fixed at the coaxial position of one end of the first bar-shaped magnet 301 in the sealing cylinder 201 and, a second bar magnet 309 is rotatably connected to one side of the second baffle 308 away from the first baffle 307 on the inner fixed shaft 306, and a connector 310 is fixed to the other end of the inner fixed shaft 306.

The stirring non-contact transmission mechanism 4 comprises a motor 401, a main shaft of the motor 401 is connected to a rotating rod 203 through a coupler, a third baffle plate 403 is fixed on the rotating rod 203, one side, away from the sealing cylinder 201, of the rotating rod 203, located on the third baffle plate 403, is connected with a third bar magnet 402 through a key, and the third bar magnet 402 can rotate together with the rotating rod 203 and drives a fourth bar magnet 404 to rotate through magnetic force.

The stirring mechanism 7 comprises a rotating shaft 701, one end of the inside of the sealing cylinder 201, which is close to the motor 401, is rotatably connected with the rotating shaft 701 at the same axial center position with the rotating rod 203, the other end of the rotating shaft 701 is connected with the connector 310 through a bearing, one end of the rotating shaft 701, which is close to the motor 401, is fixed with a fourth baffle 405, one side of the rotating shaft 701, which is located on the fourth baffle 405 and is far away from the motor 401, is connected with a fourth bar magnet 404 through a key, and the side of the rotating shaft 701 is fixed.

The ash inlet mechanism 6 comprises an arc-shaped plate 601, the arc-shaped plate 601 is arc-shaped and can block the ash inlet groove 102 to prevent dust in the ash hopper 101 from falling down, one end of the arc-shaped plate 601 is fixed on the second bar magnet 309 through a connecting block 602, the other end of the arc-shaped plate 601 is fixed on a lantern ring 604 through a connecting rod 603, and the lantern ring 604 is connected on the rotating shaft 701 through a bearing.

When the dust discharging device of the filter element dust remover is used, a water pipe is inserted into the lower bent pipe 502 to inject water into the sealing cylinder 201 when the dust discharging device is used, the sealing cylinder 201 is completely and integrally sealed, after water is injected into the sealing cylinder 201, the water can seal the upwarping pipe 501 to prevent gas from passing through, so that gas in the filter element dust remover cannot leak out, the water is observed through the observation window 204 to reach a proper position and then stops, the first bar-shaped magnet 301 is in a vertical state under the action of the reset spring 303, the second bar-shaped magnet 309 is also in a vertical state through magnetic force, the arc-shaped plate 601 connected with the second bar-shaped magnet 309 through the connecting block 602 is also at the uppermost position to block the dust inlet groove 101 at the lower end of the dust hopper 101, dust falls into the dust hopper 101 after the filter element dust remover removes dust from the filter element, due to the blocking of the arc-shaped plate 601, dust cannot enter the sealing cylinder 201 through the dust inlet groove 101, and when the dust, a worker holds the handle 305 with a hand to rotate the first bar magnet 301 on the outer fixing shaft 202 for a certain angle, the first baffle 307 drives the second bar magnet 309 to rotate on the inner fixing shaft 306 for the same angle through magnetic force, the second bar magnet 309 drives the arc plate 601 to rotate for a certain angle by taking the central axis of the inner fixing shaft 306 as the center through the connecting block 602, the arc plate 601 rotates to open the ash inlet groove 101, dust stored in the ash hopper 101 falls into the sealing cylinder 201 under the action of gravity to be mixed with water in the sealing cylinder 201, then the handle 305 is released, the first bar magnet 301 is pulled back to the vertical position by the reset spring 303, the arc plate 601 returns to the vertical position in the above manner, the ash inlet groove 101 is blocked and the sealing cylinder 201 is sealed again, the motor 401 drives the third bar magnet 402 to rotate through the rotating rod 203, the third bar magnet 402 drives the fourth bar magnet 404 and the rotating shaft 701 to rotate through magnetic force, the rotating shaft 701 drives the spiral plate 702 to rotate in the sealing cylinder 201, the motor 401 rotates forward and backward alternately, the spiral plate 702 also rotates forward and backward alternately to fully stir the mixture of dust and water, after a period of time, the dust and water are mixed into a semisolid state, the motor 401 rotates towards one direction to extrude the semisolid mixture towards the upward tilting pipe 501, along with the continuous rotation of the spiral plate 702, the pressure of the semisolid mixture near the upward tilting pipe 501 is continuously increased, the sealing cylinder 201 is discharged through the upward tilting pipe 501 and the lower bent pipe 502 and is connected by an external container, the water is injected into the sealing cylinder 201 again when the semisolid matter is completely discharged from the sealing cylinder 201, and the operation is repeated when the ash is required to be discharged.

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 (6)

1. The utility model provides a filter core dust remover goes out grey device, includes ash bucket (1), characterized by: the ash bucket (1) is funnel-shaped, a sealing mechanism (2) is fixed at the lower end of the ash bucket (1), the sealing mechanism (2) comprises a sealing barrel (201), the sealing barrel (201) is formed at the lower end of the ash bucket (1), an outer fixed shaft (202) is fixed at the outer part of one end of the sealing barrel (201), a rotating rod (203) is rotatably connected at the outer part of the other end of the sealing barrel (201), an observation window (204) is installed on the sealing barrel (201), the lower end of the ash bucket (1) is communicated with the sealing barrel (201) through an ash inlet groove (101), an ash inlet non-contact transmission mechanism (3) is installed at one side of the sealing mechanism (2), a stirring non-contact transmission mechanism (4) is installed at the other side of the sealing mechanism (2), an ash outlet and water inlet mechanism (5) is communicated with the sealing mechanism (2), and a stirring mechanism (7) is rotatably connected inside the sealing barrel (201), and the stirring mechanism (7) is rotatably connected with an ash feeding mechanism (6).

2. The filter element precipitator dust removal device of claim 1, wherein: the ash discharging and water feeding mechanism (5) comprises an upwarp pipe (501), the upwarp pipe (501) is fixed on the sealing cylinder (201), the upwarp pipe (501) is communicated with a lower bent pipe (502), the upwarp pipe (501) and the lower bent pipe (502) are both arc-shaped, the highest point of the upwarp pipe (501) and the highest point of the lower bent pipe (502) are higher than that of the sealing cylinder (201), the radian of the upwarp pipe (501) is upwarp, and the radian of the lower bent pipe (502) is downward bent.

3. The filter element precipitator dust removal device of claim 1, wherein: the ash-entering non-contact transmission mechanism (3) comprises a first baffle (307), the first baffle (307) is fixed on an outer fixed shaft (202), the outer fixed shaft (202) is positioned on the side surface, far away from the sealing cylinder (201), of the first baffle (307) and is rotatably connected with a first bar-shaped magnet (301), the upper end of the first bar-shaped magnet (301) is connected with a mounting plate (302) through a reset spring (303), the mounting plate (302) is fixed on the sealing cylinder (201), the side surface of the first bar-shaped magnet (301) is fixedly provided with a handle (305) through a connecting plate (304), one end, close to the first bar-shaped magnet (301), inside the sealing cylinder (201) and the outer fixed shaft (202) are coaxially fixed with an inner fixed shaft (306), a second baffle (308) is fixed on the inner fixed shaft (306), and a second bar-shaped magnet (309) is rotatably connected on the side, far away from the first baffle (307), of the second baffle (308) on the inner fixed shaft (306), the other end of the inner fixed shaft (306) is fixed with a connector (310).

4. The filter element precipitator dust removal device of claim 1, wherein: stirring contactless drive mechanism (4) include motor (401), the main shaft of motor (401) passes through the coupling joint and changes stick (203) on, it is fixed with third baffle (403) on stick (203) to change, it has third bar magnet (402) to lie in third baffle (403) on stick (203) and keep away from one side of sealing cylinder (201) through the key connection.

5. The filter element precipitator dust removal device of claim 3, wherein: rabbling mechanism (7) are including pivot (701), the inside one end that is close to motor (401) of a sealed section of thick bamboo (201) rotates with the position of commentaries on classics stick (203) with the axle center and is connected with pivot (701), the other end of pivot (701) passes through the bearing and connects on connector (310), the one end that pivot (701) are close to motor (401) is fixed with fourth baffle (405), it has fourth bar magnet (404) to lie in fourth baffle (405) on pivot (701) and keep away from one side of motor (401) through the key connection, the side of pivot (701) is fixed with spiral plate (702).

6. The filter element precipitator dust removal device of claim 5, wherein: advance grey mechanism (6) and include curved plate (601), curved plate (601) are arc, the one end of curved plate (601) is passed through connecting block (602) and is fixed on second bar magnet (309), the other end of curved plate (601) passes through connecting rod (603) and fixes on lantern ring (604), lantern ring (604) pass through the bearing and connect on pivot (701).

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