CN211613072U - Electrostatic precipitator formula hot blast blowpipe apparatus and defeated wind equipment thereof - Google Patents

Abstract

The utility model provides an electrostatic precipitator formula hot blast blowpipe apparatus and defeated wind equipment thereof, electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can close baffle mechanism, can close the air intake of baffle mechanism assembly in the main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilize electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, do not let the dust get into inside the air inlet device, the dust that the wind that sees off after electrostatic precipitator mechanism handles is less, blow and can not produce sticky sense on the human body, the comfort level that improves the user and use, can close baffle mechanism and close inlet air duct when air inlet device dormancy, avoid inside the dust gets into the air inlet device, guarantee the inside normal working property of air inlet device, still clean electrostatic precipitator mechanism after the long-term work through cleaning device, guarantee electrostatic precipitator mechanism's working property.

Description

Electrostatic precipitator formula hot blast blowpipe apparatus and defeated wind equipment thereof

Technical Field

The utility model relates to an air inlet equipment technical field especially relates to an electrostatic precipitator formula hot blast blowpipe apparatus and have device's defeated wind equipment.

Background

The existing air inlet equipment can purify the air flow again and is popular among people. Along with the more exquisite, comfortable pursuit of people to the life, the air inlet equipment that only heats the air current, the cooling, accelerate etc. can not satisfy people to the requirement of air inlet equipment, traditional air inlet equipment is when carrying out the reworking to the air current, foreign matter such as dust that does not carry in the air current is detached, the wind that sends out after air inlet equipment handles still has a large amount of dust, can produce sticky sense on blowing the people's health, influence user's use and experience, moreover, when the air current that has the dust gets into air inlet equipment inside and handles, long-term work's air inlet equipment can deposit a large amount of dust inside air inlet equipment, influence air inlet equipment's normal work.

Therefore, it is necessary to provide an electrostatic precipitation type air intake device and an air delivery device having the same to overcome the deficiencies of the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrostatic precipitator formula hot blast blowpipe apparatus, through assembling electrostatic precipitation mechanism in inlet air duct position department, utilize the electrostatic absorption principle to remove dust to the inside air current that gets into hot blast blowpipe apparatus, make the air current that gets into hot blast blowpipe apparatus not have the dust, guarantee the inside normal working property of hot blast blowpipe apparatus, still improve the comfort level that the user used, and be provided with cleaning device and can clean the electrostatic precipitator mechanism of long-term work, guarantee the adsorptivity of electrostatic precipitation mechanism to the dust.

The above object of the present invention is achieved by the following technical measures.

The utility model provides an electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can close baffle mechanism, can close baffle mechanism and assemble in the air intake of main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilizes electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the air inlet device, can close baffle mechanism and can close inlet air duct when air inlet device dormancy, avoids inside the dust gets into the air inlet device, the inside normal working property of guarantee air inlet device.

Preferably, above-mentioned electrostatic precipitator mechanism is provided with electrostatic precipitator mechanism main part and multiunit grid, and multiunit grid assembly is in electrostatic precipitator mechanism main part, has the clearance between two sets of adjacent grids, forms the air inlet face by the clearance between grid and the grid. The arrangement of the multiple groups of grids has larger air inlet area in the same space, and the resistance of the air flow to the electrostatic dust removal type air inlet device is also reduced.

Preferably, the grid is a linear strip grid. A linear air inlet surface is formed between the linear strip-shaped gratings, so that air flow can conveniently enter the air inlet device.

Preferably, the multiple groups of grids are arranged in parallel at equal intervals. Or may be arranged in different intervals, and the arrangement mode of the grating may be selected according to the actual situation.

Preferably, the air inlet surface has a plurality of directions. The air inlet surfaces in multiple directions can enable the air inlet surfaces to have larger air inlet areas in the same space.

Preferably, the edge line of the windward side of the grid is defined as an outer edge line, and the outer edge line of the grid is a plurality of straight line segments.

Preferably, the device is further provided with a baffle driving mechanism, one end of the baffle driving mechanism is fixedly assembled with the main body, and the other end of the baffle driving mechanism is connected with the closable baffle mechanism. The closable flap is driven to open or close by the flap driving structure.

Preferably, the baffle driving mechanism comprises a driving motor, a driving rod, a first connecting rod and a second connecting rod, the driving motor is fixedly assembled on the main body, the driving rod is fixedly connected with the driving motor, the first connecting rod is movably connected with the driving rod, the first connecting rod is movably connected with the second connecting rod, and the second connecting rod is movably connected with the closable baffle mechanism.

When the baffle driving mechanism works, the driving motor applies certain force to the driving rod to enable the driving rod to rotate, the driving rod drives the first connecting rod to rotate, one end, far away from the driving rod, of the first connecting rod drives the second connecting rod to do stretching movement, the closable baffle mechanism movably connected with the second connecting rod moves towards one side, far away from the main body, until the first connecting rod and the second connecting rod are in linear connection, the closable baffle mechanism is separated from the main body, the air inlet channel is opened, and the air inlet device starts to carry out a clean air working condition.

At net wind operating mode later stage, driving motor applys a reverse power to the actuating lever, makes actuating lever antiport, and the actuating lever drives head rod antiport, and the one end that the actuating lever was kept away from to the head rod drives the second connecting rod and is the shrink motion, moves towards the one side that is close to the main part with the closable baffle mechanism of second connecting rod swing joint, and until closable baffle mechanism closely laminates with the main part, inlet air channel closes, and air inlet unit gets into the dormancy.

Preferably, the main body is provided with a column hole, the column hole is fixedly assembled in the main body, the closable baffle mechanism is provided with a sleeve column matched with the column hole, the sleeve column is fixed on the closable baffle mechanism, and the sleeve column is movably assembled with the column hole.

Preferably, the main body is provided with a sleeve column which is fixedly assembled on the main body, the closable baffle mechanism is provided with a column hole matched with the sleeve column, the column hole is fixed on the closable baffle mechanism, and the sleeve column is movably assembled with the column hole. The assembly of the sleeve columns and the column holes can enable the wind shield to be more stable in the movement process, the wind shield can be kept at a constant speed in the movement process of opening or closing, and the stability of the air inlet mechanism is improved.

Preferably, a cleaning device for cleaning the electrostatic dust removing mechanism is further provided, and the cleaning device is mounted on the main body.

Preferably, the cleaning device includes a cleaning device body and a brush portion to be attached to a gap between the grids of the electrostatic precipitator, and the brush portion is attached to the cleaning device body. The dust brushing part can brush off dust attached to gaps among grids of the electrostatic dust removal mechanism, so that the normal work of the electrostatic dust removal type air inlet device is ensured.

Preferably, above-mentioned cleaning device still is provided with clean drive assembly, and clean drive assembly drive cleaning device main part and brush grey portion global movement clean electrostatic precipitator mechanism that has a large amount of dusts to adhering to, guarantee electrostatic precipitator mechanism's clean wind performance.

Preferably, the cleaning device is further provided with a rail support, the rail support is provided with a sliding rail, the cleaning device body is assembled on the sliding rail in a sliding mode, the cleaning driving assembly is fixedly arranged relative to the rail support, the driving end of the cleaning driving assembly is fixedly connected with the cleaning device body, and the connecting rod end of the cleaning driving assembly is connected with the rail support.

The utility model discloses an electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can closes baffle mechanism, can close baffle mechanism and assemble in the air intake of main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilizes electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the air inlet device, can close baffle mechanism and can close inlet air duct when air inlet device dormancy, avoids inside the dust gets into the air inlet device, the inside normal working property of guarantee air inlet device. The dust that the wind that sends out after electrostatic precipitator formula hot blast blowpipe apparatus handles carries is less, blows and can not produce sticky sense on the human body, improves the comfort level that the user used, still cleans the electrostatic precipitator mechanism after long-term work through cleaning device, ensures electrostatic precipitator formula hot blast blowpipe apparatus's working property.

Another object of the utility model is to provide a defeated wind equipment, remove dust through electrostatic precipitator formula hot blast blowpipe apparatus and handle the air current, electrostatic precipitator formula hot blast blowpipe apparatus is through assembling electrostatic precipitation mechanism in inlet air duct position department, utilize the electrostatic absorption principle to remove dust to the inside air current that gets into hot blast blowpipe apparatus, the air current that makes the entering hot blast blowpipe apparatus does not have the dust, the inside normal working property of guarantee hot blast blowpipe apparatus, still improve the comfort level that the user used, and be provided with cleaning device and can clean the electrostatic precipitation mechanism of long-term work, guarantee the adsorptivity of electrostatic precipitation mechanism to the dust.

The above object of the present invention is achieved by the following technical measures.

The utility model provides a defeated wind equipment is provided with an electrostatic precipitator formula hot blast blowpipe apparatus that can carry out dust removal processing to the air current, and its electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can close baffle mechanism, can close the air intake of baffle mechanism assembly in the main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilizes electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the air inlet device, can close baffle mechanism and can close inlet air duct when air inlet device dormancy, avoids inside the dust gets into the air inlet device, the inside normal working property of guarantee air inlet device.

Preferably, above-mentioned electrostatic precipitator mechanism is provided with electrostatic precipitator mechanism main part and multiunit grid, and multiunit grid assembly is in electrostatic precipitator mechanism main part, has the clearance between two sets of adjacent grids, forms the air inlet face by the clearance between grid and the grid. The arrangement of the multiple groups of grids has larger air inlet area in the same space, and the resistance of the air flow to the electrostatic dust removal type air inlet device is also reduced.

Preferably, the grid is a linear strip grid. A linear air inlet surface is formed between the linear strip-shaped gratings, so that air flow can conveniently enter the air inlet device.

Preferably, the multiple groups of grids are arranged in parallel at equal intervals. Or may be arranged in different intervals, and the arrangement mode of the grating may be selected according to the actual situation.

Preferably, the air inlet surface has a plurality of directions. The air inlet surfaces in multiple directions can enable the air inlet surfaces to have larger air inlet areas in the same space.

Preferably, the edge line of the windward side of the grid is defined as an outer edge line, and the outer edge line of the grid is a plurality of straight line segments.

Preferably, the device is further provided with a baffle driving mechanism, one end of the baffle driving mechanism is fixedly assembled with the main body, and the other end of the baffle driving mechanism is connected with the closable baffle mechanism. The closable flap is driven to open or close by the flap driving structure.

Preferably, the baffle driving mechanism comprises a driving motor, a driving rod, a first connecting rod and a second connecting rod, the driving motor is fixedly assembled on the main body, the driving rod is fixedly connected with the driving motor, the first connecting rod is movably connected with the driving rod, the first connecting rod is movably connected with the second connecting rod, and the second connecting rod is movably connected with the closable baffle mechanism.

When the baffle driving mechanism works, the driving motor applies certain force to the driving rod to enable the driving rod to rotate, the driving rod drives the first connecting rod to rotate, one end, far away from the driving rod, of the first connecting rod drives the second connecting rod to do stretching movement, the closable baffle mechanism movably connected with the second connecting rod moves towards one side, far away from the main body, until the first connecting rod and the second connecting rod are in linear connection, the closable baffle mechanism is separated from the main body, the air inlet channel is opened, and the air inlet device starts to carry out a clean air working condition.

At net wind operating mode later stage, driving motor applys a reverse power to the actuating lever, makes actuating lever antiport, and the actuating lever drives head rod antiport, and the one end that the actuating lever was kept away from to the head rod drives the second connecting rod and is the shrink motion, moves towards the one side that is close to the main part with the closable baffle mechanism of second connecting rod swing joint, and until closable baffle mechanism closely laminates with the main part, inlet air channel closes, and air inlet unit gets into the dormancy.

Preferably, the main body is provided with a column hole, the column hole is fixedly assembled in the main body, the closable baffle mechanism is provided with a sleeve column matched with the column hole, the sleeve column is fixed on the closable baffle mechanism, and the sleeve column is movably assembled with the column hole.

Preferably, the main body is provided with a sleeve column which is fixedly assembled on the main body, the closable baffle mechanism is provided with a column hole matched with the sleeve column, the column hole is fixed on the closable baffle mechanism, and the sleeve column is movably assembled with the column hole. The assembly of the sleeve columns and the column holes can enable the wind shield to be more stable in the movement process, the wind shield can be kept at a constant speed in the movement process of opening or closing, and the stability of the air inlet mechanism is improved.

Preferably, a cleaning device for cleaning the electrostatic dust removing mechanism is further provided, and the cleaning device is mounted on the main body.

Preferably, the cleaning device includes a cleaning device body and a brush portion to be attached to a gap between the grids of the electrostatic precipitator, and the brush portion is attached to the cleaning device body. The dust brushing part can brush off dust attached to gaps among grids of the electrostatic dust removal mechanism, so that the normal work of the electrostatic dust removal type air inlet device is ensured.

Preferably, above-mentioned cleaning device still is provided with clean drive assembly, and clean drive assembly drive cleaning device main part and brush grey portion global movement clean electrostatic precipitator mechanism that has a large amount of dusts to adhering to, guarantee electrostatic precipitator mechanism's clean wind performance.

Preferably, the cleaning device is further provided with a rail support, the rail support is provided with a sliding rail, the cleaning device body is assembled on the sliding rail in a sliding mode, the cleaning driving assembly is fixedly arranged relative to the rail support, the driving end of the cleaning driving assembly is fixedly connected with the cleaning device body, and the connecting rod end of the cleaning driving assembly is connected with the rail support.

Preferably, the air delivery device is any one of an air conditioner, a tower fan, a fan and an air purifier.

The utility model discloses a defeated wind equipment is provided with the electrostatic precipitator formula hot blast blowpipe apparatus that can carry out dust removal processing to the air current, and electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can closes baffle mechanism, can close baffle mechanism and assemble in the air intake of main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilizes electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the air inlet device, can close baffle mechanism and can close inlet air duct when air inlet device dormancy, avoids inside the dust gets into the air inlet device, the inside normal working property of guarantee air inlet device. The dust carried by the wind sent out after being processed by the electrostatic dust removal type air inlet device is less, the wind does not generate sticky feeling when being blown to a human body, the comfort level of a user is improved, and the electrostatic dust removal mechanism after long-term working is cleaned by the cleaning device, so that the working performance of the wind conveying equipment is guaranteed.

Drawings

The present invention will be further described with reference to the accompanying drawings, but the contents in the drawings do not constitute any limitation to the present invention.

Fig. 1 is a schematic structural diagram of an electrostatic dust removal type air inlet device.

Fig. 2 is a schematic structural view of an electrostatic dust removal mechanism assembled with a main body.

FIG. 3 is a schematic cross-sectional view of an electrostatic precipitation type air intake device in the T-T direction.

Fig. 4 is a schematic view of a connection structure of the shutter drive mechanism.

Fig. 5 is a schematic diagram of the air inlet surface of the electrostatic dust removal mechanism.

Fig. 6 is a schematic view of a structure in which the cleaning apparatus is assembled with the main body.

In fig. 1 to 6, there are included:

a main body 100,

A column hole 110,

A closable flap mechanism 200,

A sleeve column 210,

A baffle plate driving mechanism 300,

A driving motor 310, a driving rod 320, a first connecting rod 330, a second connecting rod 340,

An electrostatic dust removing mechanism 400,

A main body 410 of the electrostatic precipitation mechanism, a grid 420,

A cleaning device 500,

A cleaning device main body 510, a dust brushing part 520, a cleaning driving component 530, a track bracket 540,

A slide rail 541.

Detailed Description

The present invention will be further illustrated with reference to the following examples.

Example 1.

An electrostatic precipitation type air intake device, as shown in fig. 1 to 4, is provided with a main body 100, an electrostatic precipitation mechanism 400 and a closable baffle mechanism 200, wherein the closable baffle mechanism 200 is assembled at an air inlet of the main body 100, and the electrostatic precipitation mechanism 400 is assembled in an air intake channel of the main body 100. Electrostatic precipitator mechanism 400 can remove dust to the air current that gets into inlet air duct, utilizes the electrostatic adsorption effect to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the hot blast blowpipe apparatus, can close baffle mechanism 200 and can close inlet air duct when hot blast blowpipe apparatus dormancy, avoids inside the dust gets into hot blast blowpipe apparatus, the inside normal working property of guarantee hot blast blowpipe apparatus.

The electrostatic dust removal mechanism 400 of this embodiment is provided with an electrostatic dust removal mechanism main body 410 and a plurality of sets of grids 420, and the plurality of sets of grids 420 are assembled in the electrostatic dust removal mechanism main body 410, and there is a clearance between two adjacent sets of grids 420, and the clearance between grid 420 and the grid 420 forms the air inlet face.

The grill 420 of the present embodiment is provided as a linear-type bar grill 420. The linear air inlet surfaces are formed between the linear strip-shaped grilles 420, so that air flow can enter the air inlet device conveniently.

The multiple sets of grids 420 of this embodiment are arranged in parallel at equal intervals. Or may be arranged at unequal intervals, and the arrangement of the grating 420 may be selected according to actual conditions.

The grille of the electrostatic precipitator mechanism 400 in this embodiment has a linear air inlet surface, and has only one air inlet surface.

The present embodiment is further provided with a shutter driving mechanism 300, one end of the shutter driving mechanism 300 is fixedly assembled with the main body 100, and the other end of the shutter driving mechanism 300 is connected with the closable shutter mechanism 200. The closable flap is driven to open or close by the flap driving structure.

The flap driving mechanism 300 of the present embodiment includes a driving motor 310, a driving rod 320, a first connecting rod 330 and a second connecting rod 340, the driving motor 310 is fixedly assembled to the main body 100, the driving rod 320 is fixedly connected to the driving motor 310, the first connecting rod 330 is movably connected to the driving rod 320, the first connecting rod 330 is movably connected to the second connecting rod 340, and the second connecting rod 340 is movably connected to the closable flap mechanism 200, as shown in fig. 4.

When the baffle driving mechanism 300 works, the driving motor 310 applies a certain force to the driving rod 320 to rotate the driving rod 320, the driving rod 320 drives the first connecting rod 330 to rotate, one end of the first connecting rod 330, which is far away from the driving rod 320, drives the second connecting rod 340 to do stretching motion, the closable baffle mechanism 200 movably connected with the second connecting rod 340 moves towards one side, which is far away from the main body 100, until the first connecting rod 330 and the second connecting rod 340 are linearly connected, the closable baffle mechanism 200 is separated from the main body 100, the air inlet channel is opened, and the air inlet device starts to perform a wind purifying working condition.

In the later stage of the working condition of the clean wind, the driving motor 310 applies a reverse force to the driving rod 320, so that the driving rod 320 rotates reversely, the driving rod 320 drives the first connecting rod 330 to rotate reversely, one end of the first connecting rod 330, which is far away from the driving rod 320, drives the second connecting rod 340 to do contraction motion, the closable baffle mechanism 200 movably connected with the second connecting rod 340 moves towards one side close to the main body 100 until the closable baffle mechanism 200 is tightly attached to the main body 100, the air inlet channel is closed, and the air inlet device enters the dormant state.

The main body 100 of the present embodiment is provided with a column hole 110, the column hole 110 is fixedly assembled to the main body 100, the closable flap mechanism 200 is provided with a sleeve column 210 matched with the column hole 110, the sleeve column 210 is fixed to the closable flap mechanism 200, and the sleeve column 210 is movably assembled with the column hole 110, as shown in fig. 3. The assembly of the sleeve columns 210 and the column holes 110 can enable the wind shield to be more stable in the movement process, enable the wind shield to keep constant speed in the opening or closing movement process, and improve the stability of the wind inlet mechanism.

The electrostatic dust removal type air intake device of the embodiment is provided with a main body 100, an electrostatic dust removal mechanism 400 and a closable baffle mechanism 200, wherein the closable baffle mechanism 200 is assembled at an air inlet of the main body 100, and the electrostatic dust removal mechanism 400 is assembled in an air intake passage of the main body 100. Electrostatic precipitator mechanism 400 can remove dust to the air current that gets into inlet air duct, utilizes the electrostatic adsorption effect to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the hot blast blowpipe apparatus, can close baffle mechanism 200 and can close inlet air duct when hot blast blowpipe apparatus dormancy, avoids inside the dust gets into hot blast blowpipe apparatus, the inside normal working property of guarantee hot blast blowpipe apparatus. The air which is sent out after being processed by the electrostatic dust removal type air inlet device carries less dust, does not generate sticky feeling when being blown to a human body, and improves the use comfort of a user.

Example 2.

The utility model provides an electrostatic precipitator formula hot blast blowpipe apparatus, other structures are the same with embodiment 1, the difference lies in: the electrostatic dust removal mechanism in this embodiment has an air inlet surface in a plurality of directions. The air inlet area is improved by arranging the air inlet surfaces in multiple directions. The air inlet surface in the technology takes the direction of airflow entering the grid gap as an air inlet surface.

And defining the edge line of the windward side of the grating as an outer edge line, wherein the outer edge line of the grating is a plurality of straight line segments. As shown by the outer edge line of the grille constituting the air intake surface in fig. 5, an air intake surface is provided between the point P and the point Q, an air intake surface is provided between the point P and the point K, and an air intake surface is provided between the point Q and the point H. The air inlet surfaces in multiple directions can enable the air inlet surfaces to have larger air inlet areas in the same space.

It should be noted that the number of the air inlet surfaces can be determined according to the actual situation, is not limited to three in fig. 5, and can be two or four or other numbers.

Example 3.

The utility model provides an electrostatic precipitator formula hot blast blowpipe apparatus, other characteristics are the same with embodiment 1, the difference lies in: the main part of this embodiment is provided with the cover post, and the cover post is fixed mounting in the main part, and closeable baffle mechanism is provided with cover post assorted post hole, but the post hole is fixed in closeable baffle mechanism, cover post and post hole movable mounting.

The assembly of the sleeve columns and the column holes can enable the wind shield to be more stable in the movement process, the wind shield can be kept at a constant speed in the movement process of opening or closing, and the stability of the air inlet mechanism is improved.

Example 4.

An electrostatic precipitation type air intake device, as shown in fig. 6, has the same other features as embodiment 1, except that: the embodiment is further provided with a cleaning device 500 for cleaning the electrostatic precipitator mechanism 400, and the cleaning device 500 is assembled to the main body 100.

The cleaning device 500 of the present embodiment is provided with a cleaning device main body 510 and a brush portion 520 for fitting in a gap of the grill 420 of the electrostatic precipitation mechanism 400, and the brush portion 520 is fitted to the cleaning device main body 510. The dust brushing part 520 can brush off dust attached to the gap between the grilles 420 of the electrostatic dust removing mechanism 400, thereby ensuring the normal operation of the electrostatic dust removing type air intake device.

The cleaning device 500 of the embodiment is further provided with a cleaning driving assembly 530, the cleaning driving assembly 530 drives the cleaning device main body 510 and the dust brushing portion 520 to integrally move, the electrostatic dust removing mechanism 400 attached with a large amount of dust is cleaned, and the wind purifying performance of the electrostatic dust removing mechanism 400 is ensured.

The cleaning device 500 of the embodiment further includes a rail bracket 540, the rail bracket 540 is provided with a sliding rail 541, the cleaning device body 510 is slidably assembled on the sliding rail 541, the cleaning driving assembly 530 is fixedly disposed relative to the rail bracket 540, a driving end of the cleaning driving assembly 530 is fixedly connected to the cleaning device body 510, and a connecting rod end of the cleaning driving assembly 530 is connected to the rail bracket 540.

The electrostatic dust removal mechanism 400 after long-term operation is cleaned through the cleaning device 500, and the working performance of the electrostatic dust removal type air inlet device is guaranteed.

Example 5.

The utility model provides a defeated wind equipment is provided with an electrostatic precipitator formula hot blast blowpipe apparatus that can carry out dust removal processing to the air current, and its electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can close baffle mechanism, and the baffle mechanism that can close assembles in the air intake of main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilizes electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the air inlet device, can close baffle mechanism and can close inlet air duct when air inlet device dormancy, avoids inside the dust gets into the air inlet device, the inside normal working property of guarantee air inlet device.

The electrostatic precipitation mechanism in this embodiment is provided with electrostatic precipitation mechanism main part and multiunit grid, and multiunit grid assembly has the clearance in electrostatic precipitation mechanism main part between two sets of adjacent grids, forms the air inlet face by the clearance between grid and the grid. The air inlet surface is arranged in the same space, the air inlet area is larger, and the resistance of air flow to the electrostatic dust removal type air inlet device is reduced.

The grid in this embodiment is configured as a linear strip grid. A linear air inlet surface is formed between the linear strip-shaped gratings, so that air flow can conveniently enter the air inlet device.

The multiple groups of grids in the embodiment are arranged in parallel at equal intervals. Or may be arranged in different intervals, and the arrangement mode of the grating may be selected according to the actual situation.

The grid of the electrostatic dust removal mechanism in the embodiment has a linear air inlet surface, and only has one air inlet surface in one direction.

It should be noted that there may also be air inlet surfaces in multiple directions in this embodiment, and the air inlet surfaces may be two air inlet surfaces, three air inlet surfaces, or other number of air inlet surfaces, and are not limited to the air inlet surface in one direction in this embodiment.

The embodiment also comprises a baffle driving mechanism, one end of the baffle driving mechanism is fixedly assembled with the main body, and the other end of the baffle driving mechanism is connected with the closable baffle mechanism. The closable flap is driven to open or close by the flap driving structure.

The baffle actuating mechanism in this embodiment includes driving motor, actuating lever, head rod and second connecting rod, and driving motor fixed mounting is in the main part, actuating lever and driving motor fixed connection, head rod and actuating lever swing joint, head rod and second connecting rod swing joint, second connecting rod and closable baffle mechanism swing joint.

When the baffle driving mechanism works, the driving motor applies certain force to the driving rod to enable the driving rod to rotate, the driving rod drives the first connecting rod to rotate, one end, far away from the driving rod, of the first connecting rod drives the second connecting rod to do stretching movement, the closable baffle mechanism movably connected with the second connecting rod moves towards one side, far away from the main body, until the first connecting rod and the second connecting rod are in linear connection, the closable baffle mechanism is separated from the main body, the air inlet channel is opened, and the air inlet device starts to carry out a clean air working condition.

At net wind operating mode later stage, driving motor applys a reverse power to the actuating lever, makes actuating lever antiport, and the actuating lever drives head rod antiport, and the one end that the actuating lever was kept away from to the head rod drives the second connecting rod and is the shrink motion, moves towards the one side that is close to the main part with the closable baffle mechanism of second connecting rod swing joint, and until closable baffle mechanism closely laminates with the main part, inlet air channel closes, and air inlet unit gets into the dormancy.

The main part in this embodiment is provided with the post hole, and the post hole is fixed assembly in the main part, and closable baffle mechanism is provided with the cover post with post hole assorted, and the cover post is fixed in closable baffle mechanism, cover post and post hole movable assembly. The assembly of the sleeve columns and the column holes can enable the wind shield to be more stable in the movement process, the wind shield can be kept at a constant speed in the movement process of opening or closing, and the stability of the air inlet mechanism is improved.

The wind conveying equipment in this embodiment is a tower fan. It should be noted that the air delivery device of the present embodiment is also applicable to any device or equipment for processing air flow in an air conditioner, a fan or an air purifier.

The air delivery equipment of this embodiment is provided with the electrostatic precipitator formula hot blast blowpipe apparatus that can carry out dust removal processing to the air current, and electrostatic precipitator formula hot blast blowpipe apparatus is provided with main part, electrostatic precipitator mechanism and can closes baffle mechanism, can close baffle mechanism and assemble in the air intake of main part, and electrostatic precipitator mechanism assembles in the inlet air duct of main part. Electrostatic precipitator mechanism can remove dust to the air current that gets into inlet air duct, utilizes electrostatic adsorption to adsorb the dust of micromolecule in specific electrode, does not let the dust get into inside the air inlet device, can close baffle mechanism and can close inlet air duct when air inlet device dormancy, avoids inside the dust gets into the air inlet device, the inside normal working property of guarantee air inlet device. The air which is sent out after being processed by the electrostatic dust removal type air inlet device carries less dust, does not generate sticky feeling when being blown to a human body, and improves the use comfort of a user.

Example 6.

A wind delivery apparatus, otherwise characterized as in example 4, except that: the main part in this embodiment is provided with the cover post, and the cover post is fixed assembly in the main part, and closable baffle mechanism is provided with the post hole with cover post assorted, and the post hole is fixed in closable baffle mechanism, cover post and post hole movable assembly.

The assembly of the sleeve columns and the column holes can enable the wind shield to be more stable in the movement process, the wind shield can be kept at a constant speed in the movement process of opening or closing, and the stability of the air inlet mechanism is improved.

Example 7.

A wind delivery apparatus having the same other features as in embodiment 5 or embodiment 6 except that: the cleaning device is used for cleaning the electrostatic dust removal mechanism and is assembled on the main body.

The cleaning device in this embodiment is provided with a cleaning device main body and an ash brushing portion for being assembled in a gap between grids of the electrostatic dust removal mechanism, and the ash brushing portion is assembled to the cleaning device main body. The dust brushing part can brush off dust attached to gaps among grids of the electrostatic dust removal mechanism, so that the normal work of the electrostatic dust removal type air inlet device is ensured.

The cleaning device in this embodiment still is provided with clean drive assembly, and clean drive assembly drive cleaning device main part and brush grey portion global movement clean electrostatic precipitator mechanism that has a large amount of dusts to adhering to, guarantee electrostatic precipitator mechanism's clean wind performance.

The cleaning device in this embodiment is further provided with a rail support, the rail support is provided with a sliding rail, the cleaning device body is slidably assembled on the sliding rail, the cleaning driving assembly is fixedly arranged relative to the rail support, the driving end of the cleaning driving assembly is fixedly connected with the cleaning device body, and the connecting rod end of the cleaning driving assembly is connected with the rail support.

The electrostatic dust removal mechanism after long-term working is cleaned through the cleaning device, and the working performance of the air delivery device is guaranteed.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (14)

1. The utility model provides an electrostatic precipitator formula hot blast blowpipe apparatus which characterized in that: the electrostatic dust removal device is provided with a main body, an electrostatic dust removal mechanism and a closable baffle mechanism, wherein the closable baffle mechanism is assembled at an air inlet of the main body, and the electrostatic dust removal mechanism is assembled in an air inlet channel of the main body.

2. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 1, wherein: the electrostatic precipitation mechanism is provided with electrostatic precipitation mechanism main part and multiunit grid, and multiunit grid assembly has the clearance in electrostatic precipitation mechanism main part between two sets of adjacent grids, forms the air inlet face by the clearance between grid and the grid.

3. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 2, wherein: the grid sets up to linear type strip grid.

4. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 3, characterized in that: the multiple groups of grids are arranged in parallel at equal intervals.

5. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 2, wherein: there are multiple directions of air intake surfaces.

6. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 5, characterized in that: the edge line of the windward side of the grating is defined as an outer edge line, and the outer edge line of the grating is a plurality of straight line segments.

7. The electrostatic precipitator formula hot blast blowpipe apparatus of any one of claims 1 to 6, characterized in that: the baffle plate driving mechanism is further arranged, one end of the baffle plate driving mechanism is fixedly assembled with the main body, and the other end of the baffle plate driving mechanism is connected with the closable baffle plate mechanism.

8. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 7, wherein: the baffle driving mechanism comprises a driving motor, a driving rod, a first connecting rod and a second connecting rod, the driving motor is fixedly assembled on the main body, the driving rod is fixedly connected with the driving motor, the first connecting rod is movably connected with the driving rod, the first connecting rod is movably connected with the second connecting rod, and the second connecting rod is movably connected with the closable baffle mechanism.

9. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 8, wherein: the main body is provided with a column hole which is fixedly assembled on the main body; the closable baffle mechanism is provided with a sleeve column matched with the column hole, the sleeve column is fixed on the closable baffle mechanism, and the sleeve column is movably assembled with the column hole; or

The main body is provided with a sleeve column which is fixedly assembled on the main body; the closable baffle mechanism is provided with a column hole matched with the sleeve column, the column hole is fixed on the closable baffle mechanism, and the sleeve column is movably assembled with the column hole.

10. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 9, wherein: the cleaning device is used for cleaning the electrostatic dust removal mechanism and assembled on the main body.

11. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 10, wherein: the cleaning device is provided with a cleaning device main body and an ash brushing part which is used for being assembled in a grid gap of the electrostatic dust removal mechanism, and the ash brushing part is assembled in the cleaning device main body.

12. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 11, wherein: the cleaning device is also provided with a cleaning driving assembly, and the cleaning driving assembly drives the cleaning device main body and the ash brushing part to integrally move.

13. The electrostatic precipitator formula hot blast blowpipe apparatus of claim 12, wherein: the cleaning device is characterized in that the cleaning device is further provided with a track support, the track support is provided with a sliding track, the cleaning device body is assembled on the sliding track in a sliding mode, the cleaning driving assembly is fixedly arranged relative to the track support, the driving end of the cleaning driving assembly is fixedly connected with the cleaning device body, and the connecting rod end of the cleaning driving assembly is connected with the track support.

14. A wind delivery apparatus, characterized by: the electrostatic precipitation type air intake device as claimed in any one of claims 1 to 13, wherein the air transportation equipment is any one of an air conditioner, a tower fan, a fan or an air purifier.

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