CN112370895B

CN112370895B - Machining is with removing convenient air purification device

Info

Publication number: CN112370895B
Application number: CN202011289155.3A
Authority: CN
Inventors: 何晓
Original assignee: Shenzhen Xinwen Technology Co ltd
Current assignee: Hubei Yueyan Technology Co ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2022-02-01
Anticipated expiration: 2040-11-18
Also published as: CN112370895A

Abstract

The invention discloses an air purification device convenient to move for machining, relates to the technical field of machining waste gas purification equipment, and solves the problems that the conventional machining waste gas treatment equipment needs to be shut down when a filter element is brushed and cleaned, occupies normal production and use time, and reduces the purification and use efficiency. An air purification device convenient to move for machining comprises a chassis, wherein the chassis comprises vertical support struts, the chassis is integrally rectangular, an exhaust fan is fixedly locked at the rear side of the top end of the chassis, two vertical support struts are symmetrically welded at the front end of the chassis, and a dust collection square pipe is welded at the top ends of the two vertical support struts in an inclined mode; the dust collection square tube comprises a dust collection cover and an air suction pipe; the front end welded fastening of dust absorption side pipe has a dust hood, and it has an aspiration channel to run through the welding on its rear end lateral wall. The two brush frames can perform rotary wiping cleaning on the outer surface of the filter element which is separated from the filter element in a sliding switching mode, so that the trouble of manually brushing and wiping to remove ash is avoided.

Description

Machining is with removing convenient air purification device

Technical Field

The invention relates to the technical field of processing waste gas purification equipment, in particular to an air purification device convenient to move for machining.

Background

Machining refers to a process of changing the outer dimensions or properties of a workpiece by a mechanical device, and is classified into cutting and pressing according to differences in machining modes, and a machine production process refers to an overall process of producing a product from a raw material (or a semi-finished product). For machine production, the raw material transportation and preservation, production preparation, blank manufacturing, part processing and heat treatment, product assembly and debugging, painting and packaging and the like are included. The content of the production process is very wide, modern enterprises organize production and guide production by using the principle and method of system engineering, the production process is regarded as a production system with input and output, and a workshop can generate more dust in the polishing process, so that the dust is harmful to human bodies after being sucked for a long time, and therefore, a new air purification device for machining is needed to be provided.

For example, patent No. CN201922256686.1 discloses an air cleaning device for machining. The air purification device for machining comprises a stabilizing plate; the two connecting plates are fixedly arranged at the tops of the stabilizing plates; the first placing plate is fixedly arranged on one side, close to each other, of the two connecting joint plates; the second placing plate is fixedly arranged on one side, close to each other, of the two connecting plates and is positioned right above the first placing plate; a purifying mechanism provided on the first placing plate and the second placing plate. The air purification device for machining provided by the invention has the advantages of low manufacturing cost, convenience in movement, good filtering effect and capability of effectively reducing the damage of dust and harmful gas to human bodies.

Current machining exhaust-gas treatment equipment mostly needs frequently artifical the tearing open and gets the filter core and carry out manual clean change, and the operation is comparatively loaded down with trivial details inconvenient hard, need shut down the operation when brushing clean filter core in addition, occupies normal production live time, draws down and purifies the availability factor, and the brush is wiped clean dust and is mostly direct discharge in the air, causes the extra pollution to the air.

Disclosure of Invention

The invention aims to provide an air purification device convenient to move for machining, and aims to solve the problems that in the background art, when a brush is used for cleaning a filter element, the operation needs to be stopped, the normal production and use time is occupied, and the purification and use efficiency is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an air purification device convenient to move for machining comprises a chassis, wherein the chassis comprises vertical support struts, the chassis is integrally rectangular, an exhaust fan is fixedly locked at the rear side of the top end of the chassis, two vertical support struts are symmetrically welded at the front end of the chassis, and a dust collection square pipe is welded at the top ends of the two vertical support struts in an inclined mode; the dust collection square tube comprises a dust collection cover and an air suction pipe; the front end of the dust collection square pipe is fixedly welded with a dust collection cover, and the side wall of the rear end of the dust collection square pipe is welded with an air suction pipe in a penetrating manner; a vertical through groove is formed in the middle section of the dust collection square pipe, a sliding frame is installed in the through groove in a sliding and inserting mode, and two brush frames are symmetrically supported, rotated and inserted on the pipe wall at the rear side positions of an upper opening and a lower opening of the through groove; two filter cores are arranged on the sliding frame at intervals in an up-down locking clamp manner; the whole air suction pipe is of a Z-shaped structure, and the tail end of the air suction pipe is in butt joint communication with the exhaust fan; a butt joint pipe is slidably arranged in the rear half section of the dust collection square pipe; the butt joint pipe comprises a corrugated hose, the rear end of the butt joint pipe is sleeved with the corrugated hose, and the rear end of the corrugated hose is communicated with the air suction pipe; the carriage includes closure plate and fixed snap ring, the carriage is whole to be formed by two fixed snap rings and the crisscross interval vertical row welding of three closure plates.

Preferably, dust absorption side pipe still includes suction hood and inserted bar, the front end position symmetry welding intercommunication two suction hoods of side wall about the side pipe of dust absorption, and the rear end intermediate position of side wall is managed in the side of dust absorption and is run through the cartridge through the spring top and have an inserted bar, and this inserted bar and carriage rear end erect prop two jacks on the first section of connecting rod select the grafting cooperation.

Preferably, the two suction hoods are directly corresponding to the front and the back of the two brush frames, and when the two filter cores slide up and down along with the sliding frame to be separated, the two filter cores can be inserted into the two brush frames in a sliding way and keep coaxial with the two brush frames.

Preferably, the brush frame comprises impellers, and one impeller is welded and fixed on the front end sections of the rotating shafts of the two brush frames, and the tops of the two impellers are inserted into the two suction hoods.

Preferably, the sliding frame further comprises movable clamping rings and support shaft rods, four support shaft rods are welded on the two fixed clamping rings forwards in a surrounding mode, and the two movable clamping rings are sleeved on the head end sections of the upper and lower four support shaft rods; the two filter elements are clamped between the upper movable snap ring and the lower movable snap ring and between the two fixed snap rings by the locking top.

Preferably, two inside and outside both sides of brush board about the brush frame all are fixed with two hairbrushes through the magic subsides, wherein two inside hairbrushes and the circumference outer wall contact of filter core, and two hairbrushes in the outside with insert and keep off the stifled board of the vertical through groove upper and lower opening of dust absorption side pipe and sweep the contact.

Preferably, rubber sealing gaskets are fixedly adhered to the peripheries of the three blocking plates, and the three blocking plates slide up and down along with the sliding frame and are in plugging fit with the upper opening and the lower opening of the vertical penetrating groove of the dust collection square pipe.

Preferably, the docking tube further comprises a positioning shaft; two positioning shafts are symmetrically welded on the left inner wall and the right inner wall of the rear end section of the dust collection square pipe, the butt joint pipe is slidably mounted on the two positioning shafts through a spring pushing sleeve, and the upper fixing snap ring and the lower fixing snap ring are correspondingly and selectively in sliding butt joint with the butt joint pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. the two brush frames can perform rotary wiping cleaning on the outer surface of the filter element which is separated from the filter element in a sliding switching way, so that the trouble of manually brushing and wiping to remove ash is avoided;

2. the two suction covers can drive the two impellers and the two brush frames to rotationally sweep and clean by utilizing the negative pressure suction force of the exhaust fan, so that a driving force source is not additionally arranged for the two brush frames, the required amount of an electric motor is reduced, the cost and the power consumption of equipment are reduced, in addition, the two suction covers can directly suck light small-particle dust impurities brushed and swept off from the filter element into the dust collection square pipe for intercepting and filtering, and the secondary pollution caused by directly discharging the dust generated when the filter element is brushed and cleaned into the air is avoided;

3. according to the invention, through the sliding frame, the two filter elements can be used in a sliding and switching manner, and the filter elements which slide up and down and are separated can be cleaned by directly using the two brush frames, so that the trouble of replacing the clean filter elements can be saved, the normal use time of the cleaning operation of the filter elements is avoided, and the working efficiency of the purification device is improved;

4. the brushes arranged at the outer sides of the two brush frames can wipe and clean large-particle dust impurities dropped and accumulated on the blocking plates at the upper side and the middle position, so that unnecessary secondary filtration caused by the fact that the dust on the blocking plates is brought into the dust-absorbing square pipe by inserting and sliding the blocking plates in the blocking plates is avoided, and the load of the filter element is increased.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the rear three-dimensional structure of the present invention;

FIG. 3 is a schematic three-dimensional structure of a square dust-absorbing pipe according to the present invention;

FIG. 4 is a schematic view of a half-section internal structure of the dust-absorbing square tube of the present invention;

FIG. 5 is a schematic view of the installation position of the butt joint pipe of the present invention;

FIG. 6 is a schematic view of the carriage of the present invention;

FIG. 7 is a schematic view of a cartridge slide-in mounting arrangement of the present invention;

FIG. 8 is a schematic view of a brush frame structure according to the present invention;

FIG. 9 is an enlarged view of portion A of FIG. 3 according to the present invention;

FIG. 10 is an enlarged view of portion B of FIG. 5 according to the present invention;

in the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a chassis; 101. a vertical supporting rod; 2. dust collection square tubes; 201. a dust hood; 202. a suction hood; 203. inserting a rod; 204. an air suction pipe; 3. a filter element; 4. a carriage; 401. a blocking plate; 402. fixing the snap ring; 403. a movable snap ring; 404. a support shaft; 5. an exhaust fan; 6. brushing the frame; 601. an impeller; 7. butt-joint pipes; 701. a corrugated hose; 702. and (5) positioning the shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 10, an embodiment of the present invention includes: an air purification device convenient to move for machining comprises a chassis 1, wherein the chassis 1 comprises vertical support struts 101, the whole chassis 1 is of a rectangular structure, an exhaust fan 5 is fixedly locked at the rear side of the top end of the chassis 1, two vertical support struts 101 are symmetrically welded at the front end of the chassis, and a dust collection square pipe 2 is welded at the top ends of the two vertical support struts 101 in an inclined manner; the dust collection square pipe 2 comprises a dust collection cover 201 and an air suction pipe 204; the front end of the dust collection square pipe 2 is fixedly welded with a dust collection cover 201, and the side wall of the rear end of the dust collection square pipe is welded with an air suction pipe 204 in a penetrating way; a vertical through groove is formed in the middle section of the dust collection square pipe 2, a sliding frame 4 is installed in the through groove in a sliding and inserting mode, and two brush frames 6 are symmetrically supported, rotatably inserted and installed on the pipe wall at the positions of the rear sides of the upper opening and the lower opening of the through groove; two filter elements 3 are arranged on the sliding frame 4 at intervals in an up-down locking clamp manner; the whole suction pipe 204 is of a Z-shaped structure, and the tail end of the suction pipe is in butt joint communication with the exhaust fan 5; a butt joint pipe 7 is slidably arranged in the rear half section of the dust collection square pipe 2; the butt joint pipe 7 comprises a corrugated hose 701, the rear end of the butt joint pipe 7 is sleeved with the corrugated hose 701, and the rear end of the corrugated hose 701 is connected and communicated with the air suction pipe 204; the sliding frame 4 comprises a plugging plate 401 and a fixed clamp ring 402, and the sliding frame 4 is integrally formed by welding two fixed clamp rings 402 and three plugging plates 401 in staggered and spaced vertical rows; the dust collection square pipe 2 further comprises a suction cover 202 and an inserting rod 203, the front ends of the upper side wall and the lower side wall of the dust collection square pipe 2 are symmetrically welded and communicated with the two suction covers 202, the middle position of the rear end of the upper side wall of the dust collection square pipe 2 is pushed by a spring and is inserted with the inserting rod 203, the inserting rod 203 is selectively inserted and matched with two inserting holes on the upper half section of a vertical support connecting rod at the rear end of the sliding frame 4, the inserting rod 203 can be inserted and positioned in the sliding frame 4, and the two filter cores 3 are kept in a switched and adjusted using state; all paste all around three closure plates 401 and be fixed with rubber packing pad, and three closure plates 401 follow carriage 4 and slide from top to bottom and insert stifled cooperation with the vertical upper and lower opening that runs through the groove of dust absorption side pipe 2, and three closure plates 401 slide to switch and can insert stifled sealed with the vertical groove that runs through of dust absorption side pipe 2, avoid dust absorption side pipe 2 pressure release.

Further, the two suction hoods 202 correspond to the two brush frames 6 in a straight manner, and when the two filter elements 3 slide up and down along with the sliding frame 4 and are separated, the two filter elements can be inserted into the two brush frames 6 in a sliding manner and keep coaxial with the two brush frames 6, and the two brush frames 6 can perform rotary wiping cleaning on the outer surfaces of the filter elements 3 which slide and are separated in a switching manner, so that the trouble of manually brushing and cleaning dust is avoided.

Further, the brush frame 6 comprises impellers 601, the impellers 601 are fixedly welded on the front end sections of the rotating shafts of the two brush frames 6, the two impellers 601 are inserted into the two suction hoods 202, the two suction hoods 202 can drive the two impellers 601 and the two brush frames 6 to rotate, sweep and clean by using the negative pressure suction force of the exhaust fan 5, so that a driving force source is not additionally arranged for the two brush frames 6, the required amount of an electric motor is reduced, the cost and the power consumption of equipment are reduced, in addition, the two suction hoods 202 can directly suck the light small particle dust impurities brushed and swept off from the filter element 3 into the dust collection square pipe 2 for intercepting and filtering, and the dust generated when the filter element 3 is brushed and cleaned is prevented from being directly discharged into the air to cause secondary pollution.

Further, the sliding frame 4 further comprises a movable clamping ring 403 and a support shaft rod 404, four support shaft rods 404 are welded on the two fixed clamping rings 402 forward in a surrounding mode, the two movable clamping rings 403 are sleeved on the head end sections of the upper and lower four rings of support shaft rods 404, the two filter cores 3 are clamped between the upper and lower two movable clamping rings 403 and the two fixed clamping rings 402 by a locking top, the two filter cores 3 can be switched to be used in a sliding mode through the sliding frame 4, the filter cores 3 which are separated in a sliding mode from top to bottom can be cleaned in a sweeping mode by directly utilizing the two brush frames 6, the trouble of replacing the clean filter cores 3 can be omitted, normal service time of cleaning operation of the filter cores 3 is avoided, and the working efficiency of the purification device is improved.

Further, the inside and outside both sides of brush board about two brush frames 6 are all fixed with two hairbrushes through the magic subsides, wherein the circumference outer wall contact of two inboard hairbrushes and filter core 3, and two hairbrushes in the outside with insert and keep off the contact of wiping in the vertical jam plate 401 that runs through on the groove about dust absorption side pipe 2, the brush in the 6 outside of two brush frames can be cleaned the large granule dust impurity that drops the accumulation on upside and the middle position jam plate 401, avoid the jam plate 401 interpolation slip to bring the dust on it into dust absorption side pipe 2 and cause unnecessary secondary filter, aggravate the load of filter core 3.

Further, the docking pipe 7 further includes a positioning shaft 702; two positioning shafts 702 are symmetrically welded on the left inner wall and the right inner wall of the rear end section of the dust collection square pipe 2, the butt joint pipe 7 is slidably mounted on the two positioning shafts 702 through a spring jacking sleeve, the upper fixed snap ring 402 and the lower fixed snap ring 402 are correspondingly and selectively in sliding butt joint with the butt joint pipe 7, the springs on the two positioning shafts 702 can enable the butt joint pipe 7 to be in close jacking butt joint communication with the filter element 3, the suction force of the exhaust fan 5 can be transmitted into the filter element 3 under pressure maintaining, sufficient negative pressure suction force is generated inside the filter element 3, and exhaust gas is sufficiently sucked and filtered.

Exhaust gas flow path: waste gas firstly enters the dust collection square pipe 2 through the dust collection cover 201, then is filtered by the filter element 3 and is discharged by the suction pipe 204 and the exhaust fan 5;

the working principle is as follows: the two suction hoods 202 can drive the two impellers 601 and the two brush frames 6 to rotationally sweep and clean by using the negative pressure suction force of the exhaust fan 5, so that a driving force source is not additionally arranged for the two brush frames 6 independently, the required amount of an electric motor is reduced, the cost and the power consumption of equipment are reduced, in addition, the two suction hoods 202 can directly suck light small-particle dust impurities brushed and swept on the filter element 3 into the dust collection square pipe 2 for intercepting and filtering, the dust generated when the filter element 3 is brushed and cleaned is prevented from being directly discharged into the air to cause secondary pollution, the two filter elements 3 can be slidably switched and used by the sliding frame 4, the filter element 3 which is slid and separated from the upper part and the lower part can be directly used for wiping and cleaning by using the two brush frames 6, the trouble of replacing and cleaning the filter element 3 can be saved, the normal use time of the cleaning operation of the filter element 3 is avoided, and the working efficiency of the purification device is improved, the brush in the 6 outside of two brush frames can be to the upside and the clean large granule dust impurity that drops the collection on the intermediate position closure plate 401 of sweeping, avoid closure plate 401 interpolation slip to bring the dust on it into dust absorption side pipe 2 and cause unnecessary secondary filtration, aggravate the load of filter core 3, inserted bar 203 can peg graft location carriage 4, make two filter cores 3 keep the user state after switching the adjustment, three closure plate 401 slip switches can insert the stifled sealed with the vertical groove that runs through of dust absorption side pipe 2, avoid dust absorption side pipe 2 pressure release, the spring on two location axle 702 can make butt joint pipe 7 and the closely knit roof pressure butt joint intercommunication of filter core 3, guarantee that 5 suction of air exhauster can be transmitted in filter core 3 by the pressurize, make the inside sufficient negative pressure suction power that produces of filter core 3, carry out abundant suction filtration to waste gas.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a machining is with removing convenient air purification device which characterized in that: the dust collection square pipe comprises a chassis (1), wherein the chassis (1) comprises vertical support struts (101), the chassis (1) is integrally of a rectangular structure, an exhaust fan (5) is fixedly locked at the rear side of the top end of the chassis (1), two vertical support struts (101) are symmetrically welded at the front end of the chassis, and a dust collection square pipe (2) is welded at the top ends of the two vertical support struts (101) in an inclined manner; the dust collection square pipe (2) comprises a dust collection cover (201) and an air suction pipe (204); the front end of the dust collection square pipe (2) is fixedly welded with a dust collection cover (201), and the side wall of the rear end of the dust collection square pipe is welded with an air suction pipe (204) in a penetrating way; a vertical through groove is formed in the middle section of the dust collection square pipe (2), a sliding frame (4) is installed in the through groove in a sliding and inserting mode, and two brush frames (6) are symmetrically supported, rotated and inserted on the pipe wall at the positions of the rear sides of the upper opening and the lower opening of the through groove; two filter elements (3) are arranged on the sliding frame (4) in a locking clamp manner at intervals from top to bottom; the whole air suction pipe (204) is of a Z-shaped structure, and the tail end of the air suction pipe is in butt joint communication with the exhaust fan (5); a butt joint pipe (7) is slidably arranged in the rear half section of the dust collection square pipe (2); the butt joint pipe (7) comprises a corrugated hose (701), the rear end of the butt joint pipe (7) is sleeved with the corrugated hose (701), and the rear end of the corrugated hose (701) is connected and communicated with the air suction pipe (204); the sliding frame (4) comprises a blocking plate (401) and a fixed clamping ring (402), and the sliding frame (4) is integrally formed by welding two fixed clamping rings (402) and three blocking plates (401) in staggered and spaced vertical rows;

the dust collection square pipe (2) further comprises a suction cover (202) and an insertion rod (203), the front ends of the upper side wall and the lower side wall of the dust collection square pipe (2) are symmetrically welded and communicated with the two suction covers (202), the middle position of the rear end of the upper side wall of the dust collection square pipe (2) is pushed by a spring to penetrate through and be inserted with the insertion rod (203), and the insertion rod (203) is selectively inserted and matched with two insertion holes in the upper half section of the vertical support connecting rod at the rear end of the sliding frame (4);

the two suction hoods (202) are directly corresponding to the front and the back of the two brush frames (6), and when the two filter elements (3) slide and depart from the sliding frame (4) up and down, the two filter elements can be inserted into the two brush frames (6) in a sliding way and keep coaxial with the two brush frames (6);

the brush frame (6) comprises impellers (601), one impeller (601) is fixedly welded on the front end sections of the rotating shafts of the two brush frames (6), and the tops of the two impellers (601) are inserted into the two suction hoods (202);

the sliding frame (4) further comprises movable clamping rings (403) and support shaft rods (404), four support shaft rods (404) are welded to the two fixed clamping rings (402) in a forward surrounding mode, and the two movable clamping rings (403) are sleeved on the head end sections of the upper and lower four support shaft rods (404); the two filter elements (3) are clamped between an upper movable snap ring (403) and a lower movable snap ring (402) by a locking top;

two brushes are fixed on the inner side and the outer side of the left brush plate and the right brush plate of the two brush frames (6) through magic tapes, wherein the two brushes on the inner side are contacted with the outer wall of the circumference of the filter element (3), and the two brushes on the outer side are in wiping contact with the blocking plate (401) inserted and blocked on the upper opening and the lower opening of the vertical through groove of the dust collection square pipe (2); rubber sealing gaskets are fixedly adhered to the peripheries of the three plugging plates (401), and the three plugging plates (401) slide up and down along with the sliding frame (4) and are in plugging fit with the upper opening and the lower opening of the vertical through groove of the dust collection square pipe (2);

the docking tube (7) further comprises a positioning shaft (702); two positioning shafts (702) are symmetrically welded on the left inner wall and the right inner wall of the rear end section of the dust collection square pipe (2), the butt joint pipe (7) is slidably mounted on the two positioning shafts (702) through a spring jacking sleeve, and the upper fixing clamp ring (402) and the lower fixing clamp ring (402) are correspondingly and selectively in sliding butt joint with the butt joint pipe (7);

when the dust-removing device is used, the two impeller (601) and the two brush frames (6) can be driven to rotationally sweep and clean by the negative pressure suction force of the exhaust fan (5) through the two suction hoods (202), so that a driving force source is not additionally arranged for the two brush frames (6), the required amount of an electric motor is reduced, the cost and the power consumption of bottom equipment are reduced, in addition, the two suction hoods (202) can directly suck light small-particle dust impurities brushed and swept on the filter element (3) into the dust-collecting square tube (2) for blocking and filtering, the dust generated when the filter element (3) is brushed and cleaned is directly discharged in the air to cause secondary pollution, the two filter elements (3) can be slidably switched and used through the sliding frame (4), and the filter element (3) which is slid and separated up and down can directly sweep and clean by the two brush frames (6), this can save the trouble of changing clean filter core (3) and avoid the clean operation of filter core (3) to occupy normal live time, purifier's work efficiency has been promoted, the brush in two places brush frame (6) outside can be to the upside and intermediate position closure plate (401) on the large granule dust impurity that the accumulation was built up that drops clean of sweeping, avoid closure plate (401) interpolation slip to bring the dust on it into dust absorption side pipe (2) and cause unnecessary secondary filtration, aggravate the load of filter core (3), inserted bar (203) can peg graft location carriage (4), make two filter cores (3) keep the user state after switching the adjustment, three closure plate (401) slip switch can be sealed with the vertical through groove plug that dust absorption side pipe (2) is gone through, avoid dust absorption side pipe (2) pressure release, the spring on two places location axle (702) can make butt joint pipe (7) and filter core (3) close up The real top pressure butt joint intercommunication guarantees that air exhauster (5) suction force can be transmitted in filter core (3) by the pressurize, makes the inside sufficient negative pressure suction force that produces of filter core (3), fully sucks the filtration to waste gas.