CN114797306A

CN114797306A - Cloth bag dust removal device with impact turning and beating structure and method thereof

Info

Publication number: CN114797306A
Application number: CN202210485384.5A
Authority: CN
Inventors: 杨兵; 张占庄; 王强; 许柳柳; 黄瑜
Original assignee: Jiangsu Ruili Environmental Protection Engineering Co ltd
Current assignee: Jiangsu Ruili Environmental Protection Engineering Co ltd
Priority date: 2022-05-06
Filing date: 2022-05-06
Publication date: 2022-07-29

Abstract

A cloth bag dust removal device with an impact turning structure and a method thereof belong to the technical field of cloth bag dust removal, and aim to solve the problems that dust cannot be completely removed from the surface of a filter bag only by wind power, more dust still adheres to the surface of the cloth bag after the dust is blown by wind, the subsequent working efficiency is influenced, if an impact member is additionally arranged on the surface of the cloth bag dust removal device, a power source needs to be additionally arranged, and resources are wasted; according to the invention, the inner sides of the filter bags are impacted through the arc-shaped knocking swing rods, the natural falling force of dust adhered to the outer side surfaces of the filter bags is increased, the cleaning efficiency of the filter bags in a dust cleaning state is improved, the wind force borne by each group of overturning and beating parts from top to bottom is gradually reduced, and the filter bags are prevented from being subjected to excessive acting force; the invention controls the opening and closing of the arc-shaped knocking swing rod through the rotation of the traction turntable, namely, the complete knocking operation of the overturning part is completed, no additional power source is needed to be added, and all the activities can be completed only by the wind power applied in the ash cleaning state.

Description

Cloth bag dust removal device with impact turning and beating structure and method thereof

Technical Field

The invention relates to the technical field of bag-type dust removal, in particular to a bag-type dust removal device with an impact turning structure and a method thereof.

Background

The dust removal sack can be called the heart of bag collector, generally called dust removal sack or dust removal filter bag, and the dust removal sack is the key part in the bag collector operation process, and the cylinder filter bag hangs in the dust remover perpendicularly usually, and the surface fabric and the design of dust removal sack should seek high efficiency filtration, easy dust peel off and durable effect as far as possible, and the selection of dust removal sack is vital, and it directly influences the dust removal effect of dust collector, chooses to select with the dust removal sack and chooses from following several aspects: temperature, humidity and chemical properties of the gas, particle size, dust concentration, filtering wind speed, dust removal mode and the like.

When the sack is in the deashing state, make the filter bag outwards expand through the distinguished and admirable, the adhesion receives an effort to the outside at the dust of filter bag surface, the dust drops naturally, but only rely on wind-force can't get rid of the dust from the filter bag surface completely, its surface still can the more dust of adhesion after the wind blows, influence subsequent work efficiency, if set up the impact member on its surface, need additionally to add the power supply, comparatively extravagant resource, and the shared volume of the member of setting up is great, influence the normal circulation of clean gas in the filter bag inside, must not repay, work efficiency descends thereupon.

Aiming at the problems, the prior device is improved, and a cloth bag dust removal device with an impact turning structure and a method thereof are provided.

Disclosure of Invention

The invention aims to provide a cloth bag dust removal device with an impact turning structure and a method thereof, and solves the problems that in the background technology, when a cloth bag is in a dust cleaning state, the filter bag expands outwards through wind flow, dust adhered to the outer surface of the filter bag is subjected to an outward acting force, the dust naturally falls off, but cannot be completely removed from the surface of the filter bag only depending on wind power, more dust still adheres to the surface of the filter bag after being blown by the wind, the subsequent work efficiency is influenced, if an impact member is additionally arranged on the surface of the filter bag, a power source needs to be additionally arranged, resources are wasted, the occupied volume of the additionally arranged member is larger, the normal circulation of clean gas in the filter bag is influenced, the loss is avoided, and the work efficiency is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a cloth bag dust removal device with an impact beating structure comprises a cloth bag framework piece and filter bags arranged on the outer side of the cloth bag framework piece, wherein five groups of cloth bag framework pieces and filter bags are arranged, box body lining plates are arranged at the upper end and the lower end of each cloth bag framework piece, a matching ring is arranged on the upper surface of each box body lining plate, a pulse valve is arranged on one side of the matching ring, an injection pipe is arranged on one side of the pulse valve, an injection port is formed in the lower surface of the injection pipe and is provided with five groups of injection ports, the injection ports are matched with the inner sides of the matching rings, a clean air chamber box is arranged at the upper end of each box body lining plate, an air inlet outlet end is arranged at one end of each clean air chamber box, a matching hole groove is formed in the other end of each clean air chamber box and is connected with the injection pipe, each cloth bag framework piece comprises a bottom lining plate arranged on the upper surface of each box body lining plate and a framework ring arranged on the upper surface of the bottom lining plate, and beating pieces are arranged on the surfaces of the framework rings, the two side ends of the skeleton ring are respectively provided with a connecting rod, the filter bag comprises a bag body sleeved outside the skeleton ring and an opening splicing ring arranged at one end of the bag body, the opening splicing ring corresponds to the matching ring, and the other end of the bag body is connected with the bottom lining disc;

the framework ring comprises a shaping ring body and an annular laminating groove arranged on the side surface of the shaping ring body, a limiting circular sheet is arranged at one side end of the shaping ring body, four groups of limiting circular sheets are arranged between the two groups of the limiting circular sheets, a reserved inner groove is formed in the position, close to the limiting circular sheet, of the annular laminating groove, a turnover part comprises an arc-shaped knocking swing rod matched with the annular laminating groove and a knocking block arranged on the outer side surface of one end of the arc-shaped knocking swing rod, a double-sleeve ring is arranged at the other end of the arc-shaped knocking swing rod and connected with the switching post, a traction swing block is arranged on the inner side surface of the double-sleeve ring, splicing rods are arranged on the inner side of the gap of the double-sleeve ring, a positioning clamping ring is arranged between the two groups of the splicing rods and arranged on the inner side of the reserved inner groove, a traction turntable is arranged on the inner side of the positioning clamp ring, sleeve connection rotating blocks are mounted at two side ends of the upper surface of the traction turntable, a traction arm rod is sleeved on the surface of each sleeve connection rotating block, a transverse sliding groove is formed in the inner side surface of each traction swinging block, the traction turntable is connected with the transverse sliding groove through the traction arm rod, and a transverse limiting clamping groove is formed in the inner bottom surface of the transverse sliding groove;

draw the armed lever to include the armed lever body and install the switching ring in armed lever body one end, the other end of the armed lever body is provided with spacing steering member, the switching ring is connected with cup jointing the runner, the inside of horizontal spout is provided with the semicircle piece, the arc has been seted up to the side surface of semicircle piece and has been turned to the groove, the arc turns to the groove and is connected with spacing steering member, the interior surface mounting of semicircle piece has movable fixture block, movable fixture block is connected with horizontal spacing draw-in groove, floating frame is including installing the frame member at the skeleton ring inside wall and setting up the spacing groove that floats in frame member inboard, the both ends of the slat that receives the wind all are connected with the spacing groove that floats, reserve one side of inside groove and seted up and hold the cavity, the inside that holds the cavity is provided with the atress driving piece.

Furthermore, a first lifting adjusting groove is formed in the inner bottom surface of the floating limiting groove, one end of the wind-receiving slat is connected with the first lifting adjusting groove, a second lifting adjusting groove is formed in the inner bottom surface of the reserved inner groove, the stress driving piece comprises a fixed pulley arranged at the upper end of the accommodating cavity and a movable pulley arranged at the lower end of the fixed pulley, external handle pieces are arranged on the surfaces of the fixed pulley and the movable pulley, the external handle pieces of the fixed pulley are connected with the upper top surface of the accommodating cavity, a first traction pull rope is wound on the surfaces of the fixed pulley and the movable pulley and is of an S-shaped structure, one end of the first traction pull rope is connected with the upper top surface of the accommodating cavity, the other end of the first traction pull rope is connected with one end of the wind-receiving slat, a lifting weight block is arranged at the lower end of the other group of external handle pieces, the lifting weight block is matched with the accommodating cavity, and a gravity block is arranged on the lower surface of the lifting weight block, the both sides of gravity piece all are provided with first reset spring, and first reset spring's one end is connected with the lower surface that falls the piece, and first reset spring's the other end is connected with the interior bottom surface that holds the cavity, and the side surface mounting that falls the piece has the extension side piece, and the extension side piece is connected with second lift adjustment tank.

Furthermore, the two inner side walls of the positioning clamping ring are provided with limiting rolling pieces, the side surface of the traction turntable is provided with an annular limiting groove, and the limiting rolling pieces are connected with the annular limiting groove.

Furthermore, a first bevel gear is arranged in the center of the lower surface of the traction turntable, a second bevel gear is vertically arranged on one side of the first bevel gear, the first bevel gear is meshed with the second bevel gear, and a gear disc is arranged in the center of the side vertical surface of the second bevel gear.

Furthermore, a first L-shaped rod is installed in the center of the gear disc, one end of the first L-shaped rod is connected with the positioning clamping ring, a stretching connecting piece is arranged on one side of the gear disc, a second L-shaped rod is installed on the side vertical face of the stretching connecting piece, and one end of the second L-shaped rod is connected with the positioning clamping ring.

Furthermore, the stretching connecting piece comprises a positioning handle bar arranged at the lower end of the traction rotary table and a pull rope matching side groove formed in the side surface of the positioning handle bar, a traction pull belt is arranged inside the pull rope matching side groove, a connecting tooth surface is arranged on the outer surface of the traction pull belt and is connected with the gear disc in a meshed mode, and a fixed limiting block is arranged at one end of the pull rope matching side groove.

Furthermore, one end of the traction pull belt is provided with an outer splicing block, and the other end of the traction pull belt is connected with the extension side block.

Further, the lower surface of the fixed limiting block is provided with a fixing length clamping strip, the inner bottom surface of the pull rope matching side groove is provided with a laminating sliding groove, the inner side of one end of the traction pull belt is provided with a laminating sliding block, and the laminating sliding groove is connected with the laminating sliding block.

Furthermore, a through groove is formed in the surface of the outer splicing block and is connected with the positioning long clamping strip, a second return spring is mounted on the upper surface of the laminating sliding block, and one end of the second return spring is connected with the upper top surface of the laminating sliding groove.

The invention provides another technical scheme that: the implementation method of the bag-type dust collector with the impact tumbling structure comprises the following steps:

s1: when the cloth bag is in a dust cleaning state, wind power is applied to the inner side of the frame piece of the cloth bag through the blowing opening, wind flow acting force is applied to the surface of the wind-receiving batten, the traction turntable rotates along the positioning clamping ring, the traction turntable drives the two groups of traction arm rods to mutually traction, the two groups of arc-shaped knocking swing rods swing by taking the switching column as an axis, and the arc-shaped knocking swing rods are separated from the annular fitting groove to impact the filter bag;

s2: the cloth bag framework piece is provided with a plurality of groups of framework rings and overturning pieces, the mounting positions of the overturning pieces on the surfaces of the framework rings in each group face four directions in a staggered manner, the opening directions of the arc-shaped knocking swing rods of the adjacent overturning pieces are different, when the filter bag is subjected to wind current acting force, the arc-shaped knocking swing rods in each group impact the inner side of the filter bag, and the wind force applied to each group of overturning piece from top to bottom is gradually reduced;

s3: when wind power is applied to the surface of the wind-receiving slat, one end of the wind-receiving slat moves downwards along the first lifting adjusting groove, the movable pulley drives the lifting drop block to move upwards in the matching movement of the fixed pulley, the movable pulley and the first traction pull rope, the extension side block moves upwards along the second lifting adjusting groove, the traction pull rope moves along the pull rope matching side groove, and the second bevel gear and the gear disc integrally rotate along the first L-shaped rod as an axis;

s4: the traction turntable rotates along the positioning clamp ring, the traction pull belt is always attached to the pull rope to be matched with the side groove for moving, and the opening and closing of the arc-shaped knocking swing rod are controlled through the rotation of the traction turntable, so that the complete knocking operation of the turnover part is completed;

s5: when the applied wind power stops, the lifting weight block moves down rapidly along the accommodating cavity, the movable pulley sinks, the ventilated batten moves up to return to the original position under the traction acting force of the first traction stay cord, the traction pull belt moves back along the matching side groove of the attaching stay cord under the acting force of the first traction stay cord moving down, a series of subsequent components rotate in the opposite direction, and the arc-shaped knocking swing rod is closed rapidly, so that all implementation steps are completed.

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

1. the invention provides a cloth bag dust removing device with an impact beating structure and a method thereof, when a cloth bag is in a dust cleaning state, wind power is applied to the inner side of a cloth bag framework piece through a blowing opening, wind current acting force is applied to the surface of a wind-receiving strip plate, the wind-receiving strip plate pulls a stressed driving piece, a traction turntable rotates along a positioning clamping ring, the traction turntable drives two groups of traction arm rods to mutually pull, so as to drive two groups of traction swinging blocks to be mutually separated, the connection between an adapter ring and a sleeve joint rotating block and the connection between an arc steering groove and a limiting steering piece are utilized, so as to follow the angle steering of the arm rod body, two groups of arc beating swinging rods swing by taking an adapter column as an axis, the arc beating swinging rods break away from an annular fitting groove to impact a filter bag, the contact pressure is increased by utilizing a beating block, the cloth bag framework piece is provided with a plurality of groups of framework rings and beating pieces, the installation position of each group of beating pieces on the surface of the framework rings is staggered towards four directions, the arc that adjacent turns over the piece strikes the pendulum rod and opens the direction all has the difference, and then when the filter bag received the air current effort, a plurality of groups arc strikes the inboard of pendulum rod to the filter bag and strikes, the natural dynamics of droing of increase adhesion at filter bag outside surface dust, and then promote the sack to the cleaning efficiency of filter bag when the deashing state, promote the cleanliness factor, do benefit to follow-up use, and every group turns over the wind-force that a top-down received and reduces step by step, and then can prevent that the filter bag from receiving excessive effort, the problem of tearing takes place for the filter bag of avoiding, through utilizing the wind-force of appling when the deashing state, promote the dust removal dynamics of filter bag, not only hoisting device's work efficiency, and effectively utilize the resource.

2. The invention provides a cloth bag dust removing device with an impact turning structure and a method thereof, when wind power is applied to the surface of a wind receiving slat, one end of the wind receiving slat moves downwards along a first lifting adjusting groove, the movable pulley drives a lifting drop block to move upwards in the matching movement of a fixed pulley, a movable pulley and a first traction pull rope, an extension side block moves upwards along a second lifting adjusting groove, a traction pull belt moves along the pull rope matching side groove by using the elasticity of a second return spring, a gear disc is in a rotating state by using the meshing connection of a connecting tooth surface and the gear disc, further a second bevel gear and the gear disc integrally rotate along a first L-shaped rod as an axis, a traction rotating disc rotates along a positioning clamping ring by using the meshing connection of the second bevel gear and the first bevel gear, and the stability of the traction rotating disc is kept by using the connection of a limiting roller and an annular limiting groove, and utilize the connection of length-fixed card strip and break-through groove and the connection of laminating slider and laminating spout, make and pull the stretching strap and laminate the stay cord all the time and match the side slot and move about, avoid it by hunch-up, through the rotation of pulling the carousel, control arc strikes opening and shutting of pendulum rod, accomplishes promptly and turns over the complete function of beating, need not to add extra power supply, only leans on the wind-force of applying when the deashing state, alright accomplish whole activities.

3. When the applied wind power stops, on one hand, the gravity action of the gravity block and the downward contraction force of the first return spring are utilized, the lifting drop block rapidly moves downwards along the accommodating cavity, the movable pulley sinks, the wind receiving strip plate is driven to move upwards to restore the original position under the traction action of the first traction pull rope, on the other hand, the pull belt is drawn to move back along the fit pull rope matching side groove under the action of the downward movement of the extending side block, and then a subsequent series of components rotate in opposite directions, so that the arc-shaped knocking swing rod is rapidly closed, the arc-shaped knocking swing rod is opened and closed along with the opening and closing of the wind flow, the flexibility of the components is stronger, the available wind power resources are fully utilized, the cost of the device is saved, the dust removal of the cloth bag is improved, the knocked series of components are basically arranged in the overturning piece, the occupied volume is small, and the flowing space of the clean gas is not influenced, so that the clean gas can normally circulate.

Drawings

FIG. 1 is a schematic view of the overall structure of a bag-type dust collector with an impact tumbling structure according to the present invention;

FIG. 2 is a schematic structural diagram of a cloth bag framework piece of the cloth bag dust removal device with an impact tumbling structure;

FIG. 3 is a schematic structural diagram of a filter bag of a bag-type dust collector with an impact tumbling structure according to the present invention;

FIG. 4 is a schematic view of the structure of the wind-receiving slat of the bag-type dust collector with impact tumbling structure according to the present invention;

FIG. 5 is a schematic structural diagram of a skeleton ring of a bag-type dust collector with an impact tumbling structure according to the invention;

FIG. 6 is a schematic structural diagram of a turnover part of the bag-type dust collector with an impact turnover structure according to the present invention;

FIG. 7 is an enlarged view taken at A of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the internal plane structure of the transverse chute of the bag-type dust collector with impact tumbling structure according to the present invention;

FIG. 9 is a schematic structural view of a traction arm of the bag-type dust collector with an impact tumbling structure according to the present invention;

FIG. 10 is a schematic view of the internal plan view of the chamber of the bag-type dust collector with impact tumbling structure according to the present invention;

FIG. 11 is a schematic view of the internal planar structure of the force-receiving driving member of the bag-type dust collector with impact tumbling structure according to the present invention;

FIG. 12 is a schematic structural view of the lower end plane of the traction turntable of the bag-type dust collector with an impact tumbling structure according to the present invention;

FIG. 13 is a schematic view of the bottom structure of a traction turntable of the bag-type dust collector with an impact tumbling structure according to the present invention;

FIG. 14 is a schematic structural view of a tensile connector of the bag-type dust collector with an impact tumbling structure according to the present invention;

FIG. 15 is an enlarged view taken at B of FIG. 14 in accordance with the present invention;

FIG. 16 is a schematic view of the internal planar structure of the second return spring of the bag-type dust collector with impact tumbling structure according to the present invention.

In the figure: 1. a cloth bag framework piece; 11. a bottom liner tray; 12. a skeleton ring; 121. shaping the ring body; 122. an annular fitting groove; 123. limiting the wafer; 124. a transfer column; 1241. splicing rods; 1242. positioning the clamp ring; 12421. a limiting roller; 1243. a traction turntable; 12431. a first bevel gear; 12432. a second bevel gear; 12433. a gear plate; 12434. stretching the connecting piece; 124341, positioning handle bar; 124342, a pull rope matching side groove; 124343, pulling the drawstring; 124344, flank of articulation; 124345, a fixed limit block; 124346, outer splicing blocks; 1243461, a through slot; 124347, positioning long card strips; 124348, a fitting chute; 124349, fitting the sliding block; 1243491, a second return spring; 12435. a first L-shaped bar; 12436. a second L-shaped bar; 12437. an annular limiting groove; 1244. sleeving a rotating block; 1245. a traction arm lever; 12451. an arm rod body; 12452. a limiting steering piece; 12453. a transfer ring; 12454. a semicircular block; 12455. an arc-shaped steering groove; 12456. a movable clamping block; 1246. a transverse chute; 12461. a transverse limiting clamping groove; 125. reserving an inner groove; 126. a housing chamber; 127. a stressed drive member; 1271. a fixed pulley; 1272. a movable pulley; 1273. an external handle member; 1274. a first pull cord; 1275. a lifting pendant block; 1276. a gravity block; 1277. a first return spring; 1278. an extension side block; 128. a second lifting adjusting groove; 13. turning and beating the workpiece; 131. an arc-shaped knocking swing rod; 132. a double collar; 133. pulling the swinging block; 134. knocking the block; 14. a connecting rod; 15. a floating frame; 151. a frame member; 152. a floating limit groove; 153. a first lifting adjustment groove; 16. a wind-catching slat; 2. a filter bag; 21. a bag body; 22. an opening splicing ring; 3. a box body lining plate; 4. a matching ring; 5. a pulse valve; 6. a blowing pipe; 7. a blowing port; 8. a clean air chamber box; 81. an inlet outlet end; 82. matching the hole and the groove.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problems that when a cloth bag is in an ash cleaning state, the filter bag expands outwards through wind flow, dust adhered to the outer surface of the filter bag is subjected to an outward acting force, the dust naturally falls off, but the dust cannot be completely removed from the surface of the filter bag only by wind power, and more dust is adhered to the surface of the filter bag after the dust is blown by wind, so that the subsequent working efficiency is affected, as shown in fig. 1-10, the following preferable technical scheme is provided:

a cloth bag dust removal device with an impact turning structure comprises a cloth bag framework piece 1 and filter bags 2 arranged on the outer side of the cloth bag framework piece 1, five groups of cloth bag framework pieces 1 and filter bags 2 are arranged, box body lining plates 3 are arranged at the upper end and the lower end of each cloth bag framework piece 1, a matching ring 4 is arranged on the upper surface of each group of box body lining plates 3, a pulse valve 5 is arranged on one side of each matching ring 4, an injection pipe 6 is arranged on one side of each pulse valve 5, an injection port 7 is formed in the lower surface of each injection pipe 6, five groups of injection ports 7 are formed, the injection ports 7 are matched with the inner sides of the matching rings 4, a clean air chamber box 8 is arranged at the upper end of each box body lining plate 3, an air inlet outlet end 81 is arranged at one end of each clean air chamber box 8, a matching hole groove 82 is formed at the other end of each clean air chamber box 8, the matching hole grooves 82 are connected with the injection pipes 6, each cloth bag framework piece 1 comprises a bottom lining plate 11 arranged on the upper surface of each box body lining plate 3 and a framework ring 12 arranged on the upper surface of the bottom lining plate 11, the surface of the framework ring 12 is provided with a turnover part 13, two side ends of the framework ring 12 are provided with connecting rods 14, the filter bag 2 comprises a bag body 21 sleeved outside the framework ring 12 and an opening splicing ring 22 arranged at one end of the bag body 21, the opening splicing ring 22 corresponds to the matching ring 4, and the other end of the bag body 21 is connected with the bottom lining disc 11.

The framework ring 12 is provided with floating frames 15 on two inner side walls, a wind receiving slat 16 is arranged between two groups of floating frames 15, the framework ring 12 comprises a shaping ring body 121 and an annular fitting groove 122 arranged on the side surface of the shaping ring body 121, one side end of the shaping ring body 121 is provided with a limiting circular sheet 123, four groups of limiting circular sheets 123 are arranged, an adapter column 124 is arranged between the two groups of limiting circular sheets 123, a reserved inner groove 125 is arranged at the position, close to the limiting circular sheet 123, of the annular fitting groove 122, a turnover part 13 comprises an arc-shaped knocking swing rod 131 matched with the annular fitting groove 122 and a knocking block 134 arranged on the outer side surface of one end of the arc-shaped knocking swing rod 131, the other end of the arc-shaped knocking swing rod 131 is provided with a double-sleeve ring 132, the double-sleeve ring 132 is connected with the adapter column 124, a traction swing block 133 is arranged on the inner side surface of the double-sleeve ring 132, splicing rods 1241 are arranged on the side surfaces of the two groups of the adapter column 124, and the splicing rods 1241 are arranged inside gaps of the double-sleeve ring 124132, install location clamp ring 1242 between two sets of splice bars 1241, location clamp ring 1242 sets up the inboard at reserve inside groove 125, the inboard of location clamp ring 1242 is provided with draws carousel 1243, draw the both sides end of carousel 1243 upper surface and all install and cup joint commentaries on classics piece 1244, the surface cover of cup jointing commentaries on classics piece 1244 is equipped with pulls armed lever 1245, pull the inboard surface of pendulum piece 133 and seted up horizontal spout 1246, it is connected with horizontal spout 1246 through pulling armed lever 1245 to pull carousel 1243, horizontal spacing draw-in groove 12461 has been seted up to the interior bottom surface of horizontal spout 1246.

The traction arm rod 1245 comprises an arm rod body 12451 and an adapter ring 12453 installed at one end of the arm rod body 12451, the other end of the arm rod body 12451 is provided with a limit steering piece 12452, the adapter ring 12453 is connected with a socket steering piece 1244, a semicircular block 12454 is arranged inside a transverse sliding groove 1246, an arc-shaped steering groove 12455 is formed in the side surface of the semicircular block 12454, the arc-shaped steering groove 12455 is connected with a limit steering piece 12452, a movable fixture block 12456 is installed on the inner surface of the semicircular block 12454, the movable fixture block 12456 is connected with a transverse limit fixture groove 12461, the floating frame 15 comprises a frame piece 151 installed on the inner side wall of the framework ring 12 and a floating limit groove 152 arranged on the inner side of the frame piece 151, two ends of the wind-receiving plate 16 are both connected with the floating limit grooves 152, one side of the reserved inner groove 125 is provided with a containing chamber 126, and the containing chamber 126 is internally provided with a stressed driving piece 127.

Specifically, when the cloth bag is in the ash cleaning state, wind force is applied to the inner side of the cloth bag framework piece 1 through the blowing opening 7, wind current acting force is applied to the surface of the windy slat 16, the windy slat 16 pulls the windy drive piece 127, the traction turntable 1243 rotates along the positioning clamp ring 1242, the traction turntable 1243 drives the two groups of traction arm rods 1245 to mutually pull and further drive the two groups of traction swing blocks 133 to mutually separate, the connection between the adapter ring 12453 and the sleeve joint block 1244 and the connection between the arc steering groove 12455 and the limiting steering piece 12452 are utilized to steer in an angle of conforming to the arm rod body 12451, the two groups of arc swing rods 131 swing by taking the adapter column 124 as an axis, the arc swing rods 131 are separated from the annular fitting groove 122 to impact the filter bag 2, the contact pressure is increased by utilizing the striking block 134, the cloth bag framework piece 1 is provided with a plurality of groups of framework rings 12 and turning pieces 13, each group of turning pieces 13 faces four directions to stagger at the mounting positions on the surfaces of the framework rings 12, the adjacent arc that turns over beating 13 strikes pendulum rod 131 and opens the direction all has the difference, and then when filter bag 2 received the air current effort, a plurality of groups arc strikes pendulum rod 131 and strikes the inboard of filter bag 2, the natural dynamics that drops of increase adhesion at 2 outside surface dusts of filter bag, and then promote the sack to the cleaning efficiency of filter bag 2 when the deashing state, promote the cleanliness factor, do benefit to follow-up use, and every group turns over the wind-force that beats 13 top-down and receive and reduce step by step, and then can prevent that filter bag 2 from receiving excessive effort, the filter bag 2 of avoiding takes place the problem of tearing, through the wind-force of exerting when utilizing the deashing state, promote the dust removal dynamics of filter bag 2, not only hoisting device's work efficiency, and effectively utilize the resource.

In order to solve the technical problem that if an impact member is additionally arranged, a power source needs to be additionally arranged, which wastes resources, as shown in fig. 7-14, the following preferred technical scheme is provided:

a first lifting adjusting groove 153 is formed on the inner bottom surface of the floating limiting groove 152, one end of the wind-receiving strip plate 16 is connected with the first lifting adjusting groove 153, a second lifting adjusting groove 128 is formed on the inner bottom surface of the reserved inner groove 125, the force-driven member 127 comprises a fixed pulley 1271 arranged at the upper end of the accommodating chamber 126 and a movable pulley 1272 arranged at the lower end of the fixed pulley 1271, the surfaces of the fixed pulley 1271 and the movable pulley 1272 are respectively provided with an external handle member 1273, the external handle member 1273 of the fixed pulley 1271 is connected with the upper top surface of the accommodating chamber 126, the surfaces of the fixed pulley 1271 and the movable pulley 1272 are respectively provided with a first traction rope 1274, the first traction rope 1274 is in an S-shaped structure, one end of the first traction rope 1274 is connected with the upper top surface of the accommodating chamber 126, the other end of the first traction rope 1274 is connected with one end of the wind-receiving strip plate 16, the lower end of the other group of external handle members 1273 is provided with a lifting weight 1275, and the lifting weight 1275 is matched with the accommodating chamber 126, the lower surface of the lifting weight block 1275 is provided with a gravity block 1276, two sides of the gravity block 1276 are respectively provided with a first return spring 1277, one end of the first return spring 1277 is connected with the lower surface of the lifting weight block 1275, the other end of the first return spring 1277 is connected with the inner bottom surface of the accommodating chamber 126, the side surface of the lifting weight block 1275 is provided with an extension side block 1278, and the extension side block 1278 is connected with the second lifting adjusting groove 128.

Limiting rollers 12421 are mounted on two inner side walls of the positioning clamp ring 1242, an annular limiting groove 12437 is formed in a side surface of the traction turntable 1243, the limiting rollers 12421 are connected with the annular limiting groove 12437, a first bevel gear 12431 is mounted in the center of the lower surface of the traction turntable 1243, a second bevel gear 12432 is vertically mounted on one side of the first bevel gear 12431, the first bevel gear 12431 is meshed with the second bevel gear 12432, a gear disc 12433 is arranged in the center of a side vertical surface of the second bevel gear 12432, a first L-shaped rod 12435 is mounted in the center of the gear disc 12433, one end of the first L-shaped rod 12435 is connected with the positioning clamp ring 1242, a stretching connecting piece 12434 is arranged on one side of the gear disc 12433, a second L-shaped rod 12436 is mounted on a side vertical surface of the stretching connecting piece 12434, and one end of the second L-shaped rod 12436 is connected with the positioning clamp ring 1242.

Specifically, when wind is applied to the surface of the wind-receiving strip plate 16, one end of the wind-receiving strip plate 16 moves down along the first lifting adjustment slot 153, the movable pulley 1272 moves in cooperation with the fixed pulley 1271, the movable pulley 1272 and the first pull rope 1274, the movable pulley 1272 drives the lifting weight 1275 to move up, the extension side piece 1278 moves up along the second lifting adjustment slot 128, the pull belt 124343 moves along the rope matching side slot 124342 by the elastic force of the second return spring 1243491, the gear plate 12433 is in a rotating state by the meshing connection of the connecting tooth surface 124344 and the gear plate 12433, the second bevel gear 12432 and the gear plate 12433 as a whole rotate along the first L-shaped rod 12435 as an axis, the pull dial 1243 rotates along the positioning clip ring 1242 by the meshing connection of the second bevel gear 12432 and the first bevel gear 12431, the connection of the limit roller 12421 and the annular limit groove 37 are used to maintain the stability of the pull dial 1243 during rotation, and the connection of the positioning long clamping strip 124347 and the through groove 1243461 and the connection of the joint sliding block 124349 and the joint sliding groove 124348 are utilized to ensure that the traction pull belt 124343 is always jointed with the pull rope to match with the side groove 124342 for moving, so that the arch of the pull rope is avoided, the opening and closing of the arc-shaped knocking swing rod 131 are controlled through the rotation of the traction rotary disc 1243, namely the complete knocking operation of the overturning part 13 is finished, no additional power source is needed to be added, and all the movement can be finished only by the wind power applied in the ash cleaning state.

In order to better solve the technical problems that the occupied volume of the additionally arranged component is large, the normal circulation of clean gas in the filter bag is influenced, the loss is avoided, and the working efficiency is reduced, as shown in fig. 11-16, the following preferable technical scheme is provided:

the stretching connecting piece 12434 comprises a positioning handle strip 124341 arranged at the lower end of the traction turntable 1243 and a pull rope matching side groove 124342 arranged on the side surface of the positioning handle strip 124341, a traction pull belt 124343 is arranged inside the pull rope matching side groove 124342, a connecting tooth surface 124344 is arranged on the outer surface of the traction pull belt 124343, the connecting tooth surface 124344 is in meshed connection with the gear disc 12433, a fixed limiting block 124345 is arranged at one end of the pull rope matching side groove 124342, an outer splicing block 124346 is arranged at one end of the traction pull belt 124343, the other end of the traction pull belt 124343 is connected with an extension side block 1278, a positioning long clamping strip 124347 is arranged on the lower surface of the fixed limiting block 124345, a fitting sliding groove 124348 is arranged on the inner bottom surface of the pull rope matching side groove 124342, a fitting sliding block 124349 is arranged on the inner side of one end of the traction pull belt 124343, the fitting sliding groove 124348 is connected with the fitting sliding block 124349, a through groove 1243461 is arranged on the surface of the outer splicing block 124346, and the through groove 1243461 is connected with the positioning long clamping strip 124347, the upper surface of laminating slider 124349 installs second reset spring 1243491, and the one end of second reset spring 1243491 is connected with the last top surface of laminating spout 124348.

Specifically, when the applied wind force stops, on one hand, the lifting weight 1275 moves down rapidly along the accommodating chamber 126 by utilizing the gravity action of the gravity block 1276 and the downward contraction force of the first return spring 1277, the movable pulley 1272 sinks, the wind receiving strip 16 is driven to move upwards to return to the original position by utilizing the traction force of the first traction pull rope 1274, on the other hand, the traction pull belt 124343 moves back along the fitting pull rope matching side groove 124342 by utilizing the downward movement force of the extension side block 1278, and further a subsequent series of components rotate in the opposite direction, so that the arc-shaped knocking swing rod 131 is closed rapidly, the arc-shaped knocking swing rod 131 is opened and closed along with the opening and closing of the wind flow, the flexibility of the components is strong, the available wind force resources are fully utilized, the cost of the device is saved, the strength of the cloth bag is improved, the knocked series of components are basically arranged inside the overturning part 13, the occupied volume is small, and the flow space of the clean gas is not influenced, so that it can be normally circulated.

To further better illustrate the above examples, the present invention also provides an implementation method of a bag-type dust collector with an impact tumbling structure, comprising the following steps:

the method comprises the following steps: when the cloth bag is in a dust cleaning state, wind power is applied to the inner side of the cloth bag framework piece 1 through the blowing opening 7, wind flow acting force is applied to the surface of the windy slat 16, the traction turntable 1243 rotates along the positioning clamp ring 1242, the traction turntable 1243 drives two groups of traction arm rods 1245 to mutually pull, two groups of arc-shaped knocking swing rods 131 swing by taking the adapter column 124 as an axis, and the arc-shaped knocking swing rods 131 are separated from the annular fitting groove 122 to impact the filter bag 2;

step two: the cloth bag framework piece 1 is provided with a plurality of groups of framework rings 12 and overturning pieces 13, the mounting positions of each group of overturning pieces 13 on the surfaces of the framework rings 12 face four directions and are staggered, the opening directions of the arc-shaped knocking swing rods 131 of the adjacent overturning pieces 13 are different, when the filter bag 2 is subjected to wind current acting force, the arc-shaped knocking swing rods 131 strike the inner side of the filter bag 2, and the wind force applied to each group of overturning pieces 13 from top to bottom is gradually reduced;

step three: when wind power is applied to the surface of the wind-receiving strip plate 16, one end of the wind-receiving strip plate 16 moves downwards along the first lifting adjusting groove 153, the movable pulley 1272 drives the lifting drop block 1275 to move upwards through the matching activities of the fixed pulley 1271, the movable pulley 1272 and the first traction rope 1274, the extension side block 1278 moves upwards along the second lifting adjusting groove 128, the traction pull belt 124343 moves along the rope matching side groove 124342, and the second bevel gear 12432 and the gear disc 12433 integrally rotate along the first L-shaped rod 12435 as an axis;

step four: the traction turntable 1243 rotates along the positioning clamp ring 1242, the traction pull belt 124343 is always attached to the pull rope matching side groove 124342 for movement, and the opening and closing of the arc-shaped knocking swing rod 131 are controlled by the rotation of the traction turntable 1243, namely the complete knocking operation of the turnover knocking piece 13 is completed;

step five: when the applied wind stops, the lifting weight 1275 moves down rapidly along the accommodating chamber 126, the movable pulley 1272 sinks, the wind receiving plate 16 moves up to return to the original position under the traction force of the first traction pull rope 1274, the traction pull belt 124343 moves back along the fitting pull rope matching side groove 124342 under the downward force of the extension side block 1278, the subsequent series of components rotate in the opposite direction, and the arc-shaped knocking swing rod 131 is closed rapidly, so that all implementation steps are completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a sack dust collector with strike structure of beating, includes sack skeleton piece (1) and sets up filter bag (2) in sack skeleton piece (1) outside, its characterized in that: the bag frame piece (1) and the filter bag (2) are provided with five groups, the upper end and the lower end of the bag frame piece (1) are provided with box body lining plates (3), the upper surface of the box body lining plates (3) is provided with a matching ring (4), one side of the matching ring (4) is provided with a pulse valve (5), one side of the pulse valve (5) is provided with an injection pipe (6), the lower surface of the injection pipe (6) is provided with an injection port (7), the injection port (7) is provided with five groups, the injection port (7) is matched with the inner side of the matching ring (4), the upper end of the box body lining plate (3) is provided with a clean air chamber box (8), one end of the clean air chamber box (8) is provided with an air inlet outlet end (81), the other end of the clean air chamber box (8) is provided with a matching hole groove (82), the matching hole groove (82) is connected with the injection pipe (6), the bag frame piece (1) comprises a bottom lining plate (11) arranged on the upper surface of the box body lining plate (3) and a frame ring (11) arranged on the upper surface of the bottom lining plate (11) 12) The surface of the framework ring (12) is provided with a turnover piece (13), two side ends of the framework ring (12) are respectively provided with a connecting rod (14), the filter bag (2) comprises a bag body (21) sleeved outside the framework ring (12) and an opening splicing ring (22) arranged at one end of the bag body (21), the opening splicing ring (22) corresponds to the matching ring (4), and the other end of the bag body (21) is connected with the bottom lining disc (11);

the two inner side walls of the framework ring (12) are respectively provided with a floating frame (15), a wind-receiving slat (16) is arranged between two groups of floating frames (15), the framework ring (12) comprises a shaping ring body (121) and an annular fitting groove (122) formed in the side surface of the shaping ring body (121), one side end of the shaping ring body (121) is provided with a limiting wafer (123), four groups of limiting wafers (123) are arranged, an adapter column (124) is arranged between the two groups of limiting wafers (123), a reserved inner groove (125) is formed in the position, close to the limiting wafer (123), of the annular fitting groove (122), a turnover part (13) comprises an arc-shaped knocking swing rod (131) matched with the annular fitting groove (122) and a knocking block (134) arranged on the outer side surface of one end of the arc-shaped knocking swing rod (131), the other end of the arc-shaped knocking swing rod (131) is provided with a double-sleeve ring (132), and the double-sleeve ring (132) is connected with the adapter column (124), the inner side surface of the double-sleeve ring (132) is provided with a traction swing block (133), the side surfaces of the two groups of switching columns (124) are respectively provided with a splicing rod (1241), the splicing rods (1241) are arranged on the inner side of the gap of the double-sleeve ring (132), a positioning clamping ring (1242) is arranged between the two groups of splicing rods (1241), the positioning clamping ring (1242) is arranged on the inner side of the reserved inner groove (125), the inner side of the positioning clamping ring (1242) is provided with a traction turntable (1243), the two side ends of the upper surface of the traction turntable (1243) are respectively provided with a sleeved rotary block (1244), the surface of the sleeved rotary block (1244) is sleeved with a traction arm rod (1245), the inner side surface of the traction swing block (133) is provided with a transverse sliding groove (1246), the traction turntable (1243) is connected with the transverse sliding groove (1246) through the traction arm rod (1245), and the inner bottom surface of the transverse sliding groove (1246) is provided with a transverse limiting clamping groove (61);

the traction arm rod (1245) comprises an arm rod body (12451) and a switching ring (12453) installed at one end of the arm rod body (12451), the other end of the arm rod body (12451) is provided with a limiting steering piece (12452), the switching ring (12453) is connected with a sleeve-connection rotating block (1244), a semicircular block (12454) is arranged inside a transverse sliding groove (1246), an arc-shaped steering groove (12455) is formed in the side surface of a semicircular block (12454), the arc-shaped steering groove (12455) is connected with a limiting steering piece (12452), a movable clamping block (12456) is installed on the inner surface of the semicircular block (12454), the movable clamping block (12456) is connected with a transverse limiting clamping groove (12461), a floating frame (15) comprises a frame piece (151) installed on the inner side wall of a framework ring (12) and a floating limiting groove (152) arranged on the inner side of the frame piece (151), two ends of a wind-receiving slat (16) are connected with the floating limiting groove (152), one side of a receiving cavity (125) is provided with a receiving cavity (126), the interior of the accommodating chamber (126) is provided with a force-driven piece (127).

2. The bag house dust collector with impact whipping structure as defined in claim 1, wherein: a first lifting adjusting groove (153) is formed in the inner bottom surface of the floating limiting groove (152), one end of the wind-receiving slat (16) is connected with the first lifting adjusting groove (153), a second lifting adjusting groove (128) is formed in the inner bottom surface of the reserved inner groove (125), the force-receiving driving piece (127) comprises a fixed pulley (1271) arranged at the upper end of the accommodating chamber (126) and a movable pulley (1272) arranged at the lower end of the fixed pulley (1271), external handle pieces (1273) are arranged on the surfaces of the fixed pulley (1271) and the movable pulley (1272), the external handle piece (1273) of the fixed pulley (1271) is connected with the upper top surface of the accommodating chamber (126), a first traction stay rope (1274) is wound on the surfaces of the fixed pulley (1271) and the movable pulley (1272), the first traction stay rope (1274) is of an S-shaped structure, and one end of the first traction stay rope (1274) is connected with the upper top surface of the accommodating chamber (126), the other end of the first traction pull rope (1274) is connected with one end of the wind-receiving strip plate (16), the lower end of the other group of external handle pieces (1273) is provided with a lifting weight block (1275), the lifting weight block (1275) is matched with the accommodating chamber (126), the lower surface of the lifting weight block (1275) is provided with a gravity block (1276), two sides of the gravity block (1276) are respectively provided with a first return spring (1277), one end of the first return spring (1277) is connected with the lower surface of the lifting weight block (1275), the other end of the first return spring (1277) is connected with the inner bottom surface of the accommodating chamber (126), the side surface of the lifting weight block (1275) is provided with an extension side block (1278), and the extension side block (1278) is connected with the second lifting adjusting groove (128).

3. The bag house dust collector with impact whipping structure as defined in claim 2, wherein: limiting rolling pieces (12421) are mounted on two inner side walls of the positioning clamp ring (1242), an annular limiting groove (12437) is formed in the side surface of the traction turntable (1243), and the limiting rolling pieces (12421) are connected with the annular limiting groove (12437).

4. The bag house dust collector with impact whipping structure as defined in claim 3, wherein: the center of the lower surface of the traction turntable (1243) is provided with a first bevel gear (12431), one side of the first bevel gear (12431) is vertically provided with a second bevel gear (12432), the first bevel gear (12431) is meshed and connected with the second bevel gear (12432), and the center of the side vertical surface of the second bevel gear (12432) is provided with a gear disc (12433).

5. The bag house dust collector with impact whipping structure as defined in claim 4, wherein: a first L-shaped rod (12435) is installed at the center of the gear disc (12433), one end of the first L-shaped rod (12435) is connected with the positioning clamp ring (1242), a stretching connecting piece (12434) is arranged on one side of the gear disc (12433), a second L-shaped rod (12436) is installed on the side vertical face of the stretching connecting piece (12434), and one end of the second L-shaped rod (12436) is connected with the positioning clamp ring (1242).

6. The bag house dust collector with impact whipping structure as defined in claim 5, wherein: the tensile connecting piece (12434) comprises a positioning handle bar (124341) arranged at the lower end of the traction turntable (1243) and a pull rope matching side groove (124342) formed in the side surface of the positioning handle bar (124341), a traction pull belt (124343) is arranged inside the pull rope matching side groove (124342), a connecting tooth surface (124344) is arranged on the outer surface of the traction pull belt (124343), the connecting tooth surface (124344) is meshed with the gear disc (12433) and is connected with the gear disc, and a fixed limiting block (124345) is arranged at one end of the pull rope matching side groove (124342).

7. The bag house dust collector with impact whipping structure as defined in claim 6, wherein: one end of the pulling and pulling strip (124343) is provided with an outer splicing block (124346), and the other end of the pulling and pulling strip (124343) is connected with the extension side block (1278).

8. The bag house dust collector with impact whipping structure as defined in claim 7, wherein: the lower surface of the fixed limiting block (124345) is provided with a positioning length clamping strip (124347), the inner bottom surface of the pull rope matching side groove (124342) is provided with a fitting sliding groove (124348), the inner side of one end of the traction pull belt (124343) is provided with a fitting sliding block (124349), and the fitting sliding groove (124348) is connected with the fitting sliding block (124349).

9. The bag house dust collector with impact whipping structure as defined in claim 8, wherein: the surface of outer concatenation piece (124346) has seted up through-going groove (1243461), and through-going groove (1243461) is connected with length of location card strip (124347), and the surface mounting of laminating slider (124349) has second reset spring (1243491), and the one end of second reset spring (1243491) is connected with the last top surface of laminating spout (124348).

10. A method of implementing a bag house dust collector with an impact whipping structure as defined in claim 9, wherein: the method comprises the following steps:

s1: when the cloth bag is in a dust cleaning state, wind power is applied to the inner side of the cloth bag framework piece (1) through the blowing opening (7), wind flow acting force is applied to the surface of the windward slat (16), the traction turntable (1243) rotates along the positioning clamp ring (1242), the traction turntable (1243) drives two groups of traction arm rods (1245) to mutually pull, two groups of arc-shaped knocking swing rods (131) swing by taking the transfer column (124) as an axis, and the arc-shaped knocking swing rods (131) are separated from the annular fitting groove (122) to impact the filter bag (2);

s2: the cloth bag framework piece (1) is provided with a plurality of groups of framework rings (12) and overturning pieces (13), the installation positions of the overturning pieces (13) on the surfaces of the framework rings (12) face to four directions and are staggered, the opening directions of arc-shaped knocking swing rods (131) of adjacent overturning pieces (13) are different, when the filter bag (2) is subjected to wind current acting force, the arc-shaped knocking swing rods (131) impact the inner side of the filter bag (2), and the wind force borne by each group of overturning pieces (13) from top to bottom is gradually reduced;

s3: when wind power is applied to the surface of the wind-receiving strip plate (16), one end of the wind-receiving strip plate (16) moves downwards along the first lifting adjusting groove (153), the movable pulley (1272) drives the lifting drop block (1275) to move upwards in the matching action of the fixed pulley (1271), the movable pulley (1272) and the first traction pull rope (1274), the extension side block (1278) moves upwards along the second lifting adjusting groove (128), the traction pull rope (124343) moves along the pull rope matching side groove (124342), and the second bevel gear (12432) and the gear disc (12433) integrally rotate along the first L-shaped rod (12435) as an axis;

s4: the traction turntable (1243) rotates along the positioning clamp ring (1242), the traction pull belt (124343) is always attached to the pull rope matching side groove (124342) to move, and the opening and closing of the arc-shaped knocking swing rod (131) are controlled by the rotation of the traction turntable (1243), namely the complete knocking operation of the overturning part (13) is completed;

s5: when the applied wind force stops, the lifting drop block (1275) rapidly moves downwards along the accommodating chamber (126), the movable pulley (1272) sinks, the wind-driven slat (16) moves upwards to return to the original position under the traction force of the first traction pull rope (1274), the traction pull belt (124343) moves backwards along the matching side groove (124342) of the attaching pull rope under the downward force of the extending side block (1278), and the subsequent components (3) rotate in the opposite directions, so that the arc-shaped knocking swing rod (131) is rapidly closed, and all the implementation steps are completed.