CN113019047B - Dust collector for architectural decoration engineering - Google Patents

Abstract

The application relates to a dust removal device for architectural decoration engineering, which relates to the technical field of dust removal of architectural decoration engineering; the dust removal device comprises a dust removal box, a fan and a dust removal cloth bag, wherein a clean air cavity and a dust removal cavity are respectively arranged in the dust removal box, a dust extraction port is formed in the dust removal box, a cleaning mechanism is arranged in the dust removal box, a receiving groove is inserted in the dust removal box, and a dust removal assembly is arranged on the dust removal box; when removing dust, start the fan, the fan is with the air through taking out dirt mouth suction dust removal intracavity, the air passes the dust removal sack again and gets into the air-purifying intracavity, the air is when passing the dust removal sack, the dust in the dust removal sack detention air, the air that gets into the air-purifying intracavity passes the fan discharge again, after the dust is attached to the dust removal sack, reuse clearance mechanism carries out the deashing to the dust removal sack, utilize the dust fall subassembly to deposit the dust in accepting the groove simultaneously, will accept the groove again and take out the clearance dust, thereby accomplish the dust removal, with this possibility that reduces the dust and fly upward once more in the environment, improve the dust removal effect to the environment.

Description

Dust collector for architectural decoration engineering

Technical Field

The application relates to the technical field of architectural decoration engineering dust removal, especially, relate to a dust collector for architectural decoration engineering.

Background

The architectural decoration means that various treatments are carried out on the inner surface and the outer surface of a building and the space by adopting decorative materials so as to improve the physical property and the aesthetic degree of a building main body, in the decoration process, holes or grooves are often required to be formed on the surface of the building so as to cause dust to fly, and the dust which flies upward is collected in time by arranging a dust removal device so as to avoid polluting the environment.

Chinese utility model patent with grant publication number CN209254375U discloses an environmental protection dust collecting equipment of building engineering construction, including base, under casing and headstock, be equipped with water tank, water pump and inlet tube in the under casing respectively, be equipped with the connecting pipe that is linked together with the water pump on the under casing.

To the above-mentioned correlation technique, the inventor thinks that when removing dust, the water pump takes out the water in the water tank and pours into the connecting pipe into, and the connecting pipe sprays water to the environment again in to increase the humidity in the environment and accomplish the dust removal, but the dust is only gathered on ground, and when humidity reduced in the environment, the dust flies to the environment again very easily, leads to the dust removal effect relatively poor.

Disclosure of Invention

In order to improve the relatively poor problem of dust removal effect, this application provides a dust collector for architectural decoration engineering.

The application provides a dust collector for architectural decoration engineering adopts following technical scheme:

the utility model provides a dust collector for architectural decoration engineering, includes the dust removal case, sets up the fan on the dust removal case and sets up the dust removal sack at the dust removal incasement, the dust removal incasement is equipped with air purification chamber and dust removal chamber respectively, the dust removal sack is located the dust removal intracavity, the dust removal sack with the air purification chamber is linked together, the air purification chamber with the fan is linked together, set up the dust extraction mouth that is linked together with the dust removal chamber on the dust removal case, the dust removal incasement is equipped with the clearance mechanism that is used for carrying out the deashing to the dust removal sack, insert on the dust removal case and be equipped with and be linked together with the dust removal chamber and accept the groove, be equipped with on the dust removal case and be used for subsiding the dust fall subassembly accepting the inslot with the dust.

Through adopting above-mentioned technical scheme, when removing dust, start the fan, the fan is with the air through taking out dirt mouth suction dust removal intracavity, the air passes the dust removal sack again and gets into the net gas intracavity, the air is when passing the dust removal sack, the dust in the air is detained to the dust removal sack, thereby purify the air, the air that gets into the net gas intracavity passes the fan again and discharges, after the dust is attached to the dust removal sack, reuse clearance mechanism carries out the deashing to the dust removal sack, utilize the dust fall subassembly to deposit the dust in accepting the groove simultaneously, will accept the groove again and take out the clearance dust, thereby accomplish the dust removal, with this possibility that reduces the dust and fly upward once more in the environment, improve the dust removal effect to the environment.

Optionally, clearance mechanism is including fixing the deashing ring on the dust removal sack, setting just is used for folding the folding assembly of dust removal sack on the deashing ring and sets up on the dust removal case and be used for driving the rotatory rotating assembly of dust removal sack, the dust removal sack with the dust removal case rotates to be connected.

Through adopting above-mentioned technical scheme, when carrying out the deashing to the dust removal sack, utilize folding assembly to fold the dust removal sack, folding assembly resets again in order to drive the dust removal sack reconversion, utilizes rotating assembly to drive the dust removal sack simultaneously rotatory to this along with the reciprocal deformation of dust removal sack, the dust of attached to on the dust removal sack along with the deformation of dust removal sack and with the separation of dust removal sack, thereby accomplish the clearance to the dust removal sack smoothly.

Optionally, folding assembly is including fixing folding piece on the dust removal sack, articulating the pull rod on folding piece and fixing the rolling dish on the dust removal sack, the rolling dish is located deashing ring top, be equipped with on the dust removal sack and be used for driving rolling dish pivoted coiling motor, the winding has the receipts winding rope on the rolling dish, the one end and the deashing of receipts winding rope ring fixed connection, folding piece is located the rolling dish with between the deashing ring, the one end that folding piece was kept away from to the pull rod with the dust removal sack is articulated mutually, it has lower pull rod to articulate on the folding piece, lower pull rod keeps away from the one end of folding piece with the deashing ring is articulated mutually.

Through adopting above-mentioned technical scheme, when folding the dust removal sack, start the rolling motor, rolling motor drive rolling dish rotates, rolling dish winding rope, the winding rope pulls the deashing ring and moves, the deashing ring promotes the lower link and rotates, the lower link promotes folding piece extrusion dust removal sack, folding piece pulling upper pull rod rotates, fold the dust removal sack smoothly with this, accomplish folding back, stopping the power supply of rolling motor, the deashing ring relies on the dead weight whereabouts, the pulling lower link resets, the lower link drives folding piece and upper pull rod and resets, drive the dust removal sack reconversion with this smoothly, accomplish the folding to the dust removal sack smoothly with this.

Optionally, a counterweight is fixed on one side of the ash removing ring away from the lower pull rod.

Through adopting above-mentioned technical scheme, when the deashing ring resets, the balancing weight increases the dead weight of deashing ring to when the deashing ring in-process that resets, increase the pulling force that the dust removal sack received, when the deashing ring resets, owing to receive the spacing sudden stop of pull rod down, thereby produce vibrations to the dust removal sack, thereby shake the adnexed dust on the sack surface of will removing dust and shake, in order to improve the clearance effect.

Optionally, the rotating assembly is including fixing the rotating electrical machines in the dust removal case and fixing the rotatory ring on the dust removal sack, the cover is equipped with reciprocating belt on the motor shaft of rotating electrical machines, rotatory ring with the dust removal case rotates to be connected, the welding has the connecting rod on the roof of rotatory ring, the connecting rod sets up four, four the connecting rod is followed rotatory ring's circumference equipartition, the connecting rod slope upwards sets up, the connecting rod is kept away from the one end welding of rotatory ring has the axis of rotation, vertical direction setting is followed to the axis of rotation, the axis of rotation with the roof of dust removal case rotates to be connected, the welding has the rotary disk in the axis of rotation, the cover is equipped with reciprocating belt on the rotary disk, be fixed with the driving-disc on the motor shaft of rotating electrical machines, reciprocating belt keeps away from a pot head of rotary disk is established on the driving-disc.

Through adopting above-mentioned technical scheme, when drive dust removal sack is rotatory, start rotating electrical machines, rotating electrical machines drives reciprocal belt and is reciprocal rotation, and reciprocal belt drives rotatory ring rotation, thereby rotatory ring drives the rotation of dust removal sack to this drives dust removal sack reciprocal rotation smoothly, and the dust removal sack is at reciprocal rotation in-process, increases the vibration range of dust removal sack, thereby further improves the clearance effect to the dust removal sack.

Optionally, an impact plate is fixed on the inner side wall of the dust removal box, and an impact block which collides with the impact plate is fixed on the ash removal ring.

Through adopting above-mentioned technical scheme, when the dust removal sack rotated, drive deashing ring synchronous revolution, the deashing ring drove the striking piece and rotates, and the striking piece is at the rotation in-process and striking board collision to this further increases the vibration range of dust removal sack in the rotation process, thereby is favorable to the dust to drop from the dust removal sack smoothly.

Optionally, the dust exhaust port is provided with a dust exhaust pipe, the dust exhaust pipe is internally hinged with a sealing plate, a sealing snap ring is fixed in the dust exhaust pipe and located on one side of the sealing plate far away from the dust exhaust box, and the side face of the sealing snap ring is inconsistent with the side face of the sealing plate.

Through adopting above-mentioned technical scheme, when the deashing, start the fan upset, the fan blows in the dust removal sack with the air is reverse in, and the shrouding seals the extraction pipe with sealed snap ring cooperation simultaneously, and the air passes the dust removal sack to blow off the adnexed dust on the dust removal sack, in order to improve the deashing effect.

Optionally, the dust extraction pipe is connected with a dust extraction cover through a corrugated pipe.

Through adopting above-mentioned technical scheme, take out the dust hood and increase the intercommunication area of taking out dirt pipe and environment, adjust the angle of taking out the dust hood through the bellows simultaneously, the convenience will be taken out the dust hood and take out the dirt towards different position.

Optionally, an adjusting motor is fixed on the outer side wall of the dust removal box, an adjusting gear is fixed on a motor shaft of the adjusting motor, and a driven gear meshed with the adjusting gear is fixed on the dust extraction pipe.

Through adopting above-mentioned technical scheme, when the angle of needs dust extraction cover to the regulation, start the accommodate motor, accommodate motor drive adjusting gear rotates, and adjusting gear drives driven gear and rotates, thereby driven gear drives the dust extraction pipe and rotates to this realizes the regulation of dust extraction cover angle automatically, improves holistic degree of automation.

Optionally, the dust fall subassembly is including setting up water tank on the dust removal case lateral wall, setting up the dust fall pipe in the dust removal intracavity and set up on the water tank and with the water pump of water tank intercommunication, the delivery port of water pump with the dust fall pipe is linked together, be equipped with the atomising head on the dust fall pipe, the dust fall pipe is located accept the top in groove.

Through adopting above-mentioned technical scheme, when dust fall, start the water pump, the water pump is taken the water in the water tank out and is poured into the dust fall intraductally through the delivery port, and the rethread atomising head is with vaporific spraying to the intracavity that removes dust to increase the air humidity of the intracavity that removes dust, subside the dust smoothly in accepting the groove.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when dust is removed, a fan is started, the fan sucks air containing dust in the environment into a dust removing cavity through a dust suction port, the air entering the dust removing cavity passes through a dust removing cloth bag and enters a gas purifying cavity, when the air passes through the dust removing cloth bag, the dust in the air is retained by the dust removing cloth bag, so that the air is filtered, and the filtered air passes through the gas purifying cavity and then passes through the fan to be discharged into the environment; when dust is attached to the dust removal cloth bag, the dust removal cloth bag is cleaned through the cleaning mechanism, the dust is settled in the receiving groove through the dust removal assembly, and the receiving groove is pumped out to clean the dust, so that dust removal is smoothly completed, the possibility that the dust flies in the environment again is reduced, and the dust removal effect on the environment is improved;

2. the counterweight block increases the weight of the ash removal ring, when the ash removal ring drives the ash removal cloth bag to recover the original shape, the ash removal cloth bag vibrates when recovering the original shape due to the limit of the lower pull rod to the ash removal ring, and therefore dust attached to the ash removal cloth bag is smoothly vibrated down;

3. when the dust removal cloth bag rotates, the dust removal ring is driven to synchronously rotate, the dust removal ring drives the impact block to rotate, and the impact block collides with the impact plate in the rotating process, so that the vibration amplitude of the dust removal cloth bag is further increased, and the cleaning effect of the dust removal cloth bag is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of a dust collector for architectural decoration engineering in an embodiment of the present application.

Fig. 2 is a schematic sectional structure diagram of the dust removing box, the dust removing cloth bag, the rotating mechanism and the settling component in fig. 1.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Figure 4 is a schematic cross-sectional view of the dust box, the dust bag, the settling assembly and the folding assembly of figure 1.

FIG. 5 is a schematic view of the structure of the rotatable ring, the dusting cloth bag and the folding assembly of the embodiment of the present application.

Description of reference numerals: 1. a dust removal box; 11. a dust removal cloth bag; 12. a fan; 13. a universal wheel; 14. pushing a hand; 15. a partition plate; 16. a clean air cavity; 17. a dust removal cavity; 18. a dust extraction port; 181. a dust extraction pipe; 182. a bellows; 183. a dust extraction hood; 184. adjusting the motor; 185. an adjusting gear; 186. a driven gear; 187. closing the plate; 188. sealing the snap ring; 19. a receiving groove; 2. a dust fall assembly; 21. a water tank; 211. a water injection port; 22. a water pump; 221. a water injection pipe; 23. a dust settling pipe; 24. a spray head; 3. a cleaning mechanism; 31. cleaning ash rings; 4. a rotating assembly; 41. a rotating ring; 411. a connecting rod; 412. a rotating shaft; 413. rotating the disc; 42. a rotating electric machine; 421. a drive disc; 43. a reciprocating belt; 44. an impact block; 45. an impact plate; 5. a folding assembly; 51. a folding block; 52. an upper pull rod; 53. a lower pull rod; 54. a winding motor; 55. a winding disc; 56. winding the rope; 57. and a balancing weight.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses dust collector for architectural decoration engineering.

Referring to fig. 1 and 2, the dust removing device for architectural decoration engineering comprises a dust removing box 1, a dust removing cloth bag 11 and a fan 12, wherein four universal wheels 13 are arranged on the bottom wall of the dust removing box 1, the four universal wheels 13 are uniformly distributed along the circumferential direction of the dust removing box 1, a push handle 14 is welded on the outer side wall of the dust removing box 1, a partition plate 15 is welded in the dust removing box 1, the partition plate 15 is arranged along the horizontal direction, the inside of the dust removing box 1 is divided into a clean air cavity 16 and a dust removing cavity 17 by the partition plate 15, the dust removing cloth bag 11 is arranged on the partition plate 15, the dust removing cloth bag 11 is positioned in the dust removing cavity 17, the dust removing cloth bag 11 is communicated with the clean air cavity 16, and the fan 12 is arranged on the side surface of the dust removing box 1 and is communicated with the clean air cavity 16; a dust extraction port 18 communicated with the dust removal cavity 17 is arranged on the side surface of the dust removal box 1.

Referring to fig. 1 and 2, a cleaning mechanism 3 for cleaning dust of a dust removal cloth bag 11 is arranged in a dust removal box 1, a receiving groove 19 is inserted in the side surface of the dust removal box 1, the receiving groove 19 is positioned below the dust removal cloth bag 11, the receiving groove 19 is communicated with a dust removal cavity 17, and a dust fall assembly 2 for settling dust in the receiving groove 19 is arranged on the dust removal box 1; firstly, the dust removal box 1 is pushed to the environment needing dust removal through the pushing handle 14, then the fan 12 is started to suck the air in the environment into the dust removal cavity 17 through the dust suction port 18, the air entering the dust removal cavity 17 passes through the dust removal cloth bag 11 and enters the air purification cavity 16, when the air passes through the dust removal cloth bag 11, the dust removal cloth bag 11 retains the dust contained in the air, thereby the air is smoothly filtered, the dust content in the air is reduced, the air in the air purification cavity 16 is discharged into the environment through the fan 12, thereby the dust in the environment is completely attached to the dust removal cloth bag 11, then the cleaning mechanism 3 is used for cleaning the dust removal cloth bag 11, meanwhile, the dust removal component 2 is used for completely settling the dust on the dust removal cloth bag 11 in the receiving groove 19, after the settling is completed, the receiving groove 19 is pumped out, the settled dust is intensively treated, thereby the dust is smoothly finished, and the possibility that the dust is raised into the environment again is reduced, the dust removal effect on the environment is improved.

Referring to fig. 1 and fig. 2, a dust suction pipe 181 is rotatably connected in the dust suction port 18, one end of the dust suction pipe 181 is communicated with the dust removal cavity 17, and the other end of the dust suction pipe 181 is fixedly connected with a corrugated pipe 182, one end of the corrugated pipe 182 far away from the dust suction pipe 181 is fixedly connected with a dust suction cover 183, an adjusting motor 184 is fixed on the outer side wall of the dust removal box 1, the adjusting motor 184 adopts a speed reduction motor, an adjusting gear 185 is coaxially fixed on a motor shaft of the adjusting motor 184, and a driven gear 186 meshed with the adjusting gear 185 is coaxially welded on the outer side wall of the dust suction pipe 181; during dust extraction, the orientation of the dust extraction cover 183 is adjusted by adjusting the corrugated pipe 182, so that the angle of the dust extraction cover 183 is adjusted according to different dust removal requirements; the adjusting motor 184 is started again, the adjusting motor 184 drives the adjusting gear 185 to rotate, the adjusting gear 185 drives the driven gear 186 to rotate, the driven gear 186 drives the dust exhaust pipe 181 to rotate, and the dust exhaust pipe 181 drives the dust exhaust cover 183 to rotate through the corrugated pipe 182, so that the angle adjusting range of the dust exhaust cover 183 can be increased, and the orientation of the dust exhaust cover 183 can be automatically adjusted to improve the overall automation degree.

Referring to fig. 3, a sealing plate 187 is hinged to one end of the dust exhaust pipe 181 close to the dust exhaust box 1, the sealing plate 187 is made of plastic, a sealing snap ring 188 is arranged inside the dust exhaust pipe 181, the side surface of the sealing snap ring 188 abuts against the side surface of the sealing plate 187, and the sealing snap ring 188 is located on one side of the sealing plate 187 close to the bellows 182; when dust is pumped, the plastic material is light, and the sealing plate 187 is smoothly jacked up by air along with the starting of the fan 12, so that the dust pumping port 18 is opened; when the dust removal cloth bag 11 is cleaned, the fan 12 rotates reversely, the fan 12 blows air into the dust removal cloth bag 11 reversely, the sealing plate 187 is tightly abutted to the sealing snap ring 188 by wind power to seal the dust extraction pipe 181, accordingly, the air reversely penetrates through the dust removal cloth bag 11 to blow off dust attached to the dust removal cloth bag 11, and the cleaning effect on the dust removal cloth bag 11 is improved.

Referring to fig. 4, the cleaning mechanism 3 includes an ash removing ring 31, a folding component 5 for folding the dust removing cloth bag 11, and a rotating component 4 for driving the dust removing cloth bag 11 to rotate, the ash removing ring 31 is sewn at one end of the dust removing cloth bag 11 close to the receiving groove 19, the folding component 5 is arranged on the dust removing cloth bag 11, the dust removing cloth bag 11 is rotatably connected to the partition plate 15, and the rotating component 4 is arranged in the clean air cavity 16.

Referring to fig. 4, the dust-settling assembly 2 includes a water tank 21 disposed on an outer side wall of the dust-settling tank 1, a water pump 22 disposed on the water tank 21, and a dust-settling pipe 23 disposed on an inner side wall of the dust-settling tank 1, a water injection port 211 is disposed on a side surface of the water tank 21, a water pumping port of the water pump 22 is communicated with the water tank 21, a water injection pipe 221 is inserted at a water outlet of the water pump 22, one end of the water injection pipe 221, which is far from the water pump 22, extends into the dust-settling tank 1 and is communicated with the dust-settling pipe 23, the dust-settling pipe 23 is annularly disposed along a circumferential direction of the dust-settling tank 1, the dust-settling pipe 23 is disposed close to the partition plate 15, spray heads 24 are mounted on a side surface of the dust-settling pipe 23, the spray heads 24 are provided in plurality, the spray heads 24 are uniformly distributed along an axial direction of the dust-settling pipe 23, and the spray heads 24 are disposed toward a side far from the dust-settling pipe 23; when carrying out the deashing to dust removal sack 11, earlier fold dust removal sack 11 through folding assembly 5, deformation takes place for dust removal sack 11 thereupon, rethread rotating assembly 4 drive dust removal sack 11 rotates, with this drop the adnexed dust on the dust removal sack 11 through producing deformation to dust removal sack 11, water is injected into in rethread water filling port 211 to the water tank 21, restart water pump 22, water pump 22 takes out the water in the water tank 21 and pours into dust fall pipe 23 into through water injection pipe 221, atomising head 24 is with vaporific blowout with water again, the dust that breaks away from the dust removal sack subsides in accepting groove 19 after combining with water, with this settlement to the dust is accomplished smoothly.

Referring to fig. 4, the rotating assembly 4 includes a rotating ring 41 rotatably connected to the rotating partition plate 15 and a rotating motor 42 fixed to the dust removal box 1, a connecting rod 411 is welded to the top wall of the rotating ring 41, the connecting rods 411 are four, the four connecting rods 411 are uniformly distributed along the circumferential direction of the rotating ring 41, the connecting rods 411 are obliquely and upwardly arranged, a rotating shaft 412 is welded to one end, away from the rotating ring 41, of the connecting rod 411, the rotating shaft 412 is arranged along the vertical direction, the rotating shaft 412 is rotatably connected to the top wall of the dust removal box 1, a rotating disc 413 is welded to the rotating shaft 412, and a reciprocating belt 43 is sleeved on the rotating disc 413.

Referring to fig. 2 and 4, a driving disc 421 is fixed on the motor shaft of the rotating motor 42, and one end of the reciprocating belt 43 away from the rotating disc 413 is sleeved on the driving disc 421; an impact block 44 is welded on the ash removing ring 31, an impact plate 45 which is abutted against the impact block 44 is welded on the inner side wall of the dust removing box 1, and the impact plate 45 is arranged along the vertical direction; when the dust removal cloth bag 11 is driven to rotate, the rotating motor 42 is started, the rotating motor 42 drives the driving disc 421 to rotate, the driving disc 421 drives the reciprocating belt 43 to rotate, the reciprocating belt 43 drives the rotating disc 413 to rotate, the rotating disc 413 drives the rotating shaft 412 to rotate when rotating, the rotating shaft 412 drives the rotating ring 41 to rotate through the connecting rod 411, the rotating ring 41 smoothly drives the dust removal cloth bag 11 to rotate, the dust removal cloth bag 11 drives the dust removal ring 31 to rotate when rotating, the dust removal ring 31 drives the impact block 44 to rotate, the impact block 44 collides with the impact plate 45 in the rotating process to drive the dust removal cloth bag 11 to vibrate, and dust on the dust removal cloth bag 11 is vibrated down.

Referring to fig. 5, the folding assembly 5 includes folding blocks 51, upper pull rods 52 and lower pull rods 53, the folding blocks 51 are sewn on the outer surface of the dust removal cloth bag 11, the folding blocks 51 are located in the middle of the dust removal cloth bag 11, the folding blocks 51 are four, the four folding blocks 51 are uniformly distributed along the circumferential direction of the dust removal cloth bag 11, the upper pull rods 52 and the lower pull rods 53 are both hinged on the side surfaces of the folding blocks 51, the upper pull rods 52 are arranged on one side of the folding blocks 51 far away from the dust removal ring 31, one end of the upper pull rods 52 far away from the folding blocks 51 is hinged with the rotating ring 41, the number of the upper pull rods 52 is consistent with that of the folding blocks 51 and corresponds to one another, the lower pull rings are arranged on one side of the folding blocks 51 close to the dust removal ring 31, one end of the lower pull rings far away from the folding blocks 51 is hinged with the dust removal ring 31, and the number of the lower pull rods 53 is consistent with that of the folding blocks 51 and corresponds to one; a winding motor 54 is fixed on the rotating ring 41, a winding disc 55 is fixed on a motor shaft of the winding motor 54, a winding rope 56 is wound on the winding disc 55, and one end of the winding rope 56 extends out of the winding disc 55 and is fixedly connected with the ash cleaning ring 31; a counterweight block 57 is welded on the ash removal ring 31, and the counterweight block 57 is arranged on one side of the ash removal ring 31 close to the bearing groove 19; when the dust removing cloth bag 11 rotates, the winding motor 54 is started, the winding motor 54 drives the winding disc 55 to rotate, the winding disc 55 winds the winding rope 56, the winding rope 56 pulls the dust removing ring 31 to move upwards, the dust removing ring 31 pushes the lower pull rod 53 to turn over, the lower pull rod 53 pushes the folding block 51 to move, the folding block 51 extrudes the dust removing cloth bag 11 to indent and deform, and at the same time, the upper pulling rod 52 is turned over as the folding blocks 51 are moved, and after the folding blocks 51 are brought into contact with each other, the winding motor 54 stops supplying power, the counterweight block 57 and the ash removal ring 31 pull the lower pull rod 53, the folding block 51 and the upper pull rod 52 to reset by means of self weight, thereby pulling the dust removing cloth bag 11 to restore, when the folding block 51 is reset, the upper pull rod 52 is matched with the lower pull rod 53, the reset of the dust cleaning ring 31 and the counterweight block 57 is suddenly stopped, thereby driving the dust-removing cloth bag 11 to vibrate, and repeating the above steps to smoothly complete the reciprocating deformation of the dust-removing cloth bag 11.

The embodiment of the application provides a dust collector for architectural decoration engineering's implementation principle does: when dust is removed from the environment, the fan 12 is started, air containing dust in the environment is sucked into the dust removing cavity 17 through the dust suction port 18, the air passes through the dust removing cloth bag 11 and enters the air purifying cavity 16, the dust contained in the air is retained by the dust removing cloth bag 11, the air is filtered, and the air entering the air purifying cavity 16 is discharged through the fan 12; after the dust is detained on dust removal sack 11, the dust on the dust removal sack 11 is cleared up through clearance mechanism 3 again, and the dust breaks away from with dust removal sack 11 the back, and dust fall subassembly 2 deposits the dust in accepting groove 19 again, and the completion is subsided and then will accept groove 19 and take out, falls the dust centralized processing to this reduces the possibility that the dust flies upward once more, thereby improves the dust removal effect of many environments.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. The utility model provides a dust collector for architectural decoration engineering which characterized in that: comprises a dust removing box (1), a fan (12) arranged on the dust removing box (1) and a dust removing cloth bag (11) arranged in the dust removing box (1), the dust removing box (1) is internally provided with a purified air cavity (16) and a dust removing cavity (17) respectively, the dust removing cloth bag (11) is positioned in the dust removing cavity (17), the dust removing cloth bag (11) is communicated with the air purifying cavity (16), the air purifying cavity (16) is communicated with the fan (12), the dust removing box (1) is provided with a dust extraction opening (18) communicated with the dust removing cavity (17), a cleaning mechanism (3) for cleaning the dust removing cloth bag (11) is arranged in the dust removing box (1), a bearing groove (19) communicated with the dust removing cavity (17) is inserted on the dust removing box (1), the dust removal box (1) is provided with a dust fall assembly (2) for settling dust in the receiving groove (19);

the cleaning mechanism (3) comprises an ash cleaning ring (31) fixed on the dust removing cloth bag (11), a folding assembly (5) arranged on the ash cleaning ring (31) and used for folding the dust removing cloth bag (11), and a rotating assembly (4) arranged on the dust removing box (1) and used for driving the dust removing cloth bag (11) to rotate, wherein the dust removing cloth bag (11) is rotatably connected with the dust removing box (1);

rotating assembly (4) including fixing rotating electrical machines (42) in dust removal case (1) and fixing rotatory ring (41) on dust removal sack (11), the cover is equipped with reciprocal belt (43) on the motor shaft of rotating electrical machines (42), rotatory ring (41) with dust removal case (1) rotate to be connected, the welding has connecting rod (411) on the roof of rotatory ring (41), connecting rod (411) set up four, four connecting rod (411) are followed the circumference equipartition of rotatory ring (41), connecting rod (411) slope upwards sets up, connecting rod (411) are kept away from the one end welding of rotatory ring (41) has axis of rotation (412), axis of rotation (412) are along vertical direction setting, axis of rotation (412) with the roof of dust removal case (1) rotates to be connected, the welding has rotary disk (413) in axis of rotation (412), a reciprocating belt (43) is sleeved on the rotating disc (413), a driving disc (421) is fixed on a motor shaft of the rotating motor (42), and one end, far away from the rotating disc (413), of the reciprocating belt (43) is sleeved on the driving disc (421);

an impact plate (45) is fixed on the inner side wall of the dust removing box (1), and an impact block (44) which collides with the impact plate (45) is fixed on the ash removing ring (31);

it is equipped with and takes out dirt pipe (181) to take out dirt mouth (18) department, it has shrouding (187) to articulate in dirt pipe (181), it has sealed snap ring (188) to take out dirt pipe (181), sealed snap ring (188) are located one side that dust removal case (1) was kept away from to shrouding (187), the side of sealed snap ring (188) with the side of shrouding (187) is inconsistent.

2. The dust removing device for architectural decoration engineering of claim 1, wherein: the folding component (5) comprises a folding block (51) fixed on the dust removing cloth bag (11), an upper pull rod (52) hinged on the folding block (51) and a winding disc (55) fixed on the dust removing cloth bag (11), the winding disc (55) is positioned above the ash removing ring (31), a winding motor (54) for driving the winding disc (55) to rotate is arranged on the dust removing cloth bag (11), a winding rope (56) is wound on the winding disc (55), one end of the winding rope (56) is fixedly connected with the ash cleaning ring (31), the folding block (51) is positioned between the winding disc (55) and the ash removing ring (31), one end of the upper pull rod (52) far away from the folding block (51) is hinged with the dust removal cloth bag (11), the folding block (51) is hinged with a lower pull rod (53), and one end, far away from the folding block (51), of the lower pull rod (53) is hinged with the ash removing ring (31).

3. The dust removing device for the architectural decoration engineering of claim 2, wherein: and a balancing weight (57) is fixed on one side of the ash removing ring (31) far away from the lower pull rod (53).

4. The dust removing device for architectural decoration engineering of claim 1, wherein: the dust extraction pipe (181) is connected with a dust extraction cover (183) through a corrugated pipe (182).

5. The dust removing device for architectural decoration engineering of claim 1, wherein: an adjusting motor (184) is fixed on the outer side wall of the dust removing box (1), an adjusting gear (185) is fixed on a motor shaft of the adjusting motor (184), and a driven gear (186) meshed with the adjusting gear (185) is fixed on the dust removing pipe (181).

6. The dust removing device for architectural decoration engineering of claim 1, wherein: dust fall subassembly (2) including setting up water tank (21) on dust removal case (1) lateral wall, setting dust fall pipe (23) in dust removal chamber (17) and set up on water tank (21) and with water pump (22) of water tank (21) intercommunication, the delivery port of water pump (22) with dust fall pipe (23) are linked together, be equipped with atomising head (24) on dust fall pipe (23), dust fall pipe (23) are located accept the top of groove (19).

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