CN217855104U - Efficient dust removal device for workshop for stone processing - Google Patents

Abstract

The application discloses efficient dust collector between stone material processing car relates to dust collecting equipment technical field, and it includes device main part, filter plate and air exhaust mechanism, the air outlet has been seted up in the device main part, the intercommunication is provided with an air inlet section of thick bamboo in the device main part, the filter plate is located in the air inlet section of thick bamboo, be provided with on the air inlet section of thick bamboo and be used for the clearance mechanism of dust on the filter plate, clearance mechanism sets up including rotating the bull stick on the air inlet section of thick bamboo, be used for striking the piece of filter plate with be used for ordering about bull stick pivoted driving piece, strike the piece and be located on the bull stick. This application has the effect of improving the dust collector and to the poor problem of dust removal effect of stone material workshop air.

Description

Workshop efficient dust removal device for stone machining

Technical Field

The application relates to the technical field of dust removal equipment, in particular to a workshop efficient dust removal device for stone machining.

Background

In the stone material processing at present, can produce more piece and dust, the dust can get into the air to influence the production environment in workshop for the stone material processing, consequently need remove dust to the dust in the stone material processing workshop and handle.

Chinese patent with application number CN202023073237.2 among the correlation technique, a device is administered to stone material processing dust is proposed, it includes the device main part, the scroll cover, filter screen and fixed plate, the water pump is installed to the intermediate position of the inside bottom of device main part, and the equal fixedly connected with in intermediate position of the inside both sides of device main part place the seat, the top swing joint of the outside one side of device main part has the sucking disc, and the bottom sliding connection of sucking disc has the scroll cover, the top swing joint of placing the seat has the filter screen, and the outside fixedly connected with link of filter screen, the inside intermediate position fixedly connected with fixed plate of device main part, and the inside equidistance of fixed plate is provided with a plurality of through-holes. The outside one side of device main part is provided with the receiving flask, and the top fixedly connected with internal thread sleeve pipe of receiving flask, and the fixed filter plate that the inside top fixedly connected with slope of device main part set up, and the fan of breathing in is installed to one side on the inside top of device main part. When the air suction fan operates, air with dust is sucked into the stone processing dust treatment device, when the air with dust passes through the fixed filter plate, larger dust can be left at the top end of the fixed filter plate and roll into the collecting bottle through the gravity action connecting pipe, and finally the collecting bottle is taken out from the connecting pipe through the internal thread sleeve pipe and the external thread pipe.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: through the air that the mechanism of bleeding (the fan of breathing in the above-mentioned file) extracts the air that has the dust, the air that has the dust passes through the filter plate (the fixed filter plate in the above-mentioned file), and when the dust stayed on the filter plate, it is difficult to drop to the receiving flask fast only through the action of gravity for can gather a large amount of dust on the filter plate, a large amount of dust can block up the filtration pore on the filter plate, and the air that leads to treating to remove dust is difficult to pierce through the filter plate and filters, thereby influences the dust removal effect of dust collector to stone material processing workshop air.

SUMMERY OF THE UTILITY MODEL

In order to improve the poor problem of dust collector to the dust removal effect of stone material processing workshop air, this application provides a high-efficient dust collector in workshop for stone material processing.

The application provides a pair of high-efficient dust collector in workshop is used in stone material processing adopts following technical scheme:

the utility model provides a stone material processing is with high-efficient dust collector in workshop, includes device main part, filter plate and air exhaust mechanism, the air outlet has been seted up in the device main part, the intercommunication is provided with an air inlet section of thick bamboo in the device main part, the filter plate is located in the air inlet section of thick bamboo, be provided with on the air inlet section of thick bamboo and be used for the clearance mechanism of dust on the filter plate, clearance mechanism sets up including rotating the bull stick on the air inlet section of thick bamboo, be used for striking the piece of filter plate with be used for ordering about bull stick pivoted driving piece, strike the piece and be located on the bull stick.

Through adopting above-mentioned technical scheme, when air exhaust mechanism with the air that has the dust in stone material processing workshop in the air inlet section of thick bamboo suction device main part, the dust in the air is gathered on the filter plate. The filter plate is cleaned through the cleaning mechanism, the driving piece is operated, the driving piece drives the knocking piece to knock the filter plate through the rotating rod, and the filter plate vibrates to enable dust accumulated on the filter plate to be separated from the filter plate, so that the problem that the dust removal effect of the dust removal device on air in a stone processing workshop is poor is solved.

Optionally, the filter plate is slidably disposed in the air inlet cylinder, a push-pull opening through which the filter plate is drawn out is formed in a cylinder wall of the air inlet cylinder, and a push-pull member for pushing and pulling the filter plate is disposed on the filter plate.

By adopting the technical scheme, the push-pull piece is driven to move towards the direction far away from the air inlet cylinder, the push-pull piece drives the filter plate to move towards the direction far away from the air inlet cylinder from the push-pull opening, so that the filter plate can extend out of the air inlet cylinder from the push-pull opening, and then an operator cleans dust on the part of the filter plate extending out of the air inlet cylinder, so that a large amount of dust is prevented from blocking filter holes on the filter plate as far as possible, and the problem of poor dust removal effect of the dust removal device on air in a stone processing workshop is solved.

Optionally, a scraping piece for scraping dust on the filter plate is arranged at the position, where the push-pull opening is located, of the air inlet cylinder.

By adopting the technical scheme, in the process of controlling the filter plate to move towards the direction far away from the air inlet cylinder, the filter plate is contacted with the sweeping piece, so that the sweeping piece sweeps dust on the filter plate. The scraping and sweeping piece removes dust from the filter plate in the process of drawing the filter plate, so that the situation that the accumulated dust on the filter plate moves out of the air inlet cylinder along with the filter plate when the filter plate is drawn out is avoided as much as possible, and the construction environment of a stone machining workshop is polluted.

Optionally, a locking piece for locking the filter plate is arranged on the air inlet cylinder.

Through adopting above-mentioned technical scheme, when dust collector moves, the lock piece locks the filter plate, avoids the filter plate to follow the push-and-pull mouth pine cunning as far as possible. On one hand, the pollution of the leaked dust falling from the filter plate to the environment of a stone processing workshop after the filter plate is loosened and slipped is avoided as much as possible; on the other hand, after the filter plate is loosened and slipped, air with dust in the air inlet cylinder is prevented from passing through the air inlet cylinder without passing through the filter plate. The problem of dust collector to the dust removal effect poor of stone material processing workshop air has been improved.

Optionally, a limiting block for preventing the filter plate from separating from the air inlet cylinder is arranged at one end of the filter plate, which is far away from the push-pull piece.

Through adopting above-mentioned technical scheme, when control filter plate through push and draw the mouth towards keeping away from the air inlet section of thick bamboo direction when moving, the stopper is used for preventing that the filter plate breaks away from the air inlet section of thick bamboo to avoid the filter plate to clear up need reinstallating after finishing, make the reinsertion process after the filter plate clearance more convenient.

Optionally, a sealing member abutting against the end of the filter plate is arranged at the position of the push-pull opening on the air inlet cylinder.

Through adopting above-mentioned technical scheme, at the device operation in-process, the sealing member is used for avoiding as far as possible thoughtlessly having the air of dust to enter into the air inlet section of thick bamboo from the gap between filter plate and the air inlet section of thick bamboo not filter through the filter plate to influence dust collection efficiency, improved the poor problem of dust collector to the dust removal effect of stone material processing workshop air.

Optionally, a material collecting port is formed in the air inlet cylinder, and a material collecting mechanism used for collecting dust falling from the filter plate is arranged at the material collecting port on the air inlet cylinder.

Through adopting above-mentioned technical scheme, the mechanism that gathers materials is used for collecting the dust of landing from the filter plate, effectively improves the clean degree in the air inlet section of thick bamboo to avoided the dust to attach to on the filter plate in a large number as far as possible, improved the poor problem of dust collector to the dust removal effect of stone material processing workshop air.

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

1. when the air exhaust mechanism sucks air with dust in a stone processing workshop into the device main body from the air inlet cylinder, the dust in the air is accumulated on the filter plate. The cleaning mechanism is used for cleaning the filter plate, and the specific steps are that the driving piece is operated, the driving piece drives the knocking piece to knock the filter plate through the rotating rod, and the filter plate vibrates, so that dust accumulated on the filter plate is separated from the filter plate, a large amount of dust is prevented from blocking filter holes in the filter plate as far as possible, and the problem that the dust removal effect of the dust removal device on air in a stone processing workshop is poor is solved;

2. when the filter plate is controlled to move towards the direction away from the air inlet cylinder through the push-pull opening, the limiting block is used for preventing the filter plate from being separated from the air inlet cylinder, so that the filter plate is prevented from being reinstalled after being cleaned, the process of reinserting the filter plate after being cleaned is more convenient, and the functions of conveniently cleaning and installing the filter plate are realized;

3. the collecting mechanism is used for collecting dust falling from the filter plate, and effectively improves the cleaning degree in the air inlet cylinder, thereby avoiding the dust from being attached to the filter plate in a large amount as much as possible and improving the problem of poor dust removal effect of the dust removal device on the air in the stone processing workshop.

Drawings

Fig. 1 is a schematic sectional structural view of a device main body, an air suction mechanism, an air inlet drum, a material collecting mechanism and a cleaning mechanism in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an air inlet cylinder, a filter plate, a cleaning mechanism and a material collecting mechanism in the embodiment of the application.

Fig. 3 is a schematic cross-sectional structural view of an air inlet cylinder and a filter plate in the embodiment of the present application.

Fig. 4 is a schematic structural diagram of the filter plate, the direction limiting strips, the limiting blocks and the scrapers in the embodiment of the application.

Fig. 5 is a schematic structural diagram of a material collecting mechanism in an embodiment of the present application.

Reference numerals: 1. a device main body; 2. an air exhaust mechanism; 3. an air outlet; 4. an air inlet cylinder; 5. a transition plate; 6. a locking member; 7. a cleaning mechanism; 71. a plexor member; 72. a rotating rod; 73. a drive member; 8. a push-pull member; 9. a material collecting mechanism; 91. a screw; 92. a rubber ring; 93. a material collecting barrel; 10. filtering the plate; 101. filtering with a screen; 102. a fixed mount; 11. direction limiting strips; 12. a limiting block; 13. a wiper; 14. a seal member; 15. a material collecting port; 16. a transition cylinder; 17. and a locking part.

Detailed Description

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

A workshop high-efficiency dust removal device for stone processing.

Referring to fig. 1 and 2, the device comprises a device body 1, a filter plate 10 and an air exhaust mechanism 2, wherein the device body 1 is provided with an air outlet 3, the device body 1 is provided with an air inlet at a position opposite to the air outlet 3, the air exhaust mechanism 2 is a fan, and the fan is positioned in the device body 1 and is fixed at the air inlet on the device body 1 through a transition cylinder 16. An air inlet cylinder 4 is arranged on the device main body 1 through an air inlet in a communicating mode, the air inlet cylinder 4 is positioned outside the device main body 1, the air inlet cylinder 4 is a rectangular cylinder, and one end, close to the device main body 1, of the air inlet cylinder 4 is communicated with the air exhaust mechanism 2 through a transition cylinder 16. The filter plate 10 is installed in the air inlet cylinder 4.

Referring to fig. 2 and 3, the filter plate 10 includes a filter screen 101 and a fixing frame 102 for fixing the filter screen 101, the fixing frame 102 is disposed on the inner wall of the air inlet cylinder 4, and the air inlet cylinder 4 is provided with a cleaning mechanism 7 for cleaning dust on the filter plate 10. The bottom wall of the air inlet cylinder 4 is provided with a material collecting port 15, and a material collecting mechanism 9 for collecting dust sliding from the filter plate 10 is arranged at the material collecting port 15 on the air inlet cylinder 4.

In order to guarantee the good dust removal effect of the dust removal device, when the dust removal device needs to be cleaned, the fan is closed, the cleaning mechanism 7 is driven to clean the filter plate 10, dust falling from the filter plate 10 falls into the collecting mechanism 9, and the cleaning process of the dust removal device is completed. After cleaning, a fan in the device main body 1 is started to purify air, the fan sucks air from the air inlet cylinder 4 to a workshop through the transition cylinder 16, when air mixed with dust in the workshop sequentially passes through the cleaning mechanism 7 in the air inlet cylinder 4 and the filter plates 10, the filter plates 10 are used for preventing dust in the air from passing through as much as possible, one part of the dust blocked by the filter plates 10 falls into the collecting mechanism 9 through the material collecting port 15 under the action of gravity, the other part of the dust is accumulated on the filter plates 10, and the air filtered by the filter plates 10 enters the device main body 1 and is discharged into the workshop again through the air outlet 3.

Referring to fig. 2 and 3, the cleaning mechanism 7 includes a rotating rod 72 rotatably disposed on the air inlet drum 4, a knocking member 71 for knocking the filter plate 10, and a driving member 73 for driving the rotating rod 72 to rotate, the knocking member 71 is disposed on the rotating rod 72, one end of the rotating rod 72 is rotatably connected to a sidewall of one side of the air inlet drum 4 through a rotating bearing, the other end of the rotating rod 72 penetrates through a sidewall of the other side of the air inlet drum 4 and extends to the outside of the air inlet drum 4, and one end of the rotating rod 72 outside the air inlet drum 4 is fixedly connected to the driving member 73. The driving member 73 can be a handwheel, a handle, or a motor fixed on the air inlet drum 4, in this embodiment, the driving member 73 is a handwheel, and the handwheel is locked and installed on one end of the rotating rod 72 outside the air inlet drum 4 through a screw 91.

In this embodiment, the striking member 71 is a cam, the number of the cams may be multiple, the multiple cams are uniformly arranged along the length direction of the rotating rod 72, the cams are welded on the rotating rod 72, and the positions on the convex parts of the cams far away from the rotating rod 72 are movably abutted with the filter screen 101. The hand wheel is rotated to rotate the rotating rod 72, and when the rotating rod 72 drives the cam to rotate, the cam can intermittently knock the filter screen 101, so that dust on the filter screen 101 falls from the filter screen 101 to the collecting mechanism 9 under the knocking action of the cam. Furthermore, a rubber sheet is fixedly arranged at a position of the cam, which is movably abutted to the filter screen 101, and the rubber sheet can buffer when the cam knocks the filter screen 101, so that the filter screen 101 is not easy to deform under the knocking action of the cam.

In other embodiments, the knocking member 71 may also be a round rod with a spherical end, the round rods may be multiple and uniformly arranged along the length direction of the rotating rod 72, one end of the round rod far away from the spherical end is fixedly connected with the rotating rod 72, and one spherical end of the round rod is movably abutted to the filter screen 101.

In order to further clean the filter plate 10, referring to fig. 2 and 3, the filter plate 10 is slidably disposed in the air inlet cylinder 4, a push-pull opening through which the filter plate 10 is drawn out is opened on a cylinder wall of the air inlet cylinder 4, and a push-pull member 8 for pushing and pulling the filter plate 10 is disposed on the filter plate 10. The push-pull element 8 may be a handle, the handle is fixedly connected to one side of the filter plate 10, and when the end surface of the filter plate 10 far away from the handle is attached to the inner wall of the air inlet cylinder 4 far away from the air inlet, the handle is located outside the air inlet cylinder 4.

In order to facilitate quick push-pull of the filter plate 10, referring to fig. 2 and 4, two direction limiting strips 11 are arranged on an inner wall of one side of the air inlet cylinder 4 away from the material collecting mechanism 9, the two direction limiting strips 11 are arranged at intervals along a direction perpendicular to the plate surface of the filter plate 10, the length direction of the two direction limiting strips 11 is parallel to the length direction of the rotating rod 72, and the two direction limiting strips 11 enable the filter plate 10 to stably slide towards a push-pull opening.

In order to prevent the filter plate 10 from sliding away from the air inlet cylinder 4 from the push-pull opening as much as possible, referring to fig. 2 and 4, one end of the filter plate 10, which is far away from the push-pull piece 8, is provided with a limiting block 12, the limiting block 12 is fixedly connected to the fixing frame 102, the end face of the limiting block 12, which is far away from the aggregate mechanism 9, slides and abuts against the end face of the limiting strip 11, which is close to the aggregate mechanism 9, and the end face of the limiting block 12, which is far away from the push-pull piece 8, and the end face of the filter plate 10, which is far away from the push-pull piece 8, are coplanar. An operator drives the filter plate 10 to move in the direction away from the air inlet cylinder 4, when the filter plate 10 drives the limiting block 12 to move to abut against the inner wall of the air inlet cylinder 4, the filter plate 10 stops moving, and at the moment, the movement of the filter plate 10 in the direction away from the air inlet cylinder 4 is limited.

Referring to fig. 2, 3 and 4, the air inlet cylinder 4 is provided with a scraper 13 at the push-pull opening for scraping dust on the filter plate 10, and the scraper 13 is in sliding contact with the filter screen 101. In this embodiment, the scraping and sweeping member 13 is a rubber strip fixedly connected to the inner wall of the air inlet barrel 4 along the length direction of the push-pull opening. In other embodiments, the scraper 13 may be a brush.

Referring to fig. 2, 3 and 5, the air inlet cylinder 4 is provided with a material collecting mechanism 9 at a material collecting port 15 for collecting dust sliding off the filter plate 10. The material collecting mechanism 9 comprises a material collecting barrel 93, a screw 91 and a rubber ring 92, wherein the material collecting barrel 93 is detachably and hermetically connected to the air inlet barrel 4 through the screw 91 and the rubber ring 92. In order to facilitate collection of dust falling from the filter sheet 10 and prevent air with dust from moving toward the device body 1 by bypassing the filter sheet 10 through the material collection cylinder 93, the material collection cylinder 93 is provided on a side of the filter sheet 10 remote from the air inlet and opens toward the filter sheet 10. When the material collecting barrel 93 needs to be cleaned, the screw 91 for fixing the material collecting barrel 93 and the air inlet barrel 4 is screwed off, and then the material collecting barrel 93 can be taken off to clean dust in the material collecting barrel 93.

Referring to fig. 2 and 4, one end of the filter plate 10, which is far away from the limiting block 12, is fixedly connected with a transition plate 5, the handle is connected with the filter plate 10 through the transition plate 5, and when the limiting block 12 abuts against the inner wall of the air inlet cylinder 4, which is far away from the push-pull opening, the transition plate 5 and the air inlet cylinder 4 abut against the outer wall of the push-pull opening of the air inlet cylinder 4. The air inlet cylinder 4 is fixedly connected with a sealing element 14 at the push-pull opening, the sealing element 14 is a rubber gasket, and when the limiting block 12 abuts against the inner wall of the air inlet cylinder 4 far away from the push-pull opening, the rubber gasket fills the gap between the transition plate 5 and the air inlet cylinder 4, so that the filter plate 10 is sealed and locked on the air inlet cylinder 4.

In order to prevent the filter plate 10 from sliding off from the push-pull opening as much as possible, referring to fig. 2 and 4, the air inlet cylinder 4 is provided with a locking member 6 for locking the filter plate 10, and the transition plate 5 is fixedly connected with a locking member 17 adapted to the locking member 6, in this embodiment, the locking member 6 is a stop lever rotatably connected to the air inlet cylinder 4, and the corresponding locking member 17 on the transition plate 5 is a locking piece provided with a groove adapted to the stop lever. In other embodiments, the locking member 6 can also be a luggage lock catch, a hasp, a quick clamp, or the like. Under the combined action of the locking piece 6 and the sealing piece 14, the filter plate 10 can be locked on the air inlet cylinder 4 in a sealing manner.

The implementation principle of the workshop efficient dust removal device for stone processing is as follows: when the dust removing device needs to clean the filter plate 10 before running, the hand wheel is rotated, the hand wheel drives the cam to knock the filter screen 101 through the rotating rod 72, and dust accumulated on the filter screen 101 falls into the material collecting barrel 93. Then, the locking of the filter plate 10 by the locking member 6 is released, and the filter plate 10 is pulled away from the air inlet cylinder 4 by the handle. In the drawing process, the direction limiting strips 11 prevent the filter plate 10 from changing in moving direction as much as possible, the sweeping pieces 13 sweep the filter screen 101, so that dust on the filter screen 101 falls into the material collecting barrel 93, the drawing is stopped when the limiting blocks 12 abut against the inner wall of the air inlet barrel 4, and at the moment, an operator can manually clean the filter plate 10 outside the air inlet barrel 4. After cleaning, the filter plate 10 is pushed into the air inlet cylinder 4 along the direction limiting strips 11 by the handle until the transition plate 5 abuts against the sealing member 14, and the locking member 6 is operated to lock the filter plate 10.

And then starting the dust removal device, enabling air with dust to enter the air inlet cylinder 4 under the action of the air exhaust mechanism 2, and filtering the dust in the air by the filter plate 10 when the air with dust passes through the filter plate 10, so that the filtered air is discharged into a workshop again through the air outlet 3 of the device main body 1, and the air purification effect of the workshop is realized.

In order to prevent the dust collecting effect of the dust collecting device from being affected by excessive dust collection in the material collecting barrel 93 as much as possible, the material collecting barrel 93 needs to be cleaned regularly. When the material collecting barrel 93 needs to be cleaned, the screw 91 for fixing the material collecting barrel 93 and the air inlet barrel 4 is unscrewed, the material collecting barrel 93 can be taken down to clean dust in the material collecting barrel, and after the cleaning is finished, the material collecting barrel 93 is fixedly arranged at the material collecting port 15 of the air inlet barrel 4 through the screw 91.

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 (7)

1. The utility model provides a stone material processing is with high-efficient dust collector in workshop, includes device main part (1), filter plate (10) and air exhaust mechanism (2), air outlet (3), its characterized in that have been seted up on device main part (1): the device is characterized in that an air inlet cylinder (4) is arranged on a device body (1) in a communicated mode, a filter plate (10) is located in the air inlet cylinder (4), a cleaning mechanism (7) used for cleaning dust on the filter plate (10) is arranged on the air inlet cylinder (4), the cleaning mechanism (7) is arranged on the air inlet cylinder (4) in a rotating rod (72) mode and used for knocking the filter plate (10), a knocking piece (71) and a driving piece (73) used for driving the rotating rod (72) in a rotating mode, and the knocking piece (71) is located on the rotating rod (72).

2. The efficient dust removing device for the workshop for stone processing as claimed in claim 1, wherein: the filter plate (10) is arranged in the air inlet cylinder (4) in a sliding mode, a push-pull opening for drawing the filter plate (10) out is formed in the cylinder wall of the air inlet cylinder (4), and a push-pull piece (8) for pushing and pulling the filter plate (10) is arranged on the filter plate (10).

3. The efficient dust removing device for the workshop for stone processing as claimed in claim 2, wherein: and a scraping piece (13) for scraping dust on the filter plate (10) is arranged at the position of the push-pull opening of the air inlet cylinder (4).

4. The efficient dedusting device for the workshop for stone processing as recited in claim 2, wherein: and a locking piece (6) for locking the filter plate (10) is arranged on the air inlet cylinder (4).

5. The efficient dust removing device for the workshop for stone processing as claimed in claim 2, wherein: and a limiting block (12) for preventing the filter plate (10) from separating from the air inlet cylinder (4) is arranged at one end of the filter plate (10) far away from the push-pull piece (8).

6. The efficient dust removing device for the workshop for stone processing as claimed in claim 2, wherein: and a sealing piece (14) which is abutted against the end part of the filter plate (10) is arranged at the position of the push-pull opening on the air inlet cylinder (4).

7. The efficient dust removing device for the workshop for stone processing as claimed in claim 1, wherein: the dust collector is characterized in that a material collecting opening (15) is formed in the air inlet cylinder (4), and a material collecting mechanism (9) used for collecting dust sliding off the filter plate (10) is arranged at the material collecting opening (15) on the air inlet cylinder (4).

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