CN110975462A - Dust clearance structure is used in textile production processing - Google Patents

Abstract

The invention discloses a dust cleaning structure for textile production and processing, which comprises a movable universal wheel and a closed case, wherein the upper end face of the movable universal wheel is connected with the closed case, the front end face of the closed case is connected with an inspection box door through a hinge, the front end face of the inspection box door is connected with a label, and an operation platform is connected to the front end face of the closed case below the inspection box door. The working efficiency is increased.

Description

Dust clearance structure is used in textile production processing

Technical Field

The invention belongs to the technical field of industrial machinery, and particularly relates to a dust cleaning structure for textile production and processing.

Background

The dust remover is a device for separating dust from flue gas, which is called dust remover or dust removing device, the performance of the dust remover is expressed by the amount of gas which can be processed, the resistance loss and the dust removing efficiency when the gas passes through the dust remover, and meanwhile, the price, the operation and maintenance cost, the service life and the difficulty of operation management of the dust remover are also important factors for considering the performance of the dust remover.

The prior art has the following problems: the inside getter device that needs the motor to drive of dust remover accelerates that gas flow leads to the inside dust in bottom dust storage bin to be stirred by the air current and remove in that the dust remover is inside when using current dust remover, increases the dust removal burden of dust remover, influences dust collection efficiency.

Disclosure of Invention

The invention aims to provide a dust cleaning structure for textile production and processing, which aims to solve the problem that dust in a bottom dust storage bin is stirred by airflow and moves in the dust collector to increase the dust removal burden of the dust collector and influence the dust removal efficiency due to the fact that an air suction device driven by a motor is needed in the dust collector to accelerate air flow in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a dust cleaning structure for textile production and processing comprises a movable universal wheel and a closed case, wherein the upper end face of the movable universal wheel is connected with the closed case, the front end face of the closed case is connected with an inspection case door through a hinge, the front end face of the inspection case door is connected with a label, the front end face of the closed case is connected with an operation platform below the inspection case door, the front end face of the closed case is connected with a dust storage bin below the operation platform, the front end faces of the inspection case door, the operation platform and the dust storage bin are connected with a lifting handle, the front end face of the dust storage bin is connected with a height observation window on the right side of the lifting handle, a movable guide rail is connected to the position of the front end face of the dust storage bin above the height observation window, the dust storage bin comprises a dust storage box body, a pulling connecting column, a connecting clamping column, a windproof cloth, a movable circular plate and a push-pull door plate, the dust storage box is characterized in that a push-pull door plate is connected to a front end port of the dust storage box, a connecting clamp column is clamped on the inner surface of the dust storage box, a pulling connecting column is connected to the middle of the connecting clamp column, a blocking windproof cloth is connected to the end face of the right end of the pulling connecting column, and a moving circular plate is connected to the end face of the lower end of the connecting clamp column at the surface position of the push-pull door plate.

Preferably, the closed case comprises a fixed hasp, a film-coated filter element, a case push-pull bin, a fixed case, a power motor, a wind pumping box, a blocking baffle, a pulse device and a fixed connecting plate, wherein the left end face of the fixed case is connected with the fixed hasp, the power motor is connected inside the fixed case and electrically connected with an external power supply, the lower end face of the power motor is connected with the wind pumping box, the lower end face of the wind pumping box is connected with the blocking baffle, the lower end face of the blocking baffle is connected with the pulse device, the film-coated filter element is arranged below the pulse device, the lower end face of the film-coated filter element is connected with the fixed connecting plate, and the inner surface of the fixed case below the fixed connecting plate is connected with the case push-pull bin.

Preferably, the tectorial membrane filter core is including filtering filter plate, spacing clamping ring and blocking the retainer plate, the intermediate junction of spacing clamping ring blocks the retainer plate, the intermediate junction that blocks the retainer plate has the filtration filter plate.

Preferably, the fixed connection board comprises a connection board body, a connection fixing board and a limit fixing ring, the connection fixing board is connected to the inner surface of the connection board body, and the limit fixing ring is connected to the middle of the connection fixing board.

Preferably, the fixed hasp comprises a connecting cardboard, a limiting cardboard, a rotating movable plate, a friction limiting block, a push-pull lifting plate, a through bayonet and a bolt fixing plate, the front end face of the connecting cardboard is fixedly welded with the limiting cardboard, the inner surface of the limiting cardboard is connected with the rotating movable plate, the right-hand middle position of the rotating movable plate of the limiting cardboard is connected with the push-pull lifting plate, the front end face of the push-pull lifting plate is connected with the through bayonet in a penetrating manner, the inner surface of the through bayonet is connected with the friction limiting block, and the rear end face of the friction limiting block is connected with the bolt fixing plate.

Preferably, the dust storage bin can be pulled back and forth relative to the closed case, the height observation window is made of transparent resin, and the inspection box door and the operation platform can rotate relative to the closed case through hinges.

Preferably, the windproof cloth can block dust from passing through, the pulling connecting column can move left and right on the inner surface of the dust storage box body through the connecting clamping column, the moving circular plate can move left and right in the moving guide rail, and the windproof cloth can equally divide the dust storage box body into an upper part and a lower part.

Preferably, the inner surface of the air pumping box is provided with fan blades which can pump out air flow in the film-coated filter element through a pipeline in the fixed box body, the pulse device can drive the film-coated filter element to vibrate dust on the surface of the film-coated filter element, the inner surface of the box body push-pull bin is provided with a dust storage bin, and the left end face of the fixed box body is provided with a through hole which is connected with an external pipeline.

Preferably, the filter plate can filter dust in the air, and the filter plate is hollow.

Preferably, the inner surface of the limiting fixing ring is equal to the outer surface diameter of the limiting connecting ring, and the connecting plate body is clamped on the inner surface of the fixing box body.

Preferably, the push-pull lifting plate can rotate relative to the bolt fixing plate, the bolt fixing plate is fixed on the surface of the fixed box body through a bolt, the connecting clamping plate is fixed on the left end faces of the inspection box door, the operating platform and the dust storage bin through bolts, and the rotating moving plate can rotate relative to the push-pull lifting plate.

Compared with the prior art, the invention provides a dust cleaning structure for textile production and processing, which has the following beneficial effects:

1. the dust storage bin comprises the dust storage box body, the pulling connecting column, the connecting clamping column, the blocking windproof cloth, the moving circular plate and the push-pull door plate, the pulling connecting column and the connecting clamping column are adopted to drive the blocking windproof cloth to move, the dust storage box body can be well divided into two parts, dust below the blocking windproof cloth cannot be disturbed by air flow, dust flying caused by the air flow is reduced, and therefore the dust flying inside the dust storage box body is prevented from influencing the filtering of the film-coated filter element on the outside air, and the normal running of spinning is guaranteed.

2. The dust storage bin can well solve the problem that dust in the bottom dust storage bin is stirred by airflow and moves in the dust collector to increase the dust collection burden of the dust collector and influence the dust collection efficiency due to the fact that the air flow is accelerated by the air suction device driven by the motor in the dust collector, ensures that the dust cleaning structure cleans the dust, reduces the dust in the spinning process, improves the quality of textile products, reduces the dust in the working environment, well protects workers, and increases the working efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention without limiting the invention in which:

FIG. 1 is a schematic structural diagram of a dust cleaning structure for textile production and processing according to the present invention;

FIG. 2 is a schematic structural view of a dust storage bin of a dust cleaning structure for textile production and processing according to the present invention;

FIG. 3 is a schematic structural view of a closed cabinet of a dust cleaning structure for textile manufacturing according to the present invention;

FIG. 4 is a schematic structural view of a membrane-covered filter element of a dust cleaning structure for textile production and processing according to the present invention;

FIG. 5 is a schematic structural view of a fixed connecting plate of a dust cleaning structure for textile production and processing according to the present invention;

FIG. 6 is a schematic view of a fastening snap of a dust cleaning structure for textile manufacturing and processing according to the present invention;

in the figure: 1. checking the box door; 2. an operating platform; 3. lifting the handle; 4. a dust storage bin; 5. a height observation window; 6. a moving guide rail; 7. moving the universal wheel; 8. closing the case; 9. a label; 41. a dust storage box body; 42. pulling the connecting column; 43. connecting the clamping columns; 44. a wind-resistant barrier; 45. moving the circular plate; 46. a sliding door plate; 81. fixing and locking; 82. laminating a filter element; 83. a box body push-pull bin; 84. fixing the box body; 85. a power motor; 86. an air extraction box; 87. a blocking baffle plate; 88. a pulse device; 89. fixing the connecting plate; 811. connecting a clamping plate; 812. a limiting clamping plate; 813. rotating the moving plate; 814. a friction limiting block; 815. pushing and pulling the lifting plate; 816. the bayonet is penetrated; 817. a bolt fixing plate; 821. filtering the filter plate; 822. a limit connecting ring; 823. a blocking fixing ring; 891. a connecting plate body; 892. connecting the fixed plate; 893. and a limiting fixing ring.

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 the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-6, the present invention provides a technical solution:

the utility model provides a dust clearance structure for textile production processing, including removing universal wheel 7 and closed machine case 8, the upper end terminal surface that removes universal wheel 7 is connected with closed machine case 8, closed machine case 8's front end terminal surface has inspection chamber door 1 through hinged joint, the front end terminal surface of inspection chamber door 1 is connected with sign 9, the below of inspection chamber door 1 is connected with operation platform 2 at closed machine case 8's front end terminal surface, the front end terminal surface of closed machine case 8 is connected with dust storage bin 4 below operation platform 2, the front end terminal surface of inspection chamber door 1, operation platform 2 and dust storage bin 4 is connected with lifting handle 3, lifting handle 3's right-hand front end terminal surface at dust storage bin 4 is connected with high observation window 5, the top of high observation window 5 is connected with removal guide rail 6 in the front end terminal surface position department of dust storage bin 4, dust storage bin 4 includes dust storage box 41, pulling even post 42, connect the card post 43, the, Stop the windbreak 44, remove plectane 45 and push-and-pull door plant 46, the front end port of dust storage box 41 is connected with push-and-pull door plant 46, and the internal surface joint of dust storage box 41 has the connection card post 43, and the intermediate junction of connecting the card post 43 has the pulling to link post 42, and the right-hand member terminal surface of pulling link post 42 is connected with and stops the windbreak 44, and the lower extreme terminal surface of connecting the card post 43 is connected with in the surperficial position department of push-and-pull door plant 46 and removes plectan.

A dust cleaning structure for textile production and processing comprises a closed case 8, a fixed hasp 81, a film-covered filter element 82, a case push-pull bin 83, a fixed case 84, a power motor 85, a pumping box 86, a blocking baffle 87, a pulse device 88 and a fixed connecting plate 89, wherein the left end face of the fixed case 84 is connected with the fixed hasp 81, the inside of the fixed case 84 is connected with the power motor 85, the power motor 85 is electrically connected with an external power supply, the lower end face of the power motor 85 is connected with the pumping box 86, the lower end face of the pumping box 86 is connected with the blocking baffle 87, the lower end face of the blocking baffle 87 is connected with the pulse device 88, the film-covered filter element 82 is arranged below the pulse device 88, the lower end face of the film-covered filter element 82 is connected with the fixed connecting plate 89, the lower part of the fixed connecting plate 89 is connected with the case push-pull bin 83 on the, the inspection box door 1 can be stably fixed on the surface of the closed case 8.

The utility model provides a dust clearance structure for textile production processing, tectorial membrane filter core 82 is including filtering filter plate 821, spacing clamping ring 822 and stop retainer plate 823, the intermediate junction of spacing clamping ring 822 blocks retainer plate 823, the intermediate junction that blocks retainer plate 823 filters filter plate 821, the dust of the filtered air that tectorial membrane filter core 82 can be fine, prevent the environmental pollution that the dust drifted away and cause, fixed connection board 89 includes connecting plate body 891, connecting fixed plate 892 and spacing retainer plate 893, the internal surface of connecting plate body 891 is connected with connecting fixed plate 892, the intermediate junction of connecting fixed plate 892 has spacing retainer plate 893, fixed tectorial membrane filter core 82 that spacing retainer plate 893 can be fine, make tectorial membrane filter core 82 can stably connect inside sealed machine case 8, fixed hasp 81 includes connecting cardboard 811, spacing cardboard 812, rotate movable plate 813, friction stopper 814, lift up board 815, A through bayonet 816 and a bolt fixing plate 817, the front end face of the connecting snap plate 811 is fixedly connected with a limit snap plate 812 by welding, the inner surface of the limit snap plate 812 is connected with a rotating moving plate 813, the right side of the limit snap plate 812 is connected with a push-pull lifting plate 815 at the middle position of the rotating moving plate 813, the front end face of the push-pull lifting plate 815 is connected with the through bayonet 816 by penetration, the inner surface of the through bayonet 816 is connected with a friction limiting block 814, the rear end face of the friction limiting block 814 is connected with the bolt fixing plate 817, a fixed hasp 81 can well fix the inspection box door 1, the inspection box door 1 can be ensured to be stably fixed on the surface of the closed box 8, the dust storage bin 4 can be pulled back and forth relative to the closed box 8, the height observation window 5 is made of transparent resin, the inspection box door 1 and the operation platform 2 can rotate, the dust treatment is more convenient, the windproof cloth 44 can prevent dust from passing through, the pulling connecting column 42 can move left and right on the inner surface of the dust storage box body 41 through the connecting clamping column 43, the moving circular plate 45 can move left and right inside the moving guide rail 6, the windproof cloth 44 can divide the dust storage box body 41 into an upper part and a lower part, the windproof cloth 44 can be prevented from well reducing the influence of external air flow on the dust, the trouble of filtration caused by dust blowing is avoided, the fan blades arranged on the inner surface of the air pumping box 86 can extract the air flow inside the film-coated filter element 82 through the pipeline inside the fixed box body 84, the pulse device 88 can drive the film-coated filter element 82 to vibrate the dust on the surface of the film-coated filter element 82, the dust storage bin 4 is arranged on the inner surface of the box body push-pull bin 83, the through hole is arranged on the left end face of the fixed box body 84 and, thereby quickening the air flow velocity inside the fixed box 84 and quickening the filtration of the air, the filter plate 821 can filter the dust in the air, the filter plate 821 is hollow inside and can well lead the air to pass through, and ensure that the dust in the air is blocked by the filter plate 821, the inner surface of the limit fixing ring 893 is equal to the outer surface diameter of the limit connecting ring 822, the connecting plate body 891 is clamped on the inner surface of the fixed box 84, the diameter is equal to lead the limit fixing ring 893 to clamp the limit connecting ring 822, thereby fixing the membrane-covered filter element 82, the push-pull lifting plate 815 can rotate relative to the bolt fixing plate 817, the bolt fixing plate 817 is fixed on the surface of the fixed box 84 by bolts, the connecting plate 811 is fixed on the left end surface of the box door inspection 1, the operation platform 2 and the dust storage bin 4 by bolts, the rotating moving plate 813 can rotate relative to the push-pull lifting plate 815, and the subsequent maintenance and replacement are convenient.

The working principle and the using process of the invention are as follows: after the device is installed, when the device needs to be used, firstly, a power supply of a power motor 85 is connected, the model of the power motor 85 is YS5624, the power motor 85 rotates to drive a fan blade inside a wind pumping box 86 to rotate, the fan blade rotates to pump air inside a membrane-covered filter element 82 through a pipeline inside a fixed box 84, the air inside the membrane-covered filter element 82 is pumped out, so that outside air is pumped in through an external pipeline connected with a through hole arranged on the surface of the fixed box 84, the pipeline is aligned to a position needing dust removal in the spinning process, dust in the spinning process is sucked in by the pipeline and enters the fixed box 84, air flows due to the rotation of the fan blade inside the wind pumping box 86, passes through a filter plate 821 and enters a hollow filter plate 821, the dust in the air is blocked by the filter plate 821, the residual air enters the wind pumping box 86 through the pipeline, and the wind pumping box, the dust stays on the surface of the filter plate 821, the power of the pulse device 88 is connected, the pulse device 88 shakes the membrane-covered filter element 82, the dust on the surface of the membrane-covered filter element 82 is shaken to fall from the surface of the filter plate 821 through the fixed link plate 89 to the surface of the dust storage case 41, the height of the dust inside the dust storage case 41 is observed through the height observation window 5, when the dust height reaches a proper position, the moving circular plate 45 is pulled, the moving circular plate 45 drives the connecting clamping column 43 to move, the connecting clamping column 43 moves in the moving guide rail 6, the connecting clamping column 43 moves to drive the pulling connecting column 42 to move, the pulling connecting column 42 moves to drive the blocking windproof cloth 44 to move, when the connecting column 42 is pulled to contact with the left end of the inner surface of the dust storage case 41, the blocking windproof cloth 44 blocks the inner dust surface of the dust storage case 41, and the external air flow cannot disturb the dust below the blocking windproof cloth 44.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a dust clearance structure is used in textile production processing, is including removing universal wheel (7) and closed quick-witted case (8), its characterized in that: the upper end face of the movable universal wheel (7) is connected with a closed case (8), the front end face of the closed case (8) is connected with an inspection case door (1) through a hinge, the front end face of the inspection case door (1) is connected with a label (9), the lower part of the inspection case door (1) is connected with an operation platform (2) on the front end face of the closed case (8), the lower part of the operation platform (2) is connected with a dust storage bin (4) on the front end face of the closed case (8), the front end faces of the inspection case door (1), the operation platform (2) and the dust storage bin (4) are connected with a lifting handle (3), the right front end face of the dust storage bin (4) on the right side of the lifting handle (3) is connected with a height observation window (5), the upper part of the height observation window (5) is connected with a movable guide rail (6) on the front end face of the dust storage bin (4), the dust storage bin (4) comprises a dust storage box body (41), a pulling connecting column (42), a connecting clamping column (43), a blocking windproof cloth (44), a moving circular plate (45) and a push-pull door plate (46), wherein the front end port of the dust storage box body (41) is connected with the push-pull door plate (46), the connecting clamping column (43) is clamped on the inner surface of the dust storage box body (41), the pulling connecting column (42) is connected in the middle of the connecting clamping column (43), the right end face of the pulling connecting column (42) is connected with the blocking windproof cloth (44), and the moving circular plate (45) is connected to the lower end face of the connecting clamping column (43) at the surface position of the push-pull door plate (46).

2. The dust cleaning structure for textile production and processing according to claim 1, wherein: the closed case (8) comprises a fixed hasp (81), a film-coated filter element (82), a case body push-pull bin (83), a fixed case body (84), a power motor (85), a wind pumping box (86), a blocking baffle (87), a pulse device (88) and a fixed connecting plate (89), wherein the left end face of the fixed case body (84) is connected with the fixed hasp (81), the power motor (85) is connected with the inside of the fixed case body (84), the power motor (85) is electrically connected with an external power supply, the lower end face of the power motor (85) is connected with the wind pumping box (86), the lower end face of the wind pumping box (86) is connected with the blocking baffle (87), the lower end face of the blocking baffle (87) is connected with the pulse device (88), the film-coated filter element (82) is arranged below the pulse device (88), and the lower end face of the film-coated filter element (82) is connected with, a box body push-pull bin (83) is connected with the inner surface of the fixed box body (84) below the fixed connecting plate (89).

3. The dust cleaning structure for textile production and processing according to claim 2, wherein: tectorial membrane filter core (82) are including filtering filter plate (821), spacing clamping ring (822) and block retainer plate (823), the intermediate junction of spacing clamping ring (822) blocks retainer plate (823), the intermediate junction that blocks retainer plate (823) has filtering filter plate (821).

4. The dust cleaning structure for textile production and processing according to claim 2, wherein: fixed connection board (89) are including connecting plate body (891), connection fixed plate (892) and spacing retainer plate (893), the internal surface of connecting plate body (891) is connected with connection fixed plate (892), the intermediate junction of connection fixed plate (892) has spacing retainer plate (893).

5. The dust cleaning structure for textile production and processing according to claim 2, wherein: the fixed snap lock (81) comprises a connecting clamp plate (811), a limiting clamp plate (812), a rotating moving plate (813), a friction limiting block (814), a push-pull lifting plate (815), a through bayonet (816) and a bolt fixing plate (817), wherein the front end face of the connecting clamp plate (811) is fixedly connected with the limiting clamp plate (812) in a welding mode, the inner surface of the limiting clamp plate (812) is connected with the rotating moving plate (813), the push-pull lifting plate (815) is connected to the middle position of the rotating moving plate (813) on the right side of the limiting clamp plate (812), the front end face of the push-pull lifting plate (815) is connected with the through bayonet (816) in a penetrating mode, the inner surface of the through bayonet (816) is connected with the friction limiting block (814), the rear end face of the friction limiting block (814) is connected with the bolt fixing plate (817), and the push-pull lifting, the bolt fixing plate (817) is fixed on the surface of the fixed box body (84) through bolts, the connecting clamping plate (811) is fixed on the left end faces of the inspection box door (1), the operating platform (2) and the dust storage bin (4) through bolts, and the rotating moving plate (813) can rotate relative to the push-pull lifting plate (815).

6. The dust cleaning structure for textile production and processing according to claim 1, wherein: the dust storage bin (4) can be pulled back and forth relative to the closed case (8), the height observation window (5) is made of transparent resin, and the inspection box door (1) and the operation platform (2) can rotate relative to the closed case (8) through hinges.

7. The dust cleaning structure for textile production and processing according to claim 1, wherein: the dust-proof device is characterized in that the windproof cloth (44) can block dust from passing through, the pulling connecting column (42) can move left and right on the inner surface of the dust storage box body (41) through the connecting clamping column (43), the moving circular plate (45) can move left and right in the moving guide rail (6), and the windproof cloth (44) can equally divide the dust storage box body (41) into an upper part and a lower part.

8. The dust cleaning structure for textile production and processing according to claim 2, wherein: the inner surface of the air pumping box (86) is provided with fan blades which can pump out air flow in the film-coated filter element (82) through a pipeline in the fixed box body (84), the pulse device (88) can drive the film-coated filter element (82) to vibrate dust on the surface of the film-coated filter element (82), the inner surface of the box body push-pull bin (83) is provided with a dust storage bin (4), and the left end face of the fixed box body (84) is provided with a through hole which is connected with an external pipeline.

9. A dust cleaning structure for textile production and processing according to claim 3, wherein: the filter plate (821) can filter dust in the air, and the interior of the filter plate (821) is hollow.

10. The dust cleaning structure for textile production and processing according to claim 4, wherein: the internal surface of spacing retainer plate (893) equals with the surface diameter of spacing connecting ring (822), connecting plate body (891) joint is at the internal surface of fixed box (84).

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