CN109045859B

CN109045859B - Weaving workshop dust collector

Info

Publication number: CN109045859B
Application number: CN201811124655.4A
Authority: CN
Inventors: 张玉霞
Original assignee: Qingdao Beikeqi Household Products Co ltd
Current assignee: Qingdao Beikeqi Household Products Co ltd
Priority date: 2018-09-26
Filing date: 2018-09-26
Publication date: 2021-01-12
Anticipated expiration: 2038-09-26
Also published as: CN109045859A

Abstract

The invention relates to a dust removing device, in particular to a dust removing device for a textile workshop, which comprises a movable chassis mechanism, a machine body mechanism, a primary dust removing mechanism, a secondary dust removing mechanism and a negative pressure fan mechanism, wherein the device can suck air containing dust into the device and purify and discharge the air, can perform two modes of dust removal, can collect the dust after being cleaned, can move, can store tools for repairing a motor, is positioned below the machine body mechanism, is welded with the machine body mechanism, is connected with the machine body mechanism, is partially welded and partially bolted, is arranged inside the machine body mechanism, and is welded with the machine body mechanism, the negative pressure fan mechanism is positioned above the machine body mechanism, and the negative pressure fan mechanism is connected with the machine body mechanism through bolts.

Description

Weaving workshop dust collector

Technical Field

The invention relates to a dust removal device, in particular to a dust removal device for a textile workshop.

Background

Along with social progress, the requirement on environmental protection is higher and higher, the requirement on the quality of air in a factory is extremely strict, the dust removing mode of the traditional dust removing equipment is single, dust is difficult to clean, secondary pollution can be caused, and the dust removing device for the textile workshop is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a dust removal device for a textile workshop, which can suck air containing dust into the device and purify and discharge the air, can perform two modes of dust removal, can collect the cleaned dust, can move and can store tools for repairing a motor.

In order to solve the technical problem, the invention relates to a dust removal device, in particular to a dust removal device for a textile workshop, which comprises a movable underframe mechanism, a machine body mechanism, a primary dust removal mechanism, a secondary dust removal mechanism and a negative pressure fan mechanism, wherein the device can suck air containing dust into the device and purify and discharge the air, can perform dust removal in two modes, can collect the dust after cleaning, can move and can store tools for repairing a motor.

The movable bottom frame mechanism comprises a movable wheel mechanism and a bottom frame, the movable wheel mechanism is positioned below the bottom frame, and the movable wheel mechanism is connected with the bottom frame in a bolt connection mode;

the movable wheel mechanism comprises a movable wheel, a movable wheel fixing rod, a movable wheel supporting leg and a movable wheel seat, wherein the movable wheel is connected with the movable wheel fixing rod in a bearing connection mode;

the machine body mechanism comprises a machine body, an ash collecting box handle, an ash discharging hole, an ash discharging baffle, a dirty air inlet hole, a middle baffle, a knocking hammer rod through hole, a supporting groove, an upper end cover, an air outlet hole with a plug, a bearing seat and a motor base, wherein the ash collecting box is arranged inside the machine body, the ash collecting box is in clearance fit with the machine body, the middle baffle is arranged inside the machine body, the middle baffle is welded with the machine body, the ash discharging hole is formed in the middle baffle, the ash discharging baffle is arranged inside the middle baffle, the ash discharging baffle is in transition fit with the middle baffle, the knocking hammer rod through hole is formed in a side plate of the machine body, the supporting groove is formed in the inner wall of the machine body, the upper end cover is positioned above the machine body, the upper end cover is hinged with the machine body, the air outlet hole with the plug is formed in a right side plate of the machine body, the bearing seat is connected with the machine body in a bolt connection mode, the motor base is positioned on the right side of the machine body, and the motor base is welded with the machine body;

the primary ash removing mechanism comprises a dust cover, a primary ash removing driving device and a primary ash removing executing device, the motor base of the first-stage ash removal mechanism, the motor repair box handle and the motor repair box are arranged, the first-stage ash removal driving device is arranged inside the dust cover and is connected with the first-stage ash removal executing device, the matching mode of the first-stage ash removal driving device and the first-stage ash removal executing device is in contact fit, the motor base of the first-stage ash removal mechanism is arranged above the first-stage ash removal executing device, the connection mode of the motor base of the first-stage ash removal mechanism and the first-stage ash removal executing device is in welding, the connection mode of the first-stage ash removal driving device and the motor base of the first-stage ash removal mechanism is in bolt connection, the motor repair box is arranged inside the motor base of the first-stage ash removal mechanism, the matching mode of the motor repair box and the motor base of the first-stage ash removal mechanism is in clearance fit;

the primary ash removal driving device comprises a motor shaft A with a cam, a motor A and a motor supporting seat, wherein the motor shaft A with the cam is arranged inside the motor A, the motor shaft A with the cam is connected with the motor A in a bearing mode, the motor A is connected with the motor supporting seat, and the motor A is connected with the motor supporting seat in a welding mode;

the first-stage ash removal executing device comprises a cam connecting seat, a knocking rod, a spring compression seat, a compression cavity and a compression spring, wherein the cam connecting seat is positioned on the left side of the knocking rod, the cam connecting seat is in spiral connection with the knocking rod, the knocking rod is connected with the spring compression seat, the knocking rod is in welding connection with the spring compression seat, the spring compression seat is arranged inside the compression cavity, the spring compression seat is in clearance fit with the compression cavity, the compression spring is positioned on the right side of the spring compression seat, the compression spring is in welding connection with the spring compression seat, and the spring compression seat is in welding connection with the compression cavity;

the secondary ash cleaning mechanism comprises a secondary ash cleaning frame, a secondary ash cleaning driving mechanism, an intermediate support and a filter screen, the secondary ash cleaning frame is positioned above the intermediate support, the secondary ash cleaning frame is connected with the intermediate support in a bolt connection mode, the secondary ash cleaning driving mechanism is connected with the secondary ash cleaning frame in a bolt connection mode, the filter screen is connected with the intermediate support, and the filter screen is hinged with the intermediate support in a connection mode;

the secondary ash removal frame comprises a connection limiting strip, a spring, a hammer head support, a support frame and a hammer head, the connection limiting strip is connected with the hammer head support, the connection limiting strip is in contact fit with the hammer head support, the spring is connected with the hammer head support, the connection between the spring and the hammer head support is in welding, the support frame is connected with the connection limiting strip, the connection between the support frame and the connection limiting strip is in welding, the hammer head is positioned below the hammer head support, and the connection between the hammer head and the hammer head support is in spiral connection;

the secondary ash removal driving mechanism comprises a motor support B, a driving wheel, a motor B and a motor shaft B, the motor support B is connected with the motor B, the motor support B and the motor B are connected in a welding mode, the motor shaft B is arranged inside the motor B, the motor shaft B and the motor B are connected in a bearing mode, the driving wheel is connected with the motor shaft B, and the driving wheel is connected with the motor shaft B in an expansion sleeve mode;

the middle support comprises a groove block, a support plate A, a hammer head support movable groove and a hinge block, the groove block is connected with the support plate A in a welding mode, the hammer head support movable groove is formed in the support plate A, and the hinge block is formed in the support plate A;

the negative pressure fan mechanism comprises a fan blade fixing wheel, fan blades, a connecting shaft, a motor shaft C, a motor C and a motor base C, wherein the fan blade fixing wheel is connected with the fan blades, the fan blade fixing wheel is in spiral connection with the fan blades, the connecting shaft is positioned on the right side of the fan blade fixing wheel and is welded with the fan blade fixing wheel, the connecting shaft is connected with the motor shaft C, the connecting shaft is in key connection with the motor shaft C, the motor shaft C is arranged inside the motor C, the motor shaft C is in bearing connection with the motor C, the motor base C is positioned below the motor C, and the motor base C is welded with the motor C;

the movable chassis mechanism is located below the machine body mechanism, the movable chassis mechanism is welded with the machine body mechanism in a connecting mode, the first-stage ash removal mechanism is connected with the machine body mechanism in a partially welded mode and partially bolted connection mode, the second-stage ash removal mechanism is arranged inside the machine body mechanism, the second-stage ash removal mechanism is welded with the machine body mechanism in a connecting mode, the negative pressure fan mechanism is located above the machine body mechanism, and the negative pressure fan mechanism is connected with the machine body mechanism in a bolted connection mode.

As a further optimization of the technical scheme, the number of the moving wheel mechanisms of the dust removal device for the textile workshop is four.

As further optimization of the technical scheme, the compression spring and the spring of the dust removal device for the textile workshop are made of high-carbon steel.

As a further optimization of the technical scheme, the dust collecting box handle of the dust removing device for the textile workshop is provided with the anti-skidding sleeve.

The dust removal device for the textile workshop has the beneficial effects that:

the invention relates to a dust removal device for a textile workshop, which can suck air containing dust into the device and purify and discharge the air, can perform two modes of dust removal, can collect the cleaned dust, can move and can store tools for repairing a motor.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a dust removing device of a textile workshop.

Fig. 2 is a schematic structural diagram of a movable chassis mechanism 1 of a dust removal device for a textile workshop according to the present invention.

FIG. 3 is a schematic structural diagram of a moving wheel mechanism 1-1 of a dust removing device for a textile workshop according to the present invention.

Fig. 4 is a schematic structural diagram of the machine body mechanism 2 of the dust removing device for the textile workshop.

Fig. 5 is a schematic structural diagram of a primary ash removal mechanism 3 of the dust removal device for the textile workshop.

FIG. 6 is a schematic structural diagram of a primary ash removal driving device 3-2 of the dust removing device of the textile workshop.

FIG. 7 is a schematic structural diagram of a primary ash removal executing device 3-3 of the dust removing device for the textile workshop.

Fig. 8 is a schematic structural diagram of a two-stage ash removal mechanism 4 of a dust removal device for a textile workshop.

FIG. 9 is a schematic structural view of a secondary ash removal frame 4-1 of the dust removing device for the textile workshop.

FIG. 10 is a schematic structural diagram of a two-stage ash removal driving mechanism 4-2 of the dust removing device for the textile workshop according to the present invention.

FIG. 11 is a schematic structural diagram of an intermediate support 4-3 of the dust removing device of the textile workshop.

Fig. 12 is a schematic structural diagram of a negative pressure fan mechanism 5 of a dust removing device for a textile workshop according to the present invention.

In the figure: a movable chassis mechanism 1; a moving wheel mechanism 1-1; a moving wheel mechanism 1-1-1; a movable wheel fixing rod 1-1-2; moving wheel supporting legs 1-1-3; 1-1-4 of a movable wheel seat; 1-2; a body mechanism 2; a machine body 2-1; 2-2 of an ash collection box; 2-3 of a dust collection box handle; 2-4 of ash discharge holes; 2-5 of an ash discharge baffle plate; 2-6 of dirty air inlet holes; 2-7 parts of an intermediate baffle plate; knocking the hammer rod through the holes 2-8; 2-9 of a supporting groove; 2-10 parts of an upper end cover; 2-11 of air outlet holes with plugs; 2-12 of a bearing seat; 2-13 of a motor base; a first-stage ash removal mechanism 3; a dust cover 3-1; a primary ash removal driving device 3-2; a motor shaft A3-2-1 with a cam; motor A3-2-2; 3-2-3 parts of a motor supporting seat; 3-3 of a first-stage ash removal executing device; a cam connecting seat 3-3-1; a knocking rod 3-3-2; 3-3-3 parts of a spring compression seat; 3-3-4 of a compression cavity; 3-3-5 of a compression spring; 3-4 parts of a motor base of the primary ash removal mechanism; 3-5 of a motor repair box handle; 3-6 of a motor repair box; a secondary ash removal mechanism 4; 4-1 of a secondary ash removal frame; connecting a limiting strip 4-1-1; a spring 4-1-2; 4-1-3 of hammer head support; 4-1-4 of a support frame; 4-1-5 parts of a hammer head; a secondary ash removal driving mechanism 4-2; the motor support A4-2-1; a driving wheel 4-2-2; motor A4-2-3; a motor shaft A4-2-4; 4-3 of middle support; 4-3-1 of a groove block; support panel A4-3-2; 4-3-3 of a hammerhead supporting movable groove; a hinged block 4-3-4; 4-4 parts of a filter screen; a negative pressure fan mechanism 5; a fan blade fixed wheel 5-1; fan blades 5-2; connecting shafts 5-3; a motor shaft B5-4; motor B5-5; motor cabinet B5-6.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present invention relates to a dust removing device, and more specifically, to a dust removing device for a textile workshop, which includes a movable chassis mechanism 1, a machine body mechanism 2, a primary dust removing mechanism 3, a secondary dust removing mechanism 4, and a negative pressure fan mechanism 5, and which is capable of sucking air containing dust into the device and purifying and discharging the air, and which is capable of performing two modes of dust removal, collecting the dust after cleaning, moving the device, and storing tools for repairing motors.

The movable bottom frame mechanism 1 comprises a movable wheel mechanism 1-1 and a bottom frame 1-2, the movable wheel mechanism 1-1 is positioned below the bottom frame 1-2, and the movable wheel mechanism 1-1 is connected with the bottom frame 1-2 through bolts, so that the movable wheel mechanism 1-1 can be conveniently detached;

the moving wheel mechanism 1-1 comprises a moving wheel 1-1-1, a moving wheel fixing rod 1-1-2, a moving wheel supporting leg 1-1-3 and a moving wheel seat 1-1-4, wherein the moving wheel 1-1-1 is connected with the moving wheel fixing rod 1-1-2, the moving wheel 1-1-1 is connected with the moving wheel fixing rod 1-1-2 through a bearing in a manner of providing reliable rotation for the moving wheel 1-1-1, the moving wheel fixing rod 1-1-2 is connected with the moving wheel supporting leg 1-1-3 through welding in a manner, the moving wheel supporting leg 1-1-3 is positioned below the moving wheel seat 1-1-4, the movable wheel support legs 1-1-3 and the movable wheel seats 1-1-4 are connected in a welding mode;

the machine body mechanism 2 comprises a machine body 2-1, an ash collecting box 2-2, an ash collecting box handle 2-3, an ash discharging hole 2-4, an ash discharging baffle 2-5, a dirty air inlet hole 2-6, a middle baffle 2-7, a knocking hammer rod through hole 2-8, a supporting groove 2-9, an upper end cover 2-10, a belt plug air outlet hole 2-11, a bearing seat 2-12 and a motor base 2-13, wherein the ash collecting box 2-2 is arranged inside the machine body 2-1, the ash collecting box 2-2 is in clearance fit with the machine body 2-1, the middle baffle 2-7 is arranged inside the machine body 2-1, the middle baffle 2-7 is connected with the machine body 2-1 in a welding mode, and the ash discharging hole 2-4 is formed in the middle baffle 2-7, the ash discharging baffle 2-5 is arranged inside the middle baffle 2-7, the matching mode of the ash discharging baffle 2-5 and the middle baffle 2-7 is transition matching, the knocking hammer rod is arranged on the side plate of the machine body 2-1 through a hole 2-8, the supporting groove 2-9 is arranged on the inner wall of the machine body 2-1, the upper end cover 2-10 is positioned above the machine body 2-1, the upper end cover 2-10 is hinged with the machine body 2-1, the air outlet hole 2-11 with the plug is arranged on the right side plate of the machine body 2-1, the bearing seat 2-12 is connected with the machine body 2-1, the connection mode of the bearing seat 2-12 and the machine body 2-1 is bolted connection, the motor seat 2-13 is positioned on the right side of the machine body 2-1, and the connection mode of the motor seat 2-13 and the machine body 2-1 is welding;

the primary ash removal mechanism 3 comprises a dust cover 3-1, a primary ash removal driving device 3-2, a primary ash removal executing device 3-3, a motor base 3-4 of the primary ash removal mechanism, a motor repair box handle 3-5 and a motor repair box 3-6, the primary ash removal driving device 3-2 is arranged inside the dust cover 3-1, the primary ash removal driving device 3-2 is connected with the primary ash removal executing device 3-3, the primary ash removal driving device 3-2 is in contact fit with the primary ash removal executing device 3-3, the motor base 3-4 of the primary ash removal mechanism is arranged above the primary ash removal executing device 3-3, the motor base 3-4 of the primary ash removal mechanism is connected with the primary ash removal executing device 3-3 in a welding mode, and the primary ash removal driving device 3-2 is connected with the motor base 3-4 of the primary ash removal mechanism in a welding mode For bolt connection, the motor repair box 3-6 is arranged inside the motor base 3-4 of the primary ash removal mechanism, the matching mode of the motor repair box 3-6 and the motor base 3-4 of the primary ash removal mechanism is clearance fit, and the connection mode of the motor repair box handle 3-5 and the motor repair box 3-6 is welding;

the primary ash removal driving device 3-2 comprises a cam-carrying motor shaft A3-2-1, a motor A3-2-2 and a motor supporting seat 3-2-3, the cam-carrying motor shaft A3-2-1 is arranged inside the motor A3-2-2, the cam-carrying motor shaft A3-2-1 is connected with the motor A3-2-2 through a bearing, the motor A3-2-2 is connected with the motor supporting seat 3-2-3, the motor A3-2-2 is connected with the motor supporting seat 3-2-3 through welding, the cam drives the cam-carrying motor shaft A3-2-1 to rotate through the operation of the motor A3-2-2, and drives the cam connecting seat 3-3-1 to move rightwards in the horizontal direction, the cam connecting seat 3-3-1 moves rightwards to drive the knocking rod 3-3-2 to move rightwards, the knocking rod 3-3-2 moves rightwards to drive the spring compression seat 3-3-3 to move rightwards to compress the compression spring 3-3-5, the knocking rod 3-3-2 knocks the filter screen 4-4 in the process of moving rightwards, dust falls off, and then the knocking rod 3-3-2 returns to the original position under the resilience action of the compression spring 3-3-5, so that one-time dust cleaning operation is completed;

the first-stage ash removal executing device 3-3 comprises a cam connecting seat 3-3-1, a knocking rod 3-3-2, a spring compression seat 3-3-3, a compression cavity 3-3-4 and a compression spring 3-3-5, wherein the cam connecting seat 3-3-1 is positioned on the left side of the knocking rod 3-3-2, the cam connecting seat 3-3-1 and the knocking rod 3-3-2 are connected in a spiral mode, the knocking rod 3-3-2 is connected with the spring compression seat 3-3-3, the knocking rod 3-3-2 and the spring compression seat 3-3-3 are connected in a welding mode, the spring compression seat 3-3-3 is arranged inside the compression cavity 3-3-4, and the spring compression seat 3-3-3 is matched with the compression cavity 3-3-4 in a clearance mode The spring compression seat 3-3-3 is convenient to move in the compression cavity 3-3-4 by matching, the compression spring 3-3-5 is positioned at the right side of the spring compression seat 3-3-3, the connection mode of the compression spring 3-3-5 and the spring compression seat 3-3-3 is welding, and the connection mode of the spring compression seat 3-3-3 and the compression cavity 3-3-4 is welding;

the secondary ash cleaning mechanism 4 comprises a secondary ash cleaning frame 4-1, a secondary ash cleaning driving mechanism 4-2, an intermediate support 4-3 and a filter screen 4-4, the secondary ash cleaning frame 4-1 is positioned above the intermediate support 4-3, the secondary ash cleaning frame 4-1 is connected with the intermediate support 4-3 through a bolt, so that the secondary ash cleaning frame 4-1 can be conveniently disassembled, the secondary ash cleaning driving mechanism 4-2 is connected with the secondary ash cleaning frame 4-1 through a bolt, the filter screen 4-4 is connected with the intermediate support 4-3, and the filter screen 4-4 is hinged with the intermediate support 4-3;

the secondary ash removal frame 4-1 comprises a connection limiting strip 4-1-1, a spring 4-1-2, a hammer head support 4-1-3, a support frame 4-1-4 and a hammer head 4-1-5, the connection limiting strip 4-1-1 is connected with the hammer head support 4-1-3, the connection limiting strip 4-1-1 is in contact fit with the hammer head support 4-1-3, the spring 4-1-2 is connected with the hammer head support 4-1-3, the connection mode of the spring 4-1-2 and the hammer head support 4-1-3 is welding, the support frame 4-1-4 is connected with the connection limiting strip 4-1-1, the connection mode of the support frame 4-1-4 and the connection limiting strip 4-1-1 is welding, the hammer 4-1-5 is positioned below the hammer support 4-1-3, and the connection mode of the hammer 4-1-5 and the hammer support 4-1-3 is a spiral connection, so that the hammer 4-1-5 can be conveniently replaced;

the secondary ash cleaning driving mechanism 4-2 comprises a motor support B4-2-1, a driving wheel 4-2-2, a motor B4-2-3 and a motor shaft B4-2-4, the motor support B4-2-1 is connected with the motor B4-2-3, the motor support B4-2-1 and the motor B4-2-3 are connected in a welding mode, the motor shaft B4-2-4 is arranged inside the motor B4-2-3, the motor shaft B4-2-4 and the motor B4-2-3 are connected in a bearing mode, the driving wheel 4-2-2 is connected with the motor shaft B4-2-4, the driving wheel 4-2-2 and the motor shaft B4-2-4 are connected in an expansion sleeve mode, the motor B4-2-3 runs to drive the motor shaft B4-2-4 to rotate, the motor shaft B4-2-4 rotates to drive the driving wheel 4-2-2 to rotate, the supporting effect of the driving wheel 4-2-2 in the horizontal direction is smaller and smaller, under the pull-back action of the spring 4-1-2, the hammer head supports 4-1-3 are close to each other to drive the hammer heads 4-1-5 to be close to each other, the hammer heads 4-1-5 are close to each other to knock the middle filter screen 4-4, and dust falls;

the middle support 4-3 comprises a groove block 4-3-1, a support plate A4-3-2, a hammer head support movable groove 4-3-3 and a hinge block 4-3-4, the groove block 4-3-1 is connected with the support plate A4-3-2, the groove block 4-3-1 and the support plate A4-3-2 are connected in a welding mode, the hammer head support movable groove 4-3-3 is arranged on the support plate A4-3-2, and the hinge block 4-3-4 is arranged on the support plate A4-3-2;

the negative pressure fan mechanism 5 comprises a fan blade fixing wheel 5-1, fan blades 5-2, a connecting shaft 5-3, a motor shaft C5-4, a motor C5-5 and a motor base C5-6, wherein the fan blade fixing wheel 5-1 is connected with the fan blades 5-2, the fan blade fixing wheel 5-1 is in spiral connection with the fan blades 5-2, the connecting shaft 5-3 is positioned on the right side of the fan blade fixing wheel 5-1, the connecting shaft 5-3 is in welding connection with the fan blade fixing wheel 5-1, the connecting shaft 5-3 is connected with the motor shaft C5-4, the connecting shaft 5-3 is in key connection with the motor shaft C5-4, the motor shaft C5-4 is arranged inside the motor B5-5, the motor shaft C5-4 is in bearing connection with the motor C5-5, the motor base C5-6 is positioned below the motor B5-5, the connection mode of the motor base C5-6 and the motor C5-5 is welding, the motor B5-5 operates to drive the motor shaft B5-4 to rotate, the motor shaft B5-4 rotates to drive the connecting shaft 5-3 to rotate, the connecting shaft 5-3 rotates to drive the fan blade fixing wheel 5-1 to rotate, the fan blade fixing wheel 5-1 rotates to drive the fan blade 5-2 to rotate, the fan blade 5-2 rotates to form negative pressure, dirty air is sucked into the device from the dirty air inlet hole 2-6, when dirty air passes through the filter screen 4-4, dust is filtered by the filter screen, and then clean air is discharged from the air outlet 2-11 with the plug;

remove chassis mechanism 1 and be located the below of organism mechanism 2, the connected mode of removing chassis mechanism 1 and organism mechanism 2 is the welding, one-level deashing mechanism 3 links to each other with organism mechanism 2, the connected mode of one-level deashing mechanism 3 and organism mechanism 2 is the partial weld, part bolted connection, second grade deashing mechanism 4 sets up the inside at organism mechanism 2, second grade deashing mechanism 4 is the welding with organism mechanism 2's connected mode, negative pressure fan mechanism 5 is located organism mechanism 2's top, negative pressure fan mechanism 5 is bolted connection with organism mechanism 2's connected mode.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment in which the number of the moving wheel mechanisms 1-1 is four.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the compression spring 3-3-5 and the spring 4-1-2 are made of high carbon steel.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described with reference to the present embodiment, in which the dust box handle 2-3 is provided with an anti-slip cover.

The device can suck air containing dust into the device and purify and discharge the air, the motor B5-5 is operated to drive the motor shaft B5-4 to rotate, the motor shaft B5-4 rotates to drive the connecting shaft 5-3 to rotate, the connecting shaft 5-3 rotates to drive the fan blade fixing wheel 5-1 to rotate, the fan blade fixing wheel 5-1 rotates to drive the fan blade 5-2 to rotate, the fan blade 5-2 rotates to form negative pressure, dirty air is sucked into the device from the dirty air inlet hole 2-6, when the dirty air passes through the filter screen 4-4, the dust is filtered by the filter screen, and then clean air is discharged from the outlet hole with the plug 2-11; the device can perform two modes of dust removal, when dust removal is needed, a plug with a plug air outlet hole 2-11 is inserted, the first mode of dust removal is that a motor A3-2-2 operates to drive a motor shaft A3-2-1 with a cam to rotate, the cam can drive a cam connecting seat 3-3-1 to move rightwards in the horizontal direction, the cam connecting seat 3-3-1 moves rightwards to drive a knocking rod 3-3-2 to move rightwards, the knocking rod 3-3-2 moves rightwards to drive a spring compression seat 3-3-3 to move rightwards to compress a compression spring 3-3-5, the knocking rod 3-3-2 can knock a filter screen 4-4 in the process of moving rightwards, dust can fall down, and then under the resilience action of the compression spring 3-3-5, the knocking rod 3-3-2 returns to the original position to finish one-time dust cleaning operation, the second dust cleaning mode is that the motor B4-2-3 operates to drive the motor shaft B4-2-4 to rotate, the motor shaft B4-2-4 rotates to drive the driving wheel 4-2-2 to rotate, the supporting effect of the driving wheel 4-2-2 in the horizontal direction is smaller and smaller, under the pull-back action of the spring 4-1-2, the hammer head supports 4-1-3 are close to each other to drive the hammer heads 4-1-5 to be close to each other, the hammer heads 4-1-5 are close to each other to knock the filter screen 4-4 in the middle, and dust falls, and the second dust cleaning mode is adopted; the device can collect the cleaned dust, and after the dust discharging baffle 2-5 is pulled out, the dust falling in the dust cleaning mode falls into the dust collecting box 2-2 to be collected; the device can move, and moving wheels 1-1-1 are arranged below the device, so that the moving function can be realized; the device can store tools for repairing the motor, is provided with motor repairing boxes 3-6, can store tools for repairing the motor, and is convenient to repair when the motor fails.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a weaving workshop dust collector, is including removing chassis mechanism (1), organism mechanism (2), one-level deashing mechanism (3), second grade deashing mechanism (4), negative pressure fan mechanism (5), its characterized in that: the movable bottom frame mechanism (1) comprises a movable wheel mechanism (1-1) and a bottom frame (1-2), the movable wheel mechanism (1-1) is positioned below the bottom frame (1-2), and the movable wheel mechanism (1-1) is connected with the bottom frame (1-2) through bolts;

the movable wheel mechanism (1-1) comprises a movable wheel (1-1-1), a movable wheel fixing rod (1-1-2), movable wheel supporting legs (1-1-3) and a movable wheel seat (1-1-4), the movable wheel (1-1-1) is connected with the movable wheel fixing rod (1-1-2) through a bearing, the movable wheel fixing rod (1-1-2) is connected with the movable wheel supporting legs (1-1-3) through welding, the movable wheel supporting legs (1-1-3) are positioned below the movable wheel seat (1-1-4), the movable wheel support legs (1-1-3) and the movable wheel seats (1-1-4) are connected by welding;

the machine body mechanism (2) comprises a machine body (2-1), an ash collection box (2-2), an ash collection box handle (2-3), an ash discharge hole (2-4), an ash discharge baffle (2-5), a dirty air inlet hole (2-6), a middle baffle (2-7), a knocking hammer rod through hole (2-8), a support groove (2-9), an upper end cover (2-10), an air outlet hole with a plug (2-11), a bearing seat (2-12) and a motor seat (2-13), wherein the ash collection box (2-2) is arranged inside the machine body (2-1), the ash collection box (2-2) and the machine body (2-1) are in clearance fit, the middle baffle (2-7) is arranged inside the machine body (2-1), the middle baffle (2-7) and the machine body (2-1) are connected by welding, an ash discharging hole (2-4) is formed in the middle baffle (2-7), the ash discharging baffle (2-5) is arranged inside the middle baffle (2-7), the ash discharging baffle (2-5) and the middle baffle (2-7) are matched in a transition fit manner, a knocking hammer rod is arranged on a side plate of the machine body (2-1) through a hole (2-8), a supporting groove (2-9) is formed in the inner wall of the machine body (2-1), an upper end cover (2-10) is positioned above the machine body (2-1), the upper end cover (2-10) is hinged with the machine body (2-1), an air outlet hole (2-11) with a plug is formed in a right side plate of the machine body (2-1), the bearing seat (2-12) is connected with the machine body (2-1), the bearing seat (2-12) is connected with the machine body (2-1) through a bolt, the motor seat (2-13) is positioned on the right side of the machine body (2-1), and the motor seat (2-13) is connected with the machine body (2-1) through welding;

the primary ash removal mechanism (3) comprises a dust cover (3-1), a primary ash removal driving device (3-2), a primary ash removal executing device (3-3), a motor base (3-4) of the primary ash removal mechanism, a motor repair box handle (3-5) and a motor repair box (3-6), the primary ash removal driving device (3-2) is arranged inside the dust cover (3-1), the primary ash removal driving device (3-2) is connected with the primary ash removal executing device (3-3), the matching mode of the primary ash removal driving device (3-2) and the primary ash removal executing device (3-3) is contact matching, the motor base (3-4) of the primary ash removal mechanism is arranged above the primary ash removal executing device (3-3), the connection mode of the motor base (3-4) of the primary ash removal mechanism and the primary ash removal executing device (3-3) is welding, the connection mode of the primary ash removal driving device (3-2) and the motor base (3-4) of the primary ash removal mechanism is bolt connection, the motor repair box (3-6) is arranged inside the motor base (3-4) of the primary ash removal mechanism, the matching mode of the motor repair box (3-6) and the motor base (3-4) of the primary ash removal mechanism is clearance fit, and the connection mode of the motor repair box handle (3-5) and the motor repair box (3-6) is welding;

the primary ash removal driving device (3-2) comprises a cam-equipped motor shaft A (3-2-1), a motor A (3-2-2) and a motor supporting seat (3-2-3), wherein the cam-equipped motor shaft A (3-2-1) is arranged inside the motor A (3-2-2), the cam-equipped motor shaft A (3-2-1) is connected with the motor A (3-2-2) through a bearing, the motor A (3-2-2) is connected with the motor supporting seat (3-2-3), and the motor A (3-2-2) is connected with the motor supporting seat (3-2-3) through welding;

the first-stage ash removal executing device (3-3) comprises a cam connecting seat (3-3-1), a knocking rod (3-3-2), a spring compression seat (3-3-3), a compression cavity (3-3-4) and a compression spring (3-3-5), wherein the cam connecting seat (3-3-1) is positioned on the left side of the knocking rod (3-3-2), the cam connecting seat (3-3-1) is in spiral connection with the knocking rod (3-3-2), the knocking rod (3-3-2) is connected with the spring compression seat (3-3-3), the knocking rod (3-3-2) is in welding connection with the spring compression seat (3-3-3), the spring compression seat (3-3-3) is arranged inside the compression cavity (3-3-4), the spring compression seat (3-3-3) and the compression cavity (3-3-4) are in clearance fit, the compression spring (3-3-5) is positioned on the right side of the spring compression seat (3-3-3), the compression spring (3-3-5) and the spring compression seat (3-3-3) are connected in a welding manner, and the spring compression seat (3-3-3) and the compression cavity (3-3-4) are connected in a welding manner;

the secondary ash cleaning mechanism (4) comprises a secondary ash cleaning frame (4-1), a secondary ash cleaning driving mechanism (4-2), an intermediate support (4-3) and a filter screen (4-4), the secondary ash cleaning frame (4-1) is positioned above the intermediate support (4-3), the secondary ash cleaning frame (4-1) is connected with the intermediate support (4-3) through bolts, the secondary ash cleaning driving mechanism (4-2) is connected with the secondary ash cleaning frame (4-1) through bolts, the filter screen (4-4) is connected with the intermediate support (4-3), and the filter screen (4-4) is hinged with the intermediate support (4-3);

the secondary ash removal frame (4-1) comprises a connecting limiting strip (4-1-1), a spring (4-1-2), a hammer head support (4-1-3), a support frame (4-1-4) and a hammer head (4-1-5), the connecting limiting strip (4-1-1) is connected with the hammer head support (4-1-3), the connecting limiting strip (4-1-1) is in contact fit with the hammer head support (4-1-3), the spring (4-1-2) is connected with the hammer head support (4-1-3) by welding, the support frame (4-1-4) is connected with the connecting limiting strip (4-1-1), the support frame (4-1-4) and the connection limiting strip (4-1-1) are connected in a welding mode, the hammer head (4-1-5) is positioned below the hammer head support (4-1-3), and the hammer head (4-1-5) and the hammer head support (4-1-3) are connected in a spiral mode;

the secondary ash cleaning driving mechanism (4-2) comprises a motor support B (4-2-1), a driving wheel (4-2-2), a motor B (4-2-3) and a motor shaft B (4-2-4), the motor support B (4-2-1) is connected with the motor B (4-2-3), the motor support B (4-2-1) and the motor B (4-2-3) are connected in a welding mode, the motor shaft B (4-2-4) is arranged inside the motor B (4-2-3), the motor shaft B (4-2-4) is connected with the motor B (4-2-3) in a bearing mode, the driving wheel (4-2-2) is connected with the motor shaft B (4-2-4), the driving wheel (4-2-2) is connected with the motor shaft B (4-2-4) in an expansion sleeve manner;

the middle support (4-3) comprises a groove block (4-3-1), a support plate A (4-3-2), a hammer head support movable groove (4-3-3) and a hinge block (4-3-4), the groove block (4-3-1) is connected with the support plate A (4-3-2), the groove block (4-3-1) and the support plate A (4-3-2) are connected in a welding mode, the hammer head support movable groove (4-3-3) is formed in the support plate A (4-3-2), and the hinge block (4-3-4) is formed in the support plate A (4-3-2);

the negative pressure fan mechanism (5) comprises a fan blade fixed wheel (5-1), fan blades (5-2), a connecting shaft (5-3), a motor shaft C (5-4), a motor C (5-5) and a motor base C (5-6), wherein the fan blade fixed wheel (5-1) is connected with the fan blades (5-2), the fan blade fixed wheel (5-1) is in spiral connection with the fan blades (5-2), the connecting shaft (5-3) is positioned at the right side of the fan blade fixed wheel (5-1), the connecting shaft (5-3) is in welding connection with the fan blade fixed wheel (5-1), the connecting shaft (5-3) is connected with the motor shaft C (5-4), and the connecting shaft (5-3) is in key connection with the motor shaft C (5-4), the motor shaft C (5-4) is arranged inside the motor C (5-5), the motor shaft C (5-4) is connected with the motor C (5-5) in a bearing mode, the motor base C (5-6) is located below the motor C (5-5), and the motor base C (5-6) is connected with the motor C (5-5) in a welding mode;

the movable chassis mechanism (1) is located below the machine body mechanism (2), the movable chassis mechanism (1) is welded with the machine body mechanism (2), the first-stage ash cleaning mechanism (3) is connected with the machine body mechanism (2), the first-stage ash cleaning mechanism (3) is partially welded with the machine body mechanism (2), and is partially bolted, the second-stage ash cleaning mechanism (4) is arranged inside the machine body mechanism (2), the second-stage ash cleaning mechanism (4) is welded with the machine body mechanism (2), the negative pressure fan mechanism (5) is located above the machine body mechanism (2), and the negative pressure fan mechanism (5) is bolted with the machine body mechanism (2).

2. The textile workshop dust removal device of claim 1, wherein: the number of the moving wheel mechanisms (1-1) is four.

3. The textile workshop dust removal device of claim 1, wherein: the compression spring (3-3-5) and the spring (4-1-2) are made of high-carbon steel.

4. The textile workshop dust removal device of claim 1, wherein: the ash collection box handle (2-3) is provided with an anti-slip sleeve.