CN219670897U

CN219670897U - Cleaning device for negative oxygen ion fabric

Info

Publication number: CN219670897U
Application number: CN202320438825.6U
Authority: CN
Inventors: 宋华伟; 宋华利; 徐利军; 宋华德
Original assignee: Zhejiang Wondray Textile Printing And Dyeing Co ltd
Current assignee: Zhejiang Wondray Textile Printing And Dyeing Co ltd
Priority date: 2023-03-03
Filing date: 2023-03-03
Publication date: 2023-09-12
Anticipated expiration: 2033-03-03

Abstract

The utility model provides a cleaning device for negative oxygen ion fabrics, which belongs to the field of fabric equipment. It includes a box body. The front and rear ends of the box body are provided with material openings for the fabric to pass through. The box is equipped with a cleaning mechanism and a percussion mechanism. The cleaning mechanism is used to clean dust on the surface of the fabric and pull the fabric. The percussion mechanism is used to It beats the surface of the fabric and makes the dust on the surface of the fabric fall. The upper and lower ends of the percussion mechanism have rotating shafts. The percussion mechanism is connected to the inner wall of the box through the rotating shaft. The rotating shaft at the upper end of the percussion mechanism passes through the top of the box and is fixed with a variable gear. The top of the box is fixed with an adjustment mechanism that can match the variable gear set and drive the variable gear set to rotate. The utility model sets an adjustment mechanism, a knocking mechanism, and a variable gear set to cooperate with each other, and then changes the knocking frequency of the knocking block by changing the rotation speed of the knocking mechanism, so as to clean fabrics of different thicknesses and specifications and improve work efficiency.

Description

Cleaning device for negative oxygen ion fabric

Technical Field

The utility model belongs to the field of fabric equipment, and relates to a cleaning device for negative ion fabrics.

Background

The negative oxygen ion fabric is made of negative ion fibers, and the negative ion fibers are fibers with a negative ion release function, and negative ions released by the fibers have obvious effects on improving air quality and environment, particularly health care effects of the negative ions on human bodies, and are accepted by more and more people.

The surface of the anion fabric can absorb a lot of dust and particles in the manufacturing process, the surface of the anion fabric needs to be cleaned, when the traditional fabric cleaning device is used for cleaning the fabric, the surface of the fabric is simply cleaned, but the dust deposited in the fabric cannot be completely cleaned, the cleaning effect is poor, the fabric printing and dyeing cleaning device disclosed in the prior art is (CN202222976695. X), and comprises a box body, a first conveying roller and a second conveying roller are rotationally connected in the box body, the first conveying roller is positioned at the front end of the box body, and the second conveying roller is positioned at the rear end of the box body; the cleaning mechanism is used for cleaning dust on the surface of the fabric, and the knocking mechanism is used for knocking the fabric. According to the utility model, the knocking mechanism is arranged, so that the fabric can be knocked under the action of the knocking mechanism, and the fabric is vibrated, so that dust in the fabric can be shaken off or shaken out, and compared with the traditional method, the fabric is cleaned only by using the hairbrush, the cleaning effect is better, and the printing and dyeing quality is improved.

However, the above prior art still has the following problems: when processing the surface fabric of different thickness, because the motor of above-mentioned prior art's knocking mechanism is fixed rotational speed, can't adjust according to the thickness of different surface fabrics, because the difference of surface fabric thickness, required beating speed also is different, so clean can reduce cleaning efficiency like this.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a cleaning device for negative oxygen ion fabric, which aims to solve the problems in the prior art.

The aim of the utility model can be achieved by the following technical scheme: the utility model provides a cleaning device of negative oxygen ion surface fabric, includes the box, open at the front and back both ends of box has the material mouth that passes that supplies the surface fabric to pass, its characterized in that, the incasement is provided with cleans mechanism and beats the mechanism, clean the mechanism and be used for cleaning the dust on surface fabric and pull the surface fabric, beat the mechanism and be used for beating the surface fabric and make the dust on surface fabric fall down, beat the mechanism upper and lower both ends and have the axis of rotation, beat the mechanism and pass through the axis of rotation and rotate the connection at the box inner wall, the axis of rotation of beating the mechanism upper end is fixed with variable gear train through the box top, the box top is fixed with and can cooperate and can drive variable gear train pivoted adjustment mechanism with the variable gear train.

Further, the cleaning mechanism include two motor, two initiative cleaning roller and two driven cleaning roller, two initiative cleaning roller symmetry sets up and vertical rotation is connected at the box inner wall, two driven cleaning roller symmetry sets up and rotates and connect the box inner wall, initiative cleaning roller outer wall can with driven cleaning roller outer wall is pasted mutually and is leaned on, the motor is fixed at the box top, the pivot of initiative cleaning roller passes the box in roof and cleans the output shaft of motor mutually fixedly, the cover is established respectively in the pivot of initiative cleaning roller and driven cleaning roller and is fixed with two rotation gears that can mesh mutually.

Further, the knocking mechanism comprises a main body located between the two active cleaning rollers, symmetrical rotating shafts are fixed at the upper end and the lower end of the main body, a plurality of adjusting grooves are formed in the side wall of the main body, adjusting blocks are embedded in the inner walls of the adjusting grooves, one end of each adjusting block is fixedly provided with an adjusting rod, one end of each adjusting rod is fixedly provided with a knocking block located outside the adjusting groove and capable of propping against the outer wall of the main body, a blocking edge is fixed on the inner wall of the opening of each adjusting groove, the adjusting blocks can prop against the blocking edge, and springs are fixed between one side of each adjusting block and the inner bottom wall of each adjusting groove.

Further, the variable gear set comprises a first driven gear, a second driven gear and a third driven gear, and the first driven gear, the second driven gear and the third driven gear are sleeved and fixed on the outer wall of a rotating shaft of the main body, the upper end of which penetrates through the box body, at equal intervals in sequence from bottom to top.

Further, adjustment mechanism include lift cylinder, accommodate motor, the lift cylinder is fixed at the box top and is located two between the motor cleans, be fixed with the mounting panel on the telescopic link of lift cylinder, accommodate motor fixes on the mounting panel, accommodate motor's output shaft on be fixed with can with first driven gear engaged with first driving gear, first driving gear top is fixed with can with second driven gear engaged with second driving gear, second driving gear top is fixed with can with third driven gear engaged with third driving gear.

Further, the radius of the first driven gear is larger than that of the second driven gear and smaller than that of the third driven gear, and the radius of the first driving gear is smaller than that of the second driving gear and larger than that of the third driving gear.

Further, the top of the box body is fixed with a protective cover, and the protective cover covers the cleaning motor, the variable gear set and the adjusting mechanism.

Further, one side of the box body is fixed with a dust collector, one end of the dust collector is connected with a dust collection pipe, and one end of the dust collection pipe penetrates through the side wall of the box body to be fixed with a dust collection cover.

Further, the outer side of the knocking block is provided with an arc-shaped part.

Compared with the prior art, the utility model has the advantages that:

1. according to the utility model, the adjusting mechanism is arranged to be matched with the knocking mechanism and the variable gear set, so that the rotating speed of the rotating shaft can be changed through the adjusting mechanism, and the knocking frequency of the knocking block is changed through changing the rotating speed of the main body, so that the fabrics with different thickness specifications are cleaned, and the working efficiency is improved;

2. according to the utility model, through the vertically arranged cleaning mechanism and main body, the vertical traction of the fabric is realized, when the cleaning and beating of dust particles on the surface of the fabric are realized, the problem that most of the dust particles knocked out from the upper end of the fabric easily fall into the upper end surface of the fabric from new when the fabric is transported transversely and beaten is solved, and the cleaning efficiency is further improved;

3. according to the utility model, the dust collector and the dust hood are arranged, so that dust particles can be timely collected when the surface of the fabric is knocked and cleaned, the dust particles are prevented from being re-stained on the fabric, and the cleaning efficiency is further improved.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a cross-sectional view of a main view of the present utility model.

Fig. 3 is a cross-sectional view of the case of the present utility model.

In the figure, 1, a box body; 2. a rotating shaft; 3. a cleaning motor; 4. an active cleaning roller; 5. a driven cleaning roller; 6. rotating the gear; 7. a main body; 8. an adjustment tank; 9. an adjusting block; 10. an adjusting rod; 11. knocking the block; 12. a blocking edge; 13. a spring; 14. a first driven gear; 15. a second driven gear; 16. a third driven gear; 17. a lifting cylinder; 18. adjusting a motor; 19. a mounting plate; 20. a first drive gear; 21. a second drive gear; 22. a third drive gear; 23. a protective cover; 24. a dust collector; 25. a dust hood; 26. a dust collection pipe; 27. an arc-shaped portion; 28. and a material passing opening.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1, the cleaning device for the negative oxygen ion fabric comprises a box body 1, a material passing opening 28 for the fabric to pass through is formed in the front end and the rear end of the box body 1, a cleaning mechanism and a knocking mechanism are arranged in the box body, the cleaning mechanism is used for cleaning dust on the surface of the fabric and dragging the fabric, the knocking mechanism is used for knocking the surface of the fabric and enabling the dust on the surface of the fabric to fall down, rotating shafts 2 are arranged at the upper end and the lower end of the knocking mechanism, the knocking mechanism is rotationally connected to the inner wall of the box body 1 through the rotating shafts 2, a variable gear set is fixed on the rotating shaft 2 at the upper end of the knocking mechanism through the top of the box body 1, an adjusting mechanism which can be matched with the variable gear set and can drive the variable gear set to rotate is fixed on the top of the box body 1, and a protective cover 23 covers the cleaning motor 3, the variable gear set and the adjusting mechanism.

As shown in fig. 1, the cleaning mechanism comprises two cleaning motors 3, two driving cleaning rollers 4 and two driven cleaning rollers 5, the two driving cleaning rollers are symmetrically arranged and vertically rotate and are connected to the inner wall of the box body 1, the two driven cleaning rollers 5 are symmetrically arranged and rotate and are connected with the inner wall of the box body 1, the outer wall of the driving cleaning roller 4 can be abutted to the outer wall of the driven cleaning roller 5, the motors are fixed at the top of the box body 1, a rotating shaft of the driving cleaning roller 4 penetrates through the inner top wall of the box body 1 and is fixed with an output shaft of the cleaning motor 3, two meshed rotating gears 6 are respectively sleeved and arranged on the rotating shafts of the driving cleaning roller 4 and the driven cleaning roller 5, the driving cleaning motor 3 drives the driving cleaning roller 4 to rotate, the rotating gears 6 on the driving cleaning roller 4 drive the driven cleaning roller 5 to rotate through the rotating gears 6 on the rotating shaft of one end of the driving cleaning roller 4, a protective cover 23 is fixed at the top of the box body 1, and the protective cover 23 covers the cleaning motor 3, the gear set and the adjusting mechanism.

As shown in fig. 1-3, the knocking component comprises a main body 7 positioned between two active cleaning rollers 4, symmetrical rotating shafts 2 are fixed at the upper end and the lower end of the main body 7, a plurality of adjusting grooves 8 are formed in the side wall of the main body 7, adjusting blocks 9 are embedded in the inner walls of the adjusting grooves 8, adjusting rods 10 are fixed at one end of each adjusting block 9, knocking blocks 11 which are positioned outside the adjusting grooves 8 and can lean against the outer wall of the main body 7 are fixed at one end of each adjusting rod 10, arc-shaped parts 27 are arranged at the outer sides of the knocking blocks 11, blocking edges 12 are fixed at the inner walls of openings of the adjusting grooves 8, springs 13 are fixed between one side of each adjusting block 9 and the inner bottom wall of the adjusting groove 8, the main body 7 can drive the knocking blocks 11 to synchronously rotate when rotating, due to inertia, the adjusting blocks 11 can drive the adjusting blocks 9 to move outwards along the adjusting grooves 8 through the adjusting rods 10, the adjusting blocks 9 can stretch the springs 13 when the adjusting blocks 9 move outwards, the springs 13 are stretched and have certain potential energy to pull the elastic blocks 13 and pull the elastic blocks 9 to a dust collector body 26 to one side of the dust collector body 1, one side of the dust collector body 24 is fixed towards one side of the dust collector body 24, and the dust collector body 24 is fixed towards one side of the dust collector 1, and one side of the dust collector body 24 is fixed to the dust collector 1 is arranged at one side of the dust collector body 24.

As shown in fig. 1, the variable gear set includes a first driven gear 14, a second driven gear 15, and a third driven gear 16, the first driven gear 14, the second driven gear 15, and the third driven gear 16 are sequentially sleeved and fixed on an outer wall of a rotating shaft 2 penetrating through the case 1 from the upper end of the main body 7 from bottom to top at equal intervals, the adjusting mechanism includes a lifting cylinder 17 and an adjusting motor 18, the lifting cylinder 17 is fixed on the top of the case 1 and is located between the two cleaning motors 3, a mounting plate 19 is fixed on a telescopic rod of the lifting motor, the adjusting motor 18 is fixed on the mounting plate 19, a first driving gear 20 capable of being meshed with the first driven gear 14 is fixed on an output shaft of the adjusting motor 18, a second driving gear 21 capable of being meshed with the second driven gear 15 is fixed on the top of the first driving gear 20, a third driving gear 22 capable of being meshed with the third driven gear 16 is fixed on the top of the second driving gear 21, a radius of the first driven gear 14 is larger than the second driven gear 15 and smaller than the radius of the third driving gear 16, and the radius of the third driving gear 22 is larger than the radius of the third driving gear 20.

The operating principle of the utility model is as follows:

the driving sweeping motor 3 drives the driving sweeping roller 4 to rotate, the driving sweeping roller 4 drives the rotating gear 6 to rotate through the rotating shaft at one end of the driving sweeping roller 4, the rotating gear 6 on the driving sweeping roller 4 drives the driven sweeping roller 5 to rotate through the rotating gear 6 on the rotating shaft of the driven sweeping roller 5, the fabric sequentially passes through the space between the driving sweeping roller 4 and the driven sweeping roller 5 which are positioned at the front end and the rear end of the main body 7, the driving sweeping roller 4 and the driven sweeping roller 5 sweep and drag the fabric, the lifting cylinder 17 is started, the height of the adjusting motor 18 is adjusted according to actual requirements, the second driving gear 21 fixed on the output shaft of the adjusting motor 18 is meshed with the second driven gear 15, the adjusting motor 18 is started to drive the first driving gear 20 to rotate, the first driving gear 20 drives the second driving gear 21 to rotate, the second driving gear 21 drives the third driving gear 22 to rotate, the second driving gear 21 drives the rotating shaft 2 to rotate through the second driven gear 15, the rotating shaft 2 drives the main body 7 to rotate, the main body 7 can drive the block 11 to synchronously rotate when the main body 7 rotates, the knocking block 11 can drive the adjusting block 9 to move outwards through the adjusting block 10 along the adjusting groove 8, the adjusting block 9 according to actual requirements, the height of the adjusting rod 18 is adjusted block 9 is adjusted, the fabric is pulled outwards, the fabric is pulled out of the dust collector 13 is pulled by the elastic dust collector, the dust collector is stretched out of the dust collector 13, the dust collector is stretched out from the dust collector 13, and the dust collector is stretched into the dust collector is stretched out, and the dust collector is sucked into the dust collector, and is sucked into the dust collector to dust.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims

1. The utility model provides a cleaning device of negative oxygen ion surface fabric, includes box (1), open at the front and back both ends of box (1) has material mouth (28) that supplies the surface fabric to pass, a serial communication port, be provided with cleaning mechanism and knocking mechanism in the box, cleaning mechanism is used for cleaning the dust on surface fabric and pulls the surface fabric, knocking mechanism is used for beating the surface fabric and makes the dust on surface fabric fall down, knocking mechanism upper and lower both ends have axis of rotation (2), knocking mechanism passes through axis of rotation (2) rotation to be connected at box (1) inner wall, axis of rotation (2) of knocking mechanism upper end are fixed with variable gear set through box (1) top, box (1) top is fixed with can with variable gear set cooperation and can drive variable gear set pivoted adjustment mechanism.

2. The cleaning device for negative oxygen ion fabric according to claim 1, wherein the cleaning mechanism comprises two cleaning motors (3), two driving cleaning rollers (4) and two driven cleaning rollers (5), the two driving cleaning rollers (4) are symmetrically arranged and vertically rotate to be connected to the inner wall of the box body (1), the two driven cleaning rollers (5) are symmetrically arranged and rotate to be connected with the inner wall of the box body (1), the outer wall of the driving cleaning rollers (4) can be abutted to the outer wall of the driven cleaning rollers (5), the cleaning motors (3) are fixed at the top of the box body (1), a rotating shaft of the driving cleaning rollers (4) penetrates through the inner top wall of the box body (1) to be fixed with an output shaft of the cleaning motor (3), and two rotating gears (6) capable of being meshed with each other are respectively sleeved on the rotating shafts of the driving cleaning rollers (4) and the driven cleaning rollers (5).

3. The cleaning device for negative oxygen ion fabric according to claim 2, wherein the knocking mechanism comprises a main body (7) located between two active cleaning rollers (4), symmetrical rotating shafts (2) are fixed at the upper end and the lower end of the main body (7), a plurality of adjusting grooves (8) are formed in the side wall of the main body (7), adjusting blocks (9) are embedded in the inner wall of the adjusting grooves (8), adjusting rods (10) are fixed at one end of each adjusting block (9), knocking blocks (11) located outside the adjusting grooves (8) and capable of being abutted against the outer wall of the main body (7) are fixed at one end of each adjusting rod (10), blocking edges (12) are fixed on the inner wall of the opening of each adjusting groove (8), and springs (13) are fixed between one side of each adjusting block (9) and the inner bottom wall of each adjusting groove (8).

4. The cleaning device for the negative oxygen ion fabric according to claim 3, wherein the variable gear set comprises a first driven gear (14), a second driven gear (15) and a third driven gear (16), and the first driven gear (14), the second driven gear (15) and the third driven gear (16) are sleeved and fixed on the outer wall of a rotating shaft (2) penetrating through the box body (1) at the upper end of the main body (7) from bottom to top at equal intervals.

5. The cleaning device for negative oxygen ion fabric according to claim 4, wherein the adjusting mechanism comprises a lifting cylinder (17) and an adjusting motor (18), the lifting cylinder (17) is fixed at the top of the box body (1) and is positioned between the two cleaning motors (3), a mounting plate (19) is fixed on a telescopic rod of the lifting cylinder, the adjusting motor (18) is fixed on the mounting plate (19), a first driving gear (20) capable of being meshed with the first driven gear (14) is fixed on an output shaft of the adjusting motor (18), a second driving gear (21) capable of being meshed with the second driven gear (15) is fixed at the top of the first driving gear (20), and a third driving gear (22) capable of being meshed with the third driven gear (16) is fixed at the top of the second driving gear (21).

6. The negative oxygen ion fabric cleaning device according to claim 5, wherein the radius of the first driven gear (14) is larger than the radius of the second driven gear (15) and smaller than the radius of the third driven gear (16), and the radius of the first driving gear (20) is smaller than the radius of the second driving gear (21) and larger than the radius of the third driving gear (22).

7. The negative oxygen ion fabric cleaning device according to claim 6, wherein a protective cover (23) is fixed on the top of the box body (1), and the protective cover (23) covers the cleaning motor (3), the variable gear set and the adjusting mechanism.

8. The cleaning device for negative oxygen ion fabric according to claim 7, wherein a dust collector (24) is fixed on one side of the box body (1), one end of the dust collector (24) is connected with a dust collection pipe (26), and one end of the dust collection pipe (26) penetrates through the side wall of the box body (1) to be fixed with a dust collection cover (25).

9. The cleaning device for negative oxygen ion fabric according to claim 8, wherein the outer side of the knocking block (11) is provided with an arc-shaped part (27).