CN219137132U - Cloth feeding device for neutralization washing machine - Google Patents

Abstract

The utility model provides a cloth feeding device for a neutralization washing machine, which comprises a first cavity, a second cavity, a mounting plate, a transmission assembly, a cleaning assembly and a cleaning assembly, wherein the first cavity is arranged above the inside of a shell, the second cavity is arranged below the inside of the shell, the top end of the first cavity is provided with the mounting plate, the surface of the mounting plate is provided with the transmission assembly, the cleaning assembly is arranged inside the first cavity, the cleaning assembly is used for blowing away impurities such as dust attached to the surface of knitted cloth, and then cleaning and sterilizing the surface of the knitted cloth are finished, so that the phenomenon that cross infection caused by doping of various bacteria or viruses by the stacked knitted cloth in the second cavity can be avoided.

Description

Cloth feeding device for neutralization washing machine

Technical Field

The utility model relates to the technical field of knitted fabric printing and dyeing equipment, in particular to a cloth feeding device for a neutralization washing machine.

Background

The knitted fabric can be subjected to processing procedures such as washing, singeing, mercerizing, shaping and the like to improve the performance of the fabric, wherein the knitted fabric is fed by a cloth feeding hopper before washing and mercerizing, firstly the knitted fabric falls into the cloth feeding hopper from one side and is stacked in the cloth feeding hopper, then the knitted fabric stacked in the cloth feeding hopper outputs and feeds the knitted fabric from the other side of the cloth feeding hopper, in the prior art, the knitted fabric can be scraped with the cloth feeding hopper when falling into the cloth feeding hopper, so that impurities such as thread ends and dust adhered to the knitted fabric fall into the cloth feeding hopper, the interior of the cloth feeding hopper is polluted by the accumulation of the impurities for a long time, and the next batch of knitted fabric entering the cloth feeding hopper is doped with various bacteria or viruses, so that the knitted fabric is cross-infected.

For example, chinese patent application No. CN 202122257981.6 discloses a knitted fabric feeding hopper, which is formed by mutually matching a base, a conveying roller, a supporting rod, a first supporting slat, a second supporting slat and an arc-shaped material plate, so that when the knitted fabric falls down from the conveying roller, the first supporting slat of the outer arc portion and the second supporting slat of the inner arc portion cooperate with a limiting knitted fabric, although impurities such as thread ends and dust on the knitted fabric fall down from the gap of the first supporting slat, the impurities are prevented from accumulating in the hopper to pollute the hopper, but the surface of the knitted fabric in the hopper is still doped with various bacteria or viruses and dust with smaller particles.

In order to overcome the technical problems, the utility model designs and develops a cloth feeding device for a neutralization washing machine, and solves the technical problems.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the cloth feeding device for the neutralization washing machine can firstly remove impurities such as thread ends and dust adhered to knitted cloth, and then clean and disinfect the surface of the knitted cloth, so that the occurrence of cross contamination of a cloth feeding hopper and the knitted cloth caused by long-time accumulation of the impurities is effectively avoided.

The utility model is realized in the following way: the cloth feeding device for the neutralization washing machine comprises a shell, wherein a first cavity for providing a space for cleaning knitted cloth and a second cavity for placing the cleaned knitted cloth are arranged in the shell, and a mounting plate extending to one side is mounted at the top of the first cavity;

the surface of the mounting plate is provided with a transmission component for conveying the knitted fabric into the first chamber;

the first cavity internally provided with a cleaning component for cleaning and disinfecting the knitted fabric.

Preferably, the transmission assembly includes: the device comprises a first dirt cleaning roller, a first servo motor and a second dirt cleaning roller; the first cleaning roller, the second cleaning roller and the first servo motor are all installed on the mounting plate, the first cleaning roller is located on the upper surface of the mounting plate, and the second cleaning roller is located on the lower surface of the extending part of the mounting plate; the first servo motor drives the first cleaning roller; the first through hole is positioned between the first cleaning roller and the second cleaning roller; the second through hole is communicated with the first chamber.

Preferably, the cleaning assembly comprises: the device comprises a first steel roller, a second steel roller, two box bodies, a first spray head, a second spray head and a second servo motor; at least two first steel rollers and at least two second steel rollers are rotatably arranged in the first cavity, and the second steel rollers are positioned below the first steel rollers; the box body is at least provided with two on the inner wall of a first cavity between the first steel roller and the second steel roller, a partition board is arranged in the box body, and the first spray head and the second spray head are arranged on one side, far away from the inner wall of the first cavity, of the box body; the first cavity inner wall in the box body is provided with an air inlet and a water inlet, the first spray head and the air inlet are positioned above the partition board, and the second spray head and the water inlet are positioned below the partition board.

Preferably, at least three sliding grooves are formed in the first cavity and located below the second steel roller, a reagent plate is connected in the sliding grooves in a sliding mode, a conical opening is formed in the surface of the reagent plate, and bacteria test paper is adhered to the inner surface of the conical opening.

Preferably, a third through hole is formed in one end, close to the first chamber, of the surface of the second chamber; the other end is provided with a fourth through hole; and at least six third steel rollers are arranged in the second chamber, and a plurality of ultraviolet disinfection lamps arranged on the inner wall of the second chamber are arranged on two sides of each third steel roller.

Preferably, the second servo motor (39) is installed in plurality outside the first chamber (11), and drives the first steel roller (31), the second steel roller (32), and the third steel roller (53), respectively.

The beneficial effects brought by the utility model are as follows:

firstly, the cleaning component firstly completes blowing away of dust and other impurities attached to the surface of the knitted fabric, and then completes cleaning and disinfection of the surface of the knitted fabric, so that cross infection caused by doping of various bacteria or viruses in the knitted fabric stacked in the second chamber can be avoided.

Secondly, the utility model is convenient for staff to judge the cleaning and disinfecting effect of the knitted fabric surface by the color change degree of the bacterial test paper, and the operation is simple.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a side view of the present utility model;

FIG. 4 is a top view of a reagent plate of the present utility model;

FIG. 5 is a schematic illustration of the present utility model with knitted fabric transport;

in the figure: the cleaning machine comprises a shell 1, a first chamber 11, a second chamber 12, a mounting plate 13, a first cleaning roller 21, a first servo motor 22, a second cleaning roller 23, a first through hole 24, a second through hole 25, a first steel roller 31, a second steel roller 32, a box 33, a partition 34, a first spray head 35, a second spray head 36, an air inlet 37, a water inlet 38, a second servo motor 39, a chute 41, a reagent plate 42, a conical opening 43, a third through hole 51, a fourth through hole 52, a third steel roller 53 and an ultraviolet disinfection lamp 54.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The following examples are only for more clearly illustrating the technical aspects of the present utility model, and are not intended to limit the scope of the present utility model.

1-4, the device comprises a first chamber 11 for providing a space for cleaning knitted fabrics and a second chamber 12 for placing the cleaned knitted fabrics, wherein a mounting plate 13 extending to one side is fixedly arranged at the top of the first chamber 11; the surface of the mounting plate 13 is provided with a transmission assembly for conveying the knitted fabric into the first chamber 11; the first chamber 11 is internally provided with a cleaning assembly for cleaning and sterilizing the knitted fabric.

The transmission assembly includes: a first cleaning roller 21, a first servo motor 22, and a second cleaning roller 23; the mounting plate 13 is provided with a first through hole 24 and a second through hole 25; the first trash cleaning roller 21 is rotatably arranged on the upper surface of the mounting plate 13, the second trash cleaning roller 23 is rotatably arranged on the lower surface of the mounting plate 13, and the first servo motor 22 is fixedly arranged on the upper surface of the mounting plate 13; the first servomotor 22 drives the first cleaning roller 21; the first through hole 24 is located between the first cleaning roller 21 and the second cleaning roller 23; the second through hole 25 communicates with the first chamber 11.

The cleaning assembly includes: a first steel roller 31, a second steel roller 32, two box bodies 33, a first spray head 35, a second spray head 36 and a second servo motor 39; at least two first steel rollers 31 and at least two second steel rollers 32 are rotatably installed in the first chamber 11, and the second steel rollers 32 are positioned below the first steel rollers 31; the box body 33 is at least provided with two on the inner wall of the first cavity 11 between the first steel roller 31 and the second steel roller 32, a partition plate 34 is fixedly arranged in the box body 33, and a first spray head 35 and a second spray head 36 are fixedly arranged on one side of the box body 33 far away from the inner wall of the first cavity 11; an air inlet 37 and an air inlet 38 are formed in the inner wall of the first cavity 11 in the box body 33, the first spray head 35 and the air inlet 37 are located above the partition 34, and the second spray head 36 and the air inlet 38 are located below the partition 34.

At least three sliding grooves 41 are formed in the first chamber 11 and located below the second steel roller 32, a reagent plate 42 is slidably connected in the sliding grooves 41, a conical opening 43 is formed in the surface of the reagent plate 42, and bacterial test paper is adhered to the inner surface of the conical opening 43.

A third through hole 51 is formed in the surface of the second chamber 12 at one end, close to the first chamber 11; the other end is provided with a fourth through hole 52; at least six third steel rollers 53 are rotatably installed in the second chamber 12, and a plurality of ultraviolet disinfection lamps 54 fixedly installed on the inner wall of the second chamber 12 are arranged on two sides of the third steel rollers 53.

The second servo motor 39 is fixedly installed in plurality outside the first chamber 11, and drives the first steel roller 31, the second steel roller 32, and the third steel roller 53, respectively.

As shown in fig. 5, before the knitted fabric is cleaned and disinfected, the operator sequentially bypasses the free end of the knitted fabric, passes through the first through hole 24, bypasses the surface of the first cleaning roller 21 and passes through the second through hole 25, and therefore the knitted fabric can be continuously conveyed into the first chamber 11; the existing air pipe is connected with the air inlet 37, and the existing water pipe is connected with the water inlet 38, so that high-pressure gas can be continuously infused above the partition 34 in the box body 33, and high-temperature steam can be continuously infused below the partition 34. It is also possible to infuse sterilizing fluid through the water line below the partition 34.

When the knitted fabric is cleaned and disinfected, the first servo motor 22 is started, so that the rotating shaft of the first servo motor 22 drives the first trash cleaning roller 21 to rotate, and the rotating first trash cleaning roller 21 continuously conveys the knitted fabric into the first chamber 11; the knitted fabric entering the inside of the first chamber 11 will fall between the two first steel rolls 31; at this time, the plurality of second servo motors 39 are started, so that the rotating shafts of the plurality of second servo motors 39 respectively drive the two first steel rollers 31 and the two second steel rollers 32 to rotate towards the vertical center line direction of the first chamber 11, and the rotating two first steel rollers 31 will downwards convey the knitted fabric with the surfaces in contact; the knitted fabric entering the lower part of the first steel roller 31 falls between the two box bodies 33, and at this time, high-pressure gas above the inside of the box bodies 33 is sprayed out of the inside of the box bodies 33 to the surface of the knitted fabric through the first spray heads 35, so that impurities such as dust attached to the surface of the knitted fabric are blown away.

Then, the blown knitted fabric falls below the box body 33 by utilizing the continuous downward conveying of the first steel roller 31 and the weight of the knitted fabric; when the knitted fabric is located below the box body 33, high-temperature steam below the inner part of the box body 33 is sprayed to the surface of the knitted fabric from the inner part of the box body 33 through the second spray nozzle 36, so that the cleaning and disinfection of the surface of the knitted fabric are completed.

The knitted cloth after cleaning and disinfection will drop between the two second steel rollers 32, and the two rotating second steel rollers 32 will convey the knitted cloth with the surface in contact downwards, so that the knitted cloth is conveyed to the inside of the conical opening 43 formed in the surface of the reagent plate 42, the knitted cloth in the conical opening 43 will be in contact with the bacterial test paper adhered to the inner surface of the conical opening 43, and if bacteria still exist in the knitted cloth, the bacterial test paper will be discolored.

The tested knitted fabric falls into the second chamber 12 through the third through holes 51 due to self gravity, the knitted fabric entering the second chamber 12 falls onto the surface of the third steel roller 53, and the knitted fabric is conveyed through the plurality of third steel rollers 53 and is output from the fourth through holes 52, so that the knitted fabric can finish the working procedure of the next link.

In addition, the plurality of ultraviolet disinfection lamps 54 fixedly installed on the inner wall of the second chamber 12 are arranged on two sides of the third steel roller 53, so that the knitted fabric in the second chamber 12 can be further disinfected, and the cleaning and disinfecting effects on the surface of the knitted fabric can be improved.

After the whole knitted fabric is cleaned and disinfected, a worker pulls out the reagent plate 42 from the inside of the chute 41 to observe the color change degree of the bacterial test paper; so as to judge the cleaning and disinfecting effect of the surface of the knitted fabric; after the observation is completed, a new bacterial test paper is stuck to the inner surface of the tapered mouth 43 so as to facilitate the test of the next knitted fabric batch.

In summary, compared with the cloth feeding hopper in the prior art, the cleaning assembly firstly completes blowing away of dust and other impurities attached to the surface of the knitted cloth, and then completes cleaning and disinfection of the surface of the knitted cloth, so that the phenomenon of cross infection caused by doping various bacteria or viruses with the knitted cloth stacked in the second chamber 12 can be avoided.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present utility model, and such modifications and variations should also be regarded as being within the scope of the utility model.

Claims (5)

1. The utility model provides a neutralization rinsing machine is with advancing cloth device which characterized in that: the device comprises a shell (1), wherein a first chamber (11) for providing a space for cleaning knitted fabrics and a second chamber (12) for placing the cleaned knitted fabrics are arranged in the shell (1), and a mounting plate (13) extending to one side is arranged at the top of the first chamber (11);

the surface of the mounting plate (13) is provided with a transmission component for conveying the knitted fabric into the first chamber (11);

a cleaning component for cleaning and disinfecting the knitted fabric is arranged in the first chamber (11);

the cleaning assembly includes: the device comprises a first steel roller (31), a second steel roller (32), two box bodies (33), a first spray head (35), a second spray head (36) and a second servo motor (39); at least two first steel rollers (31) and at least two second steel rollers (32) are rotatably arranged in the first chamber (11), and the second steel rollers (32) are positioned below the first steel rollers (31); the box body (33) is at least provided with two on the inner wall of the first chamber (11) between the first steel roller (31) and the second steel roller (32), a partition plate (34) is arranged in the box body (33), and the first spray head (35) and the second spray head (36) are arranged on one side, far away from the inner wall of the first chamber (11), of the box body (33); an air inlet (37) and a water inlet (38) are formed in the inner wall of the first chamber (11) in the box body (33), the first spray head (35) and the air inlet (37) are located above the partition plate (34), and the second spray head (36) and the water inlet (38) are located below the partition plate (34).

2. The cloth feeding device for a neutralization washing machine according to claim 1, wherein: the transmission assembly includes: a first cleaning roller (21), a first servo motor (22) and a second cleaning roller (23); the mounting plate (13) is provided with a first through hole (24) and a second through hole (25), the first cleaning roller (21), the second cleaning roller (23) and the first servo motor (22) are all arranged on the mounting plate (13), the first cleaning roller (21) is positioned on the upper surface of the mounting plate (13), and the second cleaning roller (23) is positioned on the lower surface of the extending part of the mounting plate (13); the first servo motor (22) drives the first cleaning roller (21); the first through hole (24) is positioned between the first cleaning roller (21) and the second cleaning roller (23); the second through hole (25) is communicated with the first chamber (11).

3. The cloth feeding device for a neutralization washing machine according to claim 1, wherein: at least three sliding grooves (41) are formed in the first cavity (11) and located below the second steel roller (32), a reagent plate (42) is connected inside the sliding grooves (41) in a sliding mode, a conical opening (43) is formed in the surface of the reagent plate (42), and bacterial test paper is adhered to the inner surface of the conical opening (43).

4. The cloth feeding device for a neutralization washing machine according to claim 1, wherein: a third through hole (51) is formed in one end, close to the first chamber (11), of the surface of the second chamber (12); the other end is provided with a fourth through hole (52); at least six third steel rollers (53) are arranged in the second chamber (12), and a plurality of ultraviolet disinfection lamps (54) arranged on the inner wall of the second chamber (12) are arranged on two sides of each third steel roller (53).

5. The cloth feeding device for a neutralization washing machine according to claim 1, wherein: the second servo motor (39) is installed in plurality outside the first chamber (11) and drives the first steel roller (31), the second steel roller (32) and the third steel roller (53) respectively.

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