CN112981774B - Deodorization treatment device and treatment method for production of antibacterial fabric - Google Patents

Abstract

The invention relates to a deodorization treatment device and a treatment method for antibacterial fabric production, which comprise a winding machine, an unreeling machine, heating and atomizing equipment, a heat conducting cylinder and a deodorization barrel group arranged in the heat conducting cylinder; the heating atomization device is communicated with the deodorization rotary drum set and conveys the antibacterial deodorization steam after atomization and heating to the deodorization rotary drum set, and after the antibacterial deodorization steam acts on the fabric by the deodorization rotary drum set, the antibacterial deodorization steam heat is conducted to the heat conducting drum. According to the invention, the ultrasonic atomization heater is used for generating antibacterial deodorant steam, the antibacterial deodorant steam is conveyed into the deodorant rotary drum in the heat conduction cylinder, the fabric conveyed by winding the outer wall of the deodorant rotary drum is subjected to deodorant antibacterial treatment, the fabric is finally wound around the outer wall of the heat conduction cylinder, the steam heat is conducted onto the deodorant rotary drum and the heat conduction cylinder, and the fabric is ironed and dried respectively.

Description

Deodorization treatment device and treatment method for production of antibacterial fabric

Technical Field

The invention belongs to the technical field of antibacterial fabric processing devices, and particularly relates to a deodorization processing device and a deodorization processing method for antibacterial fabric production.

Background

The clothes are made of fabrics, as one of three elements of the clothes, the fabrics can explain the style of the clothes, the characteristics of the fabrics also determine the application range of the clothes, along with the reform of clothes fabric production equipment, an antibacterial deodorant clothes fabric with better performance appears on the market, an antibacterial deodorant treatment device is needed in the production and processing process of the antibacterial deodorant clothes fabric, the existing antibacterial deodorant treatment device generally adopts a method of atomizing and spraying an antibacterial deodorant on the fabrics, and the defects are as follows:

the fabric after being treated by the antibacterial and deodorant treatment device needs to be dried and subjected to wrinkle removal by adopting a drying device, so that the equipment cost is higher, the operation cost is high, the equipment floor area is large, the fabric is not suitable for being used in small-sized factories, and the long-term popularization of the device is not facilitated.

Disclosure of Invention

The invention aims to solve the problems and provide a deodorization treatment device and a treatment method for producing an antibacterial fabric, which have simple structure and small floor area.

The invention realizes the purpose through the following technical scheme:

a deodorization treatment device for producing antibacterial fabric comprises a winding machine, an unreeling machine, heating and atomizing equipment, a heat conducting cylinder and a deodorization rotary cylinder group arranged in the heat conducting cylinder;

the heating and atomizing equipment is communicated with the deodorization rotary drum set and conveys the antibacterial and deodorization steam after being atomized and heated to the deodorization rotary drum set, and after the antibacterial and deodorization steam acts on the fabric by the deodorization rotary drum set, the heat of the antibacterial and deodorization steam is conducted to the heat conducting drum;

the heat conduction cylinder is provided with a feeding hole and a discharging hole, one end of the fabric is connected with the unreeling machine, the other end of the fabric enters the heat conduction cylinder through the feeding hole, is subjected to deodorization heating treatment by the antibacterial and deodorization steam output by the deodorization rotary cylinder group, then is output through the discharging hole, and is connected with the winding machine for winding after being circularly dried along the outer wall of the heat conduction cylinder.

As a further optimization scheme of the invention, the feed inlet and the discharge outlet are arranged on one side wall of the top of the heat-conducting cylinder, and the feed inlet and the discharge outlet are distributed side by side up and down, so that the arrangement can ensure that the contact area of the output fabric and the heat-conducting cylinder is maximum, the waste heat recovery rate is high, and the drying effect is better.

As a further optimization scheme of the invention, the heat conduction cylinder comprises a cylinder body and a cover body, one end of the cylinder body is provided with a cylinder opening, the cover body is clamped at the cylinder opening, the feed inlet and the discharge outlet are arranged close to one end opening of the cylinder opening, and through the separable design of the cover body and the cylinder body and the arrangement of the openings of the feed inlet and the discharge outlet, the cover body can facilitate the fabric to enter and output the heat conduction cylinder and wind with the deodorization rotary cylinder after being taken down, and can also facilitate the cleaning of the inner wall of the heat conduction cylinder, the outer wall of the deodorization rotary cylinder and the like. The outer side wall of the barrel is provided with two baffles for limiting the fabric in an encircling mode, the two baffles are distributed side by side and are all arranged in a three-quarter annular shape, the feed inlet and the discharge outlet are arranged at the three-quarter annular opening of the baffles, the initial winding of the fabric is not influenced, and the fabric edge can be limited to ensure the fabric to be rolled regularly at the later stage.

As a further optimization scheme of the invention, the outer walls of the cylinder body corresponding to the feed inlet and the discharge outlet are respectively provided with a directional roller, and two ends of the directional rollers are connected with the outer wall of the cylinder body through bearings. The arrangement of the directional roller can prevent the fabric from being in frictional contact with the feed inlet and the discharge outlet, and the fabric is prevented from being damaged.

As a further optimization scheme of the invention, the deodorization rotary drum set comprises a plurality of deodorization rotary drums, exhaust ports arranged on the outer walls of the deodorization rotary drums, hollow rotary shafts and solid rotary shafts respectively arranged at two ends of each deodorization rotary drum, one end of each deodorization rotary drum is provided with an air inlet communicated with the hollow rotary shaft, one end of each hollow rotary shaft is connected with a ball bearing, the ball bearings are fixedly arranged on the inner wall of one end of each drum body far away from a drum opening, the fabric drives the deodorization rotary drums to rotate in the winding and unwinding processes, antibacterial deodorization steam is dynamically sprayed out from the exhaust ports to act on the fabric wound outside the deodorization rotary drums, and deodorization and antibacterial treatment is carried out on the fabric. The socket has been seted up on the lid that solid pivot corresponds, solid pivot and socket activity joint do not influence the rotation of deodorant rotary drum, do not influence the taking off of lid yet.

As a further optimization scheme of the invention, the heating and atomizing device comprises an ultrasonic atomizing heater, a pressure pump and a multi-way pipeline, wherein an input port of the ultrasonic atomizing heater is connected with an antibacterial deodorant storage tank through a pipeline and a pump body, the pressure pump is arranged at an output port of the ultrasonic atomizing heater and is connected with one pipeline of the multi-way pipeline, and the rest pipelines of the multi-way pipeline respectively penetrate through the barrel body and extend into ball bearings at one ends of the deodorizing rotary drums to be communicated with the hollow rotary shaft. .

As a further optimization scheme of the invention, the inner cavity of the deodorization rotary drum is in a circular truncated cone shape, and the circular truncated cone-shaped cavity design can facilitate the antibacterial and deodorant liquid formed in the inner cavity of the deodorization rotary drum to flow to one end with a wide caliber, and finally the antibacterial and deodorant liquid is discharged into the heat conduction drum from the exhaust port, so that the situation that the antibacterial and deodorant liquid excessively moistens the local part of the fabric and influences the subsequent uniform drying of the fabric can be avoided.

As a further optimized scheme of the invention, the bottom of one side wall of the cylinder body, which is far away from the cylinder opening, is connected with a drain pipe in a penetrating way. The arrangement of the drain pipe can lead out the antibacterial and deodorant liquid after heat exchange on the inner wall of the heat conduction cylinder to the outside, and the drain pipe can be connected with the antibacterial and deodorant storage tank through a pipeline to realize recovery;

a method for performing fabric deodorization treatment by using the deodorization treatment device for antibacterial fabric production comprises the following steps:

the method comprises the following steps that firstly, a cover body at one end of a cylinder body is opened, one end of untreated fabric wound on an unreeling machine is pulled into a heat conduction cylinder through a feeding hole and is pulled out to the outer side of the heat conduction cylinder from a discharging hole after a plurality of deodorization rotary cylinders are sequentially wound, the fabric is reversed by a directional rotary cylinder and then is attached to the outer wall of the heat conduction cylinder in a surrounding mode to be connected with a reeling machine, and the unreeling machine and the reeling machine are started to drive the fabric to run in a deodorization rotary cylinder group in the heat conduction cylinder;

step two, starting a pump body to convey the antibacterial deodorant in the antibacterial deodorant storage tank to heating atomization equipment for atomization heating, uniformly spraying the obtained antibacterial deodorant steam to the fabric wound on the outer wall of the deodorant rotary drum sequentially through a multi-channel pipeline, a hollow rotary shaft, an air inlet, an inner cavity of the deodorant rotary drum and an air outlet, ironing the fabric through the deodorant rotary drum, treating the fabric through the antibacterial deodorant steam, and outputting the fabric from a discharge port;

and step three, discharging the antibacterial and deodorant steam from the exhaust port, then radiating the antibacterial and deodorant steam into the inner cavity of the heat conduction cylinder, conducting heat to the outer wall of the heat conduction cylinder, outputting the antibacterial and deodorant steam from the discharge port, and winding the antibacterial and deodorant steam by a winding machine after the antibacterial and deodorant steam is heated and dried by the heat of the outer wall of the heat conduction cylinder and is transmitted around the outer wall of the heat conduction cylinder.

The invention has the beneficial effects that:

1) according to the invention, the ultrasonic atomization heater is used for generating antibacterial and deodorant steam, the antibacterial and deodorant steam is conveyed into the deodorant rotary drum in the heat-conducting cylinder, the fabric conveyed by winding the outer wall of the deodorant rotary drum is subjected to deodorant and antibacterial treatment, the fabric is finally wound around the outer wall of the heat-conducting cylinder, the heat of the steam is conducted to the deodorant rotary drum and the heat-conducting cylinder, and the fabric is ironed and dried respectively, so that the comprehensive and rapid deodorant and antibacterial treatment of the fabric can be realized, the heat can be fully utilized, and the energy-saving and environment-friendly effects are achieved;

2) the whole device has the advantages of simple structure, low cost, small equipment floor area, high waste heat utilization rate, energy conservation and environmental protection, and is suitable for small-sized factories;

3) according to the invention, the inner cavity of the deodorization rotary drum is in a circular truncated cone shape, and the bottom of one side wall of the drum body, which is far away from the drum opening, is connected with the drain pipe in a penetrating manner, so that the antibacterial and deodorant liquid after heat exchange can be led out and recovered, and the antibacterial and deodorant liquid can not be wasted.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional configuration of the present invention with three odor-resistant drums;

FIG. 2 is a schematic view of the overall cross-sectional configuration of the present invention with two anti-odor drums;

FIG. 3 is a front view of the cartridge and cover of the present invention shown separated;

FIG. 4 is a schematic cross-sectional view of the deodorizing rotating drum of the present invention;

in the figure: 1. a winding machine; 2. an unreeling machine; 3. heating the atomizing device; 31. an ultrasonic atomizing heater; 32. a pressure pump; 33. a multi-way pipe; 4. a heat conducting tube; 41. a barrel; 42. a cover body; 43. a baffle plate; 5. a deodorization drum set; 51. a deodorization rotary drum; 52. an exhaust port; 53. a hollow rotating shaft; 54. an air inlet; 55. a ball bearing; 56. a solid spindle; 6. a feed inlet; 7. a discharge port; 8. a directional drum; 9. a socket; 10. and a water discharge pipe.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1-4, a deodorization treatment device for producing antibacterial fabric comprises a winding machine 1, an unreeling machine 2, a heating and atomizing device 3, a heat conduction cylinder 4 and a deodorization cylinder group 5 arranged in the heat conduction cylinder 4;

the heating atomization device 3 is communicated with the deodorization rotary drum group 5 and conveys the antibacterial deodorization steam after atomization and heating to the deodorization rotary drum group 5, and after the antibacterial deodorization steam acts on the fabric by the deodorization rotary drum group 5, the heat of the antibacterial deodorization steam is conducted to the heat conducting drum 4;

the heat conduction cylinder 4 is provided with a feeding hole 6 and a discharging hole 7, one end of the fabric is connected with the unreeling machine 2, the other end of the fabric enters the heat conduction cylinder 4 through the feeding hole 6, is subjected to deodorization heating treatment by the antibacterial and deodorant steam output by the deodorant drum set 5 and then is output through the discharging hole 7, and is connected with the winding machine 1 for winding after being circularly dried along the outer wall of the heat conduction cylinder 4.

The feeding hole 6 and the discharging hole 7 are formed in one side wall of the top of the heat conducting cylinder 4, the feeding hole 6 and the discharging hole 7 are distributed side by side from top to bottom, the contact area between the output fabric and the heat conducting cylinder 4 is the largest due to the arrangement, the waste heat recovery rate is high, the drying effect is better, and in addition, the fabric enters and exits the heat conducting cylinder 4 and is located above one side of the heat conducting cylinder, so that less deodorant antibacterial agent liquid is condensed in the heat conducting cylinder 4 corresponding to the upper side of the output fabric, and the local wetting of the fabric can be reduced. The outer walls of the cylinder body 41 corresponding to the feed inlet 6 and the discharge outlet 7 are provided with directional rollers 8, and two ends of each directional roller 8 are connected with the outer wall of the cylinder body 41 through bearings. Through the arrangement of the directional roller 8, the fabric can be prevented from being in frictional contact with the feed inlet 6 and the discharge outlet 7, and the fabric is prevented from being damaged.

Heat conduction section of thick bamboo 4 includes barrel 41 and lid 42, barrel 41 one end sets up to the nozzle, lid 42 joint in nozzle, the one end opening setting that feed inlet 6 and discharge gate 7 are close to the nozzle, through the opening setting of lid 42 and barrel 41's separable design and feed inlet 6 and discharge gate 7, can make things convenient for the surface fabric to get into after the lid 42 takes off, export heat conduction section of thick bamboo 4 and with the winding of deodorant rotary drum 51, can also make things convenient for heat conduction section of thick bamboo 4 inner wall clearance and deodorant rotary drum 51 outer wall etc.. Two baffles 43 used for limiting the fabric are arranged on the outer side wall of the barrel 41 in an encircling mode, the two baffles 43 are distributed side by side and are all arranged in a three-quarter ring shape, the feed inlet 6 and the discharge outlet 7 are arranged at three-quarter ring-shaped openings of the baffles 43, and the baffles 43 can limit the edges of the fabric to ensure that the fabric is rolled up regularly at the later period.

The deodorization rotary drum set 5 comprises a plurality of deodorization rotary drums 51, exhaust ports 52 arranged on the outer walls of the deodorization rotary drums 51, hollow rotary shafts 53 and solid rotary shafts 56 which are respectively arranged at two ends of each deodorization rotary drum 51, one ends of the deodorization rotary drums 51 are provided with air inlets 54 communicated with the hollow rotary shafts 53, one ends of the hollow rotary shafts 53 are connected with ball bearings 55, and the ball bearings 55 are fixedly arranged on the inner wall of one end, far away from a drum opening, of the drum body 41.

The cover body 42 corresponding to the solid rotating shaft 56 is provided with a socket 9, and the solid rotating shaft 56 is movably clamped with the socket 9. The other end of the deodorization rotary drum 51 is clamped with the socket 9 on the cover body 42 through the solid rotary shaft 56, so that the rotation of the deodorization rotary drum 51 is not influenced, and the taking-off of the cover body 42 is not influenced.

The heating and atomizing device 3 comprises an ultrasonic atomizing heater 31, a pressure pump 32 and a multi-way pipeline 33, an input port of the ultrasonic atomizing heater 31 is connected with an antibacterial deodorant storage tank through a pipeline and a pump body, the pressure pump 32 is arranged at an output port of the ultrasonic atomizing heater 31 and is connected with one pipeline of the multi-way pipeline 33, and the rest pipelines of the multi-way pipeline 33 respectively penetrate through the cylinder body 41 and extend into a ball bearing 55 at one end of each of the plurality of deodorant rotary drums 51 to be communicated with the hollow rotary shaft 53.

The ultrasonic atomization heater 31 ultrasonically atomizes and heats the antibacterial deodorant into steam, the steam is pumped by the pressure pump 32 to the through pipeline 33 and finally sequentially passes through the ball bearing 55, the hollow rotating shaft 53 and the air inlet 54 to finally enter the deodorant rotary drum 51, the fabric drives the deodorant rotary drum 51 to rotate in the winding and unwinding processes, the antibacterial deodorant steam is dynamically sprayed out from the exhaust holes to act on the fabric wound outside the deodorant rotary drum 51, and the fabric is subjected to deodorization and antibacterial treatment.

The invention utilizes antibacterial and deodorant steam generated by an ultrasonic atomization heater 31 to be conveyed to a deodorant rotary drum 51, the antibacterial and deodorant steam is sprayed onto the fabric through the deodorant rotary drum 51, the deodorant rotary drum 51 is heated to iron and smooth the fabric wound and transmitted outside, and the antibacterial and deodorant steam can quickly penetrate the fabric to realize comprehensive and quick deodorant and antibacterial of the fabric, the antibacterial and deodorant steam penetrates the fabric to conduct heat to a heat conducting drum 4 again, the fabric is output through a discharge port 7 and then is attached to and conveyed around the outer wall of the heat conducting drum 4, the fabric is heated and dried by the outer wall of the heat conducting drum 4 in the process, and finally is wound by a winding machine 1, the whole process not only can realize comprehensive and quick deodorant and antibacterial treatment of the fabric, but also can fully utilize the heat, is energy-saving and environment-friendly, in addition, the whole device, namely the winding machine 1 and the unwinding machine 2 can be arranged on one side of the heat conducting drum 4, and the winding machine 1 and the unwinding machine 2 are distributed up and down side by side, the device can also be driven by a motor matched with a gear set, the whole device has simple structure, lower cost and small equipment floor area, is suitable for small-sized factories, has high waste heat utilization rate, and is energy-saving and environment-friendly;

in addition, the deodorization rotary drum group 5 can comprise a plurality of deodorization rotary drums 51, for example, three deodorization rotary drums 51, as shown in fig. 1, the three deodorization rotary drums 51 are distributed in a triangular shape, the fabric sequentially bypasses the three deodorization rotary drums 51, and the front and back surfaces of the fabric can be in contact with the outer walls of the deodorization rotary drums 51, so that the two surfaces of the fabric can be directly acted by steam in the fabric conveying process, the treatment effect is better, the treatment speed is higher, and the fabric ironing area and time are increased;

the deodorization rotary drum group 5 can comprise two deodorization rotary drums 51, as shown in fig. 1, the two deodorization rotary drums 51 are distributed side by side in the figure, fabric sequentially bypasses the two deodorization rotary drums 51, the front and back surfaces of the fabric can be in contact with the outer walls of the deodorization rotary drums 51, and the two surfaces of the fabric can be directly acted by steam;

the number of the deodorization rotary drums 51 can be set according to the thickness and the type of the fabric, the fabric is thick or the fabric with high density can be set to the number of the deodorization rotary drums 51 more, the fabric is thin or the fabric with low density can be set to the number of the deodorization rotary drums 51 less, and the deodorization rotary drums 51 can be set according to the characteristics of the fabric.

Because utilize antibiotic deodorant steam to act on the surface fabric, consequently can produce the condensate through heat transfer etc. in steam transportation process, in order to discharge, retrieve the condensate, we set up:

deodorant rotary drum 51 inner chamber sets up to the round platform form, the cavity design of round platform form can conveniently be at the antibiotic deodorant liquid stream that deodorant rotary drum 51 inner chamber formed to wide bore one end, discharge to heat-conducting tube 4 in from gas vent 52 at last, the gas vent 52 bore that is located deodorant rotary drum 51 inner chamber wide bore one end is great, make things convenient for antibiotic deodorant liquid to discharge, less gas vent 52 is used for the antibiotic deodorant steam of blowout, avoid antibiotic deodorant liquid to discharge, just so can avoid antibiotic deodorant liquid to pass through the surface fabric local moist, influence the subsequent even drying of surface fabric.

The bottom of one side wall of the cylinder 41 far away from the cylinder opening is connected with a drain pipe 10 in a penetrating way. The arrangement of the drain pipe 10 can lead out the antibacterial and deodorant liquid after heat exchange on the inner wall of the heat conduction tube 4 to the outside, and the antibacterial and deodorant liquid can be connected with an antibacterial and deodorant storage tank through a pipeline to realize recovery;

a method for performing fabric deodorization treatment by using the deodorization treatment device for antibacterial fabric production comprises the following steps:

step one, opening a cover body 42 at one end of a cylinder body 41, pulling one end of untreated fabric wound on an unreeling machine 2 into a heat conduction cylinder 4 through a feed inlet 6, sequentially winding a plurality of deodorization rotary cylinders 51, then pulling out the fabric from a discharge outlet 7 to the outer side of the heat conduction cylinder 4, reversing the fabric through a directional roller 8, then connecting the fabric with a reeling machine 1 by encircling the outer wall of the heat conduction cylinder 4, starting the unreeling machine 2 and the reeling machine 1, and driving the fabric to run in a deodorization rotary cylinder group 5 in the heat conduction cylinder 4;

step two, starting a pump body to convey the antibacterial deodorant in the antibacterial deodorant storage tank to a heating and atomizing device 3 for atomizing and heating, uniformly spraying the obtained antibacterial deodorant steam onto the fabric wound on the outer wall of the deodorant rotary drum 51 through the multi-channel pipeline 33, the hollow rotary shaft 53, the air inlet 54, the inner cavity of the deodorant rotary drum 51 and the air outlet 52 in sequence, ironing the fabric through the deodorant rotary drum 51, treating the fabric through the antibacterial deodorant steam and then outputting the fabric from the discharge port 7; the temperature of the heating of the antibacterial and deodorant agent by the ultrasonic atomization heater 31 is adjusted according to the types of the fabrics, and the temperature resistance degrees of different fabrics are different, for example, the treatment temperature of pure polyester fabrics is generally about 130 ℃; the treatment temperature of the polyester fabric is about 130 ℃; the nylon fabric treatment temperature is about 100 ℃; the treatment temperature of the polyester cotton or polyester viscose blended fabric is about 150 ℃, and the like;

and step three, discharging the antibacterial and deodorant steam from the exhaust port 52, then radiating the antibacterial and deodorant steam into the inner cavity of the heat conduction cylinder 4, conducting heat to the outer wall of the heat conduction cylinder 4, outputting the antibacterial and deodorant steam from the discharge port 7, heating and drying the fabric which is attached to the outer wall of the heat conduction cylinder 4 in a surrounding manner by the heat of the outer wall of the heat conduction cylinder 4, and then winding the fabric by the winding machine 1.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (8)

1. The utility model provides an antibiotic surface fabric production is with deodorant processing apparatus which characterized in that: comprises a winding machine (1), an unreeling machine (2), heating and atomizing equipment (3), a heat conducting cylinder (4) and a deodorization rotary cylinder group (5) arranged in the heat conducting cylinder (4);

the heating atomization device (3) is communicated with the deodorization rotary drum set (5) and conveys the antibacterial deodorization steam after atomization and heating to the deodorization rotary drum set (5), and after the antibacterial deodorization steam acts on the fabric by the deodorization rotary drum set (5), the heat of the antibacterial deodorization steam is conducted to the heat conducting drum (4);

a feeding hole (6) and a discharging hole (7) are formed in the heat conducting cylinder (4), one end of the fabric is connected with the unreeling machine (2), the other end of the fabric enters the heat conducting cylinder (4) through the feeding hole (6) and is subjected to deodorization heating treatment by antibacterial and deodorization steam output by the deodorization rotary cylinder group (5), then the fabric is output through the discharging hole (7), and the fabric is wound and wound by the winding machine (1) after being circularly dried along the outer wall of the heat conducting cylinder (4);

heat conduction section of thick bamboo (4) include barrel (41) and lid (42), barrel (41) one end sets up to the nozzle, lid (42) joint in nozzle department, feed inlet (6) and discharge gate (7) are close to the one end opening setting of nozzle, surround on barrel (41) lateral wall and be provided with two baffle (43) that are used for spacing surface fabric, two baffle (43) distribute side by side and all set up to three ring shape of quartering, feed inlet (6) and discharge gate (7) set up in three ring shape openings of quartering of baffle (43).

2. The deodorization processing device for the production of the antibacterial fabric according to claim 1, characterized in that: the feeding hole (6) and the discharging hole (7) are formed in one side wall of the top of the heat conducting cylinder (4), and the feeding hole (6) and the discharging hole (7) are distributed side by side from top to bottom.

3. The deodorization processing device for the production of the antibacterial fabric according to claim 1, characterized in that: the outer wall of the barrel body (41) corresponding to the feed inlet (6) and the discharge outlet (7) is provided with a directional roller (8), and two ends of the directional roller (8) are connected with the outer wall of the barrel body (41) through bearings.

4. The deodorization processing device for the production of antibacterial fabric according to claim 1, characterized in that: deodorant rotary drum group (5) include a plurality of deodorant rotary drums (51), set up in gas vent (52) of deodorant rotary drum (51) outer wall, set up respectively in hollow pivot (53) and solid pivot (56) at every deodorant rotary drum (51) both ends, air inlet (54) that are linked together with hollow pivot (53) are seted up to deodorant rotary drum (51) one end, ball bearing (55) are connected to hollow pivot (53) one end, and ball bearing (55) fixed mounting is kept away from on the one end inner wall of nozzle in barrel (41), socket (9) have been seted up on lid (42) that solid pivot (56) correspond, solid pivot (56) and socket (9) activity joint.

5. The deodorization processing device for the production of the antibacterial fabric according to claim 4, characterized in that: heating atomizing equipment (3) include ultrasonic atomization heater (31), force pump (32) and multichannel pipeline (33), the input port of ultrasonic atomization heater (31) passes through pipeline and pump body coupling antibiotic deodorant storage tank, ultrasonic atomization heater (31) delivery port department sets up force pump (32) and connects a pipeline of leading to pipeline (33) more, the remaining pipeline of leading to pipeline (33) more runs through barrel (41) respectively and extends to in ball bearing (55) of a plurality of deodorant rotary drums (51) one end, with hollow rotating shaft (53) intercommunication.

6. The deodorization processing device for the production of the antibacterial fabric according to claim 4, characterized in that: the inner cavity of the deodorization rotary drum (51) is in a circular truncated cone shape.

7. The deodorization processing device for the production of the antibacterial fabric according to claim 1, characterized in that: the bottom of one side wall of the cylinder body (41) far away from the cylinder opening is connected with a drain pipe (10) in a penetrating way.

8. A fabric deodorization method by using the deodorization device for antibacterial fabric production as claimed in any one of claims 1-7, which is characterized by comprising the following steps:

the method comprises the following steps that firstly, a cover body (42) at one end of a cylinder body (41) is opened, one end of untreated fabric wound on an unreeling machine (2) penetrates through a feeding hole (6) to be drawn into a heat conduction cylinder (4) and is drawn out from a discharging hole (7) to the outer side of the heat conduction cylinder (4) after being sequentially wound with a plurality of deodorization rotary drums (51), the fabric is reversed by a directional rotary drum (8) and then is attached to the outer wall of the heat conduction cylinder (4) in a surrounding mode to be connected with a reeling machine (1), and the unreeling machine (2) and the reeling machine (1) are started to drive the fabric to run in a deodorization rotary drum set (5) in the heat conduction cylinder (4);

step two, starting a pump body to convey the antibacterial deodorant in the antibacterial deodorant storage tank to heating atomization equipment (3) for atomization heating, uniformly spraying the obtained antibacterial deodorant steam onto the fabric wound on the outer wall of the deodorant rotary drum (51) through a multi-channel pipeline (33), a hollow rotary shaft (53), an air inlet (54), an inner cavity of the deodorant rotary drum (51) and an air outlet (52) in sequence, ironing the fabric through the deodorant rotary drum (51), treating the fabric through the antibacterial deodorant steam and then outputting the fabric from a discharge outlet (7);

and step three, discharging the antibacterial and deodorant steam from the exhaust port (52), then radiating the antibacterial and deodorant steam into the inner cavity of the heat conduction cylinder (4), conducting heat to the outer wall of the heat conduction cylinder (4), outputting the antibacterial and deodorant steam from the discharge port (7), and heating and drying the fabric which is attached to the outer wall of the heat conduction cylinder (4) in a surrounding manner by using the heat of the outer wall of the heat conduction cylinder (4), and then winding the fabric by using the winding machine (1).

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