CN115538081A - Automatic cleaning equipment for textile fabrics - Google Patents

Abstract

The invention belongs to the technical field of textile processing equipment, and particularly relates to automatic textile cleaning equipment which comprises a cutting device, a trimming and sterilizing device and a winding device, wherein the top of the trimming and sterilizing device is sequentially provided with a trimming device, a second roll shaft, an irradiation and sterilizing device and a third roll shaft, the trimming device comprises bandage leveling roll shafts, side cutting assemblies and connecting shafts, the bandage leveling roll shafts, the side cutting assemblies and the connecting shafts are in one group, at least two groups of bandage leveling roll shafts, side cutting assemblies and connecting shafts which are parallel to each other are arranged on one trimming device, the side cutting assemblies which are adjacently arranged between the two groups are fixedly connected through outer connecting rods, and at least one group of winding shafts are rotatably arranged on one side of the top of the winding device. The invention can clean the bare thread end of the bandage after cutting in the production process and clean the residual bacteria on the bandage.

Description

Automatic cleaning equipment for textile fabrics

Technical Field

The invention belongs to the technical field of textile processing equipment, and particularly relates to automatic textile cleaning equipment.

Background

The textile fabric is a textile product formed by textile processing, and the raw materials can comprise yarns, woven fabrics, knitted fabrics, textile fabrics and the like;

the fabric is made into cloth, wherein the bandage can be made of gauze, cotton cloth and the like, the bandage is widely applied in the medical field, the bandage is mainly a gauze belt for bandaging wounds or affected parts, and different bandaging methods are required to be selected for different types of wounded parts.

The problems existing in the prior art are as follows:

the bandage is wrapping the in-process to the wound, need disinfect to the affected part, and in addition, the cleanliness of bandage also needs to be noted, and in bandage production process, its side cut can appear naked end of a thread, influences packing and subsequent production and use, if appear naked end of a thread and disinfect the disinfection thoroughly, can shine into the tightness of wrapping that influences the affected part in wrapping the in-process to can be infecting the affected part, more can be because the exposed end of a thread makes the bandage after wrapping loose.

Disclosure of Invention

The invention aims to provide automatic textile fabric cleaning equipment which can clean bare thread ends of bandages after the bandages are cut in the production and processing processes and clean residual bacteria on the bandages.

The technical scheme adopted by the invention is as follows:

an automatic cleaning equipment of fabric, includes the feed end.

And (4) a cutting device.

The top of the trimming and sterilizing device is sequentially provided with a trimming device, a second roll shaft, an irradiation sterilizing device and a third roll shaft.

Wherein, the side cut device includes bandage flattening roller, side cut subassembly and connecting axle, and bandage flattening roller, side cut subassembly and connecting axle are a set of, and one be equipped with two sets of being parallel to each other at least on the side cut device bandage flattening roller, side cut subassembly and connecting axle, and the side cut subassembly of adjacent setting between two sets of is through the outer connecting rod fixed connection who sets up.

Bandage flattening roller includes both ends fixed connection's drive ring, the drive ring outside meshing transmission is connected with outer go-between, just the outer go-between outside has been cup jointed and has elastic blade, both sides elastic blade extends towards the bandage flattening roller at middle part, elastic blade rotates to be installed and to incline and cut inside the subassembly, just the subassembly inboard is cut to the side and rotates and install the extrusion wheel, extrusion wheel extrusion elastic blade makes towards the outside of bandage flattening roller one side elastic blade side is tangent with bandage flattening roller tip.

One end of the bandage leveling roller shaft, the side cutting assembly and the connecting shaft is communicated with an air pipe, the air pipe extends to an air pump, the air inlet end of the air pump is connected with the air pipe, and the air outlet end of the air pump is connected with the collecting box.

And the winding device is positioned on one side of the top of the winding device and is rotatably provided with at least one group of winding shafts.

The irradiation sterilization device is characterized in that a plurality of retaining curtains are arranged at two ends of the irradiation sterilization device, and irradiation sterilization equipment is arranged at the top inside the irradiation sterilization device.

The utility model discloses a cutting device, including cutting device, feed end, cutting device, roller axle two, cutting device, the feed end top is equipped with at least a set of bandage fabric semi-manufactured goods, the cutting device top is equipped with a set of tangent roller one and cuts roller two, it all is equipped with a plurality of hobbing cutters to cut two outsides of roller, is located it is equipped with roller one and roller two to cut two one side of roller, still be equipped with on the cutting device and be used for providing the motor one of power for cutting roller one.

The winding device is at least provided with a group of winding shafts and is also provided with a control cabinet.

The semi-finished product of bandage fabric outside passes in proper order through stretching out fabric tip and cuts between roller one and the roller two, and will through the hobbing cutter the fabric cutting is the multiunit to pass roller one, roller two, side cut device, the two outsides of roller in proper order, and pass the inside sterilization that is used for of irradiation sterilization device, the fabric is carried to the rolling axle rolling by the three outsides of roller.

The side cut device is equipped with the end of bleeding that is used for communicateing bandage flattening roller, side cut subassembly and connecting axle inside through one of them one end to peg graft with trachea tip clearance, the locating plate fixed mounting that trachea tip set up through the side cut device outside.

The squeezing wheel is arranged at the position, which is outside the bandage leveling roller shaft and tangent to the textile fabrics.

The driving ring positioned in the middle is fixedly connected with the end part of the connecting shaft at one side deviating from the bandage leveling roller shaft, and the driving ring positioned at the end part is fixedly connected with the air exhaust end.

The bandage leveling roller shaft is fixedly connected with the inner side of the driving ring through at least three inner connecting rods in an annular array, the end parts of the two ends of each inner connecting rod form a circular angle ring with the bandage leveling roller shaft and the inner side of the driving ring respectively, and the outer side of each circular angle ring is arc-shaped.

The position of the inboard adaptation extrusion wheel of side cut subassembly is equipped with the installation department, the installation department is inside to be used for rotating the installation extrusion wheel.

The outer side of the outer connecting ring is fixedly connected with the inner side of the elastic blade, and inner teeth are arranged on the inner side of the outer connecting ring and are used for being in meshed connection with outer teeth arranged on the outer side of the driving ring.

The invention has the technical effects that:

according to the invention, the irradiation sterilization equipment causes unrecoverable damage to bacteria on the textile, thereby realizing inhibition and sterilization effects.

According to the invention, the outer connecting ring and the elastic blade are driven to rotate inside the bandage leveling roller shaft, the extrusion wheel also rotates at the moment, the elastic blade and the side edge of the end part of the bandage leveling roller shaft are sheared to form shearing motion, the thread end of the passing textile fabric side edge is sheared by the elastic blade and the bandage leveling roller shaft, the thread end is sheared and cleaned, and the thread end is pulled away along with an air pipe through the air exhaust end, so that the operation of the elastic blade and the bandage leveling roller shaft is prevented from being influenced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the wrapping of the textile fabric of the present invention;

FIG. 3 is a schematic view of the structure of the trimming sterilizer of the present invention;

FIG. 4 is a schematic view of the structure of the radiation sterilization apparatus according to the present invention;

FIG. 5 is a schematic view of the edge slitting device according to the present invention;

FIG. 6 isbase:Sub>A cross-sectional view A-A of FIG. 5 of the present invention;

FIG. 7 is an enlarged view of the invention at B in FIG. 6;

FIG. 8 is an exploded view of the ends of a bandage leveling roller of the present invention;

FIG. 9 is an enlarged view of the invention at C in FIG. 8;

fig. 10 is a schematic view of the structure of the elastic blade in the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a feeding end; 101. a bandage textile semi-finished product;

2. a cutting device; 201. cutting a first roller; 202. a second cutting roller; 203. hobbing cutters; 204. a first roll shaft; 205. a second roll shaft; 206. a first motor;

3. an edge cutting sterilization device;

301. a trimming device; 3011. a bandage leveling roller shaft; 3012. a side cutting assembly; 3013. a connecting shaft; 3014. an outer connecting rod; 3015. an air exhaust end; 3016. positioning a plate; 3017. an inner connecting rod; 3018. a drive ring; 3019. an outer connecting ring; 3020. an elastic blade; 3021. an extrusion wheel; 3022. an installation part; 3023. internal teeth; 3024. an outer tooth; 3025. a circular angular ring;

302. a second roll shaft;

303. an irradiation sterilization device; 3031. a curtain; 3032. irradiating the sterilization equipment;

304. a roll shaft III; 305. an air pump; 306. a collection box; 307. an air tube;

4. a winding device; 401. a winding shaft; 402. a control cabinet.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 1 and 2, an automatic cleaning device for textile fabrics comprises a feeding end 1, a cutting device 2, a trimming and sterilizing device 3 and a winding device 4.

Referring to fig. 3 and 4, the top of the trimming and sterilizing device 3 is sequentially provided with a trimming device 301, a second roller 302, an irradiation sterilizing device 303 and a third roller 304.

A plurality of baffle curtains 3031 are arranged at two ends of the irradiation sterilization device 303, and irradiation sterilization equipment 3032 is arranged at the top inside the irradiation sterilization device 303.

Further, the top of the feeding end 1 is provided with at least one group of bandage textile semi-finished products 101, the top of the cutting device 2 is provided with a group of tangent first cutting rollers 201 and second cutting rollers 202, the outer sides of the second cutting rollers 202 are provided with a plurality of hobbing cutters 203, one side of the second cutting rollers 202 is provided with a first roller shaft 204 and a second roller shaft 205, the cutting device 2 is further provided with a first motor 206 for providing power for the first cutting rollers 201, the winding device 4 is at least provided with a group of winding shafts 401, and the winding device 4 is further provided with a control cabinet 402.

Furthermore, at least one set of winding shaft 401 is rotatably mounted on one side of the top of the winding device 4.

Wherein, the winding mode of the textile fabric is as follows:

the outer side of the semi-finished product 101 of bandage textile sequentially passes through the first cutting roller 201 and the second cutting roller 202 by stretching the end parts of the textile, the textile is cut into multiple groups by the aid of the hob 203, and the textile sequentially passes through the first roller 204, the second roller 205, the edge cutting device 301 and the second roller 302 and passes through the inner side of the radiation sterilization device 303 for sterilization, the textile is conveyed to the winding shaft 401 for winding by the outer side of the third roller 304, and the winding shaft 401 is controlled to rotate by the control cabinet 402 for winding the textile.

According to the above structure, the radiation sterilizing apparatus 3032 generates the energy of the beta rays of the electron beam or the gamma rays generated by the radioactive isotope Cs-137 or Co-60 to be transferred to the textile, and the ionizing radiation causes the unrecoverable damage to the bacteria on the textile, thereby achieving the inhibiting and sterilizing effects.

Before the fabric carries out the rolling packing, except that need disinfect to the fabric, still need clear up the exposed end of a thread in its outside, so adopt following scheme:

referring to fig. 5 and 6, the edge trimming device 301 includes a bandage leveling roller 3011, a side cutting component 3012, and a connecting shaft 3013, the bandage leveling roller 3011, the side cutting component 3012, and the connecting shaft 3013 form a group, and at least two groups of bandage leveling roller 3011, side cutting component 3012, and connecting shaft 3013 that are parallel to each other are disposed on one edge trimming device 301, and the side cutting components 3012 disposed adjacently between the two groups are fixedly connected through the outer connecting rod 3014.

Referring to fig. 7-9, the bandage leveling roller shaft 3011 includes a driving ring 3018 with two ends fixedly connected, an outer connecting ring 3019 is connected to the outside of the driving ring 3018 in a meshing transmission manner, an elastic blade 3020 with elasticity is sleeved on the outside of the outer connecting ring 3019, the elastic blades 3020 on two sides extend toward the bandage leveling roller shaft 3011 in the middle, the elastic blade 3020 is rotatably installed inside the side cutting assembly 3012, the pressing wheel 3021 is rotatably installed on the inside of the side cutting assembly 3012, the pressing wheel 3021 presses the elastic blade 3020 toward the outside of one side of the bandage leveling roller shaft 3011, so that the side edge of the elastic blade 3020 is tangent to the end of the bandage leveling roller shaft 3011.

Further, the extrusion wheel 3021 is arranged at a position where the outer side of the bandage leveling roller shaft 3011 is tangent to the textile, a mounting portion 3022 is arranged at a position where the inner side of the side cutting component 3012 is matched with the extrusion wheel 3021, and the inside of the mounting portion 3022 is used for rotatably mounting the extrusion wheel 3021.

Furthermore, the edge cutting device 301 is provided with a suction end 3015 at one end thereof for communicating the bandage leveling roller 3011, the side cutting component 3012 and the inside of the connecting shaft 3013.

Here, referring to fig. 9 and 10, when the outer connecting ring 3019 and the elastic blade 3020 are installed, the outer side of the outer connecting ring 3019 is fixedly connected to the inner side of the elastic blade 3020, and the inner side of the outer connecting ring 3019 is provided with inner teeth 3023 for meshing connection with outer teeth 3024 provided on the outer side of the driving ring 3018.

When the driving ring 3018 is installed, the driving ring 3018 at the middle part is fixedly connected to the end part of the connecting shaft 3013 at the side away from the bandage leveling roller shaft 3011, and the driving ring 3018 at the end part is fixedly connected to the suction end 3015.

According to the structure, one end of the edge cutting device 301, which is far away from the air exhaust end 3015, is connected with a driving motor (not shown in the figure) in a transmission manner, the driving motor is inserted into a socket reserved on the surface of the positioning plate 3016 through a rotating shaft and is transmitted to the end of the edge cutting device 301, power is provided through the driving motor to drive the fixedly connected bandage leveling roller shaft 3011, the connecting shaft 3013 and the air exhaust end 3015 to rotate, the bandage leveling roller shaft 3011 is convenient to rotate through bearings sleeved on two ends of the edge cutting device 301, the outer connecting ring 3019 and the elastic blade 3020 are driven to rotate inside the bandage leveling roller shaft 3011, at the moment, the squeezing wheel 3021 used for squeezing the outer side of the elastic blade 3020 also rotates, the elastic blade 3020 and the side edge of the end of the bandage leveling roller shaft 3011 are sheared to form a shearing motion, and at the thread end of the passing textile side edge is sheared and cleaned.

The elastic blade 3020 is made of an elastic steel plate, and is fixedly connected to the outer side of the outer connecting ring 3019 through the inner side when being installed, and the connection mode includes any one of welding and adhesion connection.

In addition, after the exposed thread ends of the textile side plates passing through the bandage leveling roller shaft 3011 are cut off by the elastic blade 3020 and the end of the bandage leveling roller shaft 3011, in order to avoid the thread ends from being accumulated inside the bandage leveling roller shaft 3011 and to timely clean out the thread ends, the following embodiments are used for solving the problem that the specific solution is as follows:

referring to fig. 3 and 5, one end of the bandage leveling roller 3011, the side cutting component 3012 and the connecting shaft 3013 is connected to an air tube 307 and extends to the air pump 305 through the air tube 307, the air inlet of the air pump 305 is connected to the air tube 307, and the air outlet of the air pump 305 is connected to the collecting box 306.

And the air suction end 3015 is inserted into the end of the air tube 307 in a gap mode, and the end of the air tube 307 is fixedly installed through a positioning plate 3016 arranged on the outer side of the edge cutting device 301.

Therefore, in the process of shearing the elastic blade 3020 and the bandage leveling roller 3011, the cut thread ends are extracted from the inside of the air extracting end 3015 through the air tube 307 by starting the air extracting pump 305 and then conveyed to the collecting box 306 for collection, so that the accumulation of the thread ends can be avoided and the operation of the elastic blade 3020 and the bandage leveling roller 3011 can be prevented from being affected.

In addition, the air pump 305 can further exhaust heat generated by the elastic blade 3020 and the bandage leveling roller 3011 by continuously pumping air, so as to prevent the elastic blade 3020 and the bandage leveling roller 3011 from overheating.

And referring to fig. 7, the bandage leveling roller shafts 3011 are fixedly connected to the inner side of the driving ring 3018 by at least three inner connecting rods 3017 in an annular array.

During the air suction process of the air suction pump 305, the joints between the two ends of the internal connecting rod 3017 and the bandage leveling roller 3011 and the driving ring 3018 will tend to cause some accumulation of thread ends.

Therefore, the end parts at the two ends of the inner connecting rod 3017 respectively form a fillet ring 3025 with the inner sides of the bandage leveling roller shaft 3011 and the driving ring 3018, the outer side of the fillet ring 3025 is arc-shaped, the clamping of a thread end by a small gap of the fillet ring to the thread end can be reduced, the discharge of the thread end is convenient, in the rotating process of the bandage leveling roller shaft 3011, the thread end can be turned over, the air flow in the bandage leveling roller shaft 3011 can be changed to a certain extent through the inner connecting rod 3017, and the thread end can be discharged more easily.

The working principle of the invention is as follows:

connect driving motor (not shown in the figure) through deviating from the transmission of bleed-off end 3015 one end at side cut device 301, driving motor pegs graft the socket of reserving on locating plate 3016 surface through the pivot, the transmission is to side cut device 301 tip, provide power through driving motor, drive fixed connection's bandage flattening roller 3011, connecting axle 3013 and bleed-off end 3015 rotate, make it be convenient for rotatory through the bearing that the cover was established at side cut device 301 both ends, inside bandage flattening roller 3011, drive outer connecting ring 3019 and elastic blade 3020 and rotate, the extrusion wheel 3021 that is used for extrudeing the elastic blade 3020 outside also takes place to rotate this moment, and make elastic blade 3020 and the side of bandage flattening roller 3011 tip cut and form the shearing motion, at this moment, the end of a thread of the fabric side that passes through is cut off the clearance.

During the cutting action of the elastic blade 3020 and the bandage leveling roller 3011, the cut thread ends are sucked out from the suction end 3015 through the air tube 307 by starting the suction pump 305, and are transferred to the collection box 306 to be collected, thereby preventing the thread ends from being accumulated.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. An automatic cleaning equipment of fabric, characterized in that includes:

a feed end (1);

a cutting device (2);

the top of the trimming sterilization device (3) is sequentially provided with a trimming device (301), a second roller shaft (302), an irradiation sterilization device (303) and a third roller shaft (304);

the edge cutting device (301) comprises bandage leveling roller shafts (3011), side cutting assemblies (3012) and connecting shafts (3013), the bandage leveling roller shafts (3011), the side cutting assemblies (3012) and the connecting shafts (3013) are in a group, at least two groups of bandage leveling roller shafts (3011), the side cutting assemblies (3012) and the connecting shafts (3013) which are parallel to each other are arranged on one edge cutting device (301), and the side cutting assemblies (3012) which are adjacently arranged between the two groups are fixedly connected through outer connecting rods (3014);

the bandage leveling roller shaft (3011) comprises a driving ring (3018) fixedly connected with two ends, the driving ring (3018) is connected with an outer connecting ring (3019) in a meshing transmission mode, an elastic blade (3020) with elasticity is sleeved on the outer side of the outer connecting ring (3019), the elastic blade (3020) extends towards the bandage leveling roller shaft (3011) in the middle of the bandage leveling roller shaft, the elastic blade (3020) is rotatably installed inside a side cutting assembly (3012), a squeezing wheel (3021) is rotatably installed on the inner side of the side cutting assembly (3012), the squeezing wheel (3021) squeezes the elastic blade (3020) towards the outer side of one side of the bandage leveling roller shaft (3011), and the side edge of the elastic blade (3020) is tangent to the end of the bandage leveling roller shaft (3011);

one end of the bandage leveling roller shaft (3011), the side cutting component (3012) and the connecting shaft (3013) which are connected end to end is communicated with an air pipe (307) and extends to the arranged air suction pump (305) through the air pipe (307), the air inlet end of the air suction pump (305) is connected with the air pipe (307), and the air outlet end of the air suction pump (305) is connected with the collecting box (306);

the winding device (4) is positioned on one side of the top of the winding device (4) and is rotatably provided with at least one group of winding shafts (401).

2. An automated textile fabric cleaning apparatus according to claim 1, wherein: a plurality of blocking curtains (3031) are arranged at two ends of the irradiation sterilization device (303), and irradiation sterilization equipment (3032) is arranged at the top inside the irradiation sterilization device (303).

3. An automated textile fabric cleaning apparatus according to claim 1, wherein: the top of the feeding end (1) is provided with at least one group of bandage textile semi-finished products (101), the top of the cutting device (2) is provided with a group of tangent first cutting rollers (201) and second cutting rollers (202), the outer sides of the second cutting rollers (202) are provided with a plurality of hobbing cutters (203), one side of each second cutting roller (202) is provided with a first roller shaft (204) and a second roller shaft (205), and the cutting device (2) is further provided with a first motor (206) for providing power for the first cutting rollers (201);

the winding device (4) is at least provided with a group of winding shafts (401), and the winding device (4) is further provided with a control cabinet (402).

4. An automated textile fabric cleaning apparatus according to claim 3, wherein: the semi-finished product of bandage fabric (101) outside is through stretching out the fabric tip and pass in proper order and cut between roller (201) and the roller of cutting two (202), and will through hobbing cutter (203) the fabric cutting is the multiunit to pass in proper order roller one (204), roller two (205), side cut device (301), the roller two (302) outside, and pass irradiation sterilization device (303) inside is used for the sterilization, the fabric is carried to rolling axle (401) rolling by the roller three (304) outside.

5. An automated textile fabric cleaning apparatus according to claim 1, wherein: the side cut device (301) is equipped with through one of them end and is used for communicateing inside bleed end (3015) of bandage flattening roller (3011), side cut subassembly (3012) and connecting axle (3013) to peg graft with trachea (307) tip clearance, trachea (307) tip is through locating plate (3016) fixed mounting that side cut device (301) outside set up.

6. An automated textile fabric cleaning apparatus according to claim 1, wherein: the squeezing wheel (3021) is arranged at the position, which is tangent to the textile, outside the bandage leveling roller shaft (3011).

7. An automated textile fabric cleaning apparatus according to claim 1, wherein: one side of the driving ring (3018) in the middle, which is far away from the bandage leveling roller shaft (3011), is fixedly connected with the end part of the connecting shaft (3013), and the driving ring (3018) in the end part is fixedly connected with the air exhaust end (3015).

8. An automated textile fabric cleaning apparatus according to claim 1, wherein: the bandage leveling roller shaft (3011) is fixedly connected with the inner side of the driving ring (3018) through at least three inner connecting rods (3017) in an annular array, the end portions of two ends of each inner connecting rod (3017) form a circular-angle ring (3025) with the inner sides of the bandage leveling roller shaft (3011) and the driving ring (3018), and the outer side of each circular-angle ring (3025) is arc-shaped.

9. An automated textile fabric cleaning apparatus according to claim 1, wherein: the side cutting assembly (3012) is provided with a mounting part (3022) at the position of the inner side of the adaptive extrusion wheel (3021), and the mounting part (3022) is used for rotatably mounting the extrusion wheel (3021).

10. An automated textile fabric cleaning apparatus according to claim 1, wherein: the outer side of the outer connecting ring (3019) is fixedly connected with the inner side of the elastic blade (3020), and the inner side of the outer connecting ring (3019) is provided with inner teeth (3023) which are used for being meshed with outer teeth (3024) arranged on the outer side of the driving ring (3018).

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