CN219260464U - Overflow dyeing machine with cloth discharging device - Google Patents

Abstract

The utility model relates to an overflow dyeing machine with go out cloth device, it includes the cylinder body, be provided with out the cloth mouth on the cylinder body, play cloth mouth one side of cylinder body is provided with the wringing frame, be provided with first wringing board and second wringing board on the wringing frame, first wringing board is parallel to each other with the second wringing board and first wringing board and second wringing board arrange along vertical direction, form the clearance that the cloth passes through between first wringing board and the second wringing board, first wringing board is connected with the first driving piece that is used for driving first wringing board and is close to the second wringing board, the length direction of first wringing board and second wringing board all with cloth traffic direction mutually perpendicular, the second wringing board is connected with the second driving piece that is used for driving second wringing board and moves along first wringing board length direction, the wringing frame is located first wringing board and second wringing board below be provided with the water receiving tank. The dye liquor in the cloth is extruded, and the probability of pollution of the dye liquor to the working environment is reduced.

Description

Overflow dyeing machine with cloth discharging device

Technical Field

The application relates to the field of overflow dyeing machines, in particular to an overflow dyeing machine with a cloth discharging device.

Background

The overflow dyeing machine is mainly used for the pre-and post treatment and dyeing of various pure cotton, pure polyester, polyester cotton, spandex and other knitted grey fabrics, and can be used as processing equipment for salt-free dyeing processing of cotton fabrics by using reactive dyes.

The utility model discloses a Chinese patent with publication number of CN208933659U, which discloses an overflow dyeing machine with a cloth discharging device, comprising a machine cylinder with a material inlet and a material outlet, wherein the material inlet and the material outlet are provided with an organic cover, the material inlet and the material outlet are fixedly connected with a connecting part, the connecting part comprises a connecting ring, the outer edge of the connecting ring is fixedly connected with a plurality of sector plates at intervals, the machine cover comprises a cover plate, one side of one sector plate, facing the cover plate, is provided with a connecting groove, the connecting groove is provided with a locking piece, a spring is fixedly connected between the locking piece and the bottom of the connecting groove, and the cover plate is provided with a locking hole for the locking piece to be clamped in.

Aiming at the related technology, the inventor finds that when the cloth comes out from the discharge hole of the machine cylinder, the cloth contains more dye liquor, and the dye liquor on the cloth is easy to drop on the ground, thereby polluting the working environment.

Disclosure of Invention

In order to reduce the probability of pollution of dye liquor to the working environment, the application provides an overflow dyeing machine with a cloth discharging device.

The application provides an overflow dyeing machine with go out cloth device adopts following technical scheme:

the utility model provides an overflow dyeing machine with go out cloth device, includes the cylinder body, be provided with out the cloth mouth on the cylinder body, play cloth mouth one side of cylinder body is provided with the wringing frame, be provided with first wringing board and second wringing board on the wringing frame, first wringing board and second wringing board are parallel to each other and first wringing board and second wringing board arrange along vertical direction, form the clearance that the cloth passed through between first wringing board and the second wringing board, first wringing board is connected with the first driving piece that is used for driving first wringing board and is close to the second wringing board, the length direction of first wringing board and second wringing board all is mutually perpendicular with the cloth direction of transportation, the second wringing board is connected with the second driving piece that is used for driving second wringing board and moves along first wringing board length direction, the wringing frame is provided with the water receiving tank under first wringing board and the second wringing board.

Through adopting above-mentioned technical scheme, cloth is derived from the play cloth mouth of cylinder body back through the clearance between first water squeezing plate and the second water squeezing plate, and during that first water squeezing plate is close to the second water squeezing plate and extrudes the cloth, and the second water squeezing plate moves along first water squeezing plate length direction and rub the cloth with the hands and move in order to improve extrusion effect, and dye liquor in the cloth falls into in the water receiving tank after being extruded to reduce the probability that dye liquor causes the pollution to operational environment.

Preferably, the first driving member comprises a cylinder, the cylinder is connected with the top of the wringing frame, a piston rod of the cylinder is connected with the first wringing plate, and the expansion direction of the piston rod of the cylinder is a vertical direction.

Through adopting above-mentioned technical scheme, drive first water squeezing plate and be close to the second water squeezing plate through the cylinder and extrude the cloth, simple structure, the purchase is convenient.

Preferably, the second driving piece comprises a supporting frame, a sector gear, a moving frame and a first motor, two sliding grooves are formed in the supporting frame, two ends of the moving frame are respectively connected with the sliding grooves in a sliding mode, the sliding direction is the length direction of a second water squeezing plate, the moving frame is connected with the bottom of the second water squeezing plate, a moving groove is formed in the moving frame, a first rack is connected to the top wall of the moving groove, a second rack is connected to the bottom wall of the moving groove, the sector gear is connected with the supporting frame in a rotating mode, the sector gear is located in the moving groove, and the sector gear is sequentially meshed with the first rack and the second rack in the rotating mode.

Through adopting above-mentioned technical scheme, when needs rub the crowded to the cloth, the staff opens first motor, makes first motor drive sector gear rotation, and sector gear rotates the time is connected with first rack and second rack meshing in proper order to drive the movable frame and remove along the length direction of the crowded water board of second.

Preferably, one side of the first water squeezing plate, which is close to the second water squeezing plate, is connected with a plurality of first water squeezing blocks, one side of the second water squeezing plate, which is close to the first water squeezing plate, is connected with a plurality of second water squeezing blocks, and the plurality of first water squeezing blocks and the plurality of second water squeezing blocks are arranged along the cloth conveying direction.

By adopting the technical scheme, when the first water squeezing plate and the second water squeezing plate squeeze, the first water squeezing block and the second water squeezing block are contacted with cloth, so that the water squeezing efficiency and the water squeezing effect are improved.

Preferably, the second wringing plate is provided with a plurality of water outlets, the water outlets are arranged along the length direction of the second wringing plate, and a plurality of water outlets are arranged along the cloth conveying direction.

Through adopting above-mentioned technical scheme, when first crowded water board and second crowded water board extrudees, the dye liquor on the cloth falls into crowded water tank from the delivery port to avoid the dye liquor to push on the second crowded water board, influence follow-up crowded water effect.

Preferably, the water receiving channel has been seted up to the wringing frame bottom, the water receiving tank is connected with the lifting unit who is used for driving the water receiving tank and follows vertical direction and remove, with water receiving channel sliding connection when water receiving tank goes up and down, lifting unit includes two lead screws and two second motors, two the screw rod of lead screw is located water receiving tank both ends lateral wall respectively and two the nut of lead screw is connected with water receiving tank both ends lateral wall respectively, two the lead screw is vertical to be set up, the second motor is used for driving the screw rod rotation of lead screw.

Through adopting above-mentioned technical scheme, crowded water in-process, connect the water tank to be located the water receiving passageway, the dye liquor that the cloth extruded directly falls into and connects the water tank in, avoids the dye liquor to splash, when needs butt joint water tank clear up, the staff only need open the second motor, drives the screw rod and rotates to make connect the water tank break away from the water receiving passageway and be convenient for the staff to clear up the butt joint water tank.

Preferably, still include the air-drying cabinet, feed inlet and discharge gate have been seted up respectively at air-drying cabinet both ends, be provided with in the air-drying cabinet and be used for carrying the transportation structure of cloth and be used for carrying out filterable filter assembly to the air in the air-drying cabinet, one end that the feed inlet was seted up to the air-drying cabinet is close to the one side that the cloth outlet of cylinder body was kept away from to the wringing frame, be located transportation structure top in the air-drying cabinet and be provided with the air-drying coiled pipe, the air-drying coiled pipe sets up along the cloth direction of transportation, the air-drying coiled pipe is connected with the intake pipe, the intake pipe other end is connected with the air supply, be provided with a plurality of spouts that are used for the cloth jet-propelled on the air-drying coiled pipe, a plurality of the spout is followed air-drying coiled pipe extending direction arranges.

Through adopting above-mentioned technical scheme, the cloth is crowded after getting into the air-drying box after finishing, and during this time the staff is through the air supply to air-dry the coiled pipe to the cloth jet-propelled, and the cloth is dried during this time, the follow-up arrangement and the processing of cloth of being convenient for.

Preferably, the filter component comprises a filter screen piece, an activated carbon net piece and an air pump, wherein the filter screen piece and the activated carbon net piece are both positioned in the air drying box, the filter screen piece and the activated carbon net piece are arranged along the height direction of the air drying box, two mounting openings are formed in the side wall of the air drying box, the filter screen piece and the activated carbon net piece are respectively in plug-in fit with the two mounting openings, an air inlet of the air pump is communicated with the bottom of the air drying box, and the air pump is used for enabling air in the air drying box to be sequentially discharged out of the air drying box through the filter screen piece and the activated carbon net piece.

Through adopting above-mentioned technical scheme, the poisonous gas in cloth air-drying period is in proper order through filter screen spare and active carbon net spare discharge air-drying cabinet to protect staff's health.

Preferably, a water outlet pipe is arranged at the bottom of the water receiving tank, and a flow valve is arranged on the water outlet pipe.

Through adopting above-mentioned technical scheme, when the dye liquor in the squeezing box reaches certain water level, the staff opens the flow valve and makes the dye liquor discharge to avoid receiving the dye liquor in the water tank and overflowing.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cloth is led out from the cloth outlet of the cylinder body and passes through a gap between the first water squeezing plate and the second water squeezing plate, the first water squeezing plate is close to the second water squeezing plate to squeeze the cloth during the period, the second water squeezing plate moves along the length direction of the first water squeezing plate to rub the cloth so as to improve the squeezing effect, and dye liquor in the cloth falls into the water receiving tank after being squeezed out, so that the probability of pollution of the dye liquor to the working environment is reduced;

2. when the cloth is required to be rubbed and extruded, a worker starts a first motor, so that the first motor drives a sector gear to rotate, and the sector gear is sequentially meshed with a first rack and a second rack when rotating, so that a movable frame is driven to move along the length direction of a second squeezing plate;

3. after the cloth water squeezing is finished, the cloth water squeezing enters an air drying box, during which working personnel jet air to the cloth through an air source to air-dry a coiled pipe, and during which the cloth is dried, so that the cloth is convenient to be finished and processed later.

Drawings

Fig. 1 is a schematic view of the overall structure of an overflow dyeing machine according to an embodiment of the present application.

Fig. 2 is a schematic partial cross-sectional view of a cloth discharging device according to an embodiment of the present application, mainly showing a wringing frame.

Fig. 3 is a schematic view of a part of a structure of a cloth discharging device according to an embodiment of the present application, mainly showing the second driving member.

Fig. 4 is a schematic view of a part of a structure of a cloth discharging device according to an embodiment of the present application, mainly showing an air drying box.

Reference numerals illustrate: 100. a cylinder; 110. a cloth outlet; 200. a water squeezing frame; 201. a wringing channel; 210. a first wringing plate; 211. a first wringing block; 220. a second wringing plate; 221. a water outlet; 222. a second wringing block; 300. a cylinder; 410. a support frame; 411. a chute; 420. a sector gear; 430. a moving rack; 431. a moving groove; 432. a first rack; 433. a second rack; 440. a first motor; 510. a screw rod; 520. a second motor; 600. an air drying box; 601. a mounting port; 610. a feed inlet; 620. a discharge port; 630. air-drying the coiled pipe; 640. a transport roller; 650. a filter screen member; 660. an activated carbon net member; 670. an air extracting pump; 700. a water receiving tank; 710. a water outlet pipe; 720. a flow valve.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses an overflow dyeing machine with a cloth discharging device. Referring to fig. 1 and 2, an overflow dyeing machine with a cloth outlet device includes a cylinder 100, a cloth outlet 110 is provided on the cylinder 100, a water squeezing frame 200 is provided at one side of the cloth outlet 110 of the cylinder 100, a first water squeezing plate 210 and a second water squeezing plate 220 are provided on the water squeezing frame 200, the first water squeezing plate 210 and the second water squeezing plate 220 are parallel to each other, the first water squeezing plate 210 and the second water squeezing plate 220 are arranged along the height direction of the water squeezing frame 200, a gap for passing cloth is formed between the first water squeezing plate 210 and the second water squeezing plate 220, a water receiving tank 700 is provided below the first water squeezing plate 210 and the second water squeezing plate 220, and an air drying box 600 for drying cloth is provided at one side of the water squeezing frame 200 away from the cloth outlet 110 of the cylinder 100.

In fig. 1 and fig. 3, the length direction of the first wringing plate 210 and the second wringing plate 220 are mutually perpendicular to the cloth transporting direction, the first wringing plate 210 is connected with a first driving member for driving the first wringing plate 210 to approach the second wringing plate 220, the first driving member comprises a cylinder 300, a lever body of the cylinder 300 is connected with the top of the wringing frame 200 through bolts, a piston rod of the cylinder 300 passes through the top wall of the wringing frame 200 and is connected with the top of the first wringing plate 210 through bolts, the second wringing plate 220 is connected with a second driving member for driving the second wringing plate 220 to move along the length direction of the first wringing plate 210, the second driving member comprises a supporting frame 410, a sector gear 420, a moving frame 430 and a first motor 440, two mounting blocks are welded on the supporting frame 410, two sliding grooves 411 are respectively formed in the two ends of the moving frame 430, the sliding direction is the length direction of the second wringing plate 220, the bottom of the moving frame 430 is connected with the bottom of the second wringing plate 220 through bolts, the moving frame 430 is provided with a moving groove 431, the moving groove 431 is connected with the first sector gear 431, the first rack 431 is connected with the sector gear 420 in turn, and the sector gear 420 is connected with the sector gear 420 in turn in the sector gear 420, and the sector gear 420 is meshed with the first rack 433.

In addition, a plurality of strip-shaped first water squeezing blocks 211 are connected to a side, close to the first water squeezing plate 210, of the second water squeezing plate 220, a plurality of strip-shaped second water squeezing blocks 222 are connected to a side, close to the first water squeezing plate 210, of the second water squeezing plate 220, the plurality of first water squeezing blocks 211 and the plurality of second water squeezing blocks 222 are arranged along the cloth conveying direction, strip-shaped water outlets 221 are formed between every two second water squeezing blocks 222, the water outlets 221 are arranged along the length direction of the second water squeezing plate 220, and the plurality of water outlets 221 are arranged along the cloth conveying direction.

The water receiving channel has been seted up to water receiving frame bottom, water receiving tank 700 is connected with the lifting unit who is used for driving water receiving tank 700 and removes along vertical direction, water receiving tank 700 when going up and down with water receiving channel sliding connection, lifting unit includes two lead screws 510 and two second motors 520, two lead screws 510 vertical setting, the screw rod of two lead screws 510 is located the both ends lateral wall of water receiving tank 700 width direction respectively and the nut of two lead screws 510 is connected with water receiving tank 700 both ends lateral wall respectively, water receiving tank 700 width direction's both ends are provided with two spacing posts outside water receiving frame, water receiving tank 700 width direction's both ends slip cap is located on two spacing posts, water receiving tank 700 bottom is provided with outlet pipe 710 in addition, the staff can be followed the outlet pipe 710 and connect the hose to guide the dye liquor to treatment facility, be provided with flow valve 720 on the outlet pipe 710.

Fig. 1 and fig. 4, feed inlet 610 and discharge gate 620 have been seted up respectively at air-drying cabinet 600 both ends, be provided with in the air-drying cabinet 600 and be used for carrying the transportation structure of cloth and be used for carrying out filterable filter unit transportation structure to the air in the air-drying cabinet 600 and include a plurality of transport rollers 640, transport roller 640 both ends are rotated with two inside walls of air-drying cabinet 600 width direction respectively and are connected, one end that air-drying cabinet 600 had seted up feed inlet 610 is close to the one side that the cloth outlet 110 of water-squeezing stand 200 was kept away from cylinder body 100, be located transportation structure top in the air-drying cabinet 600 and be provided with air-drying coiled pipe 630, air-drying coiled pipe 630 sets up along the cloth transportation direction, air-drying coiled pipe 630 is connected with the intake pipe, intake pipe one end passes air-drying cabinet 600 roof and air-drying coiled pipe 630 intercommunication, the intake pipe other end is connected with the air supply, be provided with a plurality of spouts for spraying air on the air-drying coiled pipe 630, a plurality of spouts are arranged along air-drying coiled pipe 630 extending direction.

The filter component comprises a filter screen 650, an active carbon net 660 and an air pump 670, wherein the filter screen 650 and the active carbon net 660 are respectively composed of a filter screen and an active carbon net frame, the filter screen 650 and the active carbon net 660 are both positioned in the air drying box 600, the filter screen 650 and the active carbon net 660 are arranged along the height direction of the air drying box 600, two mounting openings 601 are formed in the side wall of the air drying box 600, the filter screen 650 and the active carbon net 660 are respectively in horizontal plug-in fit with the two mounting openings 601, the plug-in direction is the width direction of the air drying box 600, in addition, the air drying box 600 is far away from the inner side wall provided with the mounting openings 601, two grooves which are in plug-in fit with the filter screen 650 and the active carbon net 660 are formed in the inner side wall provided with the mounting openings 601, two sliding grooves 411 are formed in the two inner side walls in the length direction of the air drying box 600, two ends of the filter screen 650 or the active carbon net 660 are respectively in sliding connection with the two sliding grooves 411, the sliding direction of the air drying box 600, an air inlet of the pump is communicated with the bottom of the air drying box 600, the mounting openings 601 are positioned between the conveying rollers 640 and the bottom wall of the air drying box 600, and the air pump 670 is used for enabling air in the air drying box 600 to sequentially and air in the air drying box 600 to pass through the filter screen 660.

The implementation principle of the overflow dyeing machine with the cloth outlet device is as follows: the cloth is guided out from the cloth outlet 110 of the cylinder body 100 and passes through the gap between the first wringing plate 210 and the second wringing plate 220, during which the first wringing plate 210 is close to the second wringing plate 220 to squeeze the cloth, the second wringing plate 220 moves along the length direction of the first wringing plate 210 to rub the cloth so as to improve the squeezing effect, and the dye liquor in the cloth falls into the water receiving tank 700 after being squeezed out, thereby reducing the probability of pollution of the dye liquor to the working environment.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. An overflow dyeing machine with go out cloth device, its characterized in that: including cylinder body (100), be provided with out cloth mouth (110) on cylinder body (100), the play cloth mouth (110) one side of cylinder body (100) is provided with crowded water frame (200), be provided with first crowded water board (210) and second crowded water board (220) on crowded water frame (200), first crowded water board (210) and second crowded water board (220) are parallel to each other and first crowded water board (210) and second crowded water board (220) are arranged along vertical direction, form the clearance that the cloth passed through between first crowded water board (210) and second crowded water board (220), first crowded water board (210) are connected with the first driving piece that is used for driving first crowded water board (210) and second crowded water board (220) to be close to second crowded water board (220), the length direction of first crowded water board (210) and second crowded water board (220) all are mutually perpendicular with the cloth direction of transportation, second crowded water board (220) are connected with and are used for driving second crowded water board (220) and are located water tank (200) and are located under the first crowded water frame (220).

2. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: the first driving piece comprises an air cylinder (300), the air cylinder (300) is connected with the top of the wringing frame (200), a piston rod of the air cylinder (300) is connected with the first wringing plate (210), and the expansion direction of the piston rod of the air cylinder (300) is in a vertical direction.

3. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: the second drives the piece and includes support frame (410), sector gear (420), removes frame (430) and first motor (440), two spouts (411) have been seted up on support frame (410), remove frame (430) both ends respectively with spout (411) sliding connection and slip direction be the length direction of second water squeezing plate (220), remove frame (430) and second water squeezing plate (220) bottom connection, remove frame (430) and seted up removal groove (431), remove groove (431) roof and be connected with first rack (432), remove groove (431) diapire and be connected with second rack (433), sector gear (420) are connected with support frame (410) rotation and sector gear (420) are located removal groove (431), sector gear (420) are connected with first rack (432) and second rack (433) meshing in proper order when rotating.

4. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: the utility model discloses a cloth material conveying device, including first squeezing plate (210), second squeezing plate (220), a plurality of first squeezing blocks (211) are connected with one side that first squeezing plate (210) is close to with second squeezing plate (220), one side that second squeezing plate (220) is close to with first squeezing plate (210) is connected with a plurality of second squeezing blocks (222), a plurality of first squeezing blocks (211) and a plurality of second squeezing blocks (222) are arranged along the cloth material conveying direction.

5. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: a plurality of water outlets (221) are formed in the second squeezing plate (220), the water outlets (221) are arranged along the length direction of the second squeezing plate (220), and the water outlets (221) are arranged along the cloth conveying direction.

6. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: the water receiving channel is formed in the bottom of the water squeezing frame (200), the water receiving tank (700) is connected with a lifting component used for driving the water receiving tank (700) to move along the vertical direction, the water receiving tank (700) is in sliding connection with the water receiving channel when lifted, the lifting component comprises two lead screws (510) and two second motors (520), the two lead screws of the lead screws (510) are respectively located on the side walls of the two ends of the water receiving tank (700) and the two nuts of the lead screws (510) are respectively connected with the side walls of the two ends of the water receiving tank (700), the two lead screws (510) are vertically arranged, and the second motors (520) are used for driving the lead screws of the lead screws (510) to rotate.

7. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: still including air-dry case (600), feed inlet (610) and discharge gate (620) have been seted up respectively at air-dry case (600) both ends, be provided with in air-dry case (600) and be used for carrying the transportation structure of cloth and be used for carrying out filterable filter unit to the air in air-dry case (600), one side that the cloth mouth (110) of cylinder body (100) was kept away from to water squeezing frame (200) is close to one end that feed inlet (610) was seted up to air-dry case (600), be located transportation structure top in air-dry case (600) and be provided with air-dry coiled pipe (630), air-dry coiled pipe (630) set up along cloth transportation direction, air-dry coiled pipe (630) are connected with the intake pipe, the intake pipe other end is connected with the air supply, be provided with a plurality of spouts that are used for the air-jet to the cloth on air-dry coiled pipe (630) are followed air-dry coiled pipe (630) extending direction arranges.

8. An overflow dyeing machine with a cloth discharge device as claimed in claim 7, wherein: the filter component comprises a filter screen piece (650), an active carbon net piece (660) and an air pump (670), wherein the filter screen piece (650) and the active carbon net piece (660) are both positioned in the air drying box (600) and are arranged along the height direction of the air drying box (600), two mounting openings (601) are formed in the side wall of the air drying box (600), the filter screen piece (650) and the active carbon net piece (660) are respectively in plug-in fit with the two mounting openings (601), an air inlet of the air pump (670) is communicated with the bottom of the air drying box (600), and the air pump (670) is used for enabling air in the air drying box (600) to be sequentially discharged out of the air drying box (600) through the filter screen piece (650) and the active carbon net piece (660).

9. An overflow dyeing machine with a cloth discharge device according to claim 1, characterized in that: the bottom of the water receiving tank (700) is provided with a water outlet pipe (710), and the water outlet pipe (710) is provided with a flow valve (720).

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