CN210287793U

CN210287793U - Double-nozzle overflow enzyme washing machine

Info

Publication number: CN210287793U
Application number: CN201921118021.8U
Authority: CN
Inventors: 赵科俭; 金立晗
Original assignee: Jiangsu Bosen Machinery Manufacturing Co ltd
Current assignee: Sangu Dongrui Advanced Technology Research Wuxi Co ltd
Priority date: 2019-07-16
Filing date: 2019-07-16
Publication date: 2020-04-10
Anticipated expiration: 2029-07-16

Abstract

The utility model relates to the field of cloth finishing equipment, and discloses a double-nozzle overflow enzyme washing machine, which comprises a frame, wherein a water tank, an enzyme washing device and a water supply device are arranged on the frame; the enzyme washing device comprises an overflow pipeline which is horizontally arranged, a nozzle is respectively installed at two ends of the overflow pipeline, the overflow pipeline comprises an upper corrugated plate and a lower corrugated plate, the inner wall of the upper corrugated plate and the inner wall of the lower corrugated plate are both of wave-shaped structures, a wave-shaped channel is formed, the fluctuation degree of the inner wall of the upper corrugated plate is greater than that of the inner wall of the lower corrugated plate, the lower corrugated plate mainly plays a role in bearing cloth, and the upper corrugated plate plays a main role in impacting cloth. The problem of among the prior art be used for arranging the equipment inefficiency of cloth is solved, have efficient, the continuity is good, cloth arrangement effect is good advantage.

Description

Double-nozzle overflow enzyme washing machine

Technical Field

The utility model relates to a cloth finishing equipment field, concretely relates to machine is washed to two nozzle overflow enzyme.

Background

The after-finishing is a technical treatment mode for endowing the fabric with color effect, shape effect (such as smoothness, suede, stiffness and the like) and effective effect (such as impermeability, non-felting, non-ironing, non-moth, flame resistance and the like), and the after-finishing of the fabric is a process for improving the appearance and the hand feeling of the fabric, enhancing the wearability or endowing special function by a chemical or physical main method, and is a processing process for making the fabric more beautiful.

In the prior art, a mechanical method is mainly adopted to enable textiles to obtain comprehensive touch feeling such as softness, smoothness, fullness, stiffness, lightness, thinness or thickness, and the like. However, the cloth arranging mode is low in efficiency, due to the fact that the cloth is placed into the roller and taken out of the roller, the machine needs to be stopped, operation is discontinuous, the size of the roller limits the coil weight and the size of the cloth which can be arranged, and the practicability is poor.

SUMMERY OF THE UTILITY MODEL

In view of the not enough of background art, the utility model provides a machine is washed to double nozzle overflow enzyme, the technical problem that solve is among the prior art for the equipment arrangement inefficiency of cloth aftertreatment.

For solving the technical problem, the utility model provides a following technical scheme:

the double-nozzle overflow enzyme washing machine comprises a frame, wherein a water tank, an enzyme washing device and a water supply device are arranged on the frame;

the enzyme washing device comprises an overflow pipeline which is horizontally arranged, two ends of the overflow pipeline are respectively provided with a nozzle, the overflow pipeline comprises an upper wave plate and a lower wave plate, the inner wall of the upper wave plate and the inner wall of the lower wave plate are both of wave fluctuation structures, so that a wave-shaped channel is formed, the fluctuation degree of the inner wall of the upper wave plate is greater than that of the inner wall of the lower wave plate, the lower wave plate mainly plays a role of bearing cloth, and the upper wave plate plays a main role of impacting cloth;

a nozzle internal flow passage is arranged in the nozzle, one end of the nozzle internal flow passage is connected with an overflow pipeline, the other end of the nozzle internal flow passage is connected with a cloth inlet and outlet, the cloth inlet and outlet is used for the cloth to enter and exit the nozzle, the nozzle internal flow passage is provided with a pair of spray head assemblies which are vertically symmetrical, each of the double spray head assemblies is provided with a first spray head and a second spray head, the first spray head and the second spray head are opposite to the nozzle internal flow passage, the spraying routes of fluids in the first spray head and the second spray head are inclined, and the first spray head and the second;

the water supply device comprises two groups of water supply assemblies, the two groups of water supply assemblies are respectively arranged on two sides of the water tank, each water supply assembly consists of a water pump, a water delivery main pipe, water delivery branch pipes, a heat exchanger and an electric three-way ball valve, the water pump is connected with the water delivery main pipe in each water supply assembly, the heat exchanger is arranged on the water delivery main pipe, the water delivery main pipe is connected with two water delivery branch pipes through the electric three-way ball valve, the two water delivery branch pipes are respectively connected with a first spray head and a second spray head, and the two water delivery branch pipes can be connected with the first spray head and the second spray head on the same spray nozzle or connected with the first spray head and the; the water pump pumps water from the outside, and the water can be sprayed out from the first spray head and the second spray head after passing through the water delivery main pipe, the heat exchanger for heating, the electric three-way ball valve and the water delivery branch pipe, and enzyme lotion and sand lotion can be added into the water to promote the cloth finishing effect; the electric three-way ball valve plays a role in controlling, controls the electric three-way ball valve, and can switch the on-off of the two water delivery branch pipes connected with the electric three-way ball valve, so that the first spray head or the second spray head can be controlled to spray water.

Through the technical scheme, the method can realize that: the two cloth inlets and outlets are respectively provided with a cloth inlet end and a cloth outlet end, and cloth enters from the cloth inlet end and passes through the nozzle internal flow channel in one nozzle, the overflow pipeline and the nozzle internal flow channel in the other nozzle and then exits from the cloth outlet end; by switching the action of the electric three-way ball valves in the two groups of water supply assemblies at the same time, firstly, all the first spray heads spray water, all the second spray heads are closed, and high-pressure water flow impacts the cloth to drive the cloth to move to the cloth outlet end by a moving distance D1; then, all the first nozzles are closed, all the second nozzles spray water, and high-pressure water impacts the cloth to drive the cloth to move in the reverse direction and the inlet end of the cloth, wherein the moving distance is D2; the movement distance D1 is controlled to be larger than D2 by controlling the different water spraying time of the first spray head and the second spray head, the electric three-way ball valve is switched back and forth, and the cloth moves forwards in the overflow pipeline in a reciprocating manner; during the cloth reciprocating forward process, the cloth interacts with the channel wall of the wave fluctuation structure in the overflow channel in a friction and impact mode, so that the texture, the softness and the like of the cloth are changed, and the after-treatment of the cloth is realized.

Preferably, two ends in the water tank are respectively provided with a grating baffle which is positioned at the cloth inlet and outlet, the grating baffles are rotatably connected with the water tank through short shafts, and the angles of the grating baffles are adjustable; the cloth can strike the grid baffle after rushing out with certain speed from the cloth access & exit, and this kind of striking is also to the arrangement of cloth, further promotes the arrangement effect of this equipment to the cloth from this.

Preferably, the grid baffle includes two parallel arrangement's fly leaf, and the interval evenly is equipped with a plurality of nonrust steel pipes between two fly leaves, and a plurality of nonrust steel pipes pass through rib fixed connection fly leaf, and the fly leaf passes through minor axis rotatable coupling basin, uses the minor axis to be equipped with the arc wall as the center on the fly leaf, uses the minor axis to be equipped with the through-hole as the center on the basin lateral wall equally, rotates adjustment fly leaf to suitable position after, to pass through-hole and arc wall fixed connection fly leaf and basin with the bolt to fixed grid baffle.

Preferably, grid baffle below is equipped with the cloth and carries the grid board, and the grid board is carried to the cloth and is extended to cloth entrance and exit for V font structure and an upper end, and cloth entrance and exit can set up the auxiliary roller for the auxiliary transport cloth makes the cloth get into the cloth entrance and exit through the inclined plane of cloth transport grid board in, and the V font structure of cloth transport grid board makes it can hold the cloth temporarily.

Preferably, the bottom surface in the water tank is an inclined plane with two high ends and a low middle part, so that sewage is easily collected to the middle part, a water outlet is formed in the middle of the bottom surface, and water stains carried on the cloth fall into the water tank through the cloth conveying grating plate and then can be discharged through the water outlet.

Preferably, the water outlet is connected with the water pump through a water return pipe, a filter is installed on the water return pipe, sewage in the water tank flows back to the water pump after being filtered, the sewage can be recycled, and water consumption is saved.

Preferably, the double spray head subassembly includes outer roll board, interior roll board and perpendicular baffle, outer roll board and interior roll board are C type structure and opening opposite setting, the pterygoid lamina at interior roll board both ends and the clearance between the pterygoid lamina at outer roll board both ends form first shower nozzle and second shower nozzle, the bottom of interior roll board is through the bottom of erecting the baffle and connecting outer roll board, will roll up the board inner chamber outward and fall into two cavities, a cavity intercommunication first shower nozzle, another cavity intercommunication second shower nozzle, the cross section of first shower nozzle and second shower nozzle is rectangular shape, be different from the rivers of the ray form that ordinary shower nozzle erupted, the rivers that erupt from first shower nozzle and second shower nozzle are planar, therefore can all produce roughly the same impact force to each point on the same width direction of cloth, make the cloth all can fully bump the passageway in the overflow pipeline everywhere, further improve cloth arrangement effect.

Compared with the prior art, the utility model following beneficial effect has at least:

1) the principle of cloth arrangement of the machine is different from other arrangement equipment in the prior art, the overflow pipeline with the wave fluctuation structure channel fully collides and rubs the cloth, the cloth can reach better cloth texture and soft effect after going back and forth for a plurality of times in the overflow pipeline, and the cloth arrangement efficiency is greatly improved;

2) the whole roll of cloth is reeled after being unreeled, entering the overflow pipeline and going out of the overflow pipeline, which is different from the situation that the cloth is reeled in the roller after being finished for a plurality of times of machine halt, when the machine works, the cloth advances and retreats in the overflow pipeline without being stopped midway, and the cloth is reeled after finishing achieves the expected effect, the whole process is continuous, and the operation efficiency is improved;

3) the nozzle design of this machine is ingenious, and the cloth of process all can receive the rivers impact force everywhere on the width direction for the cloth all can fully collide the passageway in the overflow pipe everywhere, has improved the arrangement effect to the cloth.

Drawings

The utility model discloses there is following figure:

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

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2;

fig. 4 is a schematic view of the grille shutter of the present invention;

FIG. 5 is a schematic view of a nozzle according to the present invention;

fig. 6 is a schematic view of the overflow pipe of the present invention.

Description of reference numerals: 1. the device comprises a frame, 2, a water tank, 3, an enzyme washing device, 30, an overflow pipeline, 31, a nozzle, 301, an upper corrugated plate, 302, a lower corrugated plate, 303, a channel, 311, an internal flow channel of the nozzle, 312, a cloth inlet and outlet, 313, a double-nozzle assembly, 314, an outer rolling plate, 315, an inner rolling plate, 316, a vertical partition plate, 317, a first nozzle, 318, a second nozzle, 40, a water supply assembly, 401, a water pump, 402, a water delivery trunk pipe, 403, a water delivery branch pipe, 404, an electric three-way ball valve, 405, a heat exchanger, 5, a grid baffle, 50, a short shaft, 51, a movable plate, 52, a stainless steel pipe, 53, a rib, 54, an arc-shaped groove, 56, a bolt, 6, a cloth delivery grid plate, 7, an auxiliary roller, 8 and.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in figures 1-6, the double-nozzle overflow enzyme washing machine comprises a frame 1, wherein a water tank 2, an enzyme washing device 3 and a water supply device are arranged on the frame 1;

the enzyme washing device 3 comprises an overflow pipeline 30 which is horizontally arranged, two ends of the overflow pipeline 30 are respectively provided with a nozzle 31, the overflow pipeline 30 comprises an upper wave plate 301 and a lower wave plate 302, the inner wall of the upper wave plate 301 and the inner wall of the lower wave plate 302 are both in wave fluctuation structures, so that a wave-shaped channel 303 is formed, the fluctuation degree of the inner wall of the upper wave plate 301 is greater than that of the inner wall of the lower wave plate 302, the lower wave plate 302 mainly plays a role of bearing cloth, and the upper wave plate 301 mainly plays a role of impacting cloth;

a nozzle internal flow passage 311 is arranged in the nozzle 31, one end of the nozzle internal flow passage 311 is connected with the overflow pipe 30, the other end of the nozzle internal flow passage 311 is connected with a material inlet and outlet 312, the two material inlet and outlet 312 are respectively set as a material inlet end and a material outlet end, the material inlet and outlet 312 is used for the material to enter and exit the nozzle 31, the nozzle internal flow passage 311 is respectively provided with a double-spray-head component 313 in up-and-down symmetry, the double-spray-head component 313 comprises an outer rolling plate 314, an inner rolling plate 315 and a vertical partition plate 316, the outer rolling plate 314 and the inner rolling plate 315 are both in a C-shaped structure and have opposite openings, a first spray head 317 and a second spray head 318 are formed by the gaps between the wing plates at the two ends of the inner rolling plate 315 and the wing plates at the two ends of the outer rolling plate 314, the first spray head 317 and the second spray head 318 are both opposite to the, the inner cavity of the outer rolling plate 314 is divided into two chambers, one chamber is communicated with a first spray head 317, the other chamber is communicated with a second spray head 318, and the first spray head 317 and the second spray head 318 are respectively connected with a water supply device through pipelines;

the water supply device comprises two groups of water supply assemblies 40, the two groups of water supply assemblies 40 are respectively arranged on two sides of the water tank 2, each water supply assembly 40 is composed of a water pump 401, a water delivery main pipe 402, water delivery branch pipes 403, a heat exchanger 405 and an electric three-way ball valve 404, in each water supply assembly 40, the water pump 401 is connected with the water delivery main pipe 402, the heat exchanger 405 is arranged on the water delivery main pipe 402, the water delivery main pipe 402 is connected with the two water delivery branch pipes 403 through the electric three-way ball valve 404, and the two water delivery branch pipes 403 are respectively connected with a first spray head 317 and a second spray head 318 on different spray nozzles 31; the water pump 401 pumps water from the outside, heats the water through the water delivery main pipe 402 and the heat exchanger 405, and then can spray the water from the first spray nozzle 317 and the second spray nozzle 318 after passing through the electric three-way ball valve 404 and the water delivery branch pipe 403, and enzyme lotion or sand lotion can be added into the water to promote the cloth finishing effect; the electric three-way ball valve 404 plays a role in controlling, the electric three-way ball valve 404 is controlled, and the on-off of the two water delivery branch pipes 403 connected with the electric three-way ball valve can be switched, so that the first spray head 317 or the second spray head 318 can be controlled to spray water.

The cross section of first shower nozzle 317 and second shower nozzle 318 is rectangular shape, is different from the ray form rivers that ordinary shower nozzle erupted, and the rivers that erupt from first shower nozzle 317 and second shower nozzle 318 are planar, therefore can all produce roughly the same impact force to each point on the same width direction of cloth for the cloth all can fully collide the passageway 303 in the overflow pipe 30 everywhere, further improves cloth arrangement effect.

Through the technical scheme, the method can realize that: the cloth enters from the cloth inlet end and passes through the nozzle inner flow passage 311 in one nozzle 31, the overflow pipe 30 and the nozzle inner flow passage 311 in the other nozzle 31, and then exits from the cloth outlet end; by switching the action of the electric three-way ball valves 404 in the two groups of water supply assemblies 40 at the same time, firstly, all the first spray nozzles 317 spray water, all the second spray nozzles 318 are closed, high-pressure water flow impacts the cloth, the water flow pressure is generally 5-8 bar, the cloth is driven to move to the cloth outlet end, and the moving distance is D1; then, all the first spray nozzles 317 are closed, all the second spray nozzles 318 spray water, and the high-pressure water impacts the cloth to drive the cloth to move in the reverse direction to the cloth and move to the cloth inlet end, wherein the moving distance is D2; the movement distance D1 is controlled to be larger than D2 by controlling the difference of the water spraying time of the first spray head 317 and the second spray head 318, the electric three-way ball valve 404 is switched back and forth, the cloth moves forwards in the overflow pipeline 30 in a reciprocating way, and the actual forward distance of one reciprocating stroke is approximately D1-D2; in the process of reciprocating forward movement of the cloth, the cloth interacts with the wall 303 of the wave fluctuation structure in the overflow pipeline 30 in a friction and impact manner, so that the texture, the flexibility and the like of the cloth are changed, and the after-treatment of the cloth is realized.

Two ends in the water tank 2 are respectively provided with a grating baffle 5, the grating baffles 5 are positioned at the cloth inlet and outlet 312, the grating baffles 5 are rotatably connected with the water tank 2 through a short shaft 50, and the angles of the grating baffles 5 are adjustable; the cloth rushes out from the cloth inlet/outlet 312 at a certain speed and then impacts the grid baffle 5, and the impact is also used for arranging the cloth, so that the arrangement effect of the equipment on the cloth is further improved, the grid baffle 5 can rotate during debugging, the angle with the best arrangement effect on the cloth is found through tests, and then the angle is fixed; the angle of the grid baffle 5 can be changed when different cloth materials are processed, the best angle for the cloth material arrangement effect is found through tests, and then the cloth material arrangement device is fixedly used.

The grid baffle 5 comprises two movable plates 51 arranged in parallel, a plurality of stainless steel pipes 52 are uniformly arranged between the two movable plates 51 at intervals, the stainless steel pipes 52 are fixedly connected with the movable plates 51 through ribs 53, the movable plates 51 are rotatably connected with the water tank 2 through short shafts 50, arc-shaped grooves 54 are formed in the movable plates 51 by taking the short shafts 50 as centers, through holes are formed in the side walls of the water tank 2 by taking the short shafts 50 as centers, the movable plates 51 are rotatably adjusted to proper positions, and bolts 56 penetrate through the through holes and the arc-shaped grooves 54 to be fixedly connected with the movable plates 51 and the water tank 2, so that the grid baffle 5 is fixed.

The cloth conveying grating plate 6 is arranged below the grating baffle 5, the cloth conveying grating plate 6 is of a V-shaped structure, one upper end of the cloth conveying grating plate extends to a cloth inlet and outlet 312, an auxiliary roller 7 can be arranged at the cloth inlet and outlet 312 and used for auxiliary conveying of cloth, so that the cloth enters the cloth inlet and outlet 312 through the inclined plane of the cloth conveying grating plate 6, and the cloth can be temporarily accommodated through the V-shaped structure of the cloth conveying grating plate 6.

The bottom surface in the water tank 2 is an inclined plane with two high ends and a low middle part, so that sewage is easily collected to the middle part, a water outlet 21 is formed in the middle of the bottom surface, and water stains carried on cloth fall into the water tank 2 through the cloth conveying grating plate 6 and then can be discharged through the water outlet 21.

The water outlet 21 is connected with the water pump 401 through a water return pipe, the filter 9 is installed on the water return pipe, and sewage in the water tank 2 flows back to the water pump 401 after being filtered, so that the sewage can be recycled, and the water consumption is saved.

In light of the above, the present invention is not limited to the above embodiments, and various changes and modifications can be made by the worker without departing from the scope of the present invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. Double-nozzle overflow enzyme washer, its characterized in that: the device comprises a frame, wherein a water tank, an enzyme washing device and a water supply device are arranged on the frame;

the enzyme washing device comprises an overflow pipeline which is horizontally arranged, two ends of the overflow pipeline are respectively provided with a nozzle, the overflow pipeline comprises an upper corrugated plate and a lower corrugated plate, and the inner wall of the upper corrugated plate and the inner wall of the lower corrugated plate are both of wave fluctuation structures;

a nozzle internal flow passage is arranged in the nozzle, one end of the nozzle internal flow passage is connected with the overflow pipeline, the other end of the nozzle internal flow passage is connected with a cloth inlet and outlet, the nozzle internal flow passage is respectively provided with a pair of spray head components in an up-and-down symmetrical manner, each spray head component comprises a first spray head and a second spray head, the first spray head and the second spray head face the nozzle internal flow passage and are obliquely arranged, and the first spray head and the second spray head are both connected with the water supply device through pipelines;

the water supply device comprises two groups of water supply assemblies, each water supply assembly comprises a water pump, a water delivery main pipe, water delivery branch pipes and an electric three-way ball valve, the water pumps are connected with the water delivery main pipes, the water delivery main pipes are connected with the two water delivery branch pipes through the electric three-way ball valves, and the two water delivery branch pipes are respectively connected with a first spray head and a second spray head.

2. The double nozzle overflow enzymatic washer of claim 1, wherein: two ends in the water tank are respectively provided with a grating baffle which is positioned at the cloth inlet and outlet, and the grating baffles are rotatably connected with the water tank through short shafts.

3. The double nozzle overflow enzymatic washer of claim 2, wherein: the grid baffle comprises two movable plates which are arranged in parallel, and a plurality of stainless steel pipes are uniformly arranged between the two movable plates at intervals.

4. The double nozzle overflow enzymatic washer of claim 2, wherein: a cloth conveying grating plate is arranged below the grating baffle, and is of a V-shaped structure, and one upper end of the cloth conveying grating plate extends to the cloth inlet and outlet.

5. The double nozzle overflow enzymatic washer of claim 1, wherein: the bottom surface in the water tank is an inclined plane with two high ends and a low middle part, and the middle part of the bottom surface is provided with a water outlet.

6. The double nozzle overflow enzyme washer of claim 5, wherein: the water outlet is connected with the water pump through a water return pipe, and a filter is installed on the water return pipe.

7. The double nozzle overflow enzymatic washer of claim 1, wherein: the double-nozzle assembly comprises an outer rolling plate, an inner rolling plate and a vertical partition plate, wherein the outer rolling plate and the inner rolling plate are of a C-shaped structure, openings of the outer rolling plate and the inner rolling plate are opposite, the bottom of the inner rolling plate is connected with the bottom of the outer rolling plate through the vertical partition plate, and gaps between wing plates at two ends of the inner rolling plate and wing plates at two ends of the outer rolling plate form the first nozzle and the second nozzle.