CN110219118B

CN110219118B - Double-nozzle overflow enzyme washing machine

Info

Publication number: CN110219118B
Application number: CN201910641435.7A
Authority: CN
Inventors: 赵科俭; 金立晗
Original assignee: Sangu Dongrui Advanced Technology Research Wuxi Co ltd
Current assignee: Sangu Dongrui Advanced Technology Research Wuxi Co ltd
Priority date: 2019-07-16
Filing date: 2019-07-16
Publication date: 2023-11-21
Anticipated expiration: 2039-07-16
Also published as: CN110219118A

Abstract

The invention 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, 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 of wave fluctuation structures, a wave-shaped channel is formed, the fluctuation degree of the inner wall of the upper wave plate is larger than that of the inner wall of the lower wave plate, the lower wave plate mainly plays a role in bearing cloth, and the upper wave plate plays a main role in impacting the cloth. The cloth finishing machine solves the problem of low efficiency of cloth finishing equipment in the prior art and has the advantages of high efficiency, good continuity and good cloth finishing effect.

Description

Double-nozzle overflow enzyme washing machine

Technical Field

The invention relates to the field of cloth finishing equipment, in particular to a double-nozzle overflow enzyme washing machine.

Background

The after-finishing is a technical treatment mode for endowing the fabric with color effect, morphological effect (smooth, suede, stiff and smooth and the like) and real effect (waterproof, non-felting, non-ironing, non-moth, flame-retardant and the like), and is a technical process for improving the appearance and the hand feeling of the fabric, improving the wearability or endowing special functions by a chemical or physical main method, and is a processing process of adding flowers to the fabric.

In the prior art, a mechanical method is mainly adopted to enable textiles to obtain comprehensive touch feeling such as softness, smoothness, plumpness, stiffness, thinness or thickness, and the like, and the finishing process is to put cloth into a roller, and continuously beat and knead the cloth through the rotation of the roller, so that finishing effects of improving the texture, softness, and the like of the cloth are achieved. However, the cloth finishing mode is low in efficiency, the cloth is put into the roller and taken out of the roller, the operation is discontinuous because the roller is required to be stopped, the size of the roller limits the rolling weight and the size of the cloth which can be finished, and the practicality is poor.

Disclosure of Invention

In view of the shortcomings of the background technology, the invention provides a double-nozzle overflow enzyme washing machine, and aims to solve the technical problem that in the prior art, equipment for cloth after-finishing is low in finishing efficiency.

In order to solve the technical problems, the invention provides the 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 a horizontally arranged overflow pipeline, 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 of wave-shaped channel, 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 mainly plays a role of impacting the cloth;

the inside of the nozzle is provided with an inside flow passage of the nozzle, one end of the inside flow passage of the nozzle is connected with an overflow pipeline, the other end of the inside flow passage of the nozzle is connected with a cloth inlet and outlet, the cloth inlet and outlet is used for feeding cloth into and out of the inside of the nozzle, the inside flow passage of the nozzle is provided with a double-nozzle assembly in an up-down symmetry mode, the double-nozzle assembly is provided with a first nozzle and a second nozzle, the first nozzle and the second nozzle face the inside flow passage of the nozzle and the injection route of fluid in the first nozzle and the second nozzle incline, and the first nozzle and the second nozzle are respectively connected with a water supply device through pipelines;

the water supply device comprises two groups of water supply components, the two groups of water supply components are respectively arranged at two sides of the water tank, each water supply component is composed of a water pump, a water delivery main pipe, a water delivery branch pipe, a heat exchanger and an electric three-way ball valve, the water pump is connected with the water delivery main pipe, the heat exchanger is arranged on the water delivery main pipe, the water delivery main pipe is connected with two paths of water delivery branch pipes through the electric three-way ball valve, the two paths of water delivery branch pipes are respectively connected with a first spray head and a second spray head, and the two paths of water delivery branch pipes can be connected with the first spray head and the second spray head on the same spray nozzle or can be connected with the first spray head and the second spray head on different spray nozzles; the water pump pumps water from the outside, and then heats the water through the water delivery main pipe, the heat exchanger, the electric three-way ball valve and the water delivery branch pipe, and then can spray from the first spray head and the second spray head, enzyme lotion and sand lotion can be added into the water, so that the cloth finishing effect is promoted; the electric three-way ball valve plays a control role, controls the electric three-way ball valve, and can switch the on-off of two paths of 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 be realized: the two cloth inlets and outlets are respectively arranged as a cloth inlet end and a cloth outlet end, and cloth enters from the cloth inlet end and passes through a nozzle internal flow channel in one nozzle, an overflow pipeline and a nozzle internal flow channel in the other nozzle and then exits from the cloth outlet end; by simultaneously switching the actions of the electric three-way ball valves in the two groups of water supply assemblies, 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 towards the outlet end of the cloth, wherein the moving distance is D1; then, all the first spray heads are closed, all the second spray heads spray water, high-pressure water impacts the cloth, and the cloth is driven to move reversely to the cloth and move to the inlet end of the cloth, wherein the moving distance is D2; the moving distance D1 is controlled to be more than D2 by controlling the water spraying time of the first spray head and the water spraying time of the second spray head to be different, the electric three-way ball valve is switched back and forth, and cloth is reciprocated in the overflow pipeline; in the reciprocating process of the cloth, the cloth interacts with the channel wall of the wavy structure in the overflow channel in a friction and impact mode, so that the texture, softness and the like of the cloth are changed, and the after-finishing of the cloth is realized.

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

Preferably, the grid baffle comprises two movable plates which are arranged in parallel, a plurality of stainless steel pipes are uniformly arranged between the two movable plates at intervals, the plurality of stainless steel pipes are fixedly connected with the movable plates through ribs, the movable plates are rotatably connected with a water tank through short shafts, arc-shaped grooves are formed in the movable plates by taking the short shafts as the centers, through holes are formed in the side walls of the water tank by taking the short shafts as the centers, and after the movable plates are rotationally adjusted to proper positions, the through holes and the arc-shaped grooves are fixedly connected with the movable plates and the water tank through bolts, so that the grid baffle is fixed.

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

Preferably, the inner bottom surface of the water tank is an inclined surface with high ends and low middle, sewage is easy to collect in the middle, a water outlet is formed in the middle of the bottom surface, and water stains carried on cloth fall into the water tank through the cloth conveying grating plate and 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 arranged on the water return pipe, sewage in the water tank flows back to the water pump after being filtered, sewage recycling can be realized, and water consumption is saved.

Preferably, the double-spray-head assembly comprises an outer coiled plate, an inner coiled plate and a vertical partition plate, wherein the outer coiled plate and the inner coiled plate are of C-shaped structures and are oppositely arranged in openings, gaps between wing plates at two ends of the inner coiled plate and wing plates at two ends of the outer coiled plate form a first spray head and a second spray head, the bottom of the inner coiled plate is connected with the bottom of the outer coiled plate through the vertical partition plate, an inner cavity of the outer coiled plate is divided into two cavities, one cavity is communicated with the first spray head, the other cavity is communicated with the second spray head, the cross sections of the first spray head and the second spray head are of strip shapes, the cross sections of the first spray head and the second spray head are different from the linear water flow sprayed by the common spray head, and the water flow sprayed from the first spray head and the second spray head are of plane shapes, so that approximately the same impact force can be generated on each point on the same width direction of cloth, the cloth can be fully collided with the channels in overflow pipelines.

Compared with the prior art, the invention has at least the following beneficial effects:

1) The principle of arranging the cloth by the machine is different from other arranging equipment in the prior art, the overflow pipeline with the wavy structure channel collides with the cloth and rubs the cloth fully, the cloth can be repeatedly arranged in the overflow pipeline for a plurality of times, the good cloth texture and softness effect can be achieved, and the cloth arranging efficiency is greatly improved;

2) The whole roll of cloth is rolled after unreeling, entering the overflow pipeline and discharging the overflow pipeline, and is different from the condition that the cloth is subjected to repeated shutdown in the roller, when the machine works, the cloth is fed in and discharged out of the overflow pipeline, the machine is not stopped in the middle, and the cloth is rolled after reaching the expected effect, and the whole process is continuous, so that the working efficiency is improved;

3) The nozzle design of this machine is ingenious, and the rivers impact force can be received to the cloth of process everywhere in width direction for the passageway in the overflow pipeline can fully be collided everywhere to the cloth, has improved the arrangement effect to the cloth.

Drawings

The invention has the following drawings:

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

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

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

FIG. 4 is a schematic view of a grille shutter according to 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 according to the present invention.

Reference numerals illustrate: 1. the device comprises a rack, 2, a water tank, 3, an enzyme washing device, 30, an overflow pipeline, 31, a nozzle, 301, an upper wave plate, 302, a lower wave plate, 303, a channel, 311, a nozzle inner runner, 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 main 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, ribs, 54, an arc groove, 56, bolts, 6, a cloth delivery grid plate, 7, an auxiliary roller, 8 and a filter.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the 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 of wave-shaped channel 303, the fluctuation degree of the inner wall of the upper wave plate 301 is larger 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 plays a role of mainly striking the cloth;

the inside of the nozzle 31 is provided with a nozzle inner flow passage 311, one end of the nozzle inner flow passage 311 is connected with an overflow pipeline 30, the other end of the nozzle inner flow passage 311 is connected with a cloth inlet and outlet 312, the two cloth inlets and outlets 312 are respectively set as a cloth inlet and outlet, the cloth inlet and outlet 312 is used for feeding cloth into and out of the inside of the nozzle 31, the nozzle inner flow passage 311 is provided with a double-nozzle assembly 313 in an up-down symmetrical mode, the double-nozzle assembly 313 comprises an outer coiled plate 314, an inner coiled plate 315 and a vertical baffle 316, the outer coiled plate 314 and the inner coiled plate 315 are of C-shaped structures and are oppositely arranged, gaps between wing plates at two ends of the inner coiled plate 315 and wing plates at two ends of the outer coiled plate 314 form a first nozzle 317 and a second nozzle 318, the first nozzle 317 and the second nozzle 318 are opposite to the nozzle inner flow passage 311, the first nozzle 317 and the second nozzle 318 are inclined, the bottom of the inner coiled plate 315 is connected with the bottom of the outer coiled plate 314 through the vertical baffle 316, the inner cavity of the outer coiled plate 314 is divided into two chambers, the first nozzle 317 and the other chamber is communicated with the second nozzle 318 through the first nozzle 317 and the second nozzle 318 through pipelines respectively;

the water supply device comprises two groups of water supply assemblies 40, the two groups of water supply assemblies 40 are respectively arranged at 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, a water delivery branch pipe 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 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 sprays the water through the electric three-way ball valve 404 and the water delivery branch pipe 403 from the first spray head 317 and the second spray head 318, 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 control role, controls the electric three-way ball valve 404, and can switch on and off of two water delivery branch pipes 403 connected with the electric three-way ball valve, so that water spray of the first spray head 317 or the second spray head 318 can be controlled.

The cross sections of the first spray head 317 and the second spray head 318 are long strips, and are different from the linear water flow sprayed by the common spray head, the water flow sprayed from the first spray head 317 and the second spray head 318 is in a plane shape, so that approximately the same impact force can be generated on each point of the cloth in the same width direction, the positions of the cloth can fully collide with the channel 303 in the overflow pipeline 30, and the cloth finishing effect is further improved.

Through the technical scheme, the method can be realized: the cloth enters from the inlet end of the cloth and passes through the nozzle internal flow passage 311 in one nozzle 31, the overflow pipeline 30 and the nozzle internal flow passage 311 in the other nozzle 31 and then exits from the outlet end of the cloth; by simultaneously switching the actions of the electric three-way ball valves 404 in the two groups of water supply assemblies 40, firstly, all the first spray heads 317 spray water, all the second spray heads 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 towards the outlet end of the cloth, and the moving distance is D1; then, all the first spray heads 317 are closed, all the second spray heads 318 spray water, and the high-pressure water impacts the cloth to drive the cloth to move reversely to the cloth and to the inlet end of the cloth, wherein the moving distance is D2; by controlling the water spraying time of the first spray head 317 and the second spray head 318 to be different, and controlling the moving distance D1 to D2, the electric three-way ball valve 404 is switched back and forth, the cloth is reciprocated in the overflow pipeline 30, and the actual advancing distance of one reciprocating stroke is approximately D1 to D2; in the reciprocating process of the cloth, the cloth interacts with the wall of the channel 303 of the wave fluctuation structure in the overflow pipeline 30 in a friction and impact mode, so that the texture, softness and the like of the cloth are changed, and the after-finishing of the cloth is realized.

Two ends in the water tank 2 are respectively provided with a grid baffle 5, the grid baffles 5 are positioned at the cloth inlet and outlet 312, the grid baffles 5 are rotatably connected with the water tank 2 through short shafts 50, and the angle of the grid baffles 5 is adjustable; the cloth is impacted on the grating baffle plate 5 after being punched out from the cloth inlet and outlet 312 at a certain speed, and the impact is also used for finishing the cloth, so that the finishing effect of the equipment on the cloth is further improved, the grating baffle plate 5 can rotate during debugging, and the angle with the best finishing effect on the cloth is found through a test and then is fixed; the angle of the grating baffle plate 5 can be changed when different fabrics are processed, and then the angle with the best cloth finishing effect can be found through experiments and then is fixed for use.

The grid baffle 5 comprises two movable plates 51 which are arranged in parallel, a plurality of stainless steel pipes 52 are uniformly arranged between the two movable plates 51 at intervals, the plurality of 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 grooves 54 are formed in the movable plates 51 by taking the short shafts 50 as the centers, through holes are formed in the side walls of the water tank 2 by taking the short shafts 50 as the centers, after the movable plates 51 are rotationally adjusted to a proper position, bolts 56 are used for penetrating through the through holes and the arc grooves 54 to fixedly connect the movable plates 51 with the water tank 2, and therefore the grid baffle 5 is fixed.

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

The inner bottom surface of the water tank 2 is an inclined surface with high two ends and low middle, sewage is easy to collect in the middle, 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 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 arranged on the water return pipe, sewage in the water tank 2 flows back to the water pump 401 after being filtered, sewage recycling can be realized, and water consumption is saved.

The present invention has been made in view of the above-described circumstances, and it is an object of the present invention to provide a portable electronic device capable of performing various changes and modifications without departing from the scope of the technical spirit of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims

1. Double nozzle overflow enzyme washes machine, its characterized in that: the enzyme washing 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 wave plate and a lower wave plate, and the inner walls of the upper wave plate and the lower wave plate are of wave fluctuation structures;

the inside of the nozzle is provided with a nozzle inner flow passage, one end of the nozzle inner flow passage is connected with the overflow pipeline, the other end of the nozzle inner flow passage is connected with the cloth inlet and outlet, the nozzle inner flow passage is respectively provided with a double-nozzle assembly in an up-down symmetry mode, the double-nozzle assembly comprises a first nozzle and a second nozzle, the first nozzle and the second nozzle are both oriented to the nozzle inner flow passage and are obliquely arranged, and the first nozzle and the second nozzle are both connected with the water supply device through pipelines;

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

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

3. The double nozzle overflow enzyme 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 enzyme washer of claim 2, wherein: the cloth conveying grating plate is arranged below the grating baffle plate, the cloth conveying grating plate 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 enzyme washer of claim 1, wherein: the inner bottom surface of the water tank is an inclined surface with high ends and low middle parts, and a water outlet is formed in the middle of the bottom surface.

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 arranged on the water return pipe.

7. The double nozzle overflow enzyme washer of claim 1, wherein: the double-spray-head assembly comprises an outer coiled plate, an inner coiled plate and a vertical partition plate, wherein the outer coiled plate and the inner coiled plate are of C-shaped structures and are oppositely arranged in openings, the bottom of the inner coiled plate is connected with the bottom of the outer coiled plate through the vertical partition plate, and gaps between wing plates at two ends of the inner coiled plate and wing plates at two ends of the outer coiled plate form the first spray head and the second spray head.