CN114575087B

CN114575087B - Winding-free cleaning equipment for fashionable dress processing production

Info

Publication number: CN114575087B
Application number: CN202210478069.XA
Authority: CN
Inventors: 吴亚斌
Original assignee: Nantong Mutual Benefit Clothing Co ltd
Current assignee: Nantong Rudong Fengbo Clothing Co.,Ltd.
Priority date: 2022-05-05
Filing date: 2022-05-05
Publication date: 2022-07-22
Anticipated expiration: 2042-05-05
Also published as: CN114575087A

Abstract

The invention discloses winding-free cleaning equipment for fashionable dress processing production, and relates to the technical field of fashionable dress processing equipment. Above-mentioned scheme, it is rotatory along the inner chamber in whirl chamber through setting up the wedge oar, and then drive the washing liquid that washs the cavity inside and stir, the stirring rivers that the washing liquid production of wasing the cavity bottom pass the overflow hole and slowly rotate, further be the structure of "scissors" form through the overflow hole, stability when increasing rivers liquid and passing, the fashion dress that drives the washing cavity inside rotates and does not produce the stirring through rivers, and then drive washing liquid and smooth the surface in needs washing fashion.

Description

Winding-free cleaning equipment for fashionable dress processing production

Technical Field

The invention relates to the technical field of fashion processing equipment, in particular to winding-free cleaning equipment for fashion processing production.

Background

After the fashion is produced, the fashion product needs to be cleaned, dried, ironed and the like, so that the fashion product is clean and neat and is convenient to sell; present fashion manufacturing enterprise, the cleaning equipment structure of use is similar to washing machine, and the mode of washing in should makes the fashion stir in inside, especially longer fashion products such as trousers, twines together in the cleaning process, need spend the plenty of time after the washing and separate the fashion, just can carry out subsequent stoving and iron.

Through retrieval, chinese patent publication No. CN108642770A discloses a winding-free cleaning device for garment processing, which discloses that when cleaning is needed, clothes and water are put into a cleaning cavity, under the action of a controller, a stirring motor is started to drive a stirring shaft to rotate, stirring blades stir, a circulating pump pumps out water in an isolation barrel, then the water is sprayed out from a circulating pipe through a nozzle and sprayed onto the clothes for cleaning, the circulation is reciprocating, the clothes are not easy to wind, water is discharged from a water outlet pipe after cleaning is completed, dirt on the surface of the fashion itself is not easy to clean in a simple spraying process, functional cleaning can not be performed according to cleaning conditions of different fashionable dresses, in addition, in the cleaning process, stubborn dirt can not be thoroughly cleaned by spraying alone, and the cleaning effect is not good.

Therefore, the application provides a fashion processing production satisfies the demand with exempting from to twine cleaning equipment.

Disclosure of Invention

The application aims to provide a winding-free cleaning device for fashion processing production, and aims to solve the problems brought forward by the background.

In order to achieve the above purpose, the present application provides the following technical solutions: a winding-free cleaning device for fashion processing production comprises an installation cavity, a display assembly, a control assembly, a cleaning cavity, a transmission assembly, a gain mechanism, a frequency-vibrating mechanism and a spraying mechanism, wherein the transmission assembly is arranged on the installation cavity;

the utility model discloses a washing device of fashion, including installation cavity inner chamber, gain mechanism, injection mechanism, drive assembly install in one side of installation cavity inner chamber and to gain mechanism and quiver the inside of mechanism frequently provides rotary power, gain mechanism is fixed in one side of drive assembly, gain mechanism washs the fashion and stirs, quiver the mechanism install in one side of gain mechanism frequently, gain mechanism washs the fashion and vibrates, injection mechanism is the vertical slope form install in wash the inside one side of cavity, injection mechanism sprays the washing to the fashion.

Preferably, the transmission assembly comprises a driving motor, a speed reducer and a sealing plate, the gain mechanism comprises a protective sleeve and a convection partition plate, the output end of the speed reducer penetrates through one side of the sealing plate and one side of the gain mechanism, one side of the protective sleeve and one side of the sealing plate are hermetically mounted, and a wedge-shaped paddle for stirring and cleaning liquid is fixedly sleeved on the surface of the output end of the speed reducer.

Preferably, a rotational flow cavity is formed in the protective sleeve, the wedge-shaped paddles are rotatably mounted in the rotational flow cavity, flow guide holes are formed in the surface of each wedge-shaped paddle, the cross section of each wedge-shaped paddle is of a wavy line-shaped structure, the number of the wedge-shaped paddles is four, the wedge-shaped paddles are fixedly sleeved on the surface of the output end of the speed reducer in a pairwise symmetric manner, annular flow guide grooves are formed in the top and the bottom of the inner cavity of the rotational flow cavity, and the flow guide holes are of a triangular structure and are formed in the surface of each wedge-shaped paddle.

Preferably, a plurality of overflow holes have been seted up on the surface of convection current baffle, the overflow hole is the form of running in parallel and arranges, the discharge orifice has been seted up on the surface of convection current baffle, the discharge orifice is seted up along the central line symmetry of convection current baffle, the discharge orifice is "scissors" hollow structure, just one side in overflow hole and discharge orifice with the inside in whirl chamber is linked together, the diameter of convection current baffle is less than the diameter of closing plate.

Preferably, the conversion water pump is installed to the inside one side of installation cavity, one side intercommunication of conversion water pump has first conveyer pipe, one side intercommunication of conversion water pump has the second conveyer pipe, first conveyer pipe and second conveyer pipe are in inside one side of installation cavity is passed through the conversion water pump forms the circulation column structure, the inlet tube is installed through the three-way valve in one side of conversion water pump, the inlet tube is connected with outside flow valve, the both sides of first conveyer pipe and second conveyer pipe connect respectively install in the both sides of three-way valve.

Preferably, the surface mounting who washs cavity inner chamber has liquid to carry the assembly, one side of injection mechanism runs through the inside of liquid transport assembly, injection mechanism includes adapter sleeve, sealing washer and support frame, the adapter sleeve connect install in the inside of liquid transport assembly, the both sides of support frame respectively fixed mounting in the both sides of sealing washer, the spray pipe is installed in the connection of one side of sealing washer, the inside of spray pipe is hollow structure, one side of spray pipe run through the inside of sealing washer with one side inside the adapter sleeve is connected.

Preferably, the both sides of support frame are the triangle of right angle column structure respectively, one side slidable mounting of support frame has the sliding block, the triangle of right angle column structure of support frame both sides respectively with the both sides connection installation of sliding block, one side slidable mounting of support frame has the convection current cavity, the surface of convection current cavity both sides seted up with the spout of the triangle of support frame both sides right angle column structure both sides looks adaptation, the inside movable mounting of convection current cavity has the compression cover, the compression cover is the compression column structure, one side of convection current cavity and compression cover with one side of shower nozzle is mutually perpendicular, one side connection of convection current cavity installs the current-limiting plate, the current-limiting plate is the annular column structure, the flow distribution plate has been seted up on the surface of current-limiting plate one side.

Preferably, quiver mechanism including quiver frequently the cavity, the reaction cavity and to frequently the dish, the diameter of reaction cavity is less than quiver frequently the diameter of cavity, to the inside fixed mounting who frequently the dish there is the sliding sleeve, the sliding sleeve runs through the inside of dish and reaction cavity frequently, the inside slidable mounting of sliding sleeve has the vibration round pin axle, the bottom of sliding sleeve is for lining up the column structure, the metal guide piece has been seted up to the inside one side of reaction cavity, the metal guide piece be the twill form laminate in one side of sliding sleeve bottom.

Preferably, one side of the metal guide sheet is provided with a magnetic conductive coil, a metal oxide body is attached to the bottom of the magnetic conductive coil, a permanent magnet is fixedly mounted on one side of the metal oxide body, the permanent magnet is of a bidirectional symmetrical structure and is opposite in polarity, a magnetic core is mounted on one side of the permanent magnet, one side of the magnetic core is connected and mounted on the surface of one side of the permanent magnet, the other side of the magnetic core abuts against one side of the metal oxide body, the metal guide sheet is made of brass, and one side of the magnetic conductive coil and the metal guide sheet are connected and mounted.

In conclusion, the technical effects and advantages of the invention are as follows:

1. above-mentioned scheme, it is rotatory along the inner chamber in whirl chamber through setting up the wedge oar, and then drive the washing liquid that washs the cavity inside and stir, the stirring rivers that the washing liquid that washs the cavity bottom produced pass the overflow hole and slowly rotate, further be the structure of "scissors" form through the overflow hole, stability when increasing rivers liquid and passing, the fashion that the drive washs the cavity inside rotates through rivers and does not produce and stir, and then drive washing liquid and touch the surface in the fashion that needs wash.

2. Above-mentioned scheme further sets up the water source that the spray line spun and gathers together through the current-limiting plate, annular rivers body in forming, shunts the operation to the water source through the flow distribution plate of current-limiting plate one side, and the cooperation injection mechanism is whole to be slope column structure, sprays water source or other washing liquid to the surface that needs wash the fashion, increases the cleaning performance to the fashion, sprays impurity or filth and handles.

3. In the proposal, the vibrating pin shaft generates upward movement force along the inside of the sliding sleeve and then abuts against the surface of the convection partition plate to generate high-frequency vibration, so that the inner cavity of the cleaning cavity generates cavitation to clean the fashionable dress of the inner cavity of the cleaning cavity, wherein, the vibration frequency of the vibration pin shaft is controlled by controlling the current effect of the permanent magnet, so as to drive the vibration pin shaft to reciprocate, when the vibration pin shaft is abutted against the bottom of the convection baffle plate and generates vibration treatment in the inner cavity of the cleaning cavity, the vibration force transmitted to the liquid medium can generate alternate high-pressure and low-pressure circulation, during low pressure cycling, the high magnitude of the vibratory force can create small vacuum bubbles or voids in the liquid, when the bubbles reach a volume where they can no longer absorb energy, they collapse violently during the high pressure cycle to perform an adherent cleaning of the fashion surface, further enhancing the cleaning effect.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic diagram of the gain mechanism of the present invention;

FIG. 4 is a schematic view of the internal structure of the protective cover of the present invention;

FIG. 5 is a schematic view of a liquid circulation structure according to the present invention;

FIG. 6 is a schematic view of the overall side structure of the present invention;

FIG. 7 is a schematic view of the spray mechanism of the present invention;

fig. 8 is a schematic structural diagram of the dithering mechanism of the present invention.

In the figure: 1. installing a cavity; 2. a display component; 3. a control component; 4. cleaning the cavity; 5. a transmission assembly; 6. a gain mechanism; 7. a dithering mechanism; 8. an injection mechanism; 11. converting a water pump; 12. a first delivery pipe; 13. a second delivery pipe; 14. a water inlet pipe; 51. a drive motor; 52. a speed reducer; 53. a sealing plate; 61. a protective sleeve; 62. a convective partition; 63. an overflow aperture; 64. a blow-off hole; 65. a vortex chamber; 66. a wedge paddle; 67. a flow guide hole; 71. a dithering cavity; 72. a reaction chamber; 73. a frequency matching disc; 74. a sliding sleeve; 75. vibrating the pin shaft; 76. a metal oxide; 77. a magnetic conductive coil; 78. a magnetic core; 79. a permanent magnet; 81. connecting sleeves; 82. a seal ring; 83. a support frame; 84. a spray tube; 85. a slider; 86. a convection cavity; 87. compressing the sleeve; 88. a flow-limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The embodiment is as follows: referring to fig. 1-8, the winding-free cleaning equipment for fashion processing production comprises a mounting cavity 1, a display assembly 2, a control assembly 3, a cleaning cavity 4, a transmission assembly 5, a gain mechanism 6, a frequency-shaking mechanism 7 and a spraying mechanism 8;

drive assembly 5 installs in one side of installation cavity 1 inner chamber and provides rotary power to gain mechanism 6 and the inside of quivering mechanism 7 frequently, and gain mechanism 6 is fixed in one side of drive assembly 5, and gain mechanism 6 stirs to the time dress washing, quivers frequently mechanism 7 and installs in one side of gain mechanism 6, and gain mechanism 6 vibrates to the time dress washing, and injection mechanism 8 is the vertical slope form and installs in the inside one side of wasing cavity 4, and injection mechanism 8 is to the time dress spray washing.

In this embodiment, the transmission assembly 5 includes a driving motor 51, a speed reducer 52 and a sealing plate 53, the gain mechanism 6 includes a protecting cover 61 and a convection partition plate 62, an output end of the speed reducer 52 penetrates through the sealing plate 53 and one side of the gain mechanism 6, one side of the protecting cover 61 and one side of the sealing plate 53 are hermetically installed, and a wedge-shaped paddle 66 for stirring the cleaning liquid is fixedly sleeved on a surface of the output end of the speed reducer 52.

In this embodiment, the inside of lag 61 is seted up there is the whirl chamber 65, wedge oar 66 rotates and installs in the inside in whirl chamber 65, water conservancy diversion hole 67 has been seted up on the surface of wedge oar 66, the cross-section of wedge oar 66 is "wave line" column structure, the quantity of wedge oar 66 is four groups, wedge oar 66 is the fixed cover of two bisymmetry forms and connects in the surface of reduction gear 52 output, annular guiding gutter has been seted up to the top and the bottom of whirl chamber 65 inner chamber, water conservancy diversion hole 67 is the surface that the triangle column structure was seted up in wedge oar 66.

In this embodiment, the speed reducer 52 and the wedge-shaped paddles 66 are arranged at an angle of 15 ° to 35 °, so that the radial mixing effect of the wedge-shaped paddles 66 can be increased, the number of the wedge-shaped paddles 66 is four, and the diameter of the wedge-shaped paddles 66 is smaller than that of the inner cavity of the swirling chamber 65.

In this embodiment, the diversion holes 67 are arranged on the surface of the wedge-shaped paddle 66 in a triangular structure, wherein the shape of the diversion holes 67 is not limited to the structure shown in fig. 4, and may be equally replaced by other structures such as a triangle or a polygon, but the arrangement mode is such that the triangular structure increases the stability of the water flow when passing through.

In this embodiment, a plurality of overflow holes 63 are formed in the surface of the convection partition plate 62, the overflow holes 63 are arranged in parallel, an overflow hole 64 is formed in the surface of the convection partition plate 62, the overflow holes 64 are symmetrically formed along the center line of the convection partition plate 62, the overflow holes 63 and one side of the overflow holes 64 are communicated with the inside of the rotational flow cavity 65, and the diameter of the convection partition plate 62 is smaller than that of the sealing plate 53.

In this embodiment, wherein, the inside of wasing cavity 4 adds has washing liquid, gain mechanism 6, tremble frequently mechanism 7 and injection mechanism 8 and install in the inside of wasing cavity 4, start driving motor 51 and carry out work, driving motor 51's output is slowed down through reduction gear 52, rotate by reduction gear 52's output, it is rotatory to drive wedge-shaped oar 66 along the inner chamber of whirl chamber 65, and then drive the washing liquid of wasing the inside of cavity 4 and stir, wherein, overflow hole 63 fixed mounting is in the inside of wasing cavity 4, and diameter looks adaptation.

In this embodiment, the stirring water flow generated by the cleaning liquid at the bottom of the cleaning cavity 4 passes through the overflow hole 63 to slowly rotate, and further passes through the overflow hole 64 to form a scissors-shaped structure, so that the stability of the passing water flow liquid is improved, the fashionable dress in the cleaning cavity 4 is driven to rotate through the water flow without stirring, and the cleaning liquid is driven to move on the surface of the fashionable dress to be cleaned.

In this embodiment, the conversion water pump 11 is installed to one side of installation cavity 1 inside, one side intercommunication of conversion water pump 11 has first conveyer pipe 12, one side intercommunication of conversion water pump 11 has second conveyer pipe 13, first conveyer pipe 12 and second conveyer pipe 13 form the circulation column structure through conversion water pump 11 in installation cavity 1's inside one side, inlet tube 14 is installed through the three-way valve in one side of conversion water pump 11, inlet tube 14 and outside flow valve are connected, the both sides of first conveyer pipe 12 and second conveyer pipe 13 are connected respectively and are installed in the both sides of three-way valve.

In this embodiment, one side of the second delivery pipe 13 penetrates through the sealing plate 53 and the bottom of the cleaning chamber 4, and is connected to one side of the inner cavity of the cleaning chamber 4, and the water source in the water inlet pipe 14 is driven to be delivered to the inside of the second delivery pipe 13 by the start of the switching water pump 11, and then delivered to the inner cavity of the cleaning chamber 4, so as to form a water supply operation.

In this embodiment, a liquid delivery assembly is installed on the surface of the inner cavity of the cleaning cavity 4, one side of the injection mechanism 8 penetrates through the inside of the liquid delivery assembly, the injection mechanism 8 includes a connection sleeve 81, a sealing ring 82 and a support frame 83, the connection sleeve 81 is connected and installed inside the liquid delivery assembly through a thread assembly structure, two sides of the support frame 83 are respectively and fixedly installed on two sides of the sealing ring 82, one side of the sealing ring 82 is connected and installed with a spray pipe 84, the inside of the spray pipe 84 is a hollow structure, and one side of the spray pipe 84 penetrates through the inside of the sealing ring 82 and is connected with one side of the inside of the connection sleeve 81, so as to add an external water source or cleaning liquid.

In this embodiment, the first delivery tube 12 is connected to the liquid delivery assembly on one side and has a tubular structure as a whole.

In this embodiment, two sides of the supporting frame 83 are respectively a right-angled triangle structure to increase stability, a sliding block 85 is slidably mounted on one side of the supporting frame 83, the right-angled triangle structures on two sides of the supporting frame 83 are respectively connected with two sides of the sliding block 85, a convection cavity 86 is slidably mounted on one side of the supporting frame 83, sliding grooves matched with two sides of the right-angled triangle structures on two sides of the supporting frame 83 are formed in the surfaces of two sides of the convection cavity 86 to slide, a compression sleeve 87 is movably mounted inside the convection cavity 86, the compression sleeve 87 is a compression structure, one side of the convection cavity 86 and one side of the compression sleeve 87 are perpendicular to one side of the spraying pipe 84, a current-limiting plate 88 is connected to one side of the convection cavity 86, the current-limiting plate 88 is an annular structure, and a splitter plate is disposed on the surface of one side of the current-limiting plate 88.

In this embodiment, the water source inside the connection sleeve 81 is conveyed to the inside of the liquid conveying assembly through the above-mentioned switching water pump 11 and the first conveying pipe 12, the connection sleeve 81 is conveyed to the inside of the spraying pipe 84, as shown in fig. 7, the diameter of one side of the connection sleeve 81 to the spraying pipe 84 is gradually reduced, and then the water source is driven to spray the water source to one side of the convection cavity 86 and the compression sleeve 87 through the laval nozzle effect, and further the compression sleeve 87 is driven to compress inside the convection cavity 86. The convection cavity 86 is impacted to drive one side of the sliding block 85 and one side of the supporting frame 83 to slide along the outer side of the convection cavity 86 and one side of the supporting frame 83 respectively to offset the force.

In this embodiment, the water source sprayed from the spraying pipe 84 is gathered by the flow restriction plate 88 to form an inner annular water fluid, and the water source is divided by the flow dividing plate on one side of the flow restriction plate 88, and the spraying mechanism 8 is integrally inclined to spray the water source or other cleaning liquid to the surface of the fashion to be cleaned, so as to increase the cleaning effect of the fashion and spray impurities or dirt.

In this embodiment, tremble mechanism 7 including tremble the cavity 71 frequently, reaction cavity 72 and to frequently coil 73, reaction cavity 72's diameter is less than tremble the diameter of frequently cavity 71, to the inside fixed mounting who frequently coils 73 have a sliding sleeve 74, sliding sleeve 74 runs through to the inside of frequently coil 73 and reaction cavity 72, sliding sleeve 74's inside slidable mounting has vibration pin axle 75, sliding sleeve 74's bottom is for lining up the column structure, the metal guide has been seted up to the inside one side of reaction cavity 72, the metal guide is the twill form and laminates in one side of sliding sleeve 74 bottom.

In this embodiment, a magnetic coil 77 is disposed on one side of the metal conductive sheet, a metal oxide body 76 is bonded to the bottom of the magnetic coil 77, a permanent magnet 79 is fixedly mounted on one side of the metal oxide body 76, the permanent magnet 79 has a bilaterally symmetrical structure and opposite polarities, a magnetic core 78 is mounted on one side of the permanent magnet 79, one side of the magnetic core 78 is connected to and mounted on the surface of one side of the permanent magnet 79, the other side of the magnetic core 78 is in contact with one side of the metal oxide body 76, the metal conductive sheet is made of brass, and one side of the magnetic coil 77 is connected to and mounted on the metal conductive sheet.

In this embodiment, the permanent magnet 79 is correspondingly mounted on one side of the magnetic core 78, on the outer side of the coil bobbin, and the mounting direction is set in different polarities N and S, when a current is applied to the permanent magnet 79, the N pole and the S pole generated by the permanent magnet 79 repel each other, and abut against the magnetic core 78 to be magnetically guided by the metal oxide 76, as shown in fig. 8, a grid-shaped magnetic trend is generated, and the sliding sleeve 74 is wrapped on one side of the metal guide piece by further guiding of the magnetic conductive coil 77.

In this embodiment, the vibrating pin 75 is made of iron, and the vibrating pin 75 is driven to generate an upward moving force along the inside of the sliding sleeve 74, so as to abut against the surface of the convection partition plate 62 to generate high-frequency vibration, so that the inner cavity of the cleaning cavity 4 generates a cavitation effect, and the fashion of the inner cavity of the cleaning cavity 4 is cleaned, wherein the magnitude of the current effect of the permanent magnet 79 is controlled to control the vibration frequency of the vibrating pin 75, and further the vibrating pin 75 is driven to generate a reciprocating motion.

In this embodiment, the current controlled by the permanent magnet 79 is a pulsed current.

In this embodiment, the cavitation referred to above is that when the vibration treatment is generated in the inner cavity of the cleaning chamber 4 by the vibrating pin 75 abutting against the bottom of the convective partition 62, the vibration force propagating into the liquid medium will generate alternating high pressure and low pressure cycles, during which the high intensity vibration force will generate small vacuum bubbles or voids in the liquid, and when the bubbles reach a volume where they can no longer absorb energy, they will violently collapse in the high pressure cycles to perform the adhesion cleaning of the fashion surface, further enhancing the cleaning effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a fashion processing production is with exempting from winding cleaning equipment, includes installation cavity (1), display module (2), control assembly (3) and washing cavity (4), its characterized in that: the device also comprises a transmission assembly (5), a gain mechanism (6), a dithering mechanism (7) and a spraying mechanism (8);

the transmission assembly (5) is installed on one side of an inner cavity of the installation cavity (1) and provides rotating power for the inside of the gain mechanism (6) and the vibration frequency mechanism (7), the gain mechanism (6) is fixed on one side of the transmission assembly (5), the gain mechanism (6) stirs the time-lapse assembled cleaning, the vibration frequency mechanism (7) is installed on one side of the gain mechanism (6), the gain mechanism (6) vibrates the time-lapse assembled cleaning, the injection mechanism (8) is vertically installed on one side of the inside of the cleaning cavity (4) in an inclined mode, and the injection mechanism (8) performs injection cleaning in time-lapse assembly;

the transmission assembly (5) comprises a driving motor (51), a speed reducer (52) and a sealing plate (53), the gain mechanism (6) comprises a protective sleeve (61) and a convection partition plate (62), the output end of the speed reducer (52) penetrates through the sealing plate (53) and one side of the gain mechanism (6), one side of the protective sleeve (61) and one side of the sealing plate (53) are hermetically mounted, and a wedge-shaped paddle (66) for stirring and cleaning liquid is fixedly sleeved on the surface of the output end of the speed reducer (52);

a rotational flow cavity (65) is formed in the protective sleeve (61), the wedge-shaped paddles (66) are rotatably mounted in the rotational flow cavity (65), flow guide holes (67) are formed in the surface of each wedge-shaped paddle (66), the cross sections of the wedge-shaped paddles (66) are of a wavy line structure, the number of the wedge-shaped paddles (66) is four, the wedge-shaped paddles (66) are fixedly sleeved on the surface of the output end of the speed reducer (52) in a pairwise symmetrical manner, annular flow guide grooves are formed in the top and the bottom of the inner cavity of the rotational flow cavity (65), and the flow guide holes (67) are formed in the surface of the wedge-shaped paddles (66) in a triangular structure;

the surface of the convection partition plate (62) is provided with a plurality of overflow holes (63), the overflow holes (63) are arranged in a parallel manner, the surface of the convection partition plate (62) is provided with flushing holes (64), the flushing holes (64) are symmetrically arranged along the center line of the convection partition plate (62), the flushing holes (64) are of a 'scissors' hollow structure, the stability of flowing liquid passing through is improved, the clothes inside the cleaning cavity (4) are driven to rotate through water flow without stirring, one sides of the overflow holes (63) and the flushing holes (64) are communicated with the inside of the rotational flow cavity (65), and the diameter of the convection partition plate (62) is smaller than that of the sealing plate (53);

quiver mechanism (7) including quivering frequently cavity (71), reaction cavity (72) and to frequently dish (73), the diameter of reaction cavity (72) is less than quiver frequently the diameter of cavity (71), to the inside fixed mounting who frequently dish (73) have sliding sleeve (74), sliding sleeve (74) run through to the inside of frequently dish (73) and reaction cavity (72), the inside slidable mounting of sliding sleeve (74) has vibration pin axle (75), the bottom of sliding sleeve (74) is for lining up the column structure, the metal guide piece has been seted up to the inside one side of reaction cavity (72), the metal guide piece be the twill form laminate in one side of sliding sleeve (74) bottom.

2. The winding-free cleaning equipment for fashionable dress processing production as claimed in claim 1, characterized in that: conversion water pump (11) is installed to inside one side of installation cavity (1), one side intercommunication of conversion water pump (11) has first conveyer pipe (12), one side intercommunication of conversion water pump (11) has second conveyer pipe (13), first conveyer pipe (12) and second conveyer pipe (13) are in inside one side of installation cavity (1) is passed through conversion water pump (11) form circulation column structure, inlet tube (14) are installed through the three-way valve in one side of conversion water pump (11), inlet tube (14) are connected with outside flow valve, the both sides of first conveyer pipe (12) and second conveyer pipe (13) are connected respectively install in the both sides of three-way valve.

3. The winding-free cleaning equipment for fashionable dress processing production as claimed in claim 2, characterized in that: wash the surface mounting in cavity (4) inner chamber and have liquid to carry the assembly, one side of injection mechanism (8) is run through the inside of liquid transport assembly, injection mechanism (8) are including adapter sleeve (81), sealing washer (82) and support frame (83), adapter sleeve (81) connect install in the inside of liquid transport assembly, the both sides of support frame (83) respectively fixed mounting in the both sides of sealing washer (82), one side of sealing washer (82) is connected and is installed spray tube (84), the inside of spray tube (84) is hollow column structure, one side of spray tube (84) run through the inside of sealing washer (82) with one side of adapter sleeve (81) inside is connected.

4. The winding-free cleaning equipment for fashion processing production according to claim 3, wherein the winding-free cleaning equipment comprises: the both sides of support frame (83) are the right angle triangle column structure respectively, one side slidable mounting of support frame (83) has sliding block (85), the right angle triangle column structure of support frame (83) both sides respectively with the both sides of sliding block (85) are connected the installation, one side slidable mounting of support frame (83) has convection current cavity (86), the surface of convection current cavity (86) both sides seted up with the spout of support frame (83) both sides right angle triangle column structure both sides looks adaptation, the inside movable mounting of convection current cavity (86) has compression cover (87), compression cover (87) are the compression column structure, one side of convection current cavity (86) and compression cover (87) with one side of spray tube (84) is mutually perpendicular, one side of convection current cavity (86) is connected and is installed current-limiting plate (88), current-limiting plate (88) are the annular column structure, a splitter plate is arranged on the surface of one side of the flow limiting plate (88).

5. The winding-free cleaning equipment for fashion processing production according to claim 4, wherein the winding-free cleaning equipment comprises: one side of metal guide piece is equipped with magnetic conduction coil (77), the bottom laminating of magnetic conduction coil (77) has the metal oxide body (76), one side fixed mounting of the metal oxide body (76) has permanent magnet (79), permanent magnet (79) are two-way symmetry column structure, and polarity is opposite, magnetic core (78) are installed to one side of permanent magnet (79), one side connection of magnetic core (78) install in the surface of permanent magnet (79) one side, the opposite side butt of magnetic core (78) in one side of the metal oxide body (76), the metal guide piece constitutes for the brass material, one side of magnetic conduction coil (77) with the installation is connected to the metal guide piece.