CN108252021B - Low noise cleaning method is carried out to clothing using linear method of shipment - Google Patents

Abstract

The invention discloses carry out low noise cleaning method to clothing using linear method of shipment, its step is: clothing to be cleaned is put into and is located in conveying device by the feed inlet of shell, clothing to be cleaned is delivered to cleaning device by conveying device, and cleaning is completed in cleaning device；Clothing after completing cleaning is delivered to rinsing mechanism region by conveying device, and completes rinsing processing by rinsing mechanism；Clothing after completing rinsing is delivered to dehydration device region by conveying device, and completes dehydration by dehydration device；Clothing after completing dehydration is delivered to drying mechanism region by conveying device, and completes drying and processing by drying mechanism, and the clothing after completing drying and processing can be taken out by the discharge port of shell.

Description

Low noise cleaning method is carried out to clothing using linear method of shipment

Technical field

The present invention relates to the methods that a kind of pair of clothing carries out low noise cleaning.

Background technique

With the continuous development of science and technology, washing machine has become household appliances indispensable in daily life, It can provide more convenient, more humane service for people, and current existing washing machine mainly passes through impeller, interior bucket carries out Movement, to drive internal water and drive the friction of locker room and cleaned；Or by will be in bucket with dynamic outer barrel Water be drained on the inside of outer bung, enters water flow in interior bucket from top；But the former interior bucket is easy accumulation spot, grows The interior bucket water flow stirring effect of endophytic bacteria, the latter is poor, reduces washing effect, and in addition to this, existing conventional washer is washed Clothing mode is to be cleaned, be dehydrated by the way of a variety of rotation combinations, and vibration of washing machine is big, high noise.

Summary of the invention

To solve the deficiencies in the prior art, the object of the present invention is to provide the sides that a kind of pair of clothing carries out low noise cleaning Method.

To realize the above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

Low noise cleaning method is carried out to clothing using linear method of shipment, step is:

S1: clothing to be cleaned is put into and is located in conveying device by the feed inlet of shell, and the shell is cuboid Shell structure, the outer surface of shell are provided with the through-hole connected with its inner cavity, and through-hole can be divided into two parts and be respectively to feed Mouthful, the discharge port above feed inlet, two fixed plates are provided in the shell inner cavity, and two fixed plates are distinguished It is vertically arranged at the side of through-hole, the conveying device includes feeder motor, power transfer mechanism, conveying mechanism, described Conveying mechanism is set between two fixed plates, and conveying mechanism includes transfer member one, transfer member two, and clothing is in transfer member One, it is delivered in cleaning device under the cooperation of transfer member two, the cleaning device includes wash bowl, and wash bowl is opened for one end Mouth, the closed cylindrical barrel body structure of the other end, the inner cavity bottom of chamber of wash bowl is provided with supersonic generator, the outer surface of wash bowl It is provided with the drainpipe connected with its inner cavity, the solenoid valve one for controlling drainpipe draining is provided on drainpipe；It is to be cleaned Clothing is delivered in wash bowl by the cooperation of transfer member one, transfer member two, and solenoid valve one is in close state at this time, clothing Object after supersonic generator completes cleaning, conveys in wash bowl again by the cooperation of transfer member one, transfer member two To the outside of wash bowl, solenoid valve one is in the open state at this time, and the dirty water in wash bowl is discharged by drainpipe；

S2: the clothing after cleaning is delivered to where rinsing drying unit by the cooperation of transfer member one, transfer member two Region, the rinsing drying unit include rinsing mechanism, drying mechanism, and the rinsing mechanism and drying mechanism include spray Spill component, the drying mechanism further includes high-pressure pump, gas-guide tube, escape pipe, one end of the gas-guide tube and high pressure gas Pump connection connection, the other end connect connection with rinsing mechanism, and one end of the escape pipe connect connection, the other end with gas-guide tube It is connect connection with the sprinkling component for being set to drying mechanism, the electricity for controlling gas-guide tube air guide is provided on the gas-guide tube Magnet valve two, the solenoid valve three for controlling escape pipe outlet is provided on the escape pipe, and the rinsing mechanism further includes Water tank, air film pump, water inlet pipe, diversion pipe, outlet pipe, the gas-guide tube and air film pump connection are connected, the water inlet pipe One end connect connection, the other end and external water pipe connection with water tank and connect, one end of the diversion pipe and water tank connect Connection, the other end and air film pump are connected and are connected, one end of the outlet pipe and air film pump connection connection, the other end and setting It connects and connects in the sprinkling component of rinsing mechanism；The cooperation conveying that clothing after cleaning passes through transfer member one, transfer member two To when rinsing mechanism region, solenoid valve two is in the open state, and the high pressure gas of high-pressure pump passes through gas-guide tube to air film Pump conveying, water flow can pass sequentially through water inlet pipe, water tank, diversion pipe, air film pump, outlet pipe, be set to rinsing mechanism at this time Sprinkling component is sprayed to the clothing after cleaning；

S3: the clothing after rinsing is delivered to dehydration device region by the cooperation of transfer member one, transfer member two, The support frame for being fixedly installed in fixed plate is additionally provided in the shell, the support frame includes fixed bracket, described Dehydration device includes active dewatering element, the driven dewatering element below active dewatering element, the driven dehydration structure Part includes influent hopper, driven dehydration roller, and influent hopper is set between two fixed plates and is fixedly installed in fixed plate, and The liquid outlet of influent hopper is located above wash bowl, driven dehydration roller be movably installed in the inlet cavity wall of influent hopper and Driven dehydration roller can be rotated around own axes, and driven dehydration roller is axially parallel to the distance between two fixed plates direction, The active dewatering element includes actively being dehydrated roller, tripping spring, and being actively dehydrated the both ends of roller, movable sleeve is connected to respectively Slide bearings offer on the fixation bracket and match with slide bearings and for being oriented to slide bearings along perpendicular Histogram is to the guide groove of movement, and the slide bearings are set in support bracket fastened guide groove, and slide bearings edge It can be drawn when the guide direction movement of guide groove and actively be dehydrated roller and move synchronously, one end of the tripping spring is propped up with sliding The connection of support seat, the other end are connect with fixed bracket, and the elastic force of tripping spring does slide bearings along the guide direction of guide groove Close to the movement of driven dehydration roller, the region being actively dehydrated between roller and driven dehydration roller is watering area； When clothing after cleaning is delivered to watering area, clothing and actively it is dehydrated cylinder contact and makes actively to be dehydrated roller along guide groove Guide direction does the movement far from driven dehydration roller, and tripping spring is in compressive state, and clothing enters watering area, makes at this time Spring of moving makes actively to be dehydrated the movement that roller does close driven dehydration roller along the guide direction of guide groove, and clothing is dehydrated in active Dehydration is completed under the cooperation of roller and driven dehydration roller, at the same time, the water that clothing is flowed out during the dehydration process can Influent hopper is flowed into, and then is flowed into the wash bowl of cleaning device, provides water source for clothes washing next time；

S4: dewatered clothing is delivered to drying mechanism region by the cooperation of transfer member one, transfer member two, Solenoid valve three is in the open state at this time, and the high pressure gas of high-pressure pump passes through gas-guide tube, escape pipe, is set to drying mechanism Sprinkling component is sprayed to dewatered clothing, and the clothing after completing drying and processing can be taken out by the discharge port of shell.

Further improvement as the technical program.

Above-mentioned conveying mechanism further includes several transition rollers, and the transfer member one includes conveying cylinder one, defeated Band one is sent, conveying cylinder one is set between two fixed plates and is movably installed in fixed plate and conveying cylinder one can be around itself Axis rotation, conveying cylinder one are axially parallel to the distance between two fixed plates direction, and the head end of conveyer belt one is around defeated It is connect after sending roller one, several transition rollers with the head end of conveyer belt one and constitutes closed loop circuit；

The transfer member two includes conveying cylinder two, conveyer belt two, and conveying cylinder two is set between two fixed plates And it is movably installed in fixed plate and conveying cylinder two can be axially parallel to conveying around own axis, conveying cylinder two The axial direction of roller one, the head end of conveyer belt two are connect after bypassing conveying cylinder two, several transition rollers with the head end of conveyer belt two And constitute closed loop circuit；

The section transitions roller that the conveyer belt one is bypassed is overlapped with the section transitions roller that conveyer belt two is bypassed, Conveyer belt one and conveyer belt two are in part contact condition, and with the contact portion of conveyer belt two, conveyer belt one is located at conveyer belt one The contact portion of the outside of conveyer belt two, the conveyer belt one and conveyer belt two can be divided into three sections and respectively clamp segment, defeated Section, the cleaning section between clamp segment and deferent segment, cleaning section are located in cleaning device out, the conveyer belt one and output The part of section connection is rinsing dewatering period and rinsing dewatering period is located in horizontally disposed and dehydration device and rinsing drying unit It rinses above dewatering period, the part that the conveyer belt two is connect with clamp segment is conveying section.

Further improvement as the technical program.

Above-mentioned power transfer mechanism includes driving pulley, dehydration belt wheel, contact roller, belt pulley for feeding foil one, directive wheel, conveying Belt wheel two, transmission belt, the driving pulley are fixedly sheathed in the power output shaft end of feeder motor, and the dehydration belt wheel is solid Surely it is socketed on outside the central spindle for being actively dehydrated roller, conveying shaft is provided between the belt pulley for feeding foil one and fixed plate, it is defeated Sending shaft to be movably installed in fixed plate and convey shaft can be around own axis, and convey shaft is axially parallel to conveying The axial direction of roller one, belt pulley for feeding foil one be fixedly sheathed in conveying shaft outside, the contact roller be located at dehydration belt wheel with it is defeated Between feed roller one, the belt pulley for feeding foil two is fixedly sheathed in outside the central spindle of conveying cylinder two, and the directive wheel is located at Guiding shaft is provided between belt pulley for feeding foil one and belt pulley for feeding foil two, between directive wheel and fixed plate, guiding shaft is fixedly mounted In in fixed plate and being oriented to the axial direction for being axially parallel to conveying cylinder one of shaft, directive wheel pivot bush unit is in guiding shaft Outside, the head end of the transmission belt successively bypass driving pulley, dehydration belt wheel, contact roller, belt pulley for feeding foil one, directive wheel, defeated Closed loop circuit is connect and constituted after feed roller two with the head end of transmission belt, the feeder motor rotation drives driving pulley Rotation, driving pulley rotate and drive dehydration belt wheel, contact roller, belt pulley for feeding foil one, directive wheel, belt pulley for feeding foil two by transmission belt It rotates synchronously, wherein dehydration belt wheel, belt pulley for feeding foil one, belt pulley for feeding foil two are identical as the rotation direction of driving pulley, contact roller is led It is opposite with the rotation direction of driving pulley to taking turns；

The contact roller is connected with the pressed component for being compressed to contact roller, and the pressed component includes pressure Tight block, holddown spring, hinged and hinged shaft core line is parallel to the axial, another of conveying cylinder one with fixed plate for one end of compact heap One end is provided with the axial direction for being axially parallel to conveying cylinder one of compression axis and compression axis, the contact roller pivot bush unit in It the outside of compression axis and can be rotated around the axial direction of compression axis, fixed lobe, holddown spring are additionally provided in the fixed plate One end with compress axis connection, the other end and fixed lobe connects, the elastic force of holddown spring makes compression axis drive contact roller towards remote Direction deflection from dehydration belt wheel；

It is provided with gear part between the belt pulley for feeding foil one and conveying cylinder one, the gear part includes gear One, gear two, gear one are fixedly sheathed in the outside of conveying shaft, and belt pulley for feeding foil one rotates and by conveying shaft traction gear One rotates synchronously, and gear two is fixedly sheathed in outside the central spindle of conveying cylinder one and gear two is engaged with gear one, gear one Rotating and passing through gear two drives conveying cylinder one to move synchronously.

Further improvement as the technical program.

Above-mentioned support frame further includes being located at fixed bracket two sides and being in horizontally disposed support plate, and described sets The sprinkling component for being placed in rinsing mechanism is installed in the support plate far from outer shell outlet, the spray for being set to drying mechanism Component is spilt to be installed in the support plate of outer shell outlet；

The sprinkling component includes spray line, spray head, mounting plate, the periphery of the spray line be provided with in it The connection mouth and interface that chamber is connected, the spray head connect connection with interface, and the outer surface of spray head is provided with installation protrusion, institute The mounting plate stated is provided with spray hole, and the hole wall of spray hole is provided with built-in step, and installation protrusion is built-in with spray hole hole wall It is provided with fastener between step and the two is fixed by fastener, spray head passes through installation protrusion and spray hole hole wall Built-in step cooperation is fixedly installed in spray hole, and the support plate is provided with the mounting hole to match with mounting plate, described Mounting plate be set in mounting hole, and be located in mounting hole on mounting plate along one end of spray hole depth direction, the other end Outside mounting hole and it is provided with external step, mounting plate is coupled by external step and support plate in support plate In mounting hole.

The beneficial effect of the present invention compared with prior art is that the present invention is to complete using linear method of shipment to clothing Cleaning, rinsing, dehydration, drying etc., it is of the invention compared to the laundry mode that existing conventional washer uses a variety of rotation combinations Centrifugal force is not generated in laundry processes, so low noise.

Detailed description of the invention

It in order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below will be to institute in embodiment

Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only of the invention Some embodiments for those of ordinary skill in the art without any creative labor, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is structural schematic diagram of the invention.

Fig. 3 is structural schematic diagram of the invention.

Fig. 4 is the structural schematic diagram of conveying device of the invention.

Fig. 5 is the structural schematic diagram of pressed component of the invention.

Fig. 6 is the cooperation figure of gear part and belt pulley for feeding foil one of the invention.

Fig. 7 is the structural schematic diagram of pressure relief device of the invention.

Fig. 8 is the structural schematic diagram of pressure relief means thereon one of the invention.

Fig. 9 is the structural schematic diagram of pressure relief means thereon two of the invention.

Figure 10 is the structural schematic diagram of pressure relief member of the invention.

Figure 11 is the cross-sectional view of cleaning device of the invention.

Figure 12 is the structural schematic diagram of rinsing drying unit of the invention.

Figure 13 is the cooperation figure of sprinkling component and support frame of the invention.

Figure 14 is the structural schematic diagram of support frame of the invention.

Figure 15 is the structural schematic diagram of active dewatering element of the invention.

Figure 16 is the structural schematic diagram of driven dewatering element of the invention.

Figure 17 is the structural schematic diagram of sprinkling component of the invention.

Figure 18 is the partial sectional view of sprinkling component of the invention.

Figure 19 is the cooperation figure of mounting plate and support plate of the invention.

Figure 20 is the structural schematic diagram of sliding equipment of the invention.

Figure 21 is the structural schematic diagram of drying mechanism of the invention.

Figure 22 is the structural schematic diagram of rinsing mechanism of the invention.

Each label meaning in figure are as follows:

100, shell；110, fixed plate；120, support frame；121, fixed bracket；122, support plate；122a, Z-shaped plate one； 122b, Z-shaped plate two；

200, conveying device；

210, feeder motor；

220, power transfer mechanism；221, it is dehydrated belt wheel；222, contact roller；223, belt pulley for feeding foil one；224, directive wheel； 225, belt pulley for feeding foil two；226, transmission belt；

230, conveying mechanism；231, transfer member one；232, transfer member two；

240, gear part；241, gear one；242, gear two；

250, pressed component；251, compact heap；252, compression axis；253, holddown spring；

300, dehydration device；

310, active dewatering element；311, actively it is dehydrated roller；312, slide bearings；313, tripping spring；

320, driven dewatering element；321, driven dehydration roller；322, influent hopper；

400, drying unit is rinsed；

410, mechanism is rinsed；411, water tank；412a, left chamber；412b, right chamber；412c, connecting tube one；412d, company Adapter tube two；413, water inlet pipe；414, diversion pipe；415, outlet pipe；

420, drying mechanism；421, high-pressure pump；422, gas-guide tube；423, escape pipe；

430, component is sprayed；431, spray line；431a, connection mouth；431b, interface；432, spray head；433, mounting plate； 433a, built-in step；433b, external step；

440, sliding equipment；441, sliding motor；442, intermediate bar；443, slide plate；444, sliding slot；445, connecting plate；

500, cleaning device；510, wash bowl；520, supersonic generator；530, drainpipe；

600, pressure relief device；

610, pressure relief means thereon one；611, relief block one；612, connecting rod one；

620, pressure relief means thereon two；621, relief block two；622, connecting rod two；

630, pressure relief member；631, sleeve；632, slide bar；633, loop bar；634, fixed link；635, back lash spring.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete

Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole implementation Example.Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts Every other embodiment, shall fall within the protection scope of the present invention.

As shown in Figure 1-22, integral-type washing machine, including shell 100 are equipped with conveying device in shell 100 200, dehydration device 300, rinsing drying unit 400, cleaning device 500, rinsing drying unit 400 include rinsing mechanism 410, dry Dry mechanism 420, the conveying device 200 is used to clothing being delivered to cleaning device 500, and clothing is in cleaning device 500 Middle completion cleaning, for rinsing to the clothing after cleaning, the dehydration device 300 is used for for the rinsing mechanism 410 Clothing after rinsing is carried out dehydrating, the drying mechanism 420 is used to carry out drying and processing to dewatered clothing.

As in Figure 2-4, above-mentioned conveying device 200 includes feeder motor 210, power transfer mechanism 220, conveying mechanism 230, the feeder motor 210 is that conveying mechanism 230 provides conveying power, and the power transfer mechanism 220 is for receiving The power of feeder motor 210 is simultaneously passed to conveying mechanism 230, and conveying mechanism 230 conveys to be cleaned under power effect Clothing.

The shell 100 is cuboid housing structure, and the outer surface of shell 100 is provided with to be led to what its inner cavity was connected Hole, through-hole can be divided into two parts and respectively feed inlet, the discharge port above feed opening, 100 inner cavity of shell In be provided with two fixed plates 110, and two fixed plates 110 are vertically arranged at the side of through-hole, the conveyer respectively Structure 230 is set between two fixed plates 110, and conveying mechanism 230 includes transfer member 1, transfer member 2 232, to clear It is washed between transfer member 1 and transfer member 2 232 and in transfer member 1 and transfer member 2 232 It is delivered under cooperation in cleaning device 500.

As shown in figure 4, above-mentioned conveying mechanism 230 further includes several transition rollers, the transfer member 1 is wrapped Include conveying cylinder one, conveyer belt one, conveying cylinder one is set between two fixed plates 110 and is movably installed in fixed plate 110, simultaneously And conveying cylinder one can be axially parallel to the distance between two fixed plates 110 side around own axis, conveying cylinder one To the head end of conveyer belt one connect with the head end of conveyer belt one after bypassing conveying cylinder one, several transition rollers and constitutes closure Loop checking installation.

The transfer member 2 232 includes conveying cylinder two, conveyer belt two, and conveying cylinder two is set to two fixed plates Between 110 and it is movably installed in fixed plate 110 and conveying cylinder two can be around own axis, the axial direction of conveying cylinder two Be parallel to the axial direction of conveying cylinder one, the head end of conveyer belt two around after conveying cylinder two, several transition rollers with conveyer belt two Head end connect and constitute closed loop circuit.

The section transitions roller that the conveyer belt one is bypassed is overlapped with the section transitions roller that conveyer belt two is bypassed, And the conveying direction of conveyer belt one, conveyer belt two is on the contrary, i.e. conveyer belt one and conveyer belt two are in part contact condition, preferably , in the contact portion of conveyer belt one and conveyer belt two, conveyer belt one is located on the outside of conveyer belt two, the conveyer belt one with it is defeated Send the contact portion of band two that can be divided into three sections and respectively clamp segment, deferent segment, clear between clamp segment and deferent segment Section is washed, cleaning section is located in cleaning device 500, and the part that the conveyer belt one is connect with deferent segment is rinsing dewatering period and drift Eluting water section is located above rinsing dewatering period in horizontally disposed and dehydration device 300 and rinsing drying unit 400, described The part that conveyer belt two is connect with clamp segment is conveying section；Conveying mechanism 230 conveys the process of clothing, specific manifestation are as follows: clothing Put on the conveying section of conveyer belt two by the feed inlet of shell 100 and conveyed by conveyer belt two, when clothing be delivered to it is defeated When sending the clamp segment of band one and two contact portion of conveyer belt, clothing is by conveyer belt one and two firm grip of conveyer belt, when clothing is defeated When sending to cleaning section, cleaning device 500 cleans clothing, and after cleaning, clothing continuation is conveyed, when clothing pass through it is defeated When section is delivered to the rinsing dewatering period of conveyer belt one out, dehydration device 300 successively floats clothing with rinsing drying unit 400 It washes, be dehydrated, drying and processing, the clothing after drying can be taken out by the discharge port of shell 100.

As shown in figure 11, above-mentioned cleaning device 500 includes wash bowl 510, and wash bowl 510 is the open at one end, other end The cleaning section of closed cylindrical barrel body structure, the conveyer belt one and two contact portion of conveyer belt is located in wash bowl 510, clearly The inner cavity bottom of chamber of washing cylinder 510 is provided with supersonic generator 520, and the outer surface of wash bowl 510 is provided with and the connection of its inner cavity Drainpipe 530 is provided with the solenoid valve one for controlling the draining of drainpipe 530 on drainpipe 530；Clothing to be cleaned passes through conveying Cooperation with one and conveyer belt two is delivered in wash bowl 510, and solenoid valve one is in close state at this time, and clothing is in wash bowl In 510 after supersonic generator 520 completes cleaning, conveyer belt is delivered to again by the cooperation of conveyer belt one and conveyer belt two One rinsing dewatering period, solenoid valve one is in the open state at this time, and the dirty water in wash bowl 510 is discharged by drainpipe 530.

As illustrated in figs. 13-14, it is additionally provided with support frame 120 in above-mentioned shell 100, support frame 120 is fixedly installed in Fixed board 110 and the rinsing dewatering period top for being located at conveyer belt one, the support frame 120 includes fixed bracket 121, respectively position It in fixed 121 two sides of bracket and is in horizontally disposed support plate 122, the dehydration device 300 is installed on fixed bracket 121, the rinsing drying unit 400 is installed on support plate 122.

As shown in figures 15-16, above-mentioned dehydration device 300 includes active dewatering element 310, is located at active dewatering element The driven dewatering element 320 of 310 lower sections, the driven dewatering element 320 are located at the lower section of conveyer belt one, driven dewatering element 320 include influent hopper 322, driven dehydration roller 321, the influent hopper 322 be set between two fixed plates 110 and It is fixedly installed in fixed plate 110, the driven dehydration roller 321 is movably installed in the inlet cavity wall of influent hopper 322 simultaneously And driven dehydration roller 321 can be rotated around own axes, the axis for being axially parallel to conveying cylinder one of driven dehydration roller 321 To.

The active dewatering element 310 is located at the top of conveyer belt one, and active dewatering element 310 includes active wringer roll Cylinder 311, tripping spring 313, the roller 311 that is actively dehydrated are movably installed in fixed bracket 121 and can turn around own axes The axial direction for being axially parallel to conveying cylinder one that is dynamic and being actively dehydrated roller 311, specifically, being actively dehydrated the two of roller 311 Movable sleeve is connected to slide bearings 312 respectively at end, offers on the fixation bracket 121 and matches with slide bearings 312 And for being oriented to the vertically moving guide groove of slide bearings 312, the slide bearings 312 are set to fixation In the guide groove of bracket 121, and when slide bearings 312 are moved along the guide direction of guide groove, can draw and actively be dehydrated roller 311 move synchronously, and one end of the tripping spring 313 is connect with slide bearings 312, the other end and fixed bracket 121 connect It connects, the elastic force of tripping spring 313 does slide bearings 312 close to driven dehydration roller 321 along the guide direction of guide groove Movement, the region being actively dehydrated between roller 311 and driven dehydration roller 321 is watering area；Dehydration device 300 is right Clothing after rinsing is carried out dehydrating process, specific manifestation are as follows: clothing be actively dehydrated roller 311 contact and make actively be dehydrated Roller 311 does the movement far from driven dehydration roller 321 along the guide direction of guide groove, and tripping spring 313 is in compressive state, Clothing enters watering area, and tripping spring 313 makes actively to be dehydrated roller 311 and does along the guide direction of guide groove close to driven at this time It is dehydrated the movement of roller 321, clothing completes dehydration under the cooperation for being actively dehydrated roller 311 and driven dehydration roller 321.

More optimizing, the liquid outlet of the influent hopper 322 is located at the top of cleaning device 500, its significance lies in that, Dehydration device 300 makes the clothing after rinsing complete dehydration, and during this, the water flowed out in clothing can flow into influent hopper 322, and then flow into the wash bowl 510 of cleaning device 500, water source is provided for clothes washing next time, improves the utilization of water Rate.

More specifically, the transition roller, conveying cylinder one, conveying cylinder two, be actively dehydrated roller, driven dehydration The shape and structure of roller is consistent and includes roll body, and roll body is the cylindrical barrel body structure of both ends open, roller sheet It is coaxially arranged with central spindle in vivo, connecting rod, one end of connecting rod and central spindle are additionally provided between the central spindle and roll body The inner cavity cavity wall of connection, the other end and roll body connects, central spindle rotation and haulage drum ontology synchronous rotation.

As shown in figure 4, above-mentioned power transfer mechanism 220 include driving pulley, it is dehydration belt wheel 221, contact roller 222, defeated Feed roller 1, directive wheel 224, belt pulley for feeding foil 2 225, transmission belt 226, the driving pulley are fixedly sheathed in conveying electricity The power output shaft end of machine 210, the dehydration belt wheel 221 is fixedly sheathed in outside the central spindle for being actively dehydrated roller 311, described Belt pulley for feeding foil 1 and fixed plate 110 between be provided with conveying shaft, conveying shaft is movably installed in fixed plate 110 simultaneously And conveying shaft can convey the axial direction for being axially parallel to conveying cylinder one of shaft, belt pulley for feeding foil 1 around own axis It is fixedly sheathed in the outside of conveying shaft, the contact roller 222 is located between dehydration belt wheel 221 and belt pulley for feeding foil 1, institute The belt pulley for feeding foil 2 225 stated is fixedly sheathed in outside the central spindle of conveying cylinder two, and the directive wheel 224 is located at belt pulley for feeding foil one Between 223 and belt pulley for feeding foil 2 225, guiding shaft, the fixed peace of guiding shaft are provided between directive wheel 224 and fixed plate 110 Loaded in fixed plate 110 and being oriented to the axial direction for being axially parallel to conveying cylinder one of shaft, 224 pivot bush unit of directive wheel is in leading To the outside of shaft, the head end of the transmission belt 226 successively bypasses driving pulley, dehydration belt wheel 221, contact roller 222, conveying Closed loop circuit, institute are connect and constituted after belt wheel 1, directive wheel 224, belt pulley for feeding foil 2 225 with the head end of transmission belt 226 The rotation of feeder motor 210 stated drives driving pulley rotation, and driving pulley, which rotates and passes through transmission belt 226, drives dehydration belt wheel 221, contact roller 222, belt pulley for feeding foil 1, directive wheel 224, belt pulley for feeding foil 2 225 rotate synchronously, wherein dehydration belt wheel 221, Belt pulley for feeding foil 1, belt pulley for feeding foil 2 225 are identical as the rotation direction of driving pulley, contact roller 222, directive wheel 224 and active The rotation direction of belt wheel is opposite.

As shown in figure 5, above-mentioned contact roller 222 is connected with the pressed component 250 for being compressed to contact roller 222, The pressed component 250 includes compact heap 251, holddown spring 253, one end of compact heap 251 and fixed plate 110 it is hinged and It is hinged that shaft core line is parallel to the axial direction of conveying cylinder one, the other end is provided with compression axis 252 and the axial direction of compression axis 252 is parallel In the axial direction of conveying cylinder one, 222 pivot bush unit of contact roller in compression axis 252 outside and can be around compression axis 252 Axial rotation, be additionally provided with fixed lobe in the fixed plate 110, one end of holddown spring 253 and compression axis 252 connect It connects, the connection of the other end and fixed lobe, the elastic force of holddown spring 253 makes compression axis 252 drive contact roller 222 towards far from dewatering bands The direction deflection of wheel 221；The meaning of pressed component 250 and contact roller 222 is, makes between transmission belt 226 and each belt wheel Contact is close, loose phenomenon is prevented, if without pressed component 250 and contact roller 222, due to the active in dehydration device 300 Dehydration roller 311 can move during the dehydration process along the guide direction of the guide groove of fixed bracket 121, and due to being dehydrated belt wheel 221 are fixedly sheathed in the power input shaft end for being actively dehydrated roller 311, so that being dehydrated belt wheel 221 and being actively dehydrated roller 311 together Step movement, then can make between transmission belt 226 and each belt wheel there are loose phenomenon or make 226 tensile force of transmission belt is excessive to cause Transmission belt 226 is broken, and is adjusted by tension of the pressed component 250 to transmission belt 226, is guaranteed the normal transmission of washing machine.

As shown in fig. 6, it is provided with gear part 240 between above-mentioned belt pulley for feeding foil 1 and conveying cylinder one, it is described Gear part 240 includes gear 1, gear 2 242, and gear 1 is fixedly sheathed in the outside of conveying shaft, belt pulley for feeding foil One 223 rotate and are rotated synchronously by conveying shaft traction gear 1, and gear 2 242 is fixedly sheathed in conveying cylinder one Outside central spindle and gear 2 242 is engaged with gear 1, and gear 1 rotates and drives conveying cylinder by gear 2 242 One moves synchronously；The meaning of gear part 240 is, makes the rotation direction of belt pulley for feeding foil 1 that inverse change occur, if anodontia Component 240 is taken turns, then conveying cylinder one can be made consistent with the rotation direction of conveying cylinder two, lead to conveyer belt one and conveyer belt two Conveying direction on the contrary, clothing can not be conveyed by conveying mechanism 230.

As illustrated by figs. 12-13, above-mentioned rinsing mechanism 410 and drying mechanism 420 include sprinkling component 430, described The sprinkling component 430 for being set to rinsing mechanism 410 is installed in the support plate 122 far from 100 discharge port of shell, the setting It is installed in the support plate 122 of 100 discharge port of shell in the sprinkling component 430 of drying mechanism 420, the clothing after cleaning is defeated When sending to the rinsing dewatering period of conveyer belt one, successively by rinsing mechanism 410 carry out rinsing processing, 300 dehydration of dehydration device, After 420 drying and processing of drying mechanism, taken out by the discharge outlet of shell 100.

As shown in figs. 17-18, above-mentioned sprinkling component 430 includes spray line 431, spray head 432, mounting plate 433, described The periphery of spray line 431 be provided with its inner cavity connect connection mouth 431a and interface 431b, the spray head 432 with connect Mouth 431b connection is connected, and the mounting plate 433 is provided with spray hole, and spray head 432 is located in spray hole, specifically, described The hole wall of spray hole is provided with built-in step 433a, and the outer surface of spray head 432 is provided with installation protrusion, installation protrusion and built-in platform It is provided with fastener between rank 433a, is fixed between installation protrusion and built-in step 433a by fastener, to make to spray First 432 are fixedly installed in spray hole, and the support plate 122 is provided with the mounting hole to match with mounting plate 433, described Mounting plate 433 is set in mounting hole, specifically, be located in mounting hole on mounting plate 433 along one end of spray hole depth direction, The other end is located at outside mounting hole and is provided with external step 433b, and mounting plate 433 passes through external step 433b and support plate 122 Be coupled in the mounting hole of support plate 122.

More optimize, the spray head 432 is provided with several, spray hole of several spray heads 432 along mounting plate 433 Extending direction in being evenly spaced on, the extending direction of the spray hole is parallel to the axial direction of conveying cylinder one, meaning Be, several spray heads 432 can make potcher structure 410 wash effect or drying mechanism 420 drying effect more preferably.

As shown in Figure 12-13,21, above-mentioned drying mechanism 420 further includes high-pressure pump 421, gas-guide tube 422, escape pipe 423, the high-pressure pump 421 is for providing the high pressure gas of baking needed, one end of the gas-guide tube 422 and high pressure gas 421 connection of pump is connected, the other end connect connection with rinsing mechanism 410, and one end of the escape pipe 423 and gas-guide tube 422 connect Connection, the other end connect connection with the connection mouth 431a for being set to drying mechanism 420, the high pressure gas in high-pressure pump 421 A part by gas-guide tube 422, escape pipe 423, be set to the sprinkling component 430 of drying mechanism 420 and sprayed to dewatered clothing It spills and (dries), another part is conveyed by gas-guide tube 422 to rinsing mechanism 410.

As shown in Figure 12-13,22, above-mentioned rinsing mechanism 410 further includes water tank 411, air film pump, water inlet pipe 413, leads Flow tube 414, outlet pipe 415, the gas-guide tube 422 and air film pump connection are connected, one end of the water inlet pipe 413 and water storage The connection of case 411 is connected, the other end and external water pipe connection are connected, and one end of the diversion pipe 414 is connect with water tank 411 to be connect The logical, other end and air film pump are connected and are connected, one end of the outlet pipe 415 and air film pump connection connection, the other end and setting It is connected in the connection mouth 431a connection of rinsing mechanism 410, the outside water stream passes through water inlet pipe 413, water tank 411, water conservancy diversion Pipe 414, air film pump, outlet pipe 415, be set to rinsing mechanism 410 sprinkling component 430 sprayed to the clothing after cleaning (rinsing)；For washing machine when running or being out of service, all there are water sources in water tank 411, its significance lies in that, work as outside water Pipe cut off the water event when, washing machine can operate normally.

More specifically, the described air film pump include left chamber 412a, the left side diaphragm being set in left chamber 412a, Right chamber 412b, the right side diaphragm being set in right chamber 412b, one 412c of connecting tube, two 412d of connecting tube, connecting tube one The connection that 412c and two 412d of connecting tube are used to left chamber 412a and right chamber 412b is connected, the diversion pipe 414 and even Two 412d connection of adapter tube is connected, and the outlet pipe 415 connect connection with one 412c of connecting tube；The motion process of air film pump, tool Body show themselves in that high-pressure pump 421 by gas-guide tube 422 to air film pump in conveying high-pressure gas so that left side diaphragm move to left or Right side diaphragm moves to right, and when left side, diaphragm is moved to left, the water flow in left chamber 412a is extruded, and passes through one 412c of connecting tube Outlet pipe 415 is flowed into, finally flows into and is set in the sprinkling component 430 of rinsing mechanism 410, while right chamber 412b sucks water Stream, outside water stream are flowed into right chamber 412b by diversion pipe 414, two 412d of connecting tube；When right side, diaphragm is moved to right, right chamber Water flow in the 412b of room is extruded, while left chamber 412a sucks water flow.

As shown in figure 21, the solenoid valve two for controlling 422 air guide of gas-guide tube is provided on above-mentioned gas-guide tube 422,

When solenoid valve two is in close state, the high pressure gas of high-pressure pump 421 can not be pumped by gas-guide tube 422 to air film Conveying, when clothing is delivered to rinsing 410 lower section of mechanism, solenoid valve two is in the open state, at this time the high pressure of high-pressure pump 421 Gas is pumped to air film by gas-guide tube 422 and is conveyed, and air film pump brings into operation, and water flow is delivered to by air film pump and is set to potcher The sprinkling component 430 of structure 410, and rinsing processing is carried out to clothing.

The solenoid valve three for controlling 423 outlet of escape pipe is provided on above-mentioned escape pipe 423, solenoid valve three, which is in, to close When closed state, the high pressure gas of high-pressure pump 421 can not enter the sprinkling structure for being set to drying mechanism 420 by escape pipe 423 Part 430, when clothing is delivered to the lower section of drying mechanism 420, solenoid valve three is in the open state, at this time high-pressure pump 421 High pressure gas enters the sprinkling component 430 for being set to drying mechanism 420 by escape pipe 423, and carries out drying and processing to clothing.

Since conveyer belt one and conveyer belt two itself do not have elasticity, if clothing volume to be cleaned is excessive, passing through conveying When band one and two contact portion of conveyer belt are clamped conveying, it can make conveyer belt one or conveyer belt two that phenomenon of rupture occur, to keep away Exempt from the generation of this phenomenon, this washing machine is additionally provided with pressure relief device 600, and the pressure relief device 600 includes pressure relief means thereon one 610, pressure relief means thereon 2 620, pressure relief means thereon 1 are used to carry out release processing to conveyer belt one, prevent conveyer belt one to be broken, unload Press mechanism 2 620 is used to carry out release processing to conveyer belt two, and conveyer belt two is prevented to be broken.

As is seen in figs 7-10, above-mentioned pressure relief means thereon 1 and pressure relief means thereon 2 620 include pressure relief member 630, described Pressure relief member 630 be set between two fixed plates 110, pressure relief member 630 include slide bar 632, loop bar 633, fixed link 634, Back lash spring 635, the fixed link 634 is fixedly installed in fixed plate 110 and the conveying that is axially parallel to of fixed link 634 is rolled The axial direction of cylinder one, the loop bar 633 are open at one end, the closed cylindrical barrel body structure of the other end, and the closed end of loop bar 633 is solid Surely the axial direction for being axially perpendicular to fixed link 634 of fixed link 634 and loop bar 633, one end position of the slide bar 632 are connected to In the inner cavity of loop bar 633, the other end be provided with the axial direction for being axially parallel to fixed link 634 of sleeve 631 and sleeve 631, Slide bar 632 can move along the extending direction of 633 inner cavity of loop bar and can draw sleeve 631 and move synchronously, the back lash spring 635 are socketed on outside loop bar 633, and one end of back lash spring 635 and the conflict of fixed link 634, the other end and sleeve 631 contradict, and unload The elastic force of pressing spring 635 makes sleeve 631 do the fortune far from fixed link 634 along the extending direction of 633 inner cavity of loop bar with moving slide-bar 632 It is dynamic.

More optimize, the open end of the loop bar 633 is provided with built-in step, and the slide bar 632 is located at loop bar End face in 633 inner cavities is provided with external step, its significance lies in that, slide bar 632 acts on lower edge set in the elastic force of back lash spring 635 The extending direction of 633 inner cavity of bar is done in the motion process far from fixed link 634, when built-in step and the slide bar 632 of loop bar 633 When external step contacts, 632 stop motion of slide bar prevents slide bar 632 from moving to outside loop bar 633.

As Figure 7-8, above-mentioned pressure relief means thereon 1 further includes relief block 1, connecting rod 1, the release Block 1 is set on any transition roller that conveyer belt one is bypassed, specifically, the quantity of relief block 1 be two pieces simultaneously And two pieces of relief blocks 1 are located at the one end for being connected with the transition roller central spindle of pressure relief means thereon 1, in the present embodiment, Relief block 1 includes unloading compression bar a, unloading compression bar b in integral structure, and the two constitutes V-arrangement mechanism, unloads one end of compression bar a Hinged and hinged shaft core line is parallel to the axis of conveying cylinder one with the central spindle for the transition roller for being connected with pressure relief means thereon 1 It is connect to, the other end with the one end for unloading compression bar b, it is parallel to unload the other end shaft core line hinged and hinged with fixed plate 110 of compression bar b In being additionally provided with the pressure relief groove one being a circular-arc structure, the connection in the axial direction of conveying cylinder one, the fixed plate 110 There is the central spindle of the excessive roller of pressure relief means thereon 1 to be set in pressure relief groove one, passes through between two pieces of relief blocks 1 Connecting rod 1 is attached, and the sleeve 631 of the pressure relief member 630 for being set to pressure relief means thereon 1 is socketed on connecting rod one Outside 612；The stress-relief process of pressure relief means thereon 1, specific manifestation are as follows: clothing is clamped by conveyer belt one with conveyer belt two When conveying, the transition roller that both ends are provided with relief block 1 can be done along the channeling direction of pressure relief groove one close to fixed link 634 Movement, so that conveyer belt one is avoided to be broken, meanwhile, the elastic force of the back lash spring 635 of pressure relief member 630 passes through sleeve 631, connecting rod One 612, relief block 1 drives transition roller to do the relative motion far from fixed link 634, and making clothing is not in because that can not press from both sides The tensioning of the phenomenon that tightly falling and realization to conveyer belt one.

As shown in Fig. 7,9, above-mentioned pressure relief means thereon 2 620 further includes relief block 2 621, connecting rod 2 622, the release Block 2 621 is set on any transition roller that conveyer belt two is bypassed, specifically, the quantity of relief block 2 621 be two pieces simultaneously And two pieces of relief blocks 2 621 are located at the one end for being connected with the transition roller central spindle of pressure relief means thereon 2 620, above-mentioned unloads press Structure 1, pressure relief means thereon 2 620 are connected to different transition rollers, also vertical in the fixed plate 110 in the present embodiment It is provided with axial direction of the channeling direction perpendicular to conveying cylinder two of pressure relief groove two and pressure relief groove two, press is unloaded in described being connected with The central spindle of the transition roller of structure 2 620 is set in pressure relief groove two, and the relief block 2 620 is rectangular plate body and relief block 2 620 connect with the central spindle for the transition roller for being connected with pressure relief means thereon 2 620, and pass through company between two pieces of relief blocks 2 620 Bar 2 622 is attached, and the sleeve 631 of the pressure relief member 630 for being set to pressure relief means thereon 2 620 is socketed on connecting rod two Outside 622；The stress-relief process of pressure relief means thereon 2 620, specific manifestation are as follows: clothing is clamped by conveyer belt one with conveyer belt two When conveying, the transition roller that both ends are provided with relief block 2 621 can be done along the channeling direction of pressure relief groove two close to fixed link 634 Movement, so that conveyer belt two is avoided to be broken, meanwhile, the elastic force of the back lash spring 635 of pressure relief member 630 passes through sleeve 631, connecting rod 2 622, relief block 2 621 drives transition roller to do the relative motion far from fixed link 634, and making clothing is not in because that can not press from both sides The tensioning of the phenomenon that tightly falling and realization to conveyer belt two.

Due to, there are gap is sprayed, being located at sprinkling gap on clothing between adjacent two spray head 432 of sprinkling component 430 The part at place can not be sprayed by spray head 432, cause the wash effect of clothing or drying effect undesirable, to avoid this phenomenon Occur, the rinsing drying unit 400 further includes sliding equipment 440, and sliding equipment 440 is past for doing sprinkling component 430 Multiple movement avoids occurring sprinkling gap between adjacent two spray head 432.

As shown in figure 19, the support plate 122 is towards being provided with one 122a of Z-shaped plate, Z-shaped on the face of sprinkling component 430 Two 122b of plate, one 122a of Z-shaped plate, two 122b of Z-shaped plate are located at the side of the mounting hole of support plate 122 and the shape of the two Structure is completely the same, one 122a of Z-shaped plate and two 122b of Z-shaped plate include perpendicular to support plate 122 vertical section, two be parallel to The outside direction of the horizontal segment of support plate 122, a horizontal segment of one 122a of Z-shaped plate towards support plate 122 extend and with branch Fastener is provided between fagging 122, and the two is fixed by fastener, another horizontal segment court of one 122a of Z-shaped plate The center position of support plate 122 extends, and the outside direction of a horizontal segment towards the support plate 122 of two 122b of Z-shaped plate extends And fastener is provided between support plate 122, and the two is fixed by fastener, another water of two 122b of Z-shaped plate The center position of flat section towards support plate 122 extends, the level that one 122a of Z-shaped plate extends towards 122 center position of support plate The region between horizontal segment that section, two 122b of Z-shaped plate extend towards 122 center position of support plate constitutes guiding groove, and guiding groove Channeling direction be parallel to the axial direction of conveying cylinder one, the external step 433b of the mounting plate 433 is located in guiding groove simultaneously And it can be moved along the channeling direction of guiding groove.

As shown in Figure 13,20, above-mentioned sliding equipment 440 includes sliding motor 441, intermediate bar 442, slide plate 443, described Sliding motor 441 be fixedly installed in fixed bracket 121, the slide plate 443 is towards being provided with cunning on the face of sliding motor 441 For the channeling direction of slot 444 and sliding slot 444 perpendicular to the axial direction of conveying cylinder one, the two sides of slide plate 443 are respectively arranged with connection Plate 445, a connecting plate 445 be set to rinsing mechanism 410 mounting plate 433 be fixedly connected, another connecting plate 445 with The mounting plate 433 for being set to drying mechanism 420 is fixedly connected, and one end of the intermediate bar 442 is provided with sets of holes and centre Bar 442 is socketed on the power output shaft end of sliding motor 441 by sets of holes, the other end is provided with sliding shaft and sliding shaft It is set in sliding slot 444, the power output shaft end of sliding motor 441 rotates and intermediate bar 442 is driven to deflect, intermediate bar 442 Deflection can be divided into the movement of 444 channeling directions along the chute, along the axial movement of conveying cylinder one, and intermediate bar 442 is along conveying cylinder One axial movement can draw mounting plate 433 and move synchronously, to make spray head 432 along the axial movement of conveying cylinder one, finally It avoids between adjacent two spray head 432 and sprinkling gap occurs.

More specifically, be provided with inductor on the support frame 120, the state of inductor can be divided into sense state, Closed state, when inductor is in close state, sliding motor 441 is out of service, when clothing is delivered to 410 lower section of rinsing mechanism When, inductor is in sense state, and sliding motor 441 brings into operation at this time, so that axial direction fortune of the spray head 432 along conveying cylinder one It is dynamic.

When washing machine works, clothing to be cleaned put by the feed inlet of shell 100 on the conveying section of conveyer belt two and by Conveyer belt two is conveyed, and when clothing is delivered to the clamp segment of conveyer belt one and two contact portion of conveyer belt, clothing is conveyed Band one and two firm grip of conveyer belt, when clothing is delivered to the cleaning section of conveyer belt one and two contact portion of conveyer belt, at this time Clothing is located in wash bowl 510, and solenoid valve one is in close state, and clothing is complete through supersonic generator 520 in wash bowl 510 After cleaning, the rinsing dewatering period of conveyer belt one is delivered to again by the cooperation of conveyer belt one and conveyer belt two, at this time electromagnetism Valve one is in the open state, and the dirty water in wash bowl 510 is discharged by drainpipe 530.

Clothing is delivered to the rinsing dewatering period of conveyer belt one and is located at the sprinkling component 430 for being set to rinsing mechanism 410 When lower section, solenoid valve two is in the open state, and the high pressure gas of high-pressure pump 421, which is pumped by gas-guide tube 422 to air film, to be conveyed, this Shi Shuiliu can pass sequentially through water inlet pipe 413, water tank 411, diversion pipe 414, air film pump, outlet pipe 415, be set to rinsing mechanism 410 sprinkling component 430 is sprayed to the clothing after cleaning and (is rinsed), and during this, inductor be in sense state, cunning Dynamic motor 441 brings into operation, and intermediate bar 442 is driven to deflect, and the deflection of intermediate bar 442 can be divided into 444 channeling direction along the chute Movement, along the axial movement of conveying cylinder one, intermediate bar 442 can draw along the axial movement of conveying cylinder one and be set to rinsing The mounting plate 433 of the sprinkling component 430 of mechanism 410 moves synchronously, to make the sprinkling component 430 for being set to rinsing mechanism 410 Spray head 432 along conveying cylinder one axial movement, and finally avoid between adjacent two spray head 432 occur sprinkling gap.

Clothing be delivered to conveyer belt one rinsing dewatering period and be located at dehydration device 300 watering area when, clothing with It is actively dehydrated roller 311 and contacts and make actively to be dehydrated roller 311 and do separate driven dehydration roller 321 along the guide direction of guide groove Movement, tripping spring 313 is in compressive state, and clothing enters watering area, and tripping spring 313 makes actively to be dehydrated roller at this time 311 along guide groove guide direction do close to it is driven dehydration roller 321 movement, clothing be actively dehydrated roller 311 with it is driven It is dehydrated under the cooperation of roller 321 and completes dehydration；At the same time, the water that clothing is flowed out during the dehydration process can flow into water inlet Funnel 322, and then flow into the wash bowl 510 of cleaning device 500, water source is provided for clothes washing next time, improves water Utilization rate.

Clothing is delivered to the rinsing dewatering period of conveyer belt one and is located at the sprinkling component 430 for being set to drying mechanism 420 When lower section, solenoid valve three is in the open state, and the high pressure gas of high-pressure pump 421 passes through gas-guide tube 422, escape pipe 423, setting It is sprayed to dewatered clothing and (is dried) in the sprinkling component 430 of drying mechanism 420, during this, inductor is in Sense state, sliding equipment 440 bring into operation, so that being set to the sprinkling component 430 of drying mechanism 420 along conveying cylinder one It is axially moved, and sprinkling gap occurs in the sprinkling component 430 for finally avoiding being set to drying mechanism 420；Complete drying and processing Clothing afterwards can be taken out by the discharge port of shell 100.

Low noise cleaning method is carried out to clothing using linear method of shipment, step is:

S1: clothing to be cleaned is put into and is located in conveying device 200 by the feed inlet of shell 100, the shell 100 For cuboid housing structure, the outer surface of shell 100 is provided with the through-hole connected with its inner cavity, through-hole can be divided into two parts and Respectively feed inlet, the discharge port above feed inlet are provided with two fixed plates 110 in 100 inner cavity of shell, and And two fixed plates 110 are vertically arranged at the side of through-hole respectively, the conveying device 200 includes feeder motor 210, power Transmission mechanism 220, conveying mechanism 230, the conveying mechanism 230 are set between two fixed plates 110, conveying mechanism 230 Including transfer member 1, transfer member 2 232, clothing transfer member 1, transfer member 2 232 cooperation under convey To cleaning device 500, the cleaning device 500 includes wash bowl 510, and wash bowl 510 is open at one end, other end closing Cylindrical barrel body structure, the inner cavity bottom of chamber of wash bowl 510 is provided with supersonic generator 520, the outer surface setting of wash bowl 510 There is the drainpipe 530 connected with its inner cavity, the solenoid valve one for controlling the draining of drainpipe 530 is provided on drainpipe 530；To Cleaning clothing is delivered in wash bowl 510 by the cooperation of transfer member 1, transfer member 2 232, at this time at solenoid valve one In closed state, clothing in wash bowl 510 through supersonic generator 520 complete cleaning after, again by transfer member one 231, the cooperation of transfer member 2 232 is delivered to the outside of wash bowl 510, and solenoid valve one is in the open state at this time, wash bowl Dirty water in 510 is discharged by drainpipe 530；

S2: the clothing after cleaning is delivered to rinsing drying dress by the cooperation of transfer member 1, transfer member 2 232 400 regions are set, the rinsing drying unit 400 includes rinsing mechanism 410, drying mechanism 420,

The rinsing mechanism 410 and drying mechanism 420 includes sprinkling component 430, and the drying mechanism 420 also wraps Include high-pressure pump 421, gas-guide tube 422, escape pipe 423, one end of the gas-guide tube 422 connect with high-pressure pump 421 connection, The other end connect connection with rinsing mechanism 410, one end of the escape pipe 423 connect with gas-guide tube 422 connection, the other end and The connection of sprinkling component 430 for being set to drying mechanism 420 is connected, and is provided on the gas-guide tube 422 for controlling gas-guide tube The solenoid valve two of 422 air guides is provided with the solenoid valve three for controlling 423 outlet of escape pipe on the escape pipe 423, described Rinsing mechanism 410 further include water tank 411, air film pump, water inlet pipe 413, diversion pipe 414, outlet pipe 415, the air guide Pipe 422 and air film pump connection are connected, and one end of the water inlet pipe 413 connect connection, the other end and outside water with water tank 411 Pipe connection is connected, and one end of the diversion pipe 414 connect connection, the other end and air film pump connection with water tank 411 and connects, institute The one end for the outlet pipe 415 stated and air film pump connection are connected, the other end connects with the sprinkling component 430 for being set to rinsing mechanism 410 It connects；Clothing after cleaning is delivered to where rinsing mechanism 410 by the cooperation of transfer member 1, transfer member 2 232 When region, solenoid valve two is in the open state, and the high pressure gas of high-pressure pump 421, which is pumped by gas-guide tube 422 to air film, to be conveyed, this Shi Shuiliu can pass sequentially through water inlet pipe 413, water tank 411, diversion pipe 414, air film pump, outlet pipe 415, be set to rinsing mechanism 410 sprinkling component 430 is sprayed to the clothing after cleaning；

S3: the clothing after rinsing is delivered to dehydration device 300 by the cooperation of transfer member 1, transfer member 2 232 Region is additionally provided with the support frame 120 for being fixedly installed in fixed plate 110, the support frame in the shell 100 120 include fixed bracket 121, and the dehydration device 300 includes active dewatering element 310, is located under active dewatering element 310 The driven dewatering element 320 of side, the driven dewatering element 320 include influent hopper 322, driven dehydration roller 321, water inlet Funnel 322 is set between two fixed plates 110 and is fixedly installed in fixed plate 110, and the liquid outlet of influent hopper 322 is located at 510 top of wash bowl, driven dehydration roller 321 are movably installed in the inlet cavity wall of influent hopper 322 and driven wringer roll Cylinder 321 can be rotated around own axes, and driven dehydration roller 321 is axially parallel to the distance between two fixed plates 110 direction, institute The active dewatering element 310 stated includes actively being dehydrated roller 311, tripping spring 313, is actively dehydrated the both ends difference of roller 311 Movable sleeve is connected to slide bearings 312, offers on the fixation bracket 121 and matches and use with slide bearings 312 In the vertically moving guide groove of guiding slide bearings 312, the slide bearings 312 are set to fixed bracket In 121 guide groove, and when slide bearings 312 are moved along the guide direction of guide groove, can draw and actively be dehydrated roller 311 It moving synchronously, one end of the tripping spring 313 is connect with slide bearings 312, the other end is connect with fixed bracket 121, The elastic force of tripping spring 313 makes slide bearings 312 do the fortune close to driven dehydration roller 321 along the guide direction of guide groove Dynamic, the region being actively dehydrated between roller 311 and driven dehydration roller 321 is watering area；Clothing after cleaning is defeated When sending to watering area, clothing be actively dehydrated roller 311 and contact and make actively to be dehydrated roller 311 along the guide direction of guide groove The movement far from driven dehydration roller 321 is done, tripping spring 313 is in compressive state, and clothing enters watering area, brakes at this time Spring 313 makes actively to be dehydrated the movement that roller 311 does close driven dehydration roller 321 along the guide direction of guide groove, and clothing exists It is actively dehydrated under the cooperation of roller 311 and driven dehydration roller 321 and completes dehydration, at the same time, clothing is in dehydration Middle flowed out water can flow into influent hopper 322, and then flow into the wash bowl 510 of cleaning device 500, for clothing next time Cleaning provides water source；

S4: dewatered clothing is delivered to drying mechanism 420 by the cooperation of transfer member 1, transfer member 2 232 Region, solenoid valve three is in the open state at this time, and the high pressure gas of high-pressure pump 421 passes through gas-guide tube 422, escape pipe 423, the sprinkling component 430 for being set to drying mechanism 420 is sprayed to dewatered clothing, the clothing after completing drying and processing It can be taken out by the discharge port of shell 100.

Specific examples are applied in the present invention, and principle and implementation of the present invention are described, above embodiments

Illustrate to be merely used to help understand method and its core concept of the invention；Meanwhile for the general skill of this field Art personnel, according to the thought of the present invention, there will be changes in the specific implementation manner and application range.In conclusion this Description should not be construed as limiting the invention.

Claims (4)

1. carrying out low noise cleaning method to clothing using linear method of shipment, step is:

S1: clothing to be cleaned is put into and is located in conveying device by the feed inlet of shell, and the shell is cuboid housing Structure, the outer surface of shell are provided with the through-hole connected with its inner cavity, and through-hole can be divided into two parts and respectively feed inlet, position Discharge port above feed inlet is provided with two fixed plates in the shell inner cavity, and two fixed plates difference is vertical It is set to the side of through-hole, the conveying device includes feeder motor, power transfer mechanism, conveying mechanism, the conveying Mechanism is set between two fixed plates, and conveying mechanism includes transfer member one, transfer member two, clothing transfer member one, Be delivered in cleaning device under the cooperation of transfer member two, the cleaning device includes wash bowl, wash bowl be it is open at one end, The closed cylindrical barrel body structure of the other end, the inner cavity bottom of chamber of wash bowl are provided with supersonic generator, and the outer surface of wash bowl is set It is equipped with the drainpipe connected with its inner cavity, the solenoid valve one for controlling drainpipe draining is provided on drainpipe；Clothing to be cleaned Object is delivered in wash bowl by the cooperation of transfer member one, transfer member two, and solenoid valve one is in close state at this time, clothing In wash bowl after supersonic generator completes cleaning, it is delivered to again by the cooperation of transfer member one, transfer member two The outside of wash bowl, solenoid valve one is in the open state at this time, and the dirty water in wash bowl is discharged by drainpipe；

S2: the clothing after cleaning is delivered to rinsing drying unit region by the cooperation of transfer member one, transfer member two, The rinsing drying unit includes rinsing mechanism, drying mechanism, and the rinsing mechanism and drying mechanism include sprinkling structure Part, the drying mechanism further include high-pressure pump, gas-guide tube, escape pipe, and one end of the gas-guide tube and high-pressure pump connect Connection, the other end connect connection with rinsing mechanism, and one end of the escape pipe connect connection, the other end with gas-guide tube and sets The sprinkling component connection for being placed in drying mechanism is connected, and the solenoid valve for controlling gas-guide tube air guide is provided on the gas-guide tube Two, the solenoid valve three for controlling escape pipe outlet is provided on the escape pipe, the rinsing mechanism further includes water storage Case, air film pump, water inlet pipe, diversion pipe, outlet pipe, the gas-guide tube and air film pump connection are connected, and the one of the water inlet pipe End connect connection, the other end and external water pipe connection with water tank and connects, and one end of the diversion pipe is connect with water tank to be connect The logical, other end and air film are pumped to connect and be connected, and one end of the outlet pipe and air film pump connect connection, the other end and be set to drift The sprinkling component of washing machine structure, which connects, to be connected；Clothing after cleaning is delivered to drift by the cooperation of transfer member one, transfer member two When washing machine structure region, solenoid valve two is in the open state, and the high pressure gas of high-pressure pump is pumped by gas-guide tube to air film defeated It send, water flow can pass sequentially through water inlet pipe, water tank, diversion pipe, air film pump, outlet pipe, the sprinkling for being set to rinsing mechanism at this time Component is sprayed to the clothing after cleaning；

S3: the clothing after rinsing is delivered to dehydration device region by the cooperation of transfer member one, transfer member two, described Shell in be additionally provided with the support frame for being fixedly installed in fixed plate, the support frame includes fixed bracket, the dehydration Device includes active dewatering element, the driven dewatering element below active dewatering element, the driven dewatering element packet Influent hopper, driven dehydration roller are included, influent hopper is set between two fixed plates and is fixedly installed in fixed plate, and intakes The liquid outlet of funnel is located above wash bowl, and driven dehydration roller is movably installed in the inlet cavity wall of influent hopper and driven Dehydration roller can rotate around own axes, it is driven be dehydrated roller be axially parallel to the distance between two fixed plates direction, it is described Active dewatering element include actively being dehydrated roller, tripping spring, being actively dehydrated the both ends of roller, movable sleeve is connected to sliding respectively Support base offers on the fixation bracket and matches with slide bearings and for being oriented to slide bearings along vertical side To the guide groove of movement, the slide bearings are set in support bracket fastened guide groove, and slide bearings are along guiding It can be drawn when the guide direction movement of slot and actively be dehydrated roller and move synchronously, one end of the tripping spring and slide bearings Connection, the other end are connect with fixed bracket, and it is close that the elastic force of tripping spring does slide bearings along the guide direction of guide groove The movement of driven dehydration roller, the region being actively dehydrated between roller and driven dehydration roller is watering area；Cleaning When clothing afterwards is delivered to watering area, clothing and actively it is dehydrated cylinder contact and makes the guiding for being actively dehydrated roller along guide groove The movement far from driven dehydration roller is done in direction, and tripping spring is in compressive state, and clothing enters watering area, brakes bullet at this time Spring makes actively to be dehydrated the movement that roller does close driven dehydration roller along the guide direction of guide groove, and clothing is actively being dehydrated roller Dehydration is completed under cooperation with driven dehydration roller, at the same time, the water that clothing is flowed out during the dehydration process can flow into Influent hopper, and then flow into the wash bowl of cleaning device, water source is provided for clothes washing next time；

S4: dewatered clothing is delivered to drying mechanism region by the cooperation of transfer member one, transfer member two, at this time Solenoid valve three is in the open state, and the high pressure gas of high-pressure pump passes through gas-guide tube, escape pipe, the sprinkling for being set to drying mechanism Component is sprayed to dewatered clothing, and the clothing after completing drying and processing can be taken out by the discharge port of shell.

2. according to claim 1 carry out low noise cleaning method to clothing using linear method of shipment, which is characterized in that Above-mentioned conveying mechanism further includes several transition rollers, and the transfer member one includes conveying cylinder one, conveyer belt one, defeated Send roller one to be set between two fixed plates and be movably installed in fixed plate and conveying cylinder one can around own axis, Conveying cylinder one is axially parallel to the distance between two fixed plates direction, the head end of conveyer belt one around conveying cylinder one, It is connect after several transition rollers with the head end of conveyer belt one and constitutes closed loop circuit；

The transfer member two includes conveying cylinder two, conveyer belt two, and conveying cylinder two is set between two fixed plates and lives It is dynamic to be installed on fixed plate and conveying cylinder two be axially parallel to conveying cylinder around own axis, conveying cylinder two One axial direction, the head end of conveyer belt two is connect after bypassing conveying cylinder two, several transition rollers with the head end of conveyer belt two and structure At closed loop circuit；

The section transitions roller that the conveyer belt one is bypassed is overlapped with the section transitions roller that conveyer belt two is bypassed, conveying Band one and conveyer belt two are in part contact condition, and for conveyer belt one with the contact portion of conveyer belt two, conveyer belt one is located at conveying The contact portion of the outside of band two, the conveyer belt one and conveyer belt two can be divided into three sections and respectively clamp segment, deferent segment, Cleaning section between clamp segment and deferent segment, cleaning section are located in cleaning device, and the conveyer belt one and deferent segment connect The part connect is rinsing dewatering period and rinsing dewatering period is in that horizontally disposed and dehydration device and rinsing drying unit are located at rinsing Above dewatering period, the part that the conveyer belt two is connect with clamp segment is conveying section.

3. according to claim 1 carry out low noise cleaning method to clothing using linear method of shipment, which is characterized in that Above-mentioned power transfer mechanism include driving pulley, dehydration belt wheel, contact roller, belt pulley for feeding foil one, directive wheel, belt pulley for feeding foil two, Transmission belt, the driving pulley are fixedly sheathed in the power output shaft end of feeder motor, and the dehydration belt wheel is fixedly attached Outside the central spindle for being actively dehydrated roller, it is provided with conveying shaft between the belt pulley for feeding foil one and fixed plate, conveys shaft Being movably installed in fixed plate and convey shaft can be around own axis, and convey shaft is axially parallel to conveying cylinder one Axial direction, belt pulley for feeding foil one is fixedly sheathed in the outside of conveying shaft, and the contact roller is located at dehydration belt wheel and belt pulley for feeding foil Between one, the belt pulley for feeding foil two is fixedly sheathed in outside the central spindle of conveying cylinder two, and the directive wheel is located at conveyer belt Between wheel one and belt pulley for feeding foil two, guiding shaft is provided between directive wheel and fixed plate, guiding shaft is fixedly installed in fixation On plate and be oriented to the axial direction for being axially parallel to conveying cylinder one of shaft, directive wheel pivot bush unit in the outside of guiding shaft, The head end of the transmission belt successively bypasses driving pulley, dehydration belt wheel, contact roller, belt pulley for feeding foil one, directive wheel, belt pulley for feeding foil Closed loop circuit is connect and constituted after two with the head end of transmission belt, the feeder motor rotation drives driving pulley rotation, Driving pulley rotates and drives dehydration belt wheel, contact roller, belt pulley for feeding foil one, directive wheel, belt pulley for feeding foil two synchronous by transmission belt Rotation, wherein dehydration belt wheel, belt pulley for feeding foil one, belt pulley for feeding foil two are identical as the rotation direction of driving pulley, contact roller, directive wheel It is opposite with the rotation direction of driving pulley；

The contact roller is connected with the pressed component for being compressed to contact roller, and the pressed component includes compressing Block, holddown spring, hinged and hinged shaft core line is parallel to the axial, another of conveying cylinder one with fixed plate for one end of compact heap End is provided with the axial direction for being axially parallel to conveying cylinder one of compression axis and compression axis, and the contact roller pivot bush unit is in pressure It the outside of mandrel and can be rotated around the axial direction of compression axis, fixed lobe is additionally provided in the fixed plate, holddown spring One end with compress axis connection, the other end and fixed lobe connects, the elastic force of holddown spring makes compression axis drive contact roller towards separate It is dehydrated the direction deflection of belt wheel；

Be provided with gear part between the belt pulley for feeding foil one and conveying cylinder one, the gear part include gear one, Gear two, gear one are fixedly sheathed in the outside of conveying shaft, and belt pulley for feeding foil one rotates and by conveying shaft traction gear one It rotating synchronously, gear two is fixedly sheathed in outside the central spindle of conveying cylinder one and gear two is engaged with gear one, and one turn of gear Moving and passing through gear two drives conveying cylinder one to move synchronously.

4. according to claim 1 carry out low noise cleaning method to clothing using linear method of shipment, which is characterized in that Above-mentioned support frame further includes being located at fixed bracket two sides and being in horizontally disposed support plate, and described is set to rinsing The sprinkling component of mechanism is installed in the support plate far from outer shell outlet, the sprinkling component peace for being set to drying mechanism Loaded in the support plate of outer shell outlet；

The sprinkling component includes spray line, spray head, mounting plate, and the periphery of the spray line is provided with to be connect with its inner cavity Logical connection mouth and interface, the spray head connect connection with interface, and the outer surface of spray head is provided with installation protrusion, described Mounting plate is provided with spray hole, and the hole wall of spray hole is provided with built-in step, the built-in step of installation protrusion and spray hole hole wall Between be provided with fastener and the two is fixed by fastener, spray head is built-in by installation protrusion and spray hole hole wall Step cooperation is fixedly installed in spray hole, and the support plate is provided with the mounting hole to match with mounting plate, the peace Loading board is set in mounting hole, and along one end of spray hole depth direction is located in mounting hole, the other end is located on mounting plate Mounting hole is outer and is provided with external step, the installation being coupled in support plate that mounting plate passes through external step and support plate In hole.