CN106048964A - Washing drying machine - Google Patents
Washing drying machine Download PDFInfo
- Publication number
- CN106048964A CN106048964A CN201610187423.8A CN201610187423A CN106048964A CN 106048964 A CN106048964 A CN 106048964A CN 201610187423 A CN201610187423 A CN 201610187423A CN 106048964 A CN106048964 A CN 106048964A
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- China
- Prior art keywords
- mentioned
- high concentration
- detergent liquid
- concentration detergent
- water
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F25/00—Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry and having further drying means, e.g. using hot air
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F39/00—Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00
- D06F39/02—Devices for adding soap or other washing agents
- D06F39/022—Devices for adding soap or other washing agents in a liquid state
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F39/00—Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00
- D06F39/08—Liquid supply or discharge arrangements
- D06F39/088—Liquid supply arrangements
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Detail Structures Of Washing Machines And Dryers (AREA)
Abstract
The invention provides a washing drying machine which can improve the washing ability, can keep an upstream flow channel of a blow-out opening clean. The washing drying machine includes: a box body (1); an outer tank (2) which is supported in the box body (1) in an antivibration manner; a rotation roller (3) which can rotate freely and is supported in the outer tank (2); a roller motor (4) for driving the rotation roller (3) to rotate; high concentration detergent liquid generation mechanism for generating high concentration detergent liquid; a blowing-in unit (51) having a fan impeller and a fan motor for driving; a blowing-out opening (52) for blowing out wind generated by the blowing-in unit (51) to the rotation roller (3); a high concentration detergent liquid supply mechanism (54) for supplying the high concentration detergent liquid to the upstream side of the blowing-out opening (52); and a tap water supply mechanism for supplying tap water to the upstream side of the blowing-out opening (52).
Description
Technical field
The invention particularly relates to the scrubbing-and-drying unit possessing the mechanism dispensing high concentration detergent liquid to washings.
Background technology
Initial at washing procedure, is dissolved in a small amount of water by detergent thus generates high concentration detergent liquid,
After being dispensed onto washings, supplying water to predetermined water level, carry out washing procedure, such scrubbing-and-drying unit is
Known to people.Such as, patent documentation 1 has been recorded a kind of scrubbing-and-drying unit: generate at a high speed having
In the scrubbing-and-drying unit of the mechanism of wind, than towards the blow-off outlet in groove by upstream side arrange make detergent liquid stream
The path entered, utilizes the mist becoming humorously high concentration detergent liquid at a high speed, it is being washed the initial of operating
Blow to washings together with wind at a high speed, thus improve cleansing power.
Prior art literature
Patent documentation
Patent documentation 1: Japanese Unexamined Patent Publication 2011-245035 publication
Summary of the invention
Invent problem to be solved
But, about the scrubbing-and-drying unit described in patent documentation 1, (thin from blow-off outlet supply detergent liquid
Mist) carry out washing procedure (clean, rinse, be dehydrated) after be dried operation, then detergent can be always
It is attached to the upstream canal of blow-off outlet, therewith can be mouldy, there is these cleaning faces, the problem in health face.Separately
Outward, if the temperature of water temperature, detergent is low, then the most mutual mixing of tap water and detergent is just dispensed
To washings, there is the problem that cleansing power can not give full play to.
Then, the problem of the present invention is to provide a kind of scrubbing-and-drying unit, and it can improve cleansing power, and
And blow-off outlet upstream canal can be remained cleaning, hygienic state.
For solving the scheme of problem
The scrubbing-and-drying unit of the present invention possesses: casing;The water jacket supported by vibrationproof in above-mentioned casing;Upper
The rotation cylinder rotatably supported in stating water jacket;Drive the motor of above-mentioned rotary drum rotating;Generate
The high concentration detergent liquid generating mechanism of high concentration detergent liquid;There is blast fan and the fan horse driven
The blowing unit reached;The blow-off outlet of blowout in the wind direction above-mentioned rotation cylinder that will be produced by above-mentioned blowing unit;
The high concentration detergent liquid feed mechanism of above-mentioned high concentration detergent liquid is supplied to the upstream side of above-mentioned blow-off outlet;
And the tap water feed mechanism of water it is supplied to the upstream side of above-mentioned blow-off outlet.
Invention effect
The present invention can provide a kind of scrubbing-and-drying unit, and it can improve cleansing power, and can will blow out
Mouth upstream canal remains cleaning, hygienic state.
Accompanying drawing explanation
Fig. 1 is the stereoscopic figure of the scrubbing-and-drying unit representing the present invention.
Fig. 2 is the in-built side view that summary represents the casing of the scrubbing-and-drying unit of the present invention.
Fig. 3 is the in-built rearview that summary represents the casing of the scrubbing-and-drying unit of the present invention.
Fig. 4 is the first circulating pump and the axonometric chart of periphery runner representing scrubbing-and-drying unit.
Fig. 5 is to top view time viewed from above of the first circulating pump and the second circulating pump.
Fig. 6 is the axonometric chart when the inboard observation of water jacket cover of the circulatory flow to scrubbing-and-drying unit.
Fig. 7 is the in-built top plane view of the casing of the scrubbing-and-drying unit representing the present invention.
Fig. 8 is the front view representing water jacket cover with the connection status of blowing unit.
Fig. 9 represents that hot-air channel, Fig. 9 (a) are axonometric charts, and Fig. 9 (b) is side view, Fig. 9 (c)
Being look up figure, Fig. 9 (d) is the line B-B sectional view of Fig. 9 (c).
Figure 10 is the line A-A sectional view of Fig. 8.
Figure 11 is the upward view of the variation representing hot-air channel.
Figure 12 is the block diagram controlling device of the scrubbing-and-drying unit of the present invention.
Figure 13 is the flow chart of the action of the scrubbing-and-drying unit representing the present invention.
Figure 14 is the flow chart of other actions of the scrubbing-and-drying unit representing the present invention.
Figure 15 is the flow chart of other actions another of the scrubbing-and-drying unit representing the present invention.
In figure:
1 casing, 2 water jackets, 3 rotate cylinder, 4 drum motor (motor), 11 water supply electromagnetism
Valve, 11e mist water supply electromagnetic valve, 24a motor (fan motor), 24b blast fan, 34 water
Level sensor, 26d1 supply mouth (the supply mouth of high concentration detergent liquid), 26e1 supply mouth is (from the beginning
The supply mouth of water), 26i nozzle (shared nozzle), 26i1 supplies mouth, 51 blowing units, and 53
First high concentration detergent liquid feed mechanism, 53a the first circulating pump, 53b1 corrugated tube, 53b2
Circulation pipe arrangement, 54 second high concentration detergent liquid feed mechanisms (high concentration detergent liquid feed mechanism),
54a the second circulating pump, 54b supplies pipe, 55 tap water feed mechanisms, 55a feed pipe, and 60
Control device, S scrubbing-and-drying unit.
Detailed description of the invention
Then, suitably referring to the drawings the drum-type washing drying machine of embodiments of the present invention (is washed dry
Dry machine) it is described in detail.And, forward and backward, the direction, upper and lower, left and right in the following description with
On the basis of forward and backward, direction, upper and lower, left and right shown in Fig. 1.
Fig. 1 is the stereoscopic figure of the scrubbing-and-drying unit representing the present invention.
As it is shown in figure 1, scrubbing-and-drying unit S possesses the casing 1 constituting exterior contour.This casing 1 is by left and right
Side plate 1a, 1b, radiator grille 1c, back side cover 1d (with reference to Fig. 2), upper face shield 1e, above lower cover 1f and
Base 1h is constituted.It addition, left side plate 1a, 1b of casing 1 are by the upper girth member of "U" font (not
Diagram), front girth member (not shown), post-reinforcing part (not shown) combine, including base 1h in
It it is now box-shaped.
In the substantial middle of radiator grille 1c, it is provided with the door 9 blocking the input port for picking and placeing washings.Separately
Outward, in the center upper portion of radiator grille 1c, be provided with possess on and off switch 39, operation switch 13,15, display
The guidance panel 6 of device 14 grade.This guidance panel 6 and the control device 60 (reference being located at casing 1 bottom
Fig. 2) electrical connection.
Fig. 2 is the in-built side view that summary represents the casing of the scrubbing-and-drying unit of the present invention.
As in figure 2 it is shown, scrubbing-and-drying unit S is configured to possess: casing 1;Propped up by vibrationproof in this casing 1
The water jacket 2 of support;The rotation cylinder 3 rotatably supported in water jacket 2;Rotation cylinder 3 is driven to revolve
The drum motor 4 (with reference to Fig. 3) turned;Blowing unit 51;The wind (hot blast) that will be generated by blowing unit 51
It is blown out to rotate the entrance i.e. blow-off outlet 52 in cylinder 3;By high concentration detergent liquid in rotating cylinder 3
First high concentration detergent liquid feed mechanism 53 of supply;Supply high concentration to the upstream side of blow-off outlet 52 to wash
Wash the second high concentration detergent liquid feed mechanism (high concentration detergent liquid feed mechanism) 54 of agent liquid;To blowing
The upstream side of outlet 52 is supplied from the tap water feed mechanism 55 (with reference to Fig. 7) of water (clear water);And
Control device 60.Additionally, high concentration detergent liquid refers to the concentration than the detergent liquid in matting
The detergent liquid of high concentration (such as 8 times).
The cylindrical shape of water jacket 2, built-in rotation cylinder 3 coaxial, front surface opening.At front surface
Peristome, be provided with can in water jacket 2 the water jacket cover 2d of water.It addition, the downside of water jacket 2 is fixed
Amortisseur 5 vibrationproof at base 1h supports.It addition, at the peristome of water jacket 2 (water jacket cover 2d), if
There is the corrugated tube 10 of rubber, carry out water seal by door 9 is closed external groove 2.
Rotating cylinder 3 is the cylindric washing and dewatering groove that can be supported rotatably, at its periphery wall and
Diapire has multiple through holes for water flowing and ventilation (omitting diagram), in anterior end surface, be provided with for
Pick and place the peristome 3a of washings.At the outer circumferential side of peristome 3a, it is provided with and rotates cylinder 3 and revolve integratedly
The fluid balancer 3c turned.It addition, rotating the internal perisporium of cylinder 3, it is provided with the lifting promoting washings
Device 3b.It addition, the center of rotation axle rotating cylinder 3 is level or tilts for peristome 3a side higher.
Blowing unit 51 possess pressure fan 51a, heater 51b and constitute, be fixed in casing 1
Girth member (not shown).Pressure fan 51a is by motor 24a (fan motor), the blast fan 24b driven
(with reference to Figure 10), blower-casting 24c are constituted.Heater 51b is built in blower-casting 24c, heat from
The air that blast fan 24b sends here.Heater 51b is by PTC (Positive Temperature Coefficient)
Heaters etc. are constituted.
Outlet 51c of blowing unit 51 is connected with hot-air channel 26.Hot-air channel 26 and rubber
Corrugated tube 27 connects, and corrugated tube 27 is via corrugated pipe connector 28 and the blow-off outlet 52 being located at water jacket cover 2d
Connect.
First high concentration detergent liquid feed mechanism 53 possesses the first circulating pump 53a, first will be circulated by this
The corrugated flexible hose that the high concentration detergent liquid that pump 53a draws up supplies with shape spray in rotating cylinder 3
53b1 and supply channel 53b2 (part diagram is omitted) and constitute.
Second high concentration detergent liquid feed mechanism 54 possesses the second circulating pump 54a, second will be circulated by this
The high concentration detergent liquid that pump 54a draws up is to the supply pipe 54b of the upstream side supply of blow-off outlet 52
Constitute.Compare the first circulating pump 53a, the second circulating pump 54a and draw the high concentration detergent liquid of low discharge.
Supply pipe 54b is made up of the runner that diameter is less than supply pipe 53b.
Inside the back side of casing 1, it is configured with dry channel 29.This dry channel 29 is via rubber
Corrugated flexible hose 29a is connected with the air entry being located at water jacket 2 rear portion.In dry channel 29, it is built-in with public affairs
The water-cooled desiccant body (not shown) known.In addition it is also possible to use heat pump to replace the dehumidifying of heater, water-cooled
Mechanism.
One end of scupper hose 19 is connected with the outlet of the first circulating pump 53a, outside the lateral machine of the other end
Extend.It addition, the extension midway that scupper hose 19 is in machine is provided with drain valve 25.
Fig. 3 is the in-built rearview that summary represents the casing of the scrubbing-and-drying unit of the present invention.
As it is shown on figure 3, at the rear portion, side of water jacket 2, it is provided with in water jacket 2 for feedwater, detergent class
Feed water inlet 2a.Feed water inlet 2a is with detergent pallet 7 (with reference to Fig. 1) by the corrugated flexible hose 17 of rubber even
Connect.
Drum motor 4 is arranged on the outside central authorities of the rear side end face of water jacket 2.The rotary shaft of drum motor 4 exists
In water jacket 2 through, and with rotate cylinder 3 be combined.
At the rear portion, upside of water jacket 2, it is provided with water supply electromagnetic valve 11, water for bathing pulsating pump 12, level sensor
The water supply associated components such as device 34 (with reference to Fig. 7).At upper face shield 1e, it is provided with the water supply being connected with faucet
Hose connection port 11a, the soft suction hose connector 12a of residue water for bathing.Level sensor 34 is (with reference to figure
7) water level in detection water jacket 2, is located at the foot of the rear portion end face of water jacket 2, by well-known anti-
Air valve (not shown), pipe (not shown) are constituted.
Water supply electromagnetic valve 11 possesses main water supply electromagnetic valve 11b, finishing agent water supply electromagnetic valve 11c, cooling water confession
Water solenoid valve 11d, mist water supply electromagnetic valve 11e etc..
Main water supply electromagnetic valve 11b makes the tap water from water supply hose connector 11a through detergent pallet 7
The detergent of (with reference to Fig. 1) puts into room (not shown) and supplies water to water jacket 2.It is supplied to detergent and puts into room
Tap water be injected in water jacket 2 via corrugated flexible hose 17 together with the detergent being put into.
Finishing agent water supply electromagnetic valve 11c makes the tap water from water supply hose connector 11a in not shown confession
Water route passes through, and finishing agent input room (not shown) supplied to detergent pallet 7 (with reference to Fig. 1).
The tap water being injected into finishing agent input room is soft via ripple together with the finishing agent (softener) being put into
Pipe 17 is injected in water jacket 2.
Cooling water electromagnetic valve 11d makes the tap water from water supply hose connector 11a in not shown confession
Water route passes through, and supplies the water-cooled desiccant body (not shown) to dry channel 29.
Mist water supply electromagnetic valve 11e makes the tap water from water supply hose connector 11a (join at feed pipe 55a
According to Fig. 7) in pass through, and the upstream side supplied to blow-off outlet 52 (with reference to Fig. 2).
Fig. 4 is the first circulating pump and the axonometric chart of periphery runner representing scrubbing-and-drying unit, and Fig. 5 is to first
Top view when circulating pump and the second circulating pump are viewed from above, Fig. 6 is the circulatory flow to scrubbing-and-drying unit
Axonometric chart when the inboard observation of water jacket cover.Additionally, in Fig. 4 and Fig. 6, eliminate the second circulating pump
54a and the diagram of supply pipe 54b.
As shown in Figure 4, the first circulating pump 53a possess the housing 42 formed as one with filter head housings 23 and
Circulating pump motor 47 and constitute.Housing 42 be formed outlet 44,45, water inlet 23a is (with reference to figure
5) and outlet 23b (with reference to Fig. 5).
Outlet 45 is connected with joint 18a via corrugated flexible hose 40.This joint 18a is located at inflow entrance 18,
This inflow entrance 18 is formed towards the depressed part 2f of the bottom of water jacket 2.
As it is shown in figure 5, the first circulating pump 53a possesses connection filter head housings 23 and the circular of housing 42
Suction inlet 43.This suction inlet 43 is formed as coaxial with the impeller 46 of the first circulating pump 53a.
Second circulating pump 54a via circular suction inlet 54c and in succession in filter head housings 23 with suction
The side that entrance 43 is contrary.There is supply pipe 54b it addition, connect at the second circulating pump 54a, supply pipe 54b
End be connected with hot-air channel 26 (with reference to Fig. 7).
As shown in Figure 6, outlet 44 via corrugated flexible hose 53b1 (53b) be located at water jacket cover 2d's
The circulatory flow 53b2 (53b) of inner side perisporium is connected.Additionally, this corrugated flexible hose 53b1 and circulatory flow
53b2 is constituted from the bottom of water jacket 2 to the circulation road on the top of water jacket 2.Circulatory flow 53b2 be located at outside
The nozzle 53c of the edge part of the peristome 2d1 of groove cover 2d connects.Nozzle 53c is circumferentially formed
For slit-shaped, in rotating cylinder 3, supply washings with film like.
If when closing drain valve 25 (with reference to Fig. 2), the circulating pump motor of the first circulating pump 53a
47 rotate forward, then the washings in water jacket 2 (are joined by corrugated flexible hose 22 from discharge outlet 21 (with reference to Fig. 2)
According to Fig. 4), the filter (omitting diagram) in filter head housings 23 (with reference to Fig. 4) remove foreign body.It
After, washings enter the first circulating pump 53a and are discharged from outlet 44, are admitted to circulatory flow 53b2
After, in rotating cylinder 3 (with reference to Fig. 1), spread water from nozzle (not shown).
If it addition, the circulating pump motor 47 of the first circulating pump 53a reverses, then the washings in water jacket 2 from
Discharge outlet 21 (with reference to Fig. 2), by corrugated flexible hose 22, (is saved sketch map by the filter in filter head housings 23
Show) remove foreign body.Afterwards, washings enter the first circulating pump 53a, are discharged from outlet 45, warp
Returned in water jacket 2 by corrugated flexible hose 40 and joint 18a.Additionally, in the present embodiment, followed by first
Ring pump 53a, corrugated flexible hose 22,40 constitute high concentration detergent liquid generating mechanism.
Fig. 7 is the in-built top plane view of the casing of the scrubbing-and-drying unit representing the present invention.And, Fig. 7
In show internal structure at right hand half component, show the state from upper perspective at left hand half component.
As it is shown in fig. 7, tap water feed mechanism 55 is by upper to blow-off outlet 52 (with reference to Fig. 2) of tap water
Trip supply, possesses feed pipe 55a.One end of the upstream side of feed pipe 55a and the mist of water supply electromagnetic valve 11
Water supply electromagnetic valve 11e (with reference to Fig. 3) connects, the hot-air channel in the downstream of the other end and blowing unit 51
26 connect.
It addition, the supply pipe 54b of the second high concentration detergent liquid feed mechanism 54 is in the front of water jacket cover 2d
Extend upward from bottom, be connected with the hot-air channel 26 in the downstream of blowing unit 51.
Fig. 8 is the front view representing water jacket cover with the connection status of blowing unit.And, what Fig. 8 illustrated is
Water jacket cover 2d be connected with blowing unit 51 after state.
As shown in Figure 8, water jacket cover 2d is formed with corrugated pipe connector 28.This corrugated pipe connector 28
Front face side at water jacket cover 2d is formed with the connector 28a connecting corrugated tube 27.This connector 28a towards
The radial outside (right tiltedly upside) of water jacket cover 2d.
Blow-off outlet 52 is formed at the edge of the peristome 2d1 of water jacket cover 2d, and towards water jacket cover 2d's
Radial center.
Corrugated tube 27 extends towards vertical direction, and lower end is connected with connector 28a, upper end and hot-air channel
26 connect.
Hot-air channel 26 extends from the rearward break-in of the upper end of corrugated tube 27, is connected with blowing unit 51.
At the upstream side of blowing unit 51, it is provided with the device for drying and filtering unit 56 of dust etc. when removing dry operating.
Fig. 9 represents that hot-air channel, Fig. 9 (a) are axonometric charts, and Fig. 9 (b) is side view, Fig. 9 (c)
Being look up figure, Fig. 9 (d) is the line B-B sectional view of Fig. 9 (c).And, Fig. 8 diagram is by upper
The monomer of the hot-air channel 26 after the blowing unit 51 of trip side and corrugated tube 27 dismounting in downstream.
As shown in Fig. 9 (a), (b), hot-air channel 26 possesses: have the channel part 26a in air channel in inside;
Connect the connection opening 26b of the outlet of blowing unit 51 (with reference to Fig. 1);And connect corrugated tube 27
Connect opening 26c.The opening connecting opening 26b is generally elliptical shape (flat pattern), connects opening
The opening of 26c is circular.
It addition, in hot-air channel 26, for the supply pipe 54b of the second high concentration detergent liquid feed mechanism 54
Connect connecting portion 26d and for tap water feed mechanism 55 feed pipe 55a connect connecting portion 26e that
This is closely prominent and is formed.Connecting portion 26d and connecting portion 26e is directed towards the tubulose that side is prominent, and
It is configured to parallel to each other.So, by making connecting portion 26d, 26e highlight towards side (left), energy
The air channel enough preventing device for drying and filtering unit 56 above is obstructed.
As shown in Fig. 9 (c), in the front end of connecting portion 26d, 26e, formed in oriented channel part 26a
Nozzle 26d1,26e1 prominent in runner Q.It addition, the side face (side) of the front end at nozzle 26d1,
It is formed with the supply mouth 26d2 discharging high concentration detergent liquid.At the side face (side) of the front end of nozzle 26e1,
It is formed with the supply mouth 26e2 being discharged from water.The aperture area of supply mouth 26d2 is formed as than supply mouth
The aperture area of 26e2 is big, in other words, is configured to the quantity delivered confession than tap water of high concentration detergent liquid
Give amount many.
As shown in Fig. 9 (d), nozzle 26e1 is positioned at the upstream side of the flow direction leaning on wind than nozzle 26d1.That is,
The supply mouth 26e2 of tap water is positioned at and leans on upstream side than the supply mouth 26d2 of high concentration detergent liquid.It addition,
The downstream of supply mouth 26d2,26e2 flow direction towards wind.It is, supply mouth 26d1,26e1 towards
Substantially opposite side, side is supplied with the wind (air) from blowing unit 51.Thereby, it is possible to prevent from
The supply of the high concentration detergent liquid of supply mouth 26d2 is obstructed because of the pressure of wind, equally, it is possible to prevent
The supply of the tap water automatically supplying mouthful 26e2 is obstructed because of the pressure of wind.
Figure 10 is the line A-A sectional view of Fig. 8.
As shown in Figure 10, if driving blowing unit 51, then blast fan 24b is rotated by motor 24a,
Generate wind at a high speed.Wind at a high speed passes through in hot-air channel 26, corrugated tube 27 and corrugated pipe connector 28,
Blow out from blow-off outlet 52.If simultaneously driving the second circulating pump 54a (with reference to Fig. 2) with blowing unit 51,
The high concentration detergent liquid then generated in the bottom of water jacket 2 is in supply pipe 54b (with reference to Fig. 2, Fig. 5)
By and be drawn up, from the supply runner Q that is supplied in hot-air channel 26 of mouth 26d2.From supply mouth
26d2 supply high concentration detergent liquid by contacting with the wind of the high speed supplied from blowing unit 51, thus
High concentration detergent liquid mist.The high concentration detergent liquid of mist hot-air channel 26, corrugated tube 27,
Corrugated pipe connector 28 passes through, is blown out to rotate in cylinder 3 from blow-off outlet 52.
Then, it is diffused into together with wind at a high speed in rotation cylinder 3, is attached to washings, it is possible to make highly concentrated
Degree detergent liquid is substantially evenly impregnated with washings.About the amount of high concentration detergent liquid, for effective mist
Change and uniformly spread all over washings, being preferably set according to air quantity, wind speed.Such as, it is per minute at air quantity
1.5m3, in the case of wind speed is 100m/s, preferably 0.05~3.0L/min degree.
It addition, terminate supply from the supply mouth 26d2 of high concentration detergent liquid, then stop the second circulating pump 54a.
Then, by opening mist water supply electromagnetic valve 11e, tap water passes through in feed pipe 55a (with reference to Fig. 7)
Flowing, from supply mouth 26e2 supply.From supply mouth 26e2 supply tap water by with from blowing unit
The wind contact of the high speed of 51 supplies, thus tap water mist.The tap water of mist hot-air channel 26,
Corrugated tube 27, corrugated pipe connector 28 pass through, clean until blow-off outlet 52 runner Q wall on
The high concentration detergent liquid of attachment.Now, the supply mouth 26e2 of tap water is positioned at ratio high concentration detergent liquid
Supply mouth 26d2 by upstream side, therefore, it is possible to the runner entirety accompanying by high concentration detergent liquid is carried out
Clean.
Figure 11 is the upward view of the variation representing hot-air channel.
As shown in figure 11, hot-air channel 26A possesses the merging part at connecting portion 26f and connecting portion 26g interflow
26h, connecting portion 26f connect the supply pipe 54b (with reference to Fig. 2 and Fig. 7) of supply high concentration detergent liquid,
Connecting portion 26g connects the feed pipe 55a (with reference to Fig. 7) being supplied from water.This merging part 26h becomes by one
The nozzle 26i that bar runner is constituted, is configured to nozzle 26i prominent in the runner Q of channel part 26a.It addition,
At the side face (side) of the front end of nozzle 26i, it is formed for mouth 26i1.It addition, supply mouth 26i1 court
Flowing to downstream and being formed aweather, thus prevent high concentration detergent liquid, tap water supply because of the pressure of wind
Power and be obstructed.
So, by making high concentration detergent liquid and tap water are made up of the nozzle 26i shared, compare individually
The situation of nozzle is set, it is possible to the flowing reducing wind is hindered.It addition, existed by the nozzle 26i shared
It is supplied from water such that it is able to clean in the attachment of the front end of nozzle 26g after supply high concentration detergent liquid
High concentration detergent liquid, it is possible to prevent after the supply of high concentration detergent liquid high concentration detergent liquid from nozzle
The front end of 26i hangs.
It addition, by by the second high concentration detergent liquid feed mechanism 54 (high concentration detergent liquid supply machine
Structure) supply pipe 54b and water channel water feed mechanism 55 supply pipe 55a be fixed on casing 1 side
Hot-air channel connects, thus compares and supply pipe 54b, 55a are located at movable part, it is possible to increase assembleability,
Abrasion during operating can be reduced, the most favourable to quality.
Figure 12 is the block diagram controlling device of the scrubbing-and-drying unit of the present invention.
As shown in figure 12, control device 60 and possess microcomputer 50, drive circuit 64 etc., and also possess behaviour
Make the ON/OFF signal of switch 13,15, from the input circuit 65 etc. of output signal of various sensors.
It addition, control device 60 to obtain the operation of user, washing procedure (matting, drift via microcomputer 50
Wash operation, dehydration procedure), various information signals in drying process.It addition, control the microcomputer of device 60
50 control opening of the rotation of drum motor 4, water supply electromagnetic valve 11 and drain valve 25 via drive circuit 64
Close, the first circulating pump 53a and the rotation of the second circulating pump 54a, the rotation of motor 24a of blowing unit 51
Turn and the on/off of energising of heater 51b.It addition, control device 60 in order to user notice with
Scrubbing-and-drying unit S-phase close information and control display 14, light-emitting component 66, buzzer 67.
Control device 60 to be pressed on and off switch 39 and start after switching on power, perform shown in Figure 13 that
The washing of sample and dry basic controlling processing routine.Figure 13 is scrubbing-and-drying unit dynamic representing the present invention
The flow chart made.
As shown in figure 13, in the step s 100, control device 60 and carry out the state confirmation of scrubbing-and-drying unit
And initial setting.
In step s 110, control device 60 and make the display 14 (ginseng of guidance panel 6 (with reference to Fig. 1)
According to Fig. 1) carry out lighting display, set according to the instruction input from operation switch 13 (with reference to Fig. 1)
Washing process.When not indicating input, it is automatically made standard wash process or last time implements
Washing process.
In the step s 120, the operation switch (starting switch) 15 of device 60 decision panel 6 is controlled
Whether it is connection, is starting (YES) in the case of switch is to connect, entering step S130, starting switch
Not in the case of connecting (no), monitor the instruction input starting switch.Opening it addition, control device 60
After beginning to switch as connecting, operation process based on input, reads in the operational mode of correspondence from operation mode data base
Formula, enters step S130.
In step s 130, control device 60 detection and put into the weight (cloth of the washings rotating cylinder 3
Amount).About the detection of this cloth amount, under the dry cloth state before supply rinse water, make rotation cylinder 3 to
When one direction rotates, based on the cylinder horse from regulation rotary speed speedup to miscellaneous stipulations rotary speed
Reach the driving electric current aggregate-value of 4 to carry out.Then, device 60 is controlled based on the cloth amount detected, by not
The electric conductivity (hardness) of the water of the hardness transducer detection of diagram, by temperature sensor 62 (with reference to Figure 12)
The water temperature etc. of detection, by map retrieval, the detergent amount of decision input and the duration of runs and rotation cylinder
Rotary speed.Then, control device 60 to show the detergent amount obtained, the duration of runs at guidance panel
The display 14 of 6.
In step S140, control device 60 and perform high concentration detergent liquid generation process.User will be washed
Washing agent pallet 7 to pull out, the powder to the detergent amount shown by detergent pallet 7 input display 14 is washed
Wash agent.Control device 60, at standby user, detergent is thrown in required time (example to detergent pallet 7
Such as 1 minute) after, open the main water supply electromagnetic valve 11b of water supply electromagnetic valve 11, to detergent pallet 7
Supply.Powder detergent passes through together with the water of supply in corrugated flexible hose 17, from the feed water inlet of water jacket 2
2a flows down to the depressed part 2f of water jacket 2.
Then, from feed water inlet 2a water along water jacket 2 inner peripheral surface flow, therefore water, detergent are not
Can flow in rotation cylinder 3.Thereby, it is possible to prevent owing to undissolved powder detergent directly contacts washing
Thing and produce and fade or irregular colour.
It addition, in the case of detergent is liquid detergent, in order to prevent beating at main water supply electromagnetic valve 11b
Before opening, the liquid detergent of high concentration flows down in water jacket 2, arranges liquid detergent at detergent pallet 7
Space, temporarily accumulate here, while the water supply dilution utilizing autonomous water supply electromagnetic valve 11b to
Water jacket 2 supplies.
Then, control device 60 to stop supplying water when supplying water and dissolving water level to detergent.Output is according to washing
Wash dosage (cloth amount) to control, such as, the water level being set at less than in matting.The control of output
Level sensor 34 is utilized to carry out.This water yield is such as set as that detergent concentration maximum becomes 10 times.Here,
About detergent concentration, by the specified value concentration (feelings for usual powdered synthetic detergent of detergent producer
Under condition, concentration during dissolving detergent 20 grams in 30 liters of water) it is defined as 1 times.
Then, control device 60 and circulating pump motor 47 is energized, make the first circulating pump 53a reverse, perform
Detergent dissolves.The water accumulated at the bottom of water jacket 2 and depressed part 2f and detergent from discharge outlet 21 at ripple
Stricture of vagina flexible pipe 22, filter head housings 23 are passed through, enters in housing 42 from suction inlet.Then, from outlet
45 are ejected, and pass through in corrugated flexible hose 40, return depressed part 2f from inflow entrance 18, so follow
Ring.Detergent constantly dissolves by being stirred by the blade of the runner of the first circulating pump 53a, generates high concentration
Detergent liquid.The time that detergent dissolves such as is set as 10 seconds.
In step S150, control device 60 and perform spray spreading (first circulation of high concentration detergent liquid
Operation).That is, control device 60 by making the first circulating pump 53a rotate forward, thus in the bottom of water jacket 2 and
Depressed part 2f accumulate high concentration detergent liquid from discharge outlet 21 corrugated flexible hose 22 and filter head housings 23
Pass through, enter in housing 42 from suction inlet.Then, it is ejected from outlet 44, at corrugated flexible hose 53b1
And circulatory flow 53b2 passes through, it is supplied to rotate in cylinder 3 from nozzle 53c.Such as, 10 are being generated
In the case of elevated concentrations detergent liquid, 7 liters in 10 liters (such as 2~3 seconds) in the given time supply
Give.
In step S160, control device 60 and perform mist spreading (second circulation of high concentration detergent liquid
Operation).That is, device 60 is controlled by driving the second circulating pump 54a, thus in the bottom of water jacket 2 and recessed
The high concentration detergent liquid falling into portion 2f residual passes through in supply pipe 54b, is supplied to the upstream of blow-off outlet 52
The hot-air channel 26 of side.Now, blowing unit 51 (fan motor 24a and heater 51b) is energized,
Hot blast is supplied, so that the hot blast from blowing unit 51 supplies with from supply mouth 26e1 to hot-air channel 26
The high concentration detergent liquid contact given, thus high concentration detergent liquid mist.Such as, 10 liters are being generated
In the case of high concentration detergent liquid, remaining 3 liters supply with mist.
Like this, high concentration detergent liquid is utilized hot blast mist, by high concentration detergent liquid high for temperature
Mist be sprayed onto washings, it is thus possible to improve washings cleansing power.It addition, by utilizing hot blast,
Detergent can be made effectively to mix with tap water.Additionally, be not necessarily defined to hot blast, it is also possible to add making
Hot device 51b is under the state disconnected, and blows the wind not heated and carries out mist.
In step S170, control device 60 and supply water and cleaning detergent runner in water jacket 2.That is,
Controlling device 60 makes main water supply electromagnetic valve 11b open, and supplies water to the water level become needed for matting.Separately
Outward, control device 60 and make mist water supply electromagnetic valve 11e open simultaneously, via supply pipe 54b, from heat
The supply mouth 26e2 supply of the nozzle 26e1 that wind passage 26 is formed.It addition, control device 60 to drive air-supply
Unit 51, by the wind (hot blast) of the high speed after heating via hot-air channel 26, corrugated tube 27 and corrugated tube
Joint 28 supplies in rotating cylinder 3 from blow-off outlet 52.Thus, tap water and wind (hot blast) at a high speed
Collision, thus tap water mist.
The tap water of mist is attached to the internal face of hot-air channel 26, the internal face of corrugated tube 27 in cleaning
And after the detergent liquid of the internal face of corrugated pipe connector 28, be discharged from blow-off outlet 52.Thus, though
From blow-off outlet 52 with mist supply high concentration detergent liquid carry out washing procedure (clean, rinse, de-
Water) after carried out drying process, it is also possible to prevent being attached to detergent runner (air channel) along with detergent and
Produce is mouldy etc., it is possible to air channel remains the state of cleaning, health.
It addition, in scrubbing-and-drying unit S, wash than high concentration by the supply mouth 26e1 of tap water is located at
Wash the supply mouth 26e1 of agent liquid (mist) and flow to upstream side by wind such that it is able to appended by detergent liquid
The wall entirety of the wind path is carried out.
Cleaning detergent runner (wind path) is carried out by so utilizing hot blast that tap water carries out mist, thus
The cleansing power washing dirt off of detergent can be improved.Additionally, be not necessarily defined to hot blast, it is also possible to
Making heater 51b is under the state disconnected, and blows the wind not heated and carries out mist.
Additionally, in the case of utilizing tap water cleaning detergent liquid, be not limited to carry out tap water mistization
The structure cleaned, can combine the structure supplied after tap water mist and (not sent by tap water mist
Wind unit 51 is to disconnect) but with the structure of aqueous supply.For example, it is possible to formerly supply oneself of mist
After water, supply aqueous tap water, rinse the wall of detergent runner (air channel).
In step S180, control device 60 and perform washing procedure.This washing procedure performs prerinse,
While making rotation cylinder 3 positive and negative rotation (per minute 35 rotate to 45 rotations), by circulating pump horse
Reaching 47 energisings makes the first circulating pump 53a rotate forward, thus by the rinse water bottom water jacket 2 from nozzle 53c
It is sprayed onto on washings.Washings utilizes the lifter 3b being located at the inner circumferential wall rotating cylinder 3 repeatedly to enter
The motion that row promotes, falls.The operating interval with the first circulating pump 53a that rotates rotating cylinder 3 is carried out,
During rotating the stopping of cylinder 3 and the first circulating pump 53a, in the detection with reference to level sensor 34
Open water supply electromagnetic valve 11 while signal, perform to supplement water supply in the way of water level is less than designated water level.
Rinse water is made to immerse washings equably by this operating repeated multiple times.
When primary rotation cylinder 3 positive and negative rotation, detergent concentration is of about the rinse water spray of 10 times
It is spread across washings and is impregnated in this washings.The rinse water of high concentration from nozzle 53c with thin membranaceous extension
Open and dispense, therefore by the penetrant action of detergent, be impregnated with washings equably.In the feelings that washings is many
Under condition, the rinse water from nozzle 53c is difficult to spread over the washings close to the part rotating cylinder 3 periphery,
But by making rotation cylinder 3 rotate, clearly during the spreading of the high concentration detergent liquid of step S180
Wash water is impregnated with washings from the outer circumferential side rotating cylinder 3, and therefore rinse water is impregnated with washings entirety.It addition,
Owing to containing a large amount of micelles in being impregnated with the rinse water of high concentration of washings, therefore greasy dirt is dissolved, make dirt
The dirty effect from washings floating is the biggest, it is possible to obtain high cleansing power.
It addition, make changes in flow rate by the rotary speed increasing and decreasing the first circulating pump 53a, it is possible to make spray
Arrive distance change, be more uniformly dispensed onto washings.That is, if de-spin reduces flow,
Spray being then dispensed onto the washings being positioned at the nearly body side rotating cylinder 3, increasing if spinning up speed
Add flow, then spray can be dispensed onto and be positioned at the inboard washings rotating cylinder 3.
It addition, control device 60 to perform formal cleaning in matting.That is, just rotation cylinder 3 is made
The first circulating pump 53a is made to rotate forward while despining (per minute 35 rotate to 45 rotations), will be at water jacket
The rinse water that the bottom of 2 is accumulated is sprayed onto washings from nozzle 53c.Finally, the first circulating pump 53a is stopped
Operating stop the circulation of rinse water, make rotation cylinder 3 while short cycle positive and negative rotation, performing
Discongest the operating of washings, terminate formal cleaning.
In step S190, control device 60 and perform draining/dehydration procedure.First, open drain valve 25,
Water in water jacket 2 is discharged, after detecting that draining completes by level sensor 34, makes rotation cylinder
3 rotate to a direction, and the rinse water contained by washings is centrifuged dehydration.
In step s 200, controlling device 60 and open main water supply electromagnetic valve 11b, from feed water inlet, 2a is outside
Supply water in the bottom of groove 2, until becoming designated water level.
In step S210, control device 60 and perform rinsing process.In the same manner as formal cleaning, make rotation
While tumbler cylinder 3 positive and negative rotation (per minute 35 rotate to 45 rotations), just make the first circulating pump 53a
Turn, make the washings accumulating in the bottom of water jacket 2 be sprayed onto washings from nozzle 53c, be so circulated,
Perform rinsing.
Then, when the operating of the rotation and the first circulating pump 53a that rotate cylinder 3 stops, logical
While crossing the water level that level sensor 34 detection accumulates in washings bottom water jacket 2, do not surpass with water level
The mode going out designated water level carries out supplementing water supply.Become film like from the washings of nozzle 53c ejection to be dispensed onto
Washings, is spread across washings the most equably, it is possible to effectively dilution detergent ingredients contained by washings, energy
Enough improve rinsing performance.Afterwards, in the state of circulation making the first circulating pump 53a stop and stopping washings
Under, make rotation cylinder 3 with short cycle positive and negative rotation, carry out discongesting operating.
It addition, perform second time water rinsing.This second time water is rinsed through opens finishing agent water supply electromagnetism
Valve 11c also puts into room water supply to the submissive finishing agent of detergent pallet 7, additional by submissive finishing agent input room
Interior submissive finishing agent imports the control bottom water jacket 2.Action outside this is as water rinsing for the first time
Carry out.
In step S220, control device 60 and perform draining/dehydration procedure (final dewatering).Final dewatering
It is carried out as follows: to make rotation cylinder 3 to a direction high-speed rotary when keeping drain valve 25 open
The mode turned makes drum motor 4 operate, and the washings rotated in cylinder 3 is centrifuged dehydration.This is final
The duration of runs of dehydration is set as obtaining the time of desired dehydration rate.
In step S230, control device 60 and determine whether to set washing dry run, wash setting
Wash (YES) in the case of dry run, enter step S240, in the case of not setting washing dry run
(no), end processes.
In the case of setting washing dry run, in step S240, control device 60 and perform to be dried
Operation.In this drying process, making drain valve 25 is the state keeping opening, in the same manner as washing procedure,
While making rotation cylinder 3 positive and negative rotation, the blowing unit 51 being located at dry channel 29 midway is made to operate,
Thus the air in water jacket 2 is sucked in dry channel 29, when passing through in this dry channel 29,
(cooling water supplies to make its cooling water flow down with the water-cooled desiccant body in being arranged on this dry channel 29
Water solenoid valve 11d opens and supplies) contact and after carrying out cooling and dehumidifying, in lint filter 8 (ginseng
According to Fig. 7) in by and trap the end of a thread, after utilizing heater 51b to add hot-air (wind), from hot blast
Blow-off outlet 52 be blown into rotation cylinder 3 in.Drying process is in the temperature by temperature sensor monitors hot blast
And terminate when variations in temperature ratio reaches predetermined value.
But, (high concentration detergent liquid is entered only possessing the first high concentration detergent liquid feed mechanism 53
Row spray dispense mechanism) scrubbing-and-drying unit in, in order to improve cleansing power, from the first circulating pump 53a
Being formed slightly to the path rotating cylinder 3, high concentration detergent liquid can not dispense for a long time, and high concentration is washed
Agent liquid can not spread all over washings entirety and immerse.Further, since from the first circulating pump 53a to spray outlet
The path of (nozzle 53c) remains high concentration detergent liquid, therefore can not utilize generated all highly concentrated
Degree detergent liquid.It addition, (high concentration is washed only possessing the second high concentration detergent liquid feed mechanism 54
Wash agent liquid and carry out the mechanism of mist spreading) scrubbing-and-drying unit in, if circular flow is few, then arrive to washing
Thing expends the time till having sprayed.On the contrary, if increasing circular flow to shorten the duration of runs, then wash
Agent liquid is difficult to mist when contacting with wind.Then, at scrubbing-and-drying unit S for comprising the first circulating process
(S150) structure of and the second circulating process (S160), in the first circulating process (S150), utilizes
First high concentration detergent liquid feed mechanism 53 is supply high concentration detergent liquid in rotating cylinder 3, and second
In circulating process (S160), while from blowing unit 51 towards the wind of blow-off outlet 52 supply high speed,
The second high concentration detergent liquid feed mechanism 54 is utilized to supply high concentration detergent to the upstream side of blow-off outlet 52
Liquid.Utilize the second high concentration detergent liquid feed mechanism, it is possible to spread all over immersion high concentration to washings entirety and wash
Wash agent liquid, therefore, it is possible to make cleansing power improve, and pass through and use the first high concentration detergent liquid supply machine
Structure and the second high concentration detergent liquid feed mechanism, it is possible to realize the shortening of the duration of runs.
It addition, in scrubbing-and-drying unit S, control device 60 and control as performing before the second circulating process
First circulating process.Thereby, it is possible to shorten the duration of runs further.If followed it is, first carry out second
Ring operation, then owing to accumulating in high concentration detergent liquid bottom water jacket 2 when performing the first circulating process
Emulate the advanced the mutually situation of row the first circulating process of amount to be lacked, therefore the first circulating pump 53a draw required amount
Increasing, the spreading of detergent liquid expends the time.
It addition, in scrubbing-and-drying unit S, be configured to the first circulating process and compare the second circulating process in unit
The quantity delivered of the above-mentioned high concentration detergent liquid of time wants many.Thus, after the first circulating process, perform the
In the case of two circulating processes, it is possible to draw the high concentration detergent failing to draw in the first circulating process
Liquid, it is possible to be impregnated into washings with lesser amount of high concentration detergent liquid overall.
Figure 14 is the flow chart of other actions of the scrubbing-and-drying unit representing the present invention.And, about with figure
The process that the flow chart of 13 is same, marks same step symbol, and the repetitive description thereof will be omitted.
As shown in figure 14, the high concentration that device 60 is carried out by the first circulating process (S150) is controlled in beginning
After the spreading of detergent liquid processes, enter step S151, it is determined that whether the water level of water jacket 2 is first pre-
Determine below water level.Even if it is, make the first circulating pump 53a rotate, also can remain from the first circulating pump
The high concentration detergent liquid of the pipe arrangement part of 53a to nozzle 53c, if forcibly by detergent liquid therein
Being discharged to rotate in cylinder 3, then air and the mixing of detergent liquid, gassing blocks, becomes the former of foaming
Cause.First predetermined water level is the water level set to prevent such bubble from blocking.
In step S151, control below device 60 judges that whether the water level of water jacket 2 is as the first predetermined water level,
Be judged to be not below the first predetermined water level in the case of (no), the repeatedly process of step S151, sentencing
Being set to is (YES) in the case of below the first predetermined water level, enters step S160, performs high concentration detergent
The mist of liquid dispenses.
In step S161, control more than device 60 judges that whether the water level of water jacket 2 is as the second predetermined water level.
And, the second predetermined water level is set higher than the first predetermined water level, and is set at less than high concentration detergent liquid
Water level (water level when detergent dissolves) in generation process.In step S161, control device 60 and exist
The water level being judged to water jacket 2 is not in the case of more than the second predetermined water level (no), enters step S162,
Be judged to be more than the second predetermined water level in the case of (YES), enter step S163.
In step S162, control device 60 and determine whether through the scheduled time, pass through being judged to
(YES) in the case of the scheduled time, enters step S170, in the case of being judged to without the scheduled time
(no), returns step S161.Additionally, the scheduled time sets based on test in advance etc..
Such as, in the second circulating process during the circulation of high concentration detergent liquid the most repeatedly, detergent liquid is from washing
Wash thing to leach, thus the phenomenon that water level slowly rises occurs.It is if chemical fibre, then few due to water content,
So being difficult to produce such phenomenon, but for fibers such as bath towels, water logging output sometimes compares the second circulation
It is more that pump 54a discharges water.
In step S163, control device 60 and perform spray spreading (first circulation of high concentration detergent liquid
Operation).
In step S164, control device 60 and judge that the spray spreading of high concentration detergent liquid passes through the most
The scheduled time.Additionally, the scheduled time determines based on experiment in advance etc..Control device 60 be judged to
Not yet (S164: no), the repeatedly process of step 163 in the case of the scheduled time, is being judged to
In the case of the scheduled time (S164, yes): enter step S170.
In such scrubbing-and-drying unit S, control device 60 and performing the first circulating process (S150)
During determine the water level of water jacket 2 less than (S151: yes) in the case of the first predetermined water level, control to turn
Move on to the second circulating process (S160).Thus, block as it has been described above, be prevented from bubble, thus prevent
High concentration detergent liquid foams.
It addition, in scrubbing-and-drying unit S, control device 60 and performing the second circulating process (S160) mistake
Journey is judged to the water level of water jacket 2 be higher than the second predetermined water level of the first predetermined water level in the case of, control
Transfer to the first circulating process (S163).Thus, high concentration detergent liquid can be filled before matting
Divide and be sprayed onto washings, it is possible to increase the cleansing power of washings.
Figure 15 is the flow chart of other actions another of the scrubbing-and-drying unit representing the present invention.
The structure of Figure 15 illustrated embodiment is: by step S150 and the S160 of the embodiment of Figure 13
Replace with step S155.
In step S155, control device 60 and perform the spray spreading (first of high concentration detergent liquid simultaneously
Circulating process) and mist spreading (the second circulating process) of high concentration detergent liquid.That is, filled by control
Put 60 and simultaneously drive the first circulating pump 53a and the second circulating pump 54a, the high concentration detergent liquid of shape spray
It is dispensed onto washings from nozzle 53c, and the high concentration lotion of mist is washed liquid and spread from blow-off outlet 52
Cloth is to washings.
So, in scrubbing-and-drying unit S, by carrying out the first circulating process and the second circulating process simultaneously,
Compare the situation carrying out the first circulating process prior to the second circulating process, it is possible to shorten the duration of runs.
And, the invention is not restricted to above-mentioned embodiment, without departing from the scope of the subject in the invention can
Suitably change.Such as, in above-mentioned embodiment, it is to carry out as a example by the scrubbing-and-drying unit S of drum-type
Illustrate, and also can be suitable for for vertical scrubbing-and-drying unit.It addition, be that the washing using and possessing functions/drying is done
The explanation that dry machine is carried out, and also be able to be suitable for for not having the drum-type washing machine of functions/drying.
And, as high concentration detergent liquid generating mechanism, be with the bottom of water jacket 2 stirring tap water and
Detergent and the explanation that carries out in case of generating, but be also not necessarily limited to such structure, it is also possible to for
Detergent pallet 7 generates the structure of high concentration detergent liquid, it is possible to suitably change.
It addition, when the mist performing high concentration detergent liquid dispenses (S160), can be supplied by tap water
Mechanism 55 is supplied simultaneously to tap water.Thereby, it is possible to the concentration carrying out high concentration detergent liquid adjusts, it is possible to
The concentration of dilution detergent liquid, shortens the time being immersed in washings.
Claims (11)
1. a scrubbing-and-drying unit, it is characterised in that possess:
Casing;
The water jacket supported by vibrationproof in above-mentioned casing;
The rotation cylinder rotatably supported in above-mentioned water jacket;
Drive the motor of above-mentioned rotary drum rotating;
Generate the high concentration detergent liquid generating mechanism of high concentration detergent liquid;
There is the blowing unit of the fan motor of blast fan and driving;
The blow-off outlet of blowout in the wind direction above-mentioned rotation cylinder that will be produced by above-mentioned blowing unit;
The high concentration detergent liquid supply of above-mentioned high concentration detergent liquid is supplied to the upstream side of above-mentioned blow-off outlet
Mechanism;And
Upstream side to above-mentioned blow-off outlet is supplied from the tap water feed mechanism of water.
Scrubbing-and-drying unit the most according to claim 1, it is characterised in that
The supply mouth of above-mentioned tap water feed mechanism compares the supply of above-mentioned high concentration detergent liquid feed mechanism
What mouth was positioned at above-mentioned wind flows to upstream side.
Scrubbing-and-drying unit the most according to claim 1, it is characterised in that
The supply mouth of above-mentioned high concentration detergent liquid feed mechanism and the supply mouth of above-mentioned tap water feed mechanism
There is shared nozzle.
4. according to the scrubbing-and-drying unit described in Claims 2 or 3, it is characterised in that
The supply mouth of above-mentioned tap water feed mechanism and the supply of above-mentioned high concentration detergent liquid feed mechanism
Mouth is fixed on above-mentioned casing side.
5. according to the scrubbing-and-drying unit described in any one of Claims 1 to 4, it is characterised in that
Possesses control above-mentioned rotation cylinder, said motor, said fans motor, above-mentioned high concentration detergent liquid
The control dress of generating mechanism, above-mentioned high concentration detergent liquid feed mechanism and above-mentioned tap water feed mechanism
Put,
Above-mentioned control device controls said motor and makes above-mentioned rotation cylinder rotate around above-mentioned center of rotation axle, and
And above-mentioned high concentration detergent liquid is supplied to the upstream side of above-mentioned blow-off outlet, utilize and produced by above-mentioned blowing unit
Raw wind, from above-mentioned high concentration detergent liquid feed mechanism to the washings spray being contained in above-mentioned rotation cylinder
Go out above-mentioned high concentration detergent liquid, be supplied from water from above-mentioned tap water feed mechanism afterwards.
6. a scrubbing-and-drying unit, it is characterised in that possess
Casing;
The water jacket supported by vibrationproof in above-mentioned casing;
The rotation cylinder rotatably supported in above-mentioned water jacket;
Drive the motor of above-mentioned rotary drum rotating;
Generate the high concentration detergent liquid generating mechanism of high concentration detergent liquid;
Possess the first of the first circulating pump supplied in above-mentioned rotation cylinder by above-mentioned high concentration detergent liquid
High concentration detergent liquid feed mechanism;
There is the blowing unit of the fan motor of blast fan and driving;
The blow-off outlet of blowout in the wind direction above-mentioned rotation cylinder that will be produced by above-mentioned blowing unit;
Possess the of the second circulating pump supplying above-mentioned high concentration detergent liquid to the upstream side of above-mentioned blow-off outlet
Two high concentration detergent liquid feed mechanisms;And
Control above-mentioned rotation cylinder, said motor, said fans motor, above-mentioned first circulating pump and above-mentioned
The control device of the second circulating pump,
Above-mentioned control device performs the first circulating process and the second circulating process, in the first circulating process, utilizes
Above-mentioned first high concentration detergent liquid feed mechanism supplies above-mentioned high concentration detergent in above-mentioned rotation cylinder
Liquid, in the second circulating process, while supplying wind from above-mentioned blowing unit to above-mentioned blow-off outlet, in utilization
State the second high concentration detergent liquid feed mechanism and supply the washing of above-mentioned high concentration to the upstream side of above-mentioned blow-off outlet
Agent liquid.
Scrubbing-and-drying unit the most according to claim 6, it is characterised in that
Above-mentioned control device performed above-mentioned first circulating process before above-mentioned second circulating process.
8. according to the scrubbing-and-drying unit described in claim 6 or 7, it is characterised in that
Possess the level sensor of the water level detected in above-mentioned water jacket,
Above-mentioned control device is performing during above-mentioned first circulating process, is being judged to above-mentioned water table ratio the
In the case of one predetermined water level is low, transfer to above-mentioned second circulating process.
Scrubbing-and-drying unit the most according to claim 8, it is characterised in that
Above-mentioned control device is performing during above-mentioned second circulating process, be judged to above-mentioned water level for than
In the case of the second predetermined water level that above-mentioned first predetermined water level is high, transfer to above-mentioned first circulating process.
Scrubbing-and-drying unit the most according to claim 6, it is characterised in that
Above-mentioned control device performs above-mentioned first circulating process and above-mentioned second circulating process simultaneously.
11. according to the scrubbing-and-drying unit described in any one of claim 6~10, it is characterised in that
Above-mentioned first circulating process in the quantity delivered of the above-mentioned high concentration detergent liquid of unit interval than above-mentioned
Two circulating processes are many.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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JP2015078859A JP6408418B2 (en) | 2015-04-08 | 2015-04-08 | Washing and drying machine |
JP2015-078859 | 2015-04-08 | ||
JP2015-078858 | 2015-04-08 | ||
JP2015078858A JP6417260B2 (en) | 2015-04-08 | 2015-04-08 | Washing and drying machine |
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CN106048964B CN106048964B (en) | 2018-04-10 |
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CN201610187423.8A Active CN106048964B (en) | 2015-04-08 | 2016-03-29 | Scrubbing-and-drying unit |
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WO2018155227A1 (en) * | 2017-02-24 | 2018-08-30 | パナソニックIpマネジメント株式会社 | Laundry machine and control device therefor |
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CN101177861A (en) * | 2006-11-08 | 2008-05-14 | 日立空调·家用电器株式会社 | Washing machine |
CN102260985A (en) * | 2010-05-27 | 2011-11-30 | 日立空调·家用电器株式会社 | Washing and drying machine |
CN103946440A (en) * | 2011-11-18 | 2014-07-23 | 夏普株式会社 | Washer dryer |
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KR100504501B1 (en) * | 2003-04-14 | 2005-08-02 | 엘지전자 주식회사 | Drum washer's washing method by spray steam |
KR100629332B1 (en) * | 2004-04-07 | 2006-09-29 | 엘지전자 주식회사 | Washing machine with dryer and the control method of the same |
KR101483677B1 (en) * | 2007-11-21 | 2015-01-16 | 엘지전자 주식회사 | Laundry treatment machine |
JP6063335B2 (en) * | 2013-04-22 | 2017-01-18 | 日立アプライアンス株式会社 | Drum washing machine |
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2016
- 2016-03-29 CN CN201610187423.8A patent/CN106048964B/en active Active
- 2016-03-31 TW TW105110300A patent/TWI624575B/en active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101177861A (en) * | 2006-11-08 | 2008-05-14 | 日立空调·家用电器株式会社 | Washing machine |
JP2008113982A (en) * | 2006-11-08 | 2008-05-22 | Hitachi Appliances Inc | Washing machine |
CN102260985A (en) * | 2010-05-27 | 2011-11-30 | 日立空调·家用电器株式会社 | Washing and drying machine |
CN103946440A (en) * | 2011-11-18 | 2014-07-23 | 夏普株式会社 | Washer dryer |
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TW201641777A (en) | 2016-12-01 |
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