CN103080403A

CN103080403A - Water extraction device

Info

Publication number: CN103080403A
Application number: CN2012800025347A
Authority: CN
Inventors: 长谷直夫; 犬塚正
Original assignee: Matsushita Electric Industrial Co Ltd
Current assignee: Panasonic Intellectual Property Management Co Ltd
Priority date: 2011-03-30
Filing date: 2012-02-17
Publication date: 2013-05-01
Anticipated expiration: 2032-02-17
Also published as: JP2012205778A; CN103080403B; WO2012132200A1; TW201239150A; TWI470129B

Abstract

A water-extracting device comprising: a water extraction tank (200) for extracting water from clothes; sensor elements (152, 700) for outputting detected signals including information on vibrations of the water extraction tank (200); and a control device (150) for controlling the water extraction tank (200) on the basis of the detected signal. The water extraction device is characterized in that the sensor elements comprise a first sensor element (152) that detects the amplitude of the water extraction tank (200) in a first direction and a second sensor element (700) that is installed in a second direction with respect to the first sensor element (152), the second direction being opposite to the first direction.

Description

Dewater unit

Technical field

The present invention relates to a kind of dewater unit for clothing is dewatered.

Background technology

Dewater unit typically possesses the drench pit that clothing is dewatered.Drench pit usually possesses the inside groove that rotates for clothing is dewatered and takes in the water jacket of inside groove.Be formed with a plurality of open-works on the perisporium of inside groove.The water of sloughing from clothing is discharged from inside groove by open-work.Water jacket blocks the water of discharging from inside groove.

The clothing that is subject to processed is heavier because containing water.By the rotation of inside groove, the perisporium of clothing bump inside groove.Its result can impel dehydration.On the other hand, the bump of the perisporium of clothing and inside groove causes the vibrations of drench pit.

Patent documentation 1 to 7 discloses the switch element than large amplitude that detects drench pit.When larger displacement occured drench pit, switch element work stopped the rotation of inside groove.

Patent documentation 8 and 9 discloses the washing machine that detects the vibrations of drench pit with acceleration transducer alternative switch element.According to the disclosure of patent documentation 8 and 9, the vibrations of the drench pit when acceleration transducer can also detect the High Rotation Speed that is difficult to detect with switch element.

Clothing distribution random fluctuation in the drench pit.Therefore, according to the distribution of clothes, above-mentioned acceleration transducer or switch element can't detect vibrations sometimes immediately.

The prior art document

Patent documentation

Patent documentation 1: Unexamined Patent 6-282 communique

Patent documentation 2: Unexamined Patent 3-70593 communique

Patent documentation 3: Unexamined Patent 3-70594 communique

Patent documentation 4: Unexamined Patent 3-70595 communique

Patent documentation 5: Unexamined Patent 3-70596 communique

Patent documentation 6: Unexamined Patent 3-77584 communique

Patent documentation 7: Unexamined Patent 3-289998 communique

Patent documentation 8: Unexamined Patent 5-237290 communique

Patent documentation 9: Unexamined Patent 10-43469 communique

Summary of the invention

The object of the present invention is to provide a kind of dewater unit that can detect immediately the vibrations of drench pit.

The related dewater unit of an aspect of of the present present invention comprises: drench pit is rotated action so that clothing is dewatered; Sensing member, output packet contain the detection signal about the information of the vibrations of described drench pit; And control device, control described drench pit according to described detection signal, wherein, described sensing member possesses the first sensing element of the amplitude of the first direction that detects described drench pit, and is configured in respect to second sensing element of described the first sensing element on the second direction opposite with described first direction.

Dewater unit involved in the present invention can detect the vibrations of drench pit immediately.

Description of drawings

Fig. 1 is as according to the dewater unit of an embodiment and the summary longitudinal section of illustrative washing machine.

Fig. 2 is the summary exploded perspective view of the lower case of washing machine shown in Figure 1.

Fig. 3 is the summary stereogram of the upper body of washing machine shown in Figure 1.

Fig. 4 is the summary exploded perspective view of upper body shown in Figure 3.

Fig. 5 is the summary exploded perspective view of the treatment trough of washing machine shown in Figure 1.

Fig. 6 is that the summary of washing machine shown in Figure 1 is overlooked enlarged drawing.

Fig. 7 is the summary exploded perspective view of mounting structure of the heat exchanger of expression washing machine shown in Figure 1.

Fig. 8 is that the summary of washing machine shown in Figure 1 is overlooked enlarged drawing.

The specific embodiment

Below, with reference to accompanying drawing, an embodiment of dewater unit is described.In addition, employed in the following description " on ", the term of the expression directions such as D score, " left side ", " right side " is just in order to make explanation clear, and is not to be that the principle of dewater unit is carried out any restriction.

Fig. 1 is as according to the dewater unit of present embodiment and the summary longitudinal section of illustrative washing machine.With Fig. 1 washing machine is described.In addition, washing machine shown in Figure 1 not only has the washing function for washing clothes, also has the functions/drying for drying clothes.Dewater unit is the various devices that have the function of clothes dewatering, can be the device beyond the washing machine.

Washing machine 100 possesses the in the form of a substantially rectangular housing 110 and the treatment trough 200 that is configured in the housing 110 of case shape.Treatment trough 200 carries out the various processing such as carrying out washing treatment, processed or dry processing.In the present embodiment, treatment trough 200 is exemplified as being used for the drench pit that clothing is dewatered.

Housing 110 possesses the lower case 120 of case shape in the form of a substantially rectangular and is fixed in upper body 130 on the lower case 120.Treatment trough 200 mainly is incorporated in the lower case 120.

Fig. 2 is the summary exploded perspective view of lower case 120.With Fig. 1 and Fig. 2 lower case 120 is described.

Lower case 120 possesses the in the form of a substantially rectangular side wall portion 121 of tubular and the rectangular box-like pedestal section 122 of supporting side wall section 121.The side wall portion 121 that is fixed in pedestal section 122 is erect setting along treatment trough 200

Side wall portion 121 comprise back face wall 123, and the face wall 124 of back face wall 123 opposition sides, overleaf erect between wall 123 and the face wall 124 the left wall 125 that arranges and with the right wall 126 of left wall 125 opposition sides.In the present embodiment, back face wall 123 is as the first wall illustration.Face wall 124 is as the second wall illustration.Left wall 125 is as the 3rd wall illustration.Right wall 126 is as the wall illustration.

Fig. 3 is the summary stereogram of upper body 130.With Fig. 1 to Fig. 3 upper body 130 is described.

Upper body 130 comprise the top roof 131 that forms washing machine 100, with the substantially flush upper back face wall 133 of the back face wall 123 of lower case 120, with the substantially flush upper face wall 134 of the face wall 124 of lower case 120, the upper left wall 135 substantially flush with the left wall 125 of lower case 120, and the upper right wall 136 substantially flush with the right wall 126 of lower case 120.

As shown in Figure 1, along back face wall 123 control device 150 is installed.The various processing such as the carrying out washing treatment of 150 pairs of washing machines 100 of control device, processed, dry processing are controlled.

As shown in Figure 3, along the positive limit 137 fitting operation panels 151 of roof 131.Guidance panel 151 is electrically connected with control device 150.The user can operating operation panel 151, makes washing machine 100 carry out desired action.

As shown in Figure 3, form the peristome 138 that is circular on the roof 131.As shown in Figure 1, upper body 130 also possesses the lid 139 of inaccessible peristome 138.Lid 139 is mounted to respect to roof 131 and can rotates up and down.The user is rotating cover 139 upward, and clothing is dropped into treatment trough 200.Perhaps, the user is rotating cover 139 upward, takes out clothing from treatment trough 200.

Fig. 4 is the summary exploded perspective view that expression is installed on the various members of upper body 130.With Fig. 1, Fig. 2 and Fig. 4 the member that is installed on the upper body 130 is described.

Washing machine 100 possesses the mechanical switch element 152 that the sensing member as the vibrations of Check processing groove 200 uses.Contain the detection signal of information of the vibrations of relevant treatment trough 200 with switch element 152 output packets that control device 150 is electrically connected.Control device 150 is controlled treatment trough 200 according to the detection signal of switch element 152 outputs.

Washing machine 100 also possesses the supporting slice 140 of supporting switch element 152.Supporting slice 140 is along the upper back face wall 133 of upper body 130 and be fixed.The switch element 152 that is installed in the left end of supporting slice 140 is given prominence to downwards, stretches into the back face wall 123 of lower case 120 and the bight between the left wall 125.

Switch element 152 comprises the bar section 153 of stretching out downwards and correspondingly generates and the signal generating unit 154 of output detection signal with the posture of bar section 153.If the bight for the treatment of trough 200 between back face wall 123 and left wall 125 produces larger displacement, then as shown in Figure 4, bar section 153 is towards back face wall 123(and upper back face wall 133) rotate.At this moment, signal generating unit 154 generates and exports the detection signal for the rotation that stops (perhaps slowing down) treatment trough 200.In the following description, the direction with the bight between back face wall 123 and left wall 125 is called first direction FD.In addition, the direction opposite with first direction FD is called second direction SD.In the present embodiment, switch element 152 is exemplified as the first sensing element.

Fig. 5 is the summary exploded perspective view for the treatment of trough 200.With Fig. 1 to Fig. 3 and Fig. 5 treatment trough 200 is described.

Treatment trough 200 has for clothing is dewatered and the inside groove 210 that rotates and the water jacket 220 of taking in inside groove 210.The user can open the lid 139 of upper body 130, and clothes collecting is contained in the inside groove 210.

Inside groove 210 possesses the diapire 212 that the perisporium 211 that is the general cylindrical shape shape is connected with lower end with perisporium 211.Be formed with a plurality of open-works 213 on the perisporium 211.The water of deviating from from clothing is discharged from inside groove 210 by open-work 213.Water jacket 220 receives the water of discharging from open-work 213.

Water jacket 220 possesses the perisporium 221 that is the general cylindrical shape shape and the diapire 222 that is connected with perisporium 221.Perisporium 221 comprise lower edge 223 that diapire 222 is installed and with the upper limb 224 of lower edge 223 opposition sides.In the present embodiment, lower edge 223 is as the first edge illustration.In addition, upper limb 224 is as the second edge illustration.

As shown in Figure 1, form peristome 225 at diapire 222.The water of deviating from from clothing is discharged from water jacket 220 by peristome 225.Washing machine 100 also possesses the tube connector 226 that is connected with peristome 225, be used for water is discharged to the outer drainage system 300 of housing 110.

As shown in Figure 2, pedestal section 122 have the lower back face wall 143 substantially flush with the back face wall 123 of side wall portion 121, with the substantially flush lower face wall 144 of the face wall 124 of side wall portion 121, the bottom left wall 145 substantially flush with the left wall 125 of side wall portion 121, and the bottom right wall 146 substantially flush with the right wall 126 of side wall portion 121.Form water discharge outlet 142 on the lower back face wall 143.

As shown in Figure 1, drainage system 300 comprises: the drainpipe 310 that possesses the first end 311 that is connected with tube connector 226 and the second end 312 that is connected with water discharge outlet 142; And the draining valve 320 that under the control of control device 150, opens and closes drainpipe 310.When draining valve 320 was opened drainpipe 310, the water in the water jacket 220 was discharged to outside the housing 110 by drainpipe 310.

Such as Fig. 1 and shown in Figure 5, treatment trough 200 possesses and is roughly discoid shaker machine (pulsator) 230.Shaker machine 230 possess horizontal on the diapire 212 of inside groove 210 plectane section 231 and from the periphery of plectane section 231 outstanding inclined ring 232 upward.Inclined ring 232 is expanded upward.Shaker machine 230 also possesses stirring rib 233 outstanding above plectane section 231 and inclined ring 232.Stir rib 233 and be radiated entends.Shaker machine 230 is rotated when washing clothes and/or during drying clothes.So in these operations, clothing is by suitable stirring.

Washing machine 100 also possesses the driving mechanism 400 that inside groove 210 and shaker machine 230 are optionally rotated.Driving mechanism 400 possesses: the CD-ROM drive motor 410 that produces the driving force that makes inside groove 210 or shaker machine 230 rotations; The first axle 420 that is connected with inside groove 210; The second axle 430 that is connected with shaker machine 230; And the arrangement of clutch 440 of the transmission of the driving force of switching CD-ROM drive motor 410 between the first axle 420 and the second axle 430.Be fixed on the diapire 222 of water jacket 220 at the CD-ROM drive motor 410 that moves under the control of control device 150 and arrangement of clutch 440.The first axle 420 runs through the diapire 222 of water jacket 220, is connected with the diapire 212 of inside groove 210.Outstanding from the first axle 420 with the second axle 430 of the first axle 420 Concentric rotations, be connected with shaker machine 230 in the inside groove 210.In the present embodiment, CD-ROM drive motor 410 is as the drive source illustration.

In the washing procedure of washing clothes, the bang path that arrangement of clutch 440 switches driving force makes driving force be delivered to the second axle 430.Consequently, in washing procedure, shaker machine 230 is in inside groove 210 interior rotations.

As shown in Figure 1, washing machine 100 also possesses the water system 500 that is provided for the water of washing clothes to treatment trough 200.Water system 500 possesses: be installed on feed water inlet 501(on the roof 131 that is formed on upper body 130 with reference to Fig. 3) water unit 510; The transfer valve 520 in the path of the water that switching is provided by water unit 510; And the water supply pipe 530 in the path of the water of regulation from transfer valve 520 to water jacket.

Water unit 510 for example is connected with the hose (not shown) of water pipe.If transfer valve 520 is opened the water route of leading to water supply pipe 530, then water is provided for treatment trough 200.

As shown in Figure 5, treatment trough 200 comprises: the collection bag 214 that catches and reclaim isolated velveteen in the clothing from washing; And the fluid balancer 215 that plays a role for the balance that keeps inside groove 210.Collection bag 214 and fluid balancer 215 are installed on the upper limb of inside groove 210.

As shown in Figure 1, water jacket 220 also possesses: be connected with the upper limb 224 of perisporium 221 and be horizontally placed on upper plate 227 on the inside groove 210; And be mounted to the inner cap 229 that can rotate up and down with respect to upper plate 227.The user can make the inner cap 229 of lid 139 belows of upper body 130 rotate upward, and clothing is dropped into inside groove 210.Perhaps, the user can take out clothing from inside groove 210.When the user rotates inner cap 229 downwards, between upper plate 227 and inner cap 229, form seal construction.Like this, the water in the treatment trough 200 can or can not spill from the peristome of upper plate 227 hardly fully.

Washing machine 100 also possesses the circulatory system 600 of the dry air circulation that is used in drying clothes.The circulatory system 600 possesses: the heat exchanger 610 of the cast that is connected with tube connector 226; And the guiding tube 611 that water is directed to heat exchanger 610 from transfer valve 520.When transfer valve 520 was opened the water route of leading to guiding tube 611, water was provided for heat exchanger 610.

Heat exchanger 610 comprises the bottom 612 that is connected with tube connector 226 and the upper end 613 that is connected with guiding tube 611.Flow to the dry air of top and carry out heat exchange with the water that upper end 613 from heat exchanger 610 flows into.Consequently, dry air is suitably dehumidified.

The circulatory system 600 also possesses the cooling fan 620 of back face wall of being installed on 123.610 air-supplies of cooling fan 620 heat exchanger, the cool drying air.Consequently, promoted the dehumidifying of dry air.

The circulatory system 600 also possesses: the dry air after will dehumidifying is sent into the Air Blast fan 630 for the treatment of trough 200; The heater 640 of heat drying air between Air Blast fan 630 and treatment trough 200; And the dry air after will heating is directed to the ingress pipe 650 for the treatment of trough 200.Ingress pipe 650 is connected with upper plate 227.The circulatory system 600 can be sent into dry air to treatment trough 200 by ingress pipe 650, and reclaims dry air by tube connector 226.Like this, realized the circulation of the dry air around treatment trough 200.

Washing machine 100 also possesses the suspension member 240 that connects housing 110 and water jacket 220.The suspension member 240 of supporting water jacket 220 makes 110 shock attenuation of transmitting from water jacket 220 to housing.

Fig. 6 is the bight summary amplification plan view on every side between face wall 124 and the right wall 126.With Fig. 1, Fig. 2, Fig. 4 and Fig. 6 washing machine 100 is further detailed.

Shaker machine 230, inside groove 210 and water jacket 220 be with one heart configuration roughly.In dehydration procedure, contain the perisporium 211 of the heavier clothing bump inside groove 210 of water.Perhaps, clothing uneven distribution potentially in inside groove 210.The bump of clothing and/or uneven distribution cause the vibrations for the treatment of trough 200.

The perisporium 221 of water jacket 220 comprise with the perisporium 211 opposed inner faces 241 of inside groove 210 and with the outside 242 of inner face 241 opposition sides.Outside 242 is opposite with side wall portion 121.As shown in Figure 6, outside 242 is near side wall portion 121.

Washing machine 100 also possesses acceleration transducer 700.The acceleration transducer 700 that is installed on the outside 242 of perisporium 221 detects the acceleration of outside 242 as the information relevant with the vibrations of drench pit.In addition, acceleration transducer 700 will output to control device 150 with the corresponding detection signal of the acceleration of outside 242.In the present embodiment, acceleration transducer 700 is used as the sensing member with the switch element 152 that is illustrated in conjunction with Fig. 4.In addition, acceleration transducer 700 is as the second sensing element and illustration.

Acceleration transducer 700 preferred detection water jackets 220 the acceleration composition of radial direction and water jacket 220 acceleration composition along the circumferential direction at least one of them.Consequently, can suitably measure the vibrations of water jacket 220.More preferably, acceleration transducer 700 is except detecting water jacket 220 at acceleration composition and the water jacket 220 acceleration composition along the circumferential direction of radial direction, can also detect the acceleration composition of above-below direction (namely, and the direction of the circumferencial direction quadrature of the radial direction of water jacket 220 and water jacket 220).Consequently, control device 150 can be according to the detection signal from acceleration transducer 700, and the vibrating mode of external groove 220 is carried out suitable analysis.

Acceleration transducer 700 is arranged on the bight that is surrounded by water jacket 220, face wall 124, right wall 126.Be suitable for disposing acceleration transducer 700 in the space that is water jacket 220 cylindraceous roughly and form between the side wall portion 121 of tubular in the form of a substantially rectangular, therefore, need not to guarantee the space of appending for configuration acceleration transducer 700.Like this, can provide small-sized washing machine 100.

Such as the explanation of carrying out in conjunction with Fig. 4, switch element 152 is configured in the bight between back face wall 123 and the left wall 125.On the other hand, acceleration transducer 700 is configured between face wall 124 and the right wall 126.Therefore, acceleration transducer 700 is arranged on respect to switch element 152 (that is, relative with switch element 152, on second direction SD) on the diagonal of housing 110.

As shown in Figure 6, if treatment trough 200 is rotated in a clockwise direction, then the uneven distribution of the clothing between right wall 126 and the back face wall 123 and/or the vibrations of clashing into caused treatment trough 200 are detected by acceleration transducer 700.The vibrations of the uneven distribution of the clothing between left wall 125 and the face wall 124 and/or the treatment trough 200 that bump causes are detected by switch element 152.Therefore, in during the treatment trough 200 rotation half-turns, the vibrations of processor 200 can degree of being accelerated sensor 700 and switch element 152 one of them detects at least.Like this, can promptly detect the vibrations for the treatment of trough 200.

Control device 150 is analyzed the vibration mode for the treatment of trough 200 according to the detection signal of switch element 152 and acceleration transducer 700 outputs.If the amplitude for the treatment of trough 200 surpasses the threshold value to the amplitude regulation, then control device 150 reduces the rotation number of CD-ROM drive motor 410.Perhaps, control device 150 stops CD-ROM drive motor 410.Like this, the momentum for the treatment of trough 200 reduces, and the amplitude for the treatment of trough 200 reduces.

As shown in Figure 6, the outside 242 of water jacket 220 is near side wall portion 121.As mentioned above, owing to utilize acceleration transducer 700 and switch element 152 can promptly detect the vibrations for the treatment of trough 200, therefore, even the space between the outside 242 of water jacket 220 and the side wall portion 121 is narrower, also can avoid or reduce the bump of water jacket 220 and side wall portion 121.Therefore, can provide small-sized washing machine 100.

Acceleration transducer 700 be preferably mounted at water jacket 220 upper limb 224 near.The operating personnel who adjusts or repair acceleration transducer 700 is with upper body 130 and lower case 120 after separatings, can easily touch near the acceleration transducer 700 the upper limb 224 that is installed on water jacket 220.Therefore, can easily carry out maintenance, installation or the dismounting of acceleration transducer 700.And because the amplitude of the upper limb 224 of water jacket 220 is larger, near upper limb 224 acceleration transducers 700 that therefore are installed on water jacket 220 can suitably detect the acceleration of water jacket 220.

Fig. 7 is the summary stereogram that is installed on the heat exchanger 610 of housing 110.Fig. 8 is the bight summary amplification plan view on every side between right wall 126 and the back face wall 123.With Fig. 1, Fig. 7 and Fig. 8 the installation of heat exchanger 610 is described.

Housing 110 also comprises the back cover plate 129 that is installed in back face wall 123.Erect between cover plate 129 and the back face wall 123 overleaf heat exchanger 610 is set.As shown in Figure 8, heat exchanger 610 be arranged on right wall 126 near.Therefore, be eccentrically set near right wall 126 places in conjunction with the circulatory system 600 of Fig. 1 explanation pivot with respect to treatment trough 200.

The circulatory system 600 connects with (that is, upper plate 227) above the treatment trough 200 and following (that is, the diapire 222 of water jacket 220) near right wall 126.In addition, heat exchanger 610 extends upward along back face wall 123 and back cover plate 129.Therefore, the circulatory system 600 suppresses the up and down displacement of direction for the treatment of trough 200 centered by the near zone in the bight between right wall 126 and the back face wall 123.In the present embodiment, the circulatory system 600 is as straining element and illustration.

On the other hand, in the bight between right wall 126 and the back face wall 123 be in left wall 125 on the diagonal and the near zone in the bight between the face wall 124, treatment trough 200 is more up and down than being easier to.For example, when the user was sprinkled upon water on the upper plate 227, therefore water flowed to the bight between left wall 125 and the face wall 124.In the present embodiment, because there are not the sensing members such as acceleration transducer 700 or switch element 152 in the bight between left wall 125 and the face wall 124, therefore, the sensing such as acceleration transducer 700 or switch element 152 member can break down because being sprinkled upon the water on the upper plate 227 hardly.Like this, can provide the higher washing machine of reliability 100.

In the above-described embodiment, the principle of dewater unit is illustrated.The structure of above-mentioned dewater unit just illustrates.Therefore, in the scope of the principle that does not break away from above-mentioned embodiment, can carry out various changes to dewater unit.

Above-mentioned embodiment mainly possesses following structure.

A related dewater unit in aspect of above-mentioned embodiment comprises: drench pit is rotated action so that clothing is dewatered; Sensing member, output packet contain the information ground detection signal of the vibrations of relevant this drench pit; And control device, control described drench pit according to described detection signal, wherein, described sensing member possesses the first sensing element of the amplitude of the first direction that detects described drench pit; Be arranged on respect to second sensing element of described the first sensing element on the second direction opposite with described first direction.

According to this structure, sensing member output packet contains to close carries out spinning movement with the detection signal of the information of the vibrations of drench pit that clothing is dewatered.Control device is controlled drench pit according to detection signal.The amplitude of the first direction of the first sensing element senses drench pit of sensing member.The second sensing element of sensing member is configured in respect to the first sensing element on the second direction opposite with first direction.Therefore, in the spinning movement of drench pit, the vibrations of the drench pit that occurs in the half cycle interval are detected by one of them of the first sensing element and the second sensing element.Detected by in the first sensing element and the second sensing element another in the vibrations of the interval drench pit that occurs of other half cycle.Therefore, the vibrations of drench pit can be detected immediately.

In said structure, preferably, described dewater unit also possesses the housing of taking in described drench pit, this housing has the first wall of erectting setting along described drench pit, and the second wall of this first wall opposition side, erects the 3rd wall that arranges between described the first wall and described the second wall, and with the wall of the 3rd wall opposition side, described first direction is the direction in formed bight between described the first wall and described the 3rd wall, and described the second sensing element is configured in the space that is surrounded by described the second wall, described wall, described drench pit.

According to this structure, the housing of taking in drench pit has the first wall of erectting setting along drench pit, and the second wall of the first wall opposition side, erects the 3rd wall that arranges between the first wall and the second wall, and with the wall of the 3rd wall opposition side.The amplitude of the direction in formed bight between the first sensing element senses the first wall and the 3rd wall.The second sensing element is configured in the space that is surrounded by the second wall, wall, drench pit.Because the first sensing element and the second sensing element can be suitably configured and not need the special space that arranges, and therefore can provide small-sized drying device.

In said structure, preferably, described drench pit has and is rotated with the inside groove that clothing is dewatered and the water jacket of taking in this inside groove, and this water jacket comprises the perisporium cylindraceous that has with the opposed outside of described housing, and described the second sensing element is installed on described outside.

According to this structure, drench pit possesses takes in the water jacket that is rotated with the inside groove that clothing is dewatered.Water jacket comprises the perisporium cylindraceous that has with the opposed outside of housing.Because the second sensing element is installed on the outside, therefore can be by the suitable space that is surrounded by the second wall, wall, drench pit that is configured in.Because the second sensing element can be suitably configured, and does not need the special space that arranges, therefore can provide small-sized drying device.

In said structure, preferably, described the first sensing element comprises the mechanical switch element with the bar section that changes its posture corresponding to the amplitude of described drench pit, described the second sensing element comprises the acceleration transducer of the acceleration that detects described outside, described control device according to the posture of described bar section and described acceleration one of them adjusts the rotation of described inside groove at least.

According to this structure, the first sensing element comprises the mechanical switch element with the bar section that changes its posture corresponding to the amplitude of drench pit.The second sensing element comprises the acceleration transducer of the acceleration that detects the outside.Control device according to the posture of bar section and acceleration one of them adjusts the rotation of inside groove at least.Because different types of sensing element is used to the detection of the vibrations of drench pit, therefore, corresponding to various vibrating modes, can suitably adjust the rotation of inside groove.

In said structure, preferably, described dewater unit also comprises be used to the drive source that makes described inside groove rotation, wherein, described water jacket has the diapire that described drive source is installed, described perisporium have the first edge of connecting described diapire and with the second edge of this first edge opposition side, described acceleration transducer be installed in described the second edge near.

According to this structure, water jacket has the diapire that the drive source that makes the inside groove rotation is installed.The first edge of connection diapire and the second edge of opposition side are to shake than large amplitude.Since acceleration transducer be installed in the second edge near, therefore, the vibrations of water jacket can suitably be detected.

In said structure, preferred, also comprise the inhibition member that suppresses described drench pit displacement, described inhibition member is eccentrically set on described wall side with respect to the pivot of described inside groove.

According to this structure, because the inhibition member that suppresses drench pit displacement downwards is eccentrically set on the wall side with respect to the pivot of inside groove, drench pit is not easy to tilt to wall.Therefore, acceleration transducer is not easy to be exposed to water.

In said structure, preferably, described inhibition member possesses the circulatory system, and this circulatory system makes dry air circulation around described drench pit, sending into described drench pit and reclaim described dry air from this drench pit for the described dry air of dry described clothing.

According to this structure, suppress member and possess the circulatory system, this circulatory system makes dry air circulation around drench pit, sending into drench pit and reclaim dry air from this drench pit for the dry air of drying clothes.Therefore, clothing is not only accepted processed but also is accepted dry the processing.

In said structure, preferred, described acceleration transducer detect described water jacket the acceleration composition of radial direction and described water jacket acceleration composition along the circumferential direction at least one of them.

According to this structure and since acceleration transducer detect water jacket the acceleration composition of radial direction and water jacket acceleration composition along the circumferential direction at least one of them, so the vibrations of drench pit can suitably be detected.

In said structure, preferred, described acceleration transducer detects and the acceleration composition of described water jacket in the direction of the acceleration composition of radial direction and described water jacket acceleration composition quadrature along the circumferential direction.

According to this structure, because acceleration transducer detects and the acceleration composition of water jacket in the direction of the acceleration composition of radial direction and water jacket acceleration composition quadrature along the circumferential direction, therefore corresponding to various vibrating modes, control drench pit.

Utilizability on the industry

The principle of above-mentioned embodiment goes for device that clothing is dewatered.

Claims (according to the modification of the 19th of treaty)

1. dewater unit is characterized in that comprising:

Housing;

Drench pit is incorporated in the described housing, and clothing is dewatered;

Sensing member, output packet contain the detection signal about the information of the vibrations of described drench pit; And

Control device is controlled described drench pit according to described detection signal, wherein,

Described drench pit has for described clothing is dewatered and the inside groove that rotates and the water jacket of taking in this inside groove,

Described water jacket comprises the perisporium cylindraceous that has with the opposed outside of described housing,

Described sensing member, comprise the first sensing element that possesses the mechanical switch element and the second sensing element that possesses acceleration transducer, wherein, described mechanical switch element has the bar section that changes its posture corresponding to the amplitude of described drench pit, and described acceleration transducer detects the acceleration of described outside.

2. dewater unit according to claim 1 is characterized in that:

Described the first sensing element is arranged on the bight of described housing,

Described the second sensing element is arranged on respect to described the first sensing element on the diagonal of described housing.

3. dewater unit according to claim 1 is characterized in that:

Described housing, have the first wall of erectting setting along described drench pit, and the second wall of this first wall opposition side, between described the first wall and described the second wall, erect the 3rd wall that arranges, with the wall of the 3rd wall opposition side,

Described the first sensing element detects the amplitude of the direction in formed bight between described the first wall and described the 3rd wall as the first direction of described drench pit,

Described the second sensing element is configured in the space that is surrounded by described the second wall, described wall, described drench pit.

4. according to claim 2 or 3 described dewater units, it is characterized in that: described the second sensing element is installed in described outside.

5. according to claim 2 or 3 described dewater units, it is characterized in that, described control device, according to the posture of described bar section and described acceleration one of them adjusts the rotation of described inside groove at least.

6. according to claim 2 or 3 described dewater units, characterized by further comprising: be used for making the drive source of described inside groove rotation, wherein,

Described water jacket has the diapire that described drive source is installed,

Described perisporium have the first edge of connecting described diapire and with the second edge of this first edge opposition side,

Described acceleration transducer be installed in described the second edge near.

7. dewater unit according to claim 3 characterized by further comprising: suppress the inhibition member of described drench pit displacement downwards, wherein,

Described inhibition member is eccentrically set on described wall side with respect to the pivot of described inside groove.

8. dewater unit according to claim 7, it is characterized in that: described inhibition member possesses the circulatory system, this circulatory system makes dry air circulation around described drench pit, in order to will send into described drench pit and reclaim described dry air from this drench pit for the described dry air of dry described clothing.

9. according to claim 2 or 3 described dewater units, it is characterized in that: described acceleration transducer, detect described water jacket the acceleration composition of radial direction and described water jacket acceleration composition along the circumferential direction at least one of them.

10. according to claim 2 or 3 described dewater units, it is characterized in that: described acceleration transducer, detect and the acceleration composition of described water jacket in the direction of the acceleration composition of radial direction and described water jacket acceleration composition quadrature along the circumferential direction.

Illustrate or state (according to the modification of the 19th of treaty)

State according to the modification that the 19th (1) money of Patent Cooperation Treaty made

Revised claim 1-9.Increased claim 10.And the claim 5-9 of claim 6-10 when sending in one's application is corresponding respectively.

Claims

1. dewater unit is characterized in that comprising:

Drench pit dewaters to clothing;

Described sensing member, comprise the first direction that detects described drench pit amplitude the first sensing element and be arranged on respect to second sensing element of described the first sensing element on the second direction opposite with described first direction.

2. dewater unit according to claim 1 characterized by further comprising: take in the housing of described drench pit, wherein,

Described first direction is the direction in formed bight between described the first wall and described the 3rd wall,

3. dewater unit according to claim 2 is characterized in that:

Described the second sensing element is installed in described outside.

4. dewater unit according to claim 3 is characterized in that,

Described the first sensing element comprises the mechanical switch element with the bar section that changes its posture corresponding to the amplitude of described drench pit,

Described the second sensing element comprises the acceleration transducer of the acceleration that detects described outside,

Described control device, according to the posture of described bar section and described acceleration one of them adjusts the rotation of described inside groove at least.

5. dewater unit according to claim 4 characterized by further comprising: be used for making the drive source of described inside groove rotation, wherein,

6. dewater unit according to claim 5 characterized by further comprising: suppress the inhibition member of described drench pit displacement downwards, wherein,

7. dewater unit according to claim 6, it is characterized in that: described inhibition member possesses the circulatory system, this circulatory system makes dry air circulation around described drench pit, in order to will send into described drench pit and reclaim described dry air from this drench pit for the described dry air of dry described clothing.

8. each described dewater unit in 7 according to claim 4 is characterized in that: described acceleration transducer, detect described water jacket the acceleration composition of radial direction and described water jacket acceleration composition along the circumferential direction at least one of them.

9. dewater unit according to claim 8 is characterized in that: described acceleration transducer, detect and the acceleration composition of described water jacket in the direction of the acceleration composition of radial direction and described water jacket acceleration composition quadrature along the circumferential direction.