CN104294524A - Multi-dimension power pulsator washing machine and control method - Google Patents

Abstract

The invention provides a multi-dimension power pulsator washing machine and a control method. The multi-dimension power pulsator washing machine comprises a speed reducer, an impeller and a plurality of rollers. The rollers are evenly distributed on the surface of the impeller and rotationally connected to the impeller. The rollers are in transmission connection with an output shaft of the speed reducer in a clutch mode. The rollers are arranged on the impeller and are in transmission connection with the speed reducer in the clutch mode, when the speed reducer provides power for the rollers, the rollers are in transmission connection with the speed reducer, the rollers are driven to rotate while the impeller rotates, and therefore water flowing around the axis of the impeller is formed in the washing machine, meanwhile water flowing around the axes of the rollers exists, clothes can roll up and down in the washing machine, multi-dimension washing is carried out on the clothes, washing is more uniform, and the cleaning effect and efficiency are improved.

Description

Various dimensions dynamic wave wheel washer and control method

Technical field

The present invention relates to laundry facilities, particularly relate to a kind of various dimensions dynamic wave wheel washer and control method.

Background technology

Washing machine is household electrical appliance conventional in people's daily life, installs laundry mode difference, is divided into roller washing machine and rotary drum washing machine.Be provided with impeller in existing rotary drum washing machine wash bucket, drive the continuous rotating of impeller by decelerator, the muscle leaf on impeller stirs inner bucket water stream and impacts clothing, to reach clean object.But the current that traditional impeller produces can only wash around impeller axis one-dimensional degree, be difficult to reach clothing upset washing, occur washing the problems such as uneven, cause clean effect poor.

Summary of the invention

Technical problem to be solved by this invention is: provide a kind of various dimensions dynamic wave wheel washer and control method, solves rotary drum washing machine in prior art and cleans the poor defect of effect, improve and clean effect and efficiency.

For achieving the above object, the invention provides a kind of various dimensions dynamic wave wheel washer, comprise decelerator, impeller and multiple running roller, described running roller is distributed on the surface of described impeller, and described running roller is rotating to be connected on described impeller; The output shaft disengaging type of described running roller and described decelerator is in transmission connection.

Further, described running roller comprises central shaft and wheel body, and the described impeller back side has been disposed radially central shaft installing hole, and described central shaft is slidably mounted in described central shaft installing hole.

Further, described central shaft is provided with key, and described wheel body is sleeved on described central shaft.

Further, described central shaft is slidably disposed in described wheel body by key; Described central shaft is provided with the first gear structure near an end at impeller center, and on the output shaft of described decelerator, cover has the second gear structure, and when after described first gear structure and described second gear structure engagement, described running roller and described decelerator are in transmission connection.

Further, the other end of described central shaft is provided with locating slot, and on described impeller, correspondence is provided with locating piece, and when described locating piece is inserted in after in described locating slot, described running roller is locked on described impeller; Or the other end of described central shaft is provided with locating piece, on described impeller, correspondence is provided with locating slot, and when described locating piece is inserted in after in described locating slot, described running roller is locked on described impeller.

Further, described impeller slides and is provided with the slide switch corresponding with described running roller, the periphery of described central shaft is provided with cannelure, rotating adapter sleeve is provided with in described cannelure, described slide switch is fixedly connected with described adapter sleeve, described impeller is radially disposed with three locating slots, described slide switch is provided with elasticity locator protrusions; When described elasticity locator protrusions is positioned at the described locating slot near described impeller center, described first gear structure and described second gear structure engagement; When described elasticity locator protrusions is positioned at middle described locating slot, described first gear structure is separated with described second gear structure; When described elasticity locator protrusions is positioned at the described locating slot away from described impeller center, described locating piece is inserted in described locating slot.

Further, described second gear structure is fixed on the shell of described decelerator; Or, on the rotating output shaft being connected to described decelerator of the second gear structure described in the output shaft of decelerator; Or described second gear structure is arranged on the back side of described impeller.

Further, described first gear structure and described second gear structure are bevel gear; Or described first gear structure is gear, described second gear structure is gear ring.

Further, the surface of described impeller offers installing hole, described wheel body is arranged in described installing hole, and the distance between described wheel body and described installing hole edge is 0.1mm-2mm, and the side edge of described installing hole is for tilt structure upward.

The present invention is a kind of various dimensions dynamic wave wheel washer control method also, adopting as stated various dimensions dynamic wave wheel washer, comprising following pattern: double dynamical pattern and single-power pattern;

Double dynamical pattern: the impeller in various dimensions dynamic wave wheel washer and running roller are in transmission connection with decelerator respectively;

Single-power pattern: the impeller in various dimensions dynamic wave wheel washer and decelerator are in transmission connection, running roller is unpowered freely to rotate.

Various dimensions dynamic wave wheel washer provided by the invention and control method, by arranging running roller on impeller, running roller can rotate relative to impeller, and running roller can be in transmission connection with the output shaft disengaging type of decelerator, when needs decelerator provides power for running roller, running roller and decelerator are in transmission connection, while impeller rotates, running roller rotates by driving, thus make that there are in washing machine the current around impeller axial flow, there are the current around each running roller axial flow simultaneously, clothing is rolled up and down in washing machine, thus realize carrying out various dimensions washing to clothing, wash more even, improve and clean effect and efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of various dimensions dynamic wave wheel washer embodiment of the present invention;

Fig. 2 is the partial sectional view of various dimensions dynamic wave wheel washer embodiment of the present invention;

Fig. 3 is the structure principle chart one of various dimensions dynamic wave wheel washer embodiment of the present invention;

Fig. 4 is the structure principle chart two of various dimensions dynamic wave wheel washer embodiment of the present invention;

Fig. 5 is the structure principle chart three of various dimensions dynamic wave wheel washer embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further details.

As Figure 1-Figure 2, the present embodiment various dimensions dynamic wave wheel washer, comprise decelerator (not shown), impeller 1 and multiple running roller 2, running roller 2 is distributed on the surface of impeller 1, and running roller 2 is rotating to be connected on impeller 1; Running roller 2 is in transmission connection with the output shaft disengaging type of decelerator.

Specifically, the present embodiment various dimensions dynamic wave wheel washer comprises the assemblies such as casing, outer barrel, interior bucket, motor, decelerator and electric-controlled plate, and motor and decelerator are in transmission connection, and impeller 1 can directly be fixed on the output shaft of decelerator.Impeller 1 in the present embodiment various dimensions dynamic wave wheel washer is provided with rotary running roller 2, this running roller 2 can rotate relative to impeller 1, and drive in impeller 1 rotation process at decelerator, running roller 2 and decelerator can be selected as required to be in transmission connection, when decelerator running roller 2 is in transmission connection with decelerator, decelerator provides power for running roller 2, impeller 1 rotates the current formed around its axial flow, and running roller 2 is formed around its axial flow current by driving to rotate, thus enable clothing in washing machine while rotating around impeller 1 axis, also the axis around running roller 2 is rolled up and down, thus realize carrying out various dimensions washing to clothing, guarantee that washing is more even, improve and clean effect and efficiency.Wherein, running roller 2 in the present embodiment can comprise central shaft 22 and wheel body 21, central shaft 22 is provided with key 23, wheel body 21 is sleeved on central shaft 22, impeller 1 back side has been disposed radially central shaft installing hole (not shown), central shaft 22 is slidably mounted in central shaft installing hole, and central shaft 22 can rotate in central shaft installing hole, thus realizes the rotation of wheel body 21.Preferably, occur that running roller 2 rotates and clamps the phenomenon of clothing to reduce, wheel body 21 is axially provided with central shaft hole (not shown) and multiple through hole 210, and radial direction is provided with multiple permeable hole 211 be communicated with through hole 210, and central shaft 22 is arranged in central shaft hole by key 23.Running roller 2 is followed impeller 1 and is together rotated, and in rotation process, water to be punched in through hole 210 and outwards to spray from permeable hole 211, thus avoids clothing to be wrapped on running roller 2.And in order to avoid clothing clip is between wheel body 21 and impeller 1, the surface of impeller 1 offers installing hole 11, wheel body 21 is arranged in installing hole 11, distance between wheel body 21 and installing hole 11 edge is 0.1mm-2mm, by setting suitable distance, while can guaranteeing that wheel body 21 freely rotates, clothing is avoided to be jammed, preferably, the side edge of installing hole 11 is tilt structure 110 upward, tilt structure 110 and form arcwall face with the surface of impeller 1, clothing can be guided to avoid being jammed along arcwall face motion.

Wherein, decelerator running roller in the present embodiment 2 and decelerator realize the mode that is in transmission connection of disengaging type having multiple, such as, can adopt manual clutch mode or electric clutch mode, illustrate below in conjunction with drawing.As shown in Figure 3-Figure 5, the decelerator 3 in the present embodiment manually clutch is connected with central shaft 22, and this manual clutch comprises the first gear structure 41 and the second gear structure 42.Central shaft 22 is slidably disposed in the central shaft hole of wheel body 21 by key, and an end of central shaft 22 is provided with the first gear structure 41; On the output shaft 30 of decelerator 3, cover has the second gear structure 42; When after the first gear structure 41 and the engagement of the second gear structure 42, decelerator 3 and running roller 2 are in transmission connection.Concrete, by Mobility Center axle 22, make central shaft 22 in central shaft installing hole 12, slide to the center of impeller 1, make the first gear structure 41 near the second gear structure 42 and engage with the second gear structure 42, drive roller wheel 2 is rotated while driving impeller 1 to rotate by decelerator 3 output shaft 30, realizes running roller 2 and is in transmission connection with decelerator 3; And when central shaft 22 oppositely movement, the first gear structure 41 and the second gear structure 42 are separated from, running roller 2 and decelerator 3 disconnect, and running roller 2 can rotate relative to impeller 1 under the effect of other external force such as current.Wherein, the first gear structure 41 and the second gear structure 42 can adopt bevel gear; Or the first gear structure 41 adopts gear, and the second gear structure 42 adopts gear ring.

Further, maintain static relative to impeller 1 to realize running roller 2, the other end of central shaft 22 is provided with locating slot, and on impeller 1, correspondence is provided with locating piece, and when locating piece is inserted in after in locating slot, running roller 2 is fixed on impeller 1; Or the other end of central shaft 22 is provided with locating piece 221, and on impeller 1, correspondence is provided with locating slot 13, when locating piece 221 is inserted in after in locating slot 13, running roller 2 is fixed on impeller 1.Concrete, when central shaft 22 moves to extreme position away from impeller 1 center, coordinated by locating piece 221 and locating slot 13, by locked for central shaft 22 on impeller 1, thus running roller 2 can not be rotated relative to impeller 1.

Further, conveniently user's Mobility Center axle 22, impeller 1 slides and is provided with the slide switch 5 corresponding with running roller 2, the periphery of central shaft 22 is provided with cannelure (not shown), be provided with rotating adapter sleeve 51 in cannelure, slide switch 5 is fixedly connected with adapter sleeve 51.Concrete, user by the slide switch 5 on impeller 1 surface can Mobility Center axle 22 to the position of specifying, realize running roller 2 and rotating by driving, freely rotating or maintaining static.Preferably, in order to realize the location of slide switch 5, avoiding central shaft 22 to move freely, impeller 1 being diametrically disposed with three locating slots (not shown), slide switch 5 being provided with elasticity locator protrusions (not shown); As shown in Figure 3, when elasticity locator protrusions is positioned at the locating slot near impeller 1 center, the first gear structure 41 and the second gear structure 42 engage, and now, decelerator 3 provides power to running roller 2, and running roller 2 rotates by driving.As shown in Figure 4, when elasticity locator protrusions is positioned at middle locating slot, the first gear structure 41 is separated with the second gear structure 42, and now, decelerator 3 does not provide power to running roller 2, and running roller 2 is in free state.As shown in Figure 5, when elasticity locator protrusions is positioned at the locating slot away from impeller 1 center, locating piece 221 is inserted in locating slot 13, and now, running roller 2 is fixed on impeller 1, and running roller 2 is in locking state.

In addition, as shown in Figure 3, second gear structure 42 can be fixed on the shell of decelerator 3, such as, second gear structure 42 is fixed on the shell of decelerator 3 by the ring flange 421 through interior bucket, and output shaft 30 drives impeller 1 to rotate, and makes impeller 1 and the second gear structure 42 that relative motion occur, realize producing relative motion by the second gear structure 42 and the engagement of the first gear structure 41, the power that output shaft 30 exports is passed to running roller 2; Or, second gear structure 42 is rotating to be connected on the output shaft 30 of decelerator 3, can there is relative motion with the second gear structure 42 in impeller 1, realize producing relative motion by the second gear structure 42 and the engagement of the first gear structure 41, and the power that output shaft 30 exports is passed to running roller 2; Or, second gear structure 42 is arranged on the back side of impeller 1, second gear structure 42 can be arranged in impeller 1 and be lining with, relative motion can be there is in impeller 1 with the second gear structure 42, realize producing relative motion by the second gear structure 42 and the engagement of the first gear structure 41, the power that output shaft 30 exports is passed to running roller 2.

The present invention also provides a kind of various dimensions dynamic wave wheel washer control method, adopts above-mentioned various dimensions dynamic wave wheel washer, comprises following pattern: double dynamical pattern and single-power pattern;

Double dynamical pattern: the impeller in various dimensions dynamic wave wheel washer and running roller are in transmission connection with decelerator respectively;

Single-power pattern: the impeller in various dimensions dynamic wave wheel washer and decelerator are in transmission connection, running roller is unpowered freely to rotate.

As shown in Figure 3-Figure 5, various dimensions dynamic wave wheel washer specifically comprises Three models, i.e. double dynamical pattern, single-power pattern and locked pattern

Double dynamical pattern: as shown in Figure 3, when elasticity locator protrusions is positioned at the locating slot near impeller 1 center, the first gear structure 41 and the second gear structure 42 engage, and now, decelerator 3 provides power to running roller 2, and running roller 2 rotates by driving.

Single-power pattern: as shown in Figure 4, when elasticity locator protrusions is positioned at middle locating slot, first gear structure 41 and the second gear structure 42 are separated, now, decelerator 3 does not provide power to running roller 2, running roller 2 is in free state, and in impeller 1 rotation process, running roller 2 is followed current by water impact and rotated.

Locked pattern: as shown in Figure 5, when elasticity locator protrusions is positioned at the locating slot away from impeller 1 center, locating piece 221 is inserted in locating slot 13, and now, running roller 2 is fixed on impeller 1, and running roller 2 is in locking state.

Various dimensions dynamic wave wheel washer provided by the invention and control method, by arranging running roller on impeller, running roller can rotate relative to impeller, and running roller can be in transmission connection with the output shaft disengaging type of decelerator, when needs decelerator provides power for running roller, running roller and decelerator are in transmission connection, while impeller rotates, running roller rotates by driving, thus make that there are in washing machine the current around impeller axial flow, there are the current around each running roller axial flow simultaneously, clothing is rolled up and down in washing machine, thus realize carrying out various dimensions washing to clothing, wash more even, improve and clean effect and efficiency.

Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a various dimensions dynamic wave wheel washer, comprise decelerator, impeller and multiple running roller, described running roller is distributed on the surface of described impeller, it is characterized in that, described running roller is rotating to be connected on described impeller; The output shaft disengaging type of described running roller and described decelerator is in transmission connection.

2. various dimensions dynamic wave wheel washer according to claim 1, it is characterized in that, described running roller comprises central shaft and wheel body, and the described impeller back side has been disposed radially central shaft installing hole, and described central shaft is slidably mounted in described central shaft installing hole.

3. various dimensions dynamic wave wheel washer according to claim 2, it is characterized in that, described central shaft is provided with key, and described wheel body is sleeved on described central shaft.

4. various dimensions dynamic wave wheel washer according to claim 3, is characterized in that, described central shaft is slidably disposed in described wheel body by key; Described central shaft is provided with the first gear structure near an end at impeller center, and on the output shaft of described decelerator, cover has the second gear structure, and when after described first gear structure and described second gear structure engagement, described running roller and described decelerator are in transmission connection.

5. various dimensions dynamic wave wheel washer according to claim 4, it is characterized in that, the other end of described central shaft is provided with locating slot, and on described impeller, correspondence is provided with locating piece, when described locating piece is inserted in after in described locating slot, described running roller is locked on described impeller; Or the other end of described central shaft is provided with locating piece, on described impeller, correspondence is provided with locating slot, and when described locating piece is inserted in after in described locating slot, described running roller is locked on described impeller.

6. various dimensions dynamic wave wheel washer according to claim 5, it is characterized in that, described impeller slides and is provided with the slide switch corresponding with described running roller, the periphery of described central shaft is provided with cannelure, rotating adapter sleeve is provided with in described cannelure, described slide switch is fixedly connected with described adapter sleeve, described impeller is radially disposed with three locating slots, described slide switch is provided with elasticity locator protrusions; When described elasticity locator protrusions is positioned at the described locating slot near described impeller center, described first gear structure and described second gear structure engagement; When described elasticity locator protrusions is positioned at middle described locating slot, described first gear structure is separated with described second gear structure; When described elasticity locator protrusions is positioned at the described locating slot away from described impeller center, described locating piece is inserted in described locating slot.

7. various dimensions dynamic wave wheel washer according to claim 4, is characterized in that, described second gear structure is fixed on the shell of described decelerator; Or, on the rotating output shaft being connected to described decelerator of described second gear structure; Or described second gear structure is arranged on the back side of described impeller.

8. various dimensions dynamic wave wheel washer according to claim 4, is characterized in that, described first gear structure and described second gear structure are bevel gear; Or described first gear structure is gear, described second gear structure is gear ring.

9. various dimensions dynamic wave wheel washer according to claim 2, it is characterized in that, the surface of described impeller offers installing hole, described wheel body is arranged in described installing hole, distance between described wheel body and described installing hole edge is 0.1mm-2mm, and the side edge of described installing hole is for tilt structure upward.

10. a various dimensions dynamic wave wheel washer control method, is characterized in that, adopts various dimensions dynamic wave wheel washer as claimed in claim 1, comprises following pattern: double dynamical pattern and single-power pattern;

Double dynamical pattern: the impeller in various dimensions dynamic wave wheel washer and running roller are in transmission connection with decelerator respectively;

Single-power pattern: the impeller in various dimensions dynamic wave wheel washer and decelerator are in transmission connection, running roller is unpowered freely to rotate.