CN1721609A - Double power composite current washing machine - Google Patents

Abstract

This invention relates to a double drive compound flow washing machine, which comprises the following parts: plane frame elements, water barrel upper ring, water barrel 9, water barrel cover 56, case elements 10, washing and drying barrel 11, balance ring 55, bottom socket 31, central socket 44, upper cover elements 61, ring elements 76, water in device, level control device, first and second washing drive flow generating device; control device, drainage device and safety protection device. When the machine works, the first flow generating device wheel generates front and back alternating plane flows and the second flow device generates upper flow to generate strong three dimension flow to peel off dirt form clothing and to hold the clothing up.

Description

Double dynamical compound water-flow washing machine

Technical field

The present invention relates to electrical Household appliance, promptly a kind of washing machine.

Background technology

Existing washing machine mainly contains three kinds of stirring-type, impeller-type and drum-types.Agitator type washing machine is equipped with vertical paddle on the stirring rachis in the middle of the washtub, during washing clothes, clothing is immersed in the interior cleaning solution of washtub, make stirring rachis and the forward and reverse rotation by a small margin of the do of the paddle on it by drive unit, produce current, bend and stretch with rubbing action and wash, cleaning of this washing machine is more higher than (washing (-)off properties), wear rate to clothing is less, clothing is difficult for twining in the washing process, the uniformity of washing is better, needs the long time but clean clothing; Pulsator washing machine is equipped with impeller in the bottom of washtub, during washing clothes, clothing is immersed in the cleaning solution in the washtub, makes impeller do regularly just to change-stop-repeated rotation of reverse by drive unit, and generation current and rubbing action are washed, the effect of the mechanical force of this washing machine is strong, clean than high, can clean clothing at short notice, but bigger to the wear rate of clothing, clothing more easily twines in the washing process, and the uniformity of washing is relatively poor; Tumbling-box washing machine is that clothing is placed in the cylinder, have many apertures on the inwall of cylinder, on the inwall of cylinder, also be shaped on convex tendon, during washing clothes, clothing and drum segment are immersed in the cleaning solution, by drive unit cylinder is rotated or regularly forward and reverse rotation continuously along trunnion axis, utilize the convex tendon on the inner wall of rotary drum that washings is elevated, fall in the cleaning solution again, produce impact and friction and wash, this washing machine is little to the wear rate of clothing, clothing is difficult for twining in the washing process, the good uniformity of washing, but clean lower, clean clothing needs long time.

Summary of the invention

Technical problem to be solved by this invention is: provide a kind of and clean that clothing in faster than high washing speed, little to the wear rate of clothing, the washing process is difficult for twining, the high-performance washing machine of the good uniformity of washing, to satisfy people's needs.

The technical solution adopted for the present invention to solve the technical problems is: it is separate that a kind of double dynamical compound water-flow washing machine has two covers; can produce the device of washing power current simultaneously, it is mainly by face frame assembly; encircle 7 on the steel ladle; steel ladle 9; box assembly 10; Washing dewatering tub 11; base 31; center support 44; gimbal 55; bung 56 is filled with water; cover assembly 61; suspension rod assembly 76; water feed apparatus; water-level control apparatus; the first washing power apparatus for generation of water flow; the second washing power apparatus for generation of water flow; the master control device; drainage arrangement; composition such as safety guard and thread bits filtering device.During washing machine work, the forward and reverse alternately rotation of impeller 16 horizontal plane in Washing dewatering tub 11 of the first washing power apparatus for generation of water flow, produce forward and reverse plane rotary water current that replaces, the second washing power apparatus for generation of water flow produces ascending current in Washing dewatering tub 11, the universal three-dimensional current of two bursts of compound generation brute forces of current, these current have washings and wash away, rubbing, stir, mallet is smash, penetrate and bend and stretch effect, spot is peeled off rapidly from clothes fiber, the ascending current of the second washing power apparatus for generation of water flow generation holds up clothing simultaneously, avoid clothing and impeller direct friction, reduce the clothing wearing and tearing, and the guiding clothing rolls and suppresses clothing and twine, improve the uniformity of washing, reach quick, evenly, the purpose of clothing is cleaned in low wearing and tearing.

In the technique scheme of the present invention second washing power apparatus for generation of water flow has two types of pressure injection formula and impeller propelled formulas according to its mode that produces current, and the second washing power apparatus for generation of water flow of impeller propelled formula of the present invention can be divided into impeller 48 and Washing dewatering tub 11 coaxial and impellers 48 and two kinds of structures of Washing dewatering tub 11 disalignments.Below adopt the structure of impeller propelled formula second washing power apparatus for generation of water flow to abbreviate the impeller propelled formula as the present invention, and adopt the structure of the pressure injection formula second washing power apparatus for generation of water flow to abbreviate the pressure injection formula as the present invention.

Description of drawings

Fig. 1 is the structural representation of impeller 48 of the present invention and Washing dewatering tub 11 out-of-alignment impeller propelled formulas.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the vertical view of Fig. 1.

Fig. 4, Fig. 5, Fig. 6, Fig. 7 are the partial enlarged views of Fig. 1.

Among Fig. 1: 1. water intaking valve; 2. face frame back shroud; 3. interior water inlet pipe; 4. face frame; 5. washing agent holder; 6. water inlet head; 7. encircle on the steel ladle; 8. steel ladle inlet strainer; 9. steel ladle; 10. box assembly; 11. Washing dewatering tub; 12. line bits filter; 13. circulation water channel; 14. impeller cap; 15. impeller upper gasket; 16. impeller; 17. kuppe; 18. ring flange; 19. decorative cover in the water seal; 20. impeller axle water seal; 21. impeller axle oiliness bearing; 22. impeller motor belt pulley; 23. impeller shaft bearing upper end cover; 24. impeller shaft bearing bottom end cover; 25. impeller shaft bearing set bolt; 26. impeller shaft belt; 27. impeller shaft belt pulley; 28. clutch hold-down screw; 29. impeller motor; 30. fixed feet; 31. base; 32. clutch-pedal support; 33. clutch pulley; 34. clutch; 35. ratguard; 36. clutch belt; 37. impeller motor pulley; 38. impeller motor; 39. impeller shaft neck bush; 40. impeller shaft; 41. dehydrating shaft; 42. steel ladle water seal; 43. water seal lower gasket; 44. center support; 45. dehydrating shaft water seal; 46. impeller packing ring; 47. impeller hold-down nut; 48. impeller; 49. Washing dewatering tub lower gasket; 50. Washing dewatering tub nut; 51. impeller axle; 52. impeller lower gasket; 53. impeller lock washer; 54. impeller hold-down screw; 55. gimbal; The bung 56. be filled with water; 57. master controller; 58. switch installing plate; 59. face frame front cover plate; 60. guidance panel; 61. cover assembly; 62. cover assembly rotating shaft; 63. attaching plug; 64. last gusset; 65. overflow pipe; 66. center support hold-down screw; 67. beam; 68. draining valve; 69. motor bolt washer; 70. motor set bolt; 71. pipe clamp; 72. drainpipe; 73. adjustment pin; 74. adjust the pin hold-down nut; 75. clutch magnet; 76. suspension rod assembly; 77. wire harness; 78. safety switch; 79. water level controller; 80. pressure hose; 81. power switch; 82. startup/pause switch; 83. washing procedure switch; 84. washing function switch; 85. water level selector switch.

Fig. 8 is the structural representation of pressure injection formula of the present invention.

Fig. 9 is the left view of Fig. 8.

Figure 10 is the vertical view of Fig. 8.

Figure 11 is the partial enlarged view of Fig. 8.

Among Fig. 8: 1. water intaking valve; 2. face frame back shroud; 3. interior water inlet pipe; 4. face frame; 5. washing agent holder; 6. water inlet head; 7. encircle on the steel ladle; 8. steel ladle inlet strainer; 9. steel ladle; 10. box assembly; 11. Washing dewatering tub; 12. line bits filter; 13. circulation water channel; 15. impeller upper gasket; 16. impeller; 18. ring flange; 19. decorative cover in the water seal; 20. impeller axle water seal; 21. impeller axle oiliness bearing; 28. clutch hold-down screw; 29A. pump motor; 30. fixed feet; 31. base; 33. clutch pulley; 35. ratguard; 36. clutch belt; 37. impeller motor pulley; 38. impeller motor; 41. dehydrating shaft; 42. steel ladle water seal; 43. water seal lower gasket; 44. center support; 49. Washing dewatering tub lower gasket; 50. Washing dewatering tub nut; 51. impeller axle; 52. impeller lower gasket; 54A. impeller hold-down nut; 55. gimbal; The bung 56. be filled with water; 57. master controller; 58. switch installing plate; 59. face frame front cover plate; 60. guidance panel; 61. cover assembly; 62. cover assembly rotating shaft; 63. attaching plug; 64. last gusset; 65. overflow pipe; 66. center support hold-down screw; 67. beam; 68. draining valve; 70. motor set bolt; 71. pipe clamp; 72. drainpipe; 73. adjustment pin; 74. adjust the pin hold-down nut; 75. clutch magnet; 76. suspension rod assembly; 77. wire harness; 78. safety switch; 79. water level controller; 80. pressure hose; 81. power switch; 82. startup/pause switch; 83. washing procedure switch; 84. washing function switch; 85. water level selector switch; 86. clutch upper end cover; 87. the anti-spring housing that reverses; 88. pinion stand axle; 89.P gear; 90.P gear jump ring; 91. gear cap axle; 92. brake disc; 93. gear shaft oiliness bearing; 94. spring housing; 95. shaft coupling; 96. water pump; 97. water pump set bolt; 98. the water pump draining connects flexible pipe; 99. brake band; 100.A torsion spring; 101. gear shaft; 102. belt pulley clamp nut; 103. clutch pulley wheel hub; 104.A inner wheel hub; 105.B torsion spring; 106.B inner wheel hub; 107. brake bolt; 108. braking vane; 109. brake spring; 110. clutch bottom end cover; 111. gear wheel; 112. pinion; 113. gear mandrel; 114. the anti-spring that reverses; 115. impeller axle neck bush; 115A. gear shaft neck bush; 116. sparge pipe water seal; 117. sparge pipe; 118. fountain head; 119. sparge pipe support hold-down screw; 120. sparge pipe support; 121. water pump water inlet tube connector; 122. sparge pipe geometrical clamp.

Figure 12 is an impeller 48 of the present invention and the structural representation of the coaxial impeller propelled formula of Washing dewatering tub 11.

Figure 13 is the left view of Figure 12.

Figure 14 is the vertical view of Figure 12.

Figure 15 is the partial enlarged view of Figure 12.

Among Figure 12: 1. water intaking valve; 2. face frame back shroud; 3. interior water inlet pipe; 4. face frame; 5. washing agent holder; 6. water inlet head; 7. encircle on the steel ladle; 8. steel ladle inlet strainer; 9. steel ladle; 10. box assembly; 11. Washing dewatering tub; 12. line bits filter; 13. circulation water channel; 14. impeller cap; 15. impeller upper gasket; 16. impeller; 17. kuppe; 18. ring flange; 19. decorative cover in the water seal; 20. impeller axle water seal; 21. impeller axle oiliness bearing; 22. impeller motor belt pulley; 28. clutch hold-down screw; 29. impeller motor; 30. fixed feet; 31. base; 33.A clutch pulley; 33A.B clutch pulley; 34. clutch; 35. ratguard; 36.A clutch belt; 36A.B clutch belt; 37. impeller motor pulley; 38. impeller motor; 40A. impeller/dehydrating shaft; 42. steel ladle water seal; 43. water seal lower gasket; 44. center support; 46. impeller packing ring; 48. impeller; 49. Washing dewatering tub lower gasket; 50. Washing dewatering tub nut; 51. impeller axle; 52. impeller lower gasket; 53. impeller lock washer; 54. impeller hold-down screw; 55. gimbal; The bung 56. be filled with water; 57. master controller; 58. switch installing plate; 59. face frame front cover plate; 60. guidance panel; 61. cover assembly; 62. cover assembly rotating shaft; 63. attaching plug; 64. last gusset; 65. overflow pipe; 66. center support hold-down screw; 67. beam; 68. draining valve; 69. motor bolt washer; 70. fixedly spiral shell inspection of motor; 71. pipe clamp; 72. drainpipe; 73. adjustment pin; 74. adjust the pin hold-down nut; 75A. clutch brake electromagnet; 76. suspension rod assembly; 77. wire harness; 78. safety switch; 79. water level controller; 80. pressure hose; 81. power switch; 82. startup/pause switch; 83. washing procedure switch; 84. washing function switch; 85. water level selector switch; 123. impeller trim ring; 124. clutch core power shaft.

The specific embodiment

The invention will be further described below in conjunction with accompanying drawing.

The structure of impeller of the present invention 48 and Washing dewatering tub 11 out-of-alignment impeller-driven formulas is as shown in Figure 1: gusset 64 all is equipped with on four angles in the top of box assembly 10, the bottom of steel ladle 9 is shaped on four suspension rod installing holes, and four suspension rod assemblies 76 of steel ladle 9 usefulness hang on the last gusset 64 of box assembly 10; Center support 44 is fixed on the bottom of steel ladle 9 by screw; The middle part of impeller shaft 40 is contained in the interior ring of two bearings, the outer shroud of two bearings is fixed in the middle of impeller shaft bearing upper end cover 23 and the impeller shaft bearing bottom end cover 24, the circular hole that one end of impeller shaft 40 passes impeller shaft bearing upper end cover 23 is stretched the outside at impeller shaft bearing upper end cover 23, the circular hole that the other end of impeller shaft 40 passes impeller shaft bearing bottom end cover 24 is stretched the outside at impeller shaft bearing bottom end cover 24, impeller shaft bearing upper end cover 23 and impeller shaft bearing bottom end cover 24 usefulness screws join together, impeller shaft 40 is fixed between impeller shaft bearing upper end cover 23 and impeller shaft bearing bottom end cover 24 usefulness, and impeller shaft 40 can not axially can only be rotated around its axle center with moving radially along it; Be shaped on up-small and down-big stairstepping circular hole in the center of the bottom of steel ladle 9 bucket diapire, the stairstepping circular hole that steel ladle 9 bottoms are passed in the upper end of impeller shaft 40 puts in the steel ladle 9, impeller shaft bearing upper end cover 23 puts in the big stomidium of stairstepping circular hole of steel ladle 9 bottoms, between the big stomidium wall of the stairstepping circular hole of impeller shaft bearing upper end cover 23 and impeller shaft 40 and steel ladle 9 bottoms, steel ladle water seal 42 is housed, impeller shaft props up seat assembly and (comprises impeller shaft 40, impeller shaft bearing upper end cover 23 and impeller shaft bearing bottom end cover 24) be screwed on center support 44, steel ladle water seal 42 relies on elasticity to be close on the inner hole wall of stairstepping circular hole of steel ladle 9 simultaneously and on the cylindrical of impeller shaft 40; Lean on an end of impeller shaft bearing bottom end cover 24 that impeller shaft belt pulley 27 is housed at impeller shaft 40, impeller shaft neck bush 39 is housed in the endoporus of impeller shaft 40, water seal lower gasket 43, decorative cover 19 in dehydrating shaft water seal 45 and the water seal, dehydrating shaft 41 on the clutch 34 passes the endoporus and the impeller shaft neck bush 39 of impeller shaft 40, water seal lower gasket 43, the endoporus of decorative cover 19 puts in the steel ladle 9 and is exposed at the outside of impeller shaft 40 in dehydrating shaft water seal 45 and the water seal, between impeller shaft neck bush 39 and the dehydrating shaft 41 for being slidingly matched so that dehydrating shaft 41 and impeller shaft 40 are concentric, dehydrating shaft 41 can be rotated freely, impeller shaft 40 is arranged on the end of steel ladle 9 impeller 48 is housed, between the axial location step of the lower surface of impeller 48 and impeller shaft 40, impeller packing ring 46 is housed, by impeller hold-down nut 47 impeller 48 is fastened on the impeller shaft 40, between impeller hold-down nut 47 and impeller 48 impeller packing ring 46 is housed also, dehydrating shaft water seal 45 relies on elasticity to be close on the inner hole wall of impeller shaft 40 simultaneously and on the cylindrical of dehydrating shaft 41; Clutch-pedal support 32 rivetings are on center support 44, and clutch 34 is fixed on the clutch-pedal support 32 by clutch hold-down screw 28; Be shaped on many pod apertures of being used to lead on the ring flange 18, also be shaped on the corresponding pod apertures of being used to lead to of pod apertures on many and the ring flange 18 on the bottom bucket wall of Washing dewatering tub 11, the top of kuppe 17 is penetrating, ring flange 18 is contained in the bottom inside of Washing dewatering tub 11, Washing dewatering tub lower gasket 49 is contained in the bottom outside of Washing dewatering tub 11, kuppe 17 also is contained in the bottom outside of Washing dewatering tub 11, Washing dewatering tub 11, kuppe 17, ring flange 18, Washing dewatering tub lower gasket 49 is riveted into one integral installation on dehydrating shaft 41, and be fixed on the dehydrating shaft 41 with Washing dewatering tub nut 50, in the middle of kuppe 17 is trapped among impeller 48; Decorative cover 19 in impeller axle oiliness bearing 21, water seal lower gasket 43, the water seal 20 of impeller axle and the water seal is housed in the endoporus of dehydrating shaft 41, impeller axle 51 passes the endoporus of decorative cover 19 in dehydrating shaft 41, impeller axle oiliness bearing 21, water seal lower gasket 43, the water seal 20 of impeller axle and the water seal and stretches in the outside of dehydrating shaft 41, and impeller axle water seal 20 relies on elasticity to be close on the inner hole wall of dehydrating shaft 41 simultaneously and on the cylindrical of impeller axle 51; Impeller 16 is contained on the impeller axle 51, with impeller hold-down screw 54 impeller 16 is fastened on the impeller axle 51, between the positioning step of impeller axle 51 and impeller 16 impeller lower gasket 52 is housed, impeller upper gasket 15 and impeller lock washer 53 are contained between impeller 16 and the impeller hold-down screw 54; Be shaped on many penetrating apertures on impeller 16, also be shaped on some penetrating apertures on impeller cap 14, impeller cap 14 is contained in the impeller fixing screw hole in the middle of the impeller 16 and is stuck on the impeller upper gasket 15; Impeller motor 29 and impeller motor 38 usefulness motor set bolts 70 are fixed on the center support 44, between the installation leg of impeller motor 29 and impeller motor 38 and center support 44, beam 67 is housed, between the installation leg of impeller motor 29 and impeller motor 38 and motor set bolt 70, beam 67 and motor bolt washer 69 are housed, impeller shaft belt 26 couples together impeller shaft belt pulley 27 and impeller motor belt pulley 22, and clutch belt 36 couples together impeller motor pulley 37 and clutch pulley 33; Circulation water channel 13 is contained on the bucket sidewall of Washing dewatering tub 11, line bits filter 12 is inserted on the draw-in groove of circulation water channel 13, during impeller 16 rotations, the water dumping blade of its bottom throws away the bottom of cleaning solution from impeller 16, inject line bits filter 12 along 13 risings of circulation water channel and flow into Washing dewatering tub 11 again, the line bits in the cleaning solution are stayed in the line bits filter 12; Gimbal 55 is equipped with on the top of Washing dewatering tub, equilibrium liquid (20% saline solution) is housed in the inner chamber of gimbal 55, the top of steel ladle 9 is equipped with and is encircled 7 on the steel ladle, ring 7 is equipped with steel ladle inlet strainer 8 by water inlet 6 place on the steel ladle, on the ring 7 bung 56 that is filled with water is housed also on the steel ladle, the bung 56 that is filled with water can rotate to open or to close steel ladle 9 around the bung axle on the ring 7 on the steel ladle; Face frame 4 is screwed on box assembly 10, safety switch 78 is fixed on the face frame 4, reach under the safety pole on the safety switch 78 in the space between steel ladle 9 and the box assembly 10, cover assembly 61 is contained on the bearing of face frame 4 by cover assembly rotating shaft 62, the lid pull bar of the projection of cover assembly 61 rear ends and safety switch 78 upper ends sticks together, clutch magnet 75 is fixed on the braking vane of clutch 34, during clutch magnet 75 no powers, the moving iron core of clutch magnet 75 stretches out the brake band that blocks clutch 34, dehydrating shaft 41 can not be rotated, when washing machine is in the dehydration duty, master controller 57 is connected the power supply of clutch magnet 75, the moving iron core of clutch magnet 75 is sucked into, 34 brake band lets the clutch be slipped, dehydrating shaft 41 can be rotated, open cover assembly 61, angle of projection rotation of cover assembly 61 rear ends, make the lid pull bar of safety switch 78 upper ends also turn over an angle, safety switch 78 actions, cut off the power supply of impeller motor 38 and clutch magnet 75, the moving iron core of clutch magnet 75 stretches out the brake band that blocks clutch 34, Washing dewatering tub 11 is stopped operating, when washing machine is in the dehydration duty, if the serious imbalance of Washing dewatering tub causes sharp pounding, make steel ladle 9 bump against safety pole on the safety switch 78, safety switch 78 actions, cut off the power supply of impeller motor 38 and clutch magnet 75, the moving iron core of clutch magnet 75 stretches out the brake band that blocks clutch 34, and Washing dewatering tub 11 is stopped operating; Water level controller 79 is fixed on the face frame 4, and one of pressure hose 80 terminates on the air chamber mouth of water level controller 79, and its other end is connected on the pipe joint of air storage chamber of steel ladle 9; Water intaking valve 1 is fixed on the face frame 4, one of interior water inlet pipe 3 terminates on the delivery port of water intaking valve 1, the other end is connected on the pipe joint of intake chamber of face frame 4, water inlet 6 is fixed on the intake chamber of face frame 4, washing agent holder 5 is contained in the intake chamber and water inlet 6 cavity of forming of face frame 4, and face frame back shroud 2 is contained on the face frame 4; Master controller 57 is contained in the controller mounting groove of face frame 4, each gauge tap of washing machine all is contained on the switch installing plate 58, between master controller 57 and switch installing plate 58, there are some leads to connect, switch installing plate 58 is contained on the face frame front cover plate 59, face frame front cover plate 59 is contained on the face frame 4, and guidance panel 60 sticks on the face frame front cover plate 59; Draining valve 68 is fixed on the bottom of steel ladle 9, the water inlet head of the draining valve 68 of band sealing shroud puts in the water discharge outlet of steel ladle 9 bottoms, the top of steel ladle 9 is shaped on gap, one of overflow pipe 65 terminates on the gap pipe joint of steel ladle 9, the other end is connected on the gap pipe joint of draining valve 68, one of drainpipe 72 terminates on the water discharge outlet pipe joint of draining valve 68, the other end reaches the outside of box assembly 10, with steel ladle 9 and draining valve 68 joints pipe clamp 71 is housed all respectively at overflow pipe 65 and drainpipe 72; Box assembly 10 is contained on the base 31 and is screwed and is integral, and ratguard 35 is stuck on the base 31, and fixed feet 30 is contained on the base 31, adjusts pin hold-down nut 74 and is contained on the base 31, adjusts pin 73 and is contained on the adjustment pin hold-down nut 74; By wire harness assembly 77 master controller 57, impeller motor 29, impeller motor 38, clutch magnet 75, water intaking valve 1, safety switch 78, water level controller 79, draining valve 68 etc. are connected into complete work and control circuit.

During washing clothes, attaching plug 63 is inserted in the supply socket, open the cover assembly 61 and the bung 56 that is filled with water, the clothing that will wash is put into Washing dewatering tub 11, put into washing agent, the source, draining valve 68 is opened, with the water emptying in the steel ladle 9, master controller 57 is connected the power supply of clutch magnets 75 and impeller motor 38 subsequently, clutch magnet 75 adhesives, clutch 34 with the powershift of impeller motor 38 to dehydrating shaft 41, dehydrating shaft 41 drives Washing dewatering tub 11 rotation at a high speed, and the clothing in the Washing dewatering tub 11 is dried.

The structure of pressure injection formula of the present invention is as shown in Figure 8: the washing machine clutch assembly is by decorative cover in the water seal 19, impeller axle water seal 20, impeller axle oiliness bearing 21, clutch pulley 33, dehydrating shaft 41, water seal lower gasket 43, impeller axle 51, clutch upper end cover 86, the anti-spring housing 87 that reverses, pinion stand axle 88, P gear 89, P gear jump ring 90, gear cap axle 91, brake disc 92, gear shaft oiliness bearing 93, spring housing 94, brake band 99, A torsion spring 100, gear shaft 101, belt pulley clamp nut 102, clutch pulley wheel hub 103, A inner wheel hub 104, B torsion spring 105, B inner wheel hub 106, brake bolt 107, braking vane 108, brake spring 109, clutch bottom end cover 110, gear wheel 111, pinion 112, gear mandrel 113, the anti-spring 114 that reverses, impeller axle neck bush 115, gear shaft neck bush 115A, sparge pipe water seal 116, sparge pipe 117 compositions such as grade, pinion 112 is integral by the teeth groove engagement with gear wheel 111, pinion 112 all is enclosed within on the gear mandrel 113 with gear wheel 111, one end of gear mandrel 113 is contained on the pinion stand axle 88, the other end is contained on the gear cap axle 91, pinion stand axle 88 and gear cap axle 91 link into an integrated entity by bolt, the endoporus that the gear shaft 101 of hollow passes the gear cap axle puts in the inner chamber of pinion stand axle, the gear of its head and gear wheel 111 engagements, between the cylindrical of the inner hole wall of gear cap axle 91 and gear shaft 101, gear shaft oiliness bearing 93 is housed, one end of dehydrating shaft 41 and 88 combinations of pinion stand axle, the other end of dehydrating shaft 41 is stretched the outside at clutch upper end cover 86, a bearing is housed on the cylindrical of dehydrating shaft 41, the outer shroud of the bearing on the dehydrating shaft 41 is fixed on the clutch upper end cover 86, a bearing also is housed on the cylindrical of gear cap axle 91, the outer shroud of the bearing on the gear cap axle 91 is fixed on the clutch bottom end cover 110, and clutch upper end cover 86 and clutch bottom end cover 110 usefulness bolts link into an integrated entity; The endoporus that one end of the impeller axle 51 of hollow passes dehydrating shaft 41 puts in the inner chamber of pinion stand axle 88, P gear 89 is housed on impeller axle 51, P gear jump ring 90 is stuck in and makes the P gear 89 can not moving axially along impeller axle 51 on the draw-in groove of impeller axle 51, P gear 89 is meshed with pinion 112, between the cylindrical of the inner hole wall of dehydrating shaft 41 and impeller axle 51 decorative cover 19 in the water seal, impeller axle water seal 20, impeller axle oiliness bearing 21 and water seal lower gasket 43 are housed, impeller axle water seal 20 relies on elasticity to be close on the inner hole wall of dehydrating shaft 41 simultaneously and on the cylindrical of impeller axle 51; The anti-spring 114 that reverses is contained on the pinion stand axle 88, and the upper and lower side that one end reverse arm is fixed on clutch covers, and the anti-spring housing 87 that reverses is contained in anti-outside of reversing spring 114; Be set with B inner wheel hub 106 on the cylindrical of gear cap axle 91, A inner wheel hub 104 also is contained on the gear cap axle 91, clutch pulley 33 is contained on the gear shaft 101, the outside diameter of the overcoat of the A inner wheel hub 104 of double-deck intussusception is identical with the outside diameter of B inner wheel hub 106, B torsion spring 105 is contained on the cylindrical of the cylindrical of overcoat of A inner wheel hub 104 and B inner wheel hub 106, the outside diameter of the interior cover of the A inner wheel hub 104 of double-deck intussusception is identical with the diameter of the cylindrical of clutch pulley wheel hub 103, A torsion spring 100 is contained on the cylindrical of the cylindrical of interior cover of A inner wheel hub 104 and clutch pulley wheel hub 103, spring housing 94 is contained in the outside of A torsion spring 100 and B torsion spring 105, the lower end of A torsion spring 100 embeds in the interior cinclides of spring housing 94 lower ends, in the wall groove of the upper end of the upper end embedding spring housing 94 of B torsion spring 105, belt pulley clamp nut 102 is fixed on clutch pulley 33 on the gear shaft 101; Brake disc 92 is contained between clutch bottom end cover 110 and the braking vane 108, brake disc 92 is integral by the teeth groove engagement with B inner wheel hub 106, braking vane 108 is fixed on the clutch bottom end cover 110 by three brake bolts 107 and three brake springs 109, and brake bolt 107 and brake spring 109 are pressed on brake disc 92 on the clutch bottom end cover 110 by braking vane 108; Brake band 99 is contained on the spring housing 94; Clutch magnet 75 is contained on the braking vane 108, and during clutch magnet 75 no powers, the moving iron core of clutch magnet 75 stretches out under the effect of moving iron core spring and blocks brake band 99, and spring housing 94 can not be rotated; Sparge pipe 117 is contained in the endoporus of impeller axle 51 and gear shaft 101, one end of sparge pipe 117 is stretched the outside at impeller axle 51, the other end is stretched the outside at gear shaft 101, between the cylindrical of the inner hole wall of impeller axle 51 and sparge pipe 117 decorative cover 19 and water seal lower gasket 43 in impeller axle neck bush 115, sparge pipe water seal 116, the water seal are housed, sparge pipe water seal 116 relies on elasticity to be close on the inner hole wall of impeller axle 51 simultaneously and on the cylindrical of sparge pipe 117; Between the cylindrical of the inner hole wall of gear shaft 101 and sparge pipe 117, gear shaft neck bush 115A is housed; Be shaped on up-small and down-big stairstepping circular hole in the center of the bottom of steel ladle 9 bucket diapire, the stairstepping circular hole that steel ladle 9 bottoms are passed in the upper end of dehydrating shaft 41 puts in (impeller axle 51 and sparge pipe 117 also put in the steel ladle 9) in the steel ladle 9, the upper end of clutch upper end cover 86 puts in the big stomidium of stairstepping circular hole of steel ladle 9 bottoms, between the big stomidium wall of the stairstepping circular hole of the upper end of clutch upper end cover 86 and dehydrating shaft 41 and steel ladle 9 bottoms, steel ladle water seal 42 is housed, bung 56 and cover assembly 61 are filled with water on the clutch case, press power switch 81 and connect power supply, press dynamic water level selector switch 85, program switch 83, functional switch 84 configures washing machine, click startup/pause switch 82, washing machine is started working, automatically intake and stop into water behind the designated water level, impeller motor 29 runnings, impeller 48 rotations, the cleaning solution that impeller 48 drives steel ladle 9 bottoms moves upward, under the guiding of kuppe 17, cleaning solution is by the pod apertures of ring flange 18 and Washing dewatering tub 11 bottoms, aperture on impeller 16 and impeller block 14 upwards pours in the Washing dewatering tub 11, cleaning solution in the Washing dewatering tub 11 then flows to the bottom of steel ladle 9 through the aperture of bucket on the sidewall of Washing dewatering tub 11, be subjected to impeller 48 to drive the cleaning solution of constantly gushing out the aperture on impeller 16 and impeller block 14, clothing with Washing dewatering tub 11 bottoms upwards holds up on the one hand, itself and impeller 16 are disengaged, wearing and tearing clothing when avoiding impeller 16 rotations, on the other hand, constantly wash away clothing, and impeller motor 38 runnings this moment, drive impeller 16 rotations through clutch 34, constantly just changeing a counter-rotating along with impeller motor 38, impeller 16 also constantly just changes-reverses the forward and reverse rotary water current of generation, the current of gushing these current and the aperture on impeller 16 and impeller block 14 are combined into universal solid current, this solid current has rubbing, stir, mallet is smash, wash away, penetrate and bend and stretch effect, can peel off spot from clothes fiber fast, and because impeller 48 drives cleaning solution circulation between steel ladle 9 and Washing dewatering tub 11 apace, make on the clothing and be stripped from the spot molecule that gets off near the clothing and taken away rapidly, and with in steel ladle 9 and the Washing dewatering tub 11 to contain the spot molecule relative less, take in the clothes fiber and contain the more relatively cleaning solution of washing agent molecule, strengthened the chemical action power of washing agent in the cleaning solution greatly, further improve washing machine again and peeled off the speed of spot from clothes fiber, and under the effect of this multidirectional solid current, suppress the winding of clothing well, improved the uniformity of washing greatly.When clothing is carried out rinsing, impeller 16 and impeller 48 also rotate simultaneously, the multidirectional solid current that washing machine produces is separated the washing agent that adsorbs in the clothes fiber fast, and because impeller 48 drives washings circulation between steel ladle 9 and Washing dewatering tub 11 apace, make on the clothing and be stripped from the washing agent molecule that gets off near the clothing and taken away rapidly, again conforming to washing agent or containing the relative less washings of washing agent molecule in steel ladle 9 and the Washing dewatering tub 11 do not taken in the clothes fiber simultaneously, strengthen the effect that washings dilute and peel off the washing agent in the clothes fiber greatly, improved the rinsing speed of washing machine again from another point of view.After rinsing finishes, master controller 57 cuts off the power supply of impeller motor 38 and impeller motor 29, the electric assembly of connecting draining valve 68 is screwed on center support 44, clutch assembly, steel ladle water seal 42 and steel ladle 9 are fused, and steel ladle water seal 42 relies on elasticity to be close on the inner hole wall of stairstepping circular hole of steel ladle 9 simultaneously and on the cylindrical of dehydrating shaft 41; Ring flange 18 is contained in the bottom inside of Washing dewatering tub 11, Washing dewatering tub lower gasket 49 is contained in the bottom outside of Washing dewatering tub 11, Washing dewatering tub 11, ring flange 18, Washing dewatering tub lower gasket 49 are riveted into one integral installation on dehydrating shaft 41, and are fixed on the dehydrating shaft 41 with Washing dewatering tub nut 50; Impeller 16 is contained on the impeller axle 51, with impeller hold-down nut 54A impeller 16 is fastened on the impeller axle 51, between the positioning step of impeller axle 51 and impeller 16 impeller lower gasket 52 is housed, and impeller upper gasket 15 is contained between impeller 16 and the impeller hold-down nut 54A; Through hole and fountain head 118 that sparge pipe 117 passes impeller hold-down nut 54A join, fountain head 118 is stuck on the sparge pipe 117 and with the impeller installing hole in the middle of the impeller 16 and covers, be shaped on some hole for water sprayings on the fountain head 118, the end that sparge pipe 117 is stretched in the outside of gear shaft 101 is fixed on the sparge pipe support 120 by sparge pipe geometrical clamp 122, and sparge pipe support 120 is fixed on the center bearing bracket 44 by sparge pipe support hold-down screw 119; Pump motor 29A and impeller motor 38 usefulness motor set bolts 70 are fixed on the center support 44, between the installation leg of pump motor 29A and impeller motor 38 and center support 44 beam 67 are housed; The power output shaft of the power input shaft of water pump 96 and pump motor 29A links together by shaft joint 95, and water pump 96 usefulness water pump set bolts 97 are fixed on the sparge pipe support 120; One of water pump outlet fitting 98 terminates on the water discharge outlet of water pump 96, and the other end is connected on the sparge pipe 117, and on the pump water inlet joint that terminates on the steel ladle 9 of water pump water inlet tube connector 121, the other end is connected on the water inlet of water pump 96.

Water intaking valve 1, face frame back shroud 2, interior water inlet pipe 3, face frame 4, washing agent holder 5, water inlet 6, encircle 7 on the steel ladle, steel ladle inlet strainer 8, steel ladle 9, box assembly 10, line bits filter 12, circulation water channel 13, fixed feet 30, base 31, ratguard 35, center support 44, gimbal 55, bung 56 is filled with water, cover assembly 61, master controller 57, switch installing plate 58, face frame front cover plate 59, guidance panel 60, overflow pipe 65, draining valve 68, pipe clamp 71, drainpipe 72, adjust pin 73, adjust pin hold-down nut 74, suspension rod assembly 76, safety switch 78, water level controller 79, the installation site of pressure hose 80 is identical with the washing machine of Washing dewatering tub 11 out-of-alignment impeller-driven formula structures with aforementioned impeller 48 shown in Figure 1 with assembly relation.

Wire harness assembly 77 connects into complete work and control circuit with master controller 57, pump motor 29A, impeller motor 38, clutch magnet 75, water intaking valve 1, safety switch 78, water level controller 79, draining valve 68 etc.

During washing clothes, attaching plug 63 is inserted in the supply socket, open the cover assembly 61 and the bung 56 that is filled with water, the clothing that will wash is put into Washing dewatering tub 11, put into washing agent, cover be filled with water bung 56 and cover assembly 61, connect power supply, configure washing machine, press startup/pause switch 82, washing machine is started working, after water inlet finishes, pump motor 29A running, water pump 96 work, the cleaning solution of steel ladle 9 bottoms is through water pump water inlet tube connector 121, water pump 96, water pump outlet fitting 98, sparge pipe 117 is to fountain head 118, from the hole for water spraying of fountain head 118, upwards spray in the Washing dewatering tub 11, the cleaning solution then aperture outflow on the bucket sidewall of Washing dewatering tub 11 this moment in the Washing dewatering tub 11, and then flow to the bottom of steel ladle 9, on the one hand the clothing of Washing dewatering tub 11 bottoms is upwards held up from the cleaning solution that moves upward of fountain head 118 ejections, itself and impeller 16 are disengaged, wearing and tearing clothing when avoiding impeller 16 rotations, constantly impact clothing on the other hand, and impeller motor 38 runnings this moment, drive impeller 16 rotations by clutch, constantly just changeing-reversing along with impeller motor 38, impeller 16 also constantly just changes-reverses the current that produce forward and reverse rotation, these current and the synthetic multidirectional solid current of the current that move upward that spray from fountain head 118, this solid current has very strong washing away and penetration to clothing, also has rubbing simultaneously, stir, mallet is smash, with the effect of bending and stretching, compare with conventional laundry apparatus, improved the speed of peeling off spot from clothes fiber greatly, and because water pump 96 drives cleaning solution circulation between steel ladle 9 and Washing dewatering tub 11 apace, make on the clothing and be stripped from the spot molecule that gets off near the clothing and taken away rapidly, and with in steel ladle 9 and the Washing dewatering tub 11 to contain the spot molecule relative less, take in the clothes fiber and contain the more relatively cleaning solution of washing agent molecule, strengthened the chemical action power of washing agent in the cleaning solution greatly, improve washing machine again from another point of view and peeled off the speed of spot from clothes fiber, and under the effect of this multidirectional solid current, suppress the winding of clothing well, improved the uniformity of washing greatly.When clothing is carried out rinsing, impeller motor 38 and pump motor 29A also work simultaneously, the multidirectional solid current that washing machine produces is separated the washing agent that adsorbs in the clothes fiber fast, and because water pump 96 drives washings circulation between steel ladle 9 and Washing dewatering tub 11 apace, make on the clothing and be stripped from the washing agent molecule that gets off near the clothing and taken away rapidly, again taken in the clothes fiber not containing washing agent or containing the relative less washings of washing agent molecule in steel ladle 9 and the Washing dewatering tub 11 simultaneously, strengthen the effect that washings dilute and peel off the washing agent in the clothes fiber greatly, improved the rinsing speed of washing machine again from another point of view.

The structure of the impeller-driven formula that impeller 48 of the present invention and Washing dewatering tub 11 are coaxial is as shown in figure 12: be shaped on up-small and down-big stairstepping circular hole in the center of the bottom of steel ladle 9 bucket diapire, the stairstepping circular hole that steel ladle 9 bottoms are passed in the upper end of the impeller of clutch 34/dehydrating shaft 40A puts in (impeller axle 51 also puts in the steel ladle 9) in the steel ladle 9, the upper end of the upper end cover of clutch 34 puts in the big stomidium of stairstepping circular hole of steel ladle 9 bottoms, between the big stomidium wall of the stairstepping circular hole of the upper end of the upper end cover of clutch 34 and impeller/dehydrating shaft 40A and steel ladle 9 bottoms, steel ladle water seal 42 is housed, clutch 34 usefulness clutch hold-down screws 28 are fixed on the center support 44, make clutch 34, steel ladle water seal 42 fuses with steel ladle 9, and steel ladle water seal 42 relies on elasticity to be close on the inner hole wall of stairstepping circular hole of steel ladle 9 simultaneously and on the cylindrical of impeller/dehydrating shaft 40A; Be shaped on many pod apertures of being used to lead on the ring flange 18, also be shaped on the corresponding pod apertures of being used to lead to of pod apertures on many and the ring flange 18 on the bottom bucket wall of Washing dewatering tub 11, the top of kuppe 17 is penetrating, ring flange 18 is contained in the bottom inside of Washing dewatering tub 11, Washing dewatering tub lower gasket 49 is contained in the bottom outside of Washing dewatering tub 11, kuppe 17 also is contained in the bottom outside of Washing dewatering tub 11, Washing dewatering tub 11, kuppe 17, ring flange 18, Washing dewatering tub lower gasket 49 is riveted into one, be arranged at impeller/dehydrating shaft 40A on the end of steel ladle 9 impeller 48 is housed, between the axial location step of the lower surface of impeller 48 and impeller/dehydrating shaft 40A, impeller packing ring 46 is housed, impeller trim ring 123 is housed on impeller 48, Washing dewatering tub 11, kuppe 17, ring flange 18, Washing dewatering tub lower gasket 49 integral installations are on impeller/dehydrating shaft 40A and be close on the impeller trim ring 123, with Washing dewatering tub nut 50 with Washing dewatering tub 11, kuppe 17, ring flange 18, Washing dewatering tub lower gasket 49, impeller trim ring 123 and impeller 48 are fixed on impeller/dehydrating shaft 40A, in the middle of kuppe 17 is trapped among impeller 48; Clutch brake electromagnet 75A is fixed on the braking vane of clutch 34, master controller 57 is connected the power supply of clutch brake electromagnet 75A when laundry machine dehydration finishes, clutch brake electromagnet 75A adhesive, its moving iron core stretches out the brake band that blocks clutch 34, clutch 34 brakings stop operating Washing dewatering tub 11, when in washing machine work, opening cover assembly 61, safety switch 78 actions, cut off the power supply of impeller motor 29, connect the power supply of clutch brake electromagnet 75A, clutch 34 brakings stop operating Washing dewatering tub 11, the inside of this external special clutch 34 also has an electromagnet, when laundry machine dehydration is worked, master controller 57 is connected the power supply of the electromagnet of clutch 34 inside, the electromagnetic actuation of clutch 34 inside, clutch 34 will be thrown off with impeller axle 51 with the clutch core power shaft 124 that A clutch pulley 33 is fixed together, and impeller axle 51 and impeller/dehydrating shaft 40A is joined together; In the inside of special clutch 34 the anti-spring that reverses is housed also, prevents that impeller/dehydrating shaft 40A from reversing; Decorative cover 19 in impeller axle oiliness bearing 21, water seal lower gasket 43, the water seal 20 of impeller axle and the water seal is housed in the endoporus of impeller/dehydrating shaft 40A, impeller axle 51 passes the endoporus of decorative cover 19 in impeller/dehydrating shaft 40A, impeller axle oiliness bearing 21, water seal lower gasket 43, the water seal 20 of impeller axle and the water seal and stretches in the outside of impeller/dehydrating shaft 40A, and impeller axle water seal 20 relies on elasticity to be close on the inner hole wall of impeller/dehydrating shaft 40A simultaneously and on the cylindrical of impeller axle 51; Impeller 16 is contained on the impeller axle 51, with impeller hold-down screw 54 impeller 16 is fastened on the impeller axle 51, between the positioning step of impeller axle 51 and impeller 16 impeller lower gasket 52 is housed, impeller upper gasket 15 and impeller lock washer 53 are contained between impeller 16 and the impeller hold-down screw 54; Be shaped on many penetrating apertures on impeller 16, also be shaped on some penetrating apertures on impeller cap 14, impeller cap 14 is contained in the impeller fixing screw hole in the middle of the impeller 16 and is stuck on the impeller upper gasket 15; Impeller motor 29 and impeller motor 38 usefulness motor set bolts 70 are fixed on the center support 44, between the installation leg of impeller motor 29 and impeller motor 38 and center support 44, beam 67 is housed, A clutch belt 36 couples together impeller motor pulley 37 and A clutch pulley 33, and B clutch belt 36A couples together impeller motor belt pulley 22 and B clutch pulley 33A.

Water intaking valve 1, face frame back shroud 2, interior water inlet pipe 3, face frame 4, washing agent holder 5, water inlet 6, encircle 7 on the steel ladle, steel ladle inlet strainer 8, steel ladle 9, box assembly 10, line bits filter 12, circulation water channel 13, fixed feet 30, base 31, ratguard 35, center support 44, gimbal 55, bung 56 is filled with water, cover assembly 61, master controller 57, switch installing plate 58, face frame front cover plate 59, guidance panel 60, overflow pipe 65, draining valve 68, pipe clamp 71, drainpipe 72, adjust pin 73, adjust pin hold-down nut 74, suspension rod assembly 76, safety switch 78, water level controller 79, the installation site of pressure hose 80 is identical with the washing machine of Washing dewatering tub 11 out-of-alignment impeller-driven formula structures with aforementioned impeller 48 shown in Figure 1 with assembly relation.

Wire harness assembly 77 connects into a complete operating circuit with the electromagnet of master controller 57, impeller motor 29, impeller motor 38, clutch brake electromagnet 75A, special clutch 34 inside, water intaking valve 1, safety switch 78, water level controller 79, draining valve 68 etc.

During washing clothes, attaching plug 63 is inserted in the supply socket, open the cover assembly 61 and the bung 56 that is filled with water, the clothing that will wash is put into Washing dewatering tub 11, put into washing agent, cover be filled with water bung 56 and cover assembly 61, connect power supply, configure washing machine, press startup/pause switch 82, washing machine is started working, after water inlet finishes, impeller motor 29 runnings drive Washing dewatering tub 11 and impeller 48 rotations, and the cleaning solution that impeller 48 drives steel ladle 9 bottoms moves upward, under the guiding of kuppe 17, cleaning solution is by the pod apertures of ring flange 18 and Washing dewatering tub 11 bottoms, and the aperture on impeller 16 and impeller block 14 upwards pours in the Washing dewatering tub 11, and the cleaning solution in the Washing dewatering tub 11 then aperture on the bucket sidewall of Washing dewatering tub 11 flows to the bottom of steel ladle 9; And impeller motor 38 runnings this moment, drive the current that impeller 16 is constantly just changeing the forward and reverse rotation of a counter-rotating generation by clutch 34, be combined into universal solid current with the current of gushing the aperture from impeller 16 and impeller block 14, the clothing of Washing dewatering tub 11 bottoms is upwards held up, itself and impeller 16 are disengaged, wearing and tearing clothing when avoiding impeller 16 rotations, and peel off spot from clothes fiber fast.When clothing is carried out rinsing, impeller 16 and impeller 48 and Washing dewatering tub 11 also rotate simultaneously, under the effect of multidirectional solid current that washing machine produces and the circulating water flow between Washing dewatering tub 11 and the steel ladle 9, the washing agent that adsorbs in the clothes fiber is separated by speed.After rinsing finishes, master controller 57 cuts off the power supply of impeller motor 38 and impeller motor 29, connect the power supply of draining valve 68, draining valve 68 is opened, with the water emptying in the steel ladle 9, master controller 57 is connected the power supply of the electromagnet of impeller motor 29 and clutch 34 inside subsequently, the electromagnetic actuation of clutch 34 inside, impeller motor 29 rotation at a high speed drives Washing dewatering tub 11, impeller 48 and the rotation of impeller 16 synchronous high-speeds, clothing in the Washing dewatering tub 11 is dried, master controller 57 cuts off the power supply of impeller motor 29 then, connect the power supply of clutch brake electromagnet 75A, clutch 34 brakings stop operating Washing dewatering tub 11 and impeller 16, and last master controller 57 cuts off the power supply of the electromagnet of clutch brake electromagnet 75A and clutch 34 inside.

In sum, compare with traditional washing machine, washing of the present invention and rinsing speed are fast, The washing good uniformity is little to the wearing and tearing of clothing.

Claims (5)

1. a double dynamical compound water-flow washing machine has two covers device separate, that can produce washing power current simultaneously.Mainly form by ring (7), steel ladle (9), box assembly (10), Washing dewatering tub (11), base (31), center support (44), gimbal (55), the bung that is filled with water (56), cover assembly (61), suspension rod assembly (76), water feed apparatus, water-level control apparatus, the first washing power apparatus for generation of water flow, the second washing power apparatus for generation of water flow, master control device, drainage arrangement, safety guard and thread bits filtering device etc. on face frame assembly, the steel ladle.It is characterized by: during washing machine work, the forward and reverse alternately rotation of impeller (16) horizontal plane in Washing dewatering tub (11) of the first washing power apparatus for generation of water flow, produce forward and reverse plane rotary water current that replaces, the second washing power apparatus for generation of water flow produces ascending current in Washing dewatering tub (11), the universal solid of two bursts of compound generation brute forces of current, spot is peeled off from clothes fiber, the ascending current of the second washing power apparatus for generation of water flow generation holds up clothing simultaneously, avoid clothing and impeller direct friction, and the guiding clothing rolls and suppresses clothing and twine.

2. double dynamical compound water-flow washing machine according to claim 1, it is characterized by: the mode that the second washing power apparatus for generation of water flow produces current has two kinds of impeller propelled formula and pressure injection formulas, and the structure of the second washing power apparatus for generation of water flow of impeller propelled formula comprises that again impeller (48) is separately fixed on the different driving shafts with Washing dewatering tub (11) and impeller (48) and Washing dewatering tub (11) are fixed on the same driving shaft two kinds.

3. double dynamical compound water-flow washing machine according to claim 2, it is characterized by: be separately fixed in the second washing power apparatus for generation of water flow of the impeller propelled formula on the different driving shafts at impeller (48) and Washing dewatering tub (11), the impeller shaft of hollow (40) is sleeved on the dehydrating shaft (41) of clutch (34), on impeller shaft (40) puts in a end in the steel ladle (9), impeller (48) is housed, impeller (48) is positioned between the bottom inside of the bottom outside of Washing dewatering tub (11) and steel ladle (9), but impeller (48) does not contact with steel ladle (9) with Washing dewatering tub (11); Impeller shaft belt pulley (27) is housed on the end outside impeller shaft (40) is exposed at steel ladle (9), and impeller shaft (40) is driven by impeller motor (29); The impeller axle (51) of clutch (34) is contained in the middle of the endoporus of dehydrating shaft (41), impeller (16) is contained on the impeller axle (51), impeller (16) is near the bottom inside of Washing dewatering tub (11), impeller cap (14) is contained in the middle impeller hold-down screw installing hole of impeller (16) and with the impeller hold-down screw installing hole in the middle of the impeller (16) and covers, all be shaped on penetrating aperture on impeller (16) and the impeller cap (14), ring flange (18) upward and on the bottom bucket wall of Washing dewatering tub (11) all is shaped on penetrating pod apertures, the bottom outside of Washing dewatering tub (11) is equipped with kuppe (17), the top of kuppe (17) is penetrating, kuppe (17) and Washing dewatering tub (11) fuse on the dehydrating shaft (41) that is contained in clutch (34), in the middle of the sidewall of kuppe (17) is trapped among impeller (48) but do not contact with impeller (48).

4. double dynamical compound water-flow washing machine according to claim 2, it is characterized by: be fixed in the second washing power apparatus for generation of water flow of same impeller propelled formula on the driving shaft at impeller (48) and Washing dewatering tub (11), impeller (48) all is contained on the impeller/dehydrating shaft (40A) of clutch (34) with Washing dewatering tub (11), impeller (48) is positioned at the top of the bottom inside of the below of Washing dewatering tub (11) and steel ladle (9), the impeller axle (51) of clutch (34) is contained in the middle of the endoporus of impeller/dehydrating shaft (40A), impeller (16) is contained on the impeller axle (51), impeller (16) is near the bottom inside of Washing dewatering tub (11), impeller cap (14) is contained in the middle impeller hold-down screw installing hole of impeller (16) and with the impeller hold-down screw installing hole in the middle of the impeller (16) and covers, all be shaped on penetrating aperture on impeller (16) and the impeller cap (14), ring flange (18) upward and on the bottom bucket wall of Washing dewatering tub (11) all is shaped on penetrating pod apertures, the bottom outside of Washing dewatering tub (11) is equipped with kuppe (17), the top of kuppe (17) is penetrating, kuppe (17) and Washing dewatering tub (11) fuse, and the sidewall of kuppe (17) is with impeller 48) be trapped among in the middle of but do not contact with impeller (48).

5. double dynamical compound water-flow washing machine according to claim 2, it is characterized by: in the second washing power apparatus for generation of water flow of pressure injection formula, the impeller axle (51) of clutch and gear shaft (101) are hollow, impeller axle (51) is contained in the middle of the endoporus of dehydrating shaft (41), Washing dewatering tub (11) is contained on the dehydrating shaft (41), impeller (16) is contained on the impeller axle (51), impeller (16) is near the bottom inside of Washing dewatering tub (11), sparge pipe (117) passes the endoporus of impeller axle (51) and gear shaft (101), the one end reaches in the middle impeller hold-down nut installing hole of impeller (16), the other end is exposed at the outside of clutch pulley (33), fountain head (118) is stuck in sparge pipe (117) and is arranged on the end of impeller hold-down nut installing hole, fountain head (118) covers the impeller hold-down nut installing hole in the middle of the impeller (16), fountain head is shaped on some hole for water sprayings on (118), sparge pipe (117) is exposed at the end of outside of clutch pulley (33) and an end of water pump outlet fitting (98) joins, the other end of water pump outlet fitting (98) is connected on the water discharge outlet of water pump (96), one end of water pump water inlet tube connector (121) is connected with the water inlet of water pump (96), and the intake other end of tube connector (121) of water pump is connected on the pump water inlet joint bottom the steel ladle (9) and with steel ladle (9) inside and communicates.

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