JPH0137590Y2 - - Google Patents

Description

[Detailed description of the invention] This invention is a dehydrating washing machine equipped with rotary blades attached to a blade shaft at the bottom of the washing and dehydrating tank.
A reduction gearbox is used to slow down the rotation of the driving shaft, and the gearbox is installed at the bottom of the dehydration tank to reduce gear noise and prevent water from the dehydration tank from entering the gearbox. .

This will be explained below based on the figures. A mounting base 3 with an oblong cross section is attached to the bottom of the outer tank 2 in which the washing/dehydration tank 1 is installed using screws 4, and hanging rods are attached to both ends of the mounting base 3 that protrude from the outer tank 2. Hemispherical seats 6, 6 of 5 are integrally formed. A similar catch (not shown) is also integrally molded at the lower side wall of the outer tank 2 in a direction perpendicular to the line connecting the catches 6, 6, and between these seats and the lower end of the hanging rod 5. hemisphere 8
The outer tank 2 is connected to the hanging rod 5 by means of a compression spring 9 and a compression spring 9.
It is suspended from the machine frame (not shown) for vibration isolation. Flange portions 10, 10 are bent at both ends of the mounting base 3 in the non-longitudinal direction, and an upper bearing that pivotally supports the cylindrical shaft 11 for driving the dehydration tank 1 is provided at the center of the mounting base 3. Twelve cases 13 are integrally molded. A case 15 of the lower bearing 14 of the cylindrical shaft 11 is attached to the flanges 10, 10. Further, a solenoid (not shown) for opening and closing the motor 17, the drain valve 19, and the drain valve 19 via a connecting rod 21 is attached to the flange portions 10, 10, respectively.

A driving shaft 20 is inserted and supported in the cylindrical shaft 11, and a pulley 26 is fixed to the lower end of the shaft 20.
This pulley 26 and a pulley 28 fixed to a motor shaft 27 are connected by a belt 29.
Reference numeral 30 denotes a clutch device that controls whether or not the rotation of the driving shaft 20 is transmitted to the cylinder shaft 11. This is a conventionally known clutch device consisting of a clutch spring, etc. When the clutch is engaged, the cylinder shaft 11 is rotated at the same speed as the driving shaft 20. It is something that makes you 31 is a water seal member.

A brake drum 32 is fixed to the cylindrical shaft 11, and a brake band 34 with a brake lining attached inside is pressed to the outer periphery of the drum 32 by its own elasticity.
A brake lever 36 is engaged with and disengaged from the bent piece at one end of 4 to apply or release the brake on the cylinder shaft 11. The levers that operate the brake lever 36 and the clutch 30 are operated by the solenoid (not shown) that operates the drain valve 19, and their relationship is well known in the art.

A bottom substrate 40 is fixed to the bottom of the dehydration tank 1 with screws 41, and this substrate 40 is fixed to the cylindrical shaft 11. To explain this fixing, the base plate 40 is provided with an insertion hole 42 through which the upper part 11' of the cylinder shaft 11 is inserted, and one half of the circumferential surface of the insertion hole 42 rises up to extend around the outer circumference of the upper part 11' of the cylinder shaft. The surface is an arcuate surface 44 that coincides with one half side 43. On the other hand, the other half of the insertion hole 42 of the dehydration tank board serves as a storage recess 46 for a fixture 45, which will be described later.
As is clear from FIGS. 2 and 3, 6 has inclined surfaces 48, 48 which are inclined outward as they move upward.
is formed. A screw hole 49 is screwed into the raised part of the bottom of the recess 46. 4
A fixture 5 has inclined surfaces 50, 50 that match the inclined surfaces 48, 48. A screw through hole 52 is provided through which a screw 51 that is screwed into the screw hole 49 passes. There is play between the through hole 52 and the screw 51 so that the fixture 45 can move. Therefore, when the fixture 45 is set in the recess 46, the screw 51 is passed from above into the screw through hole 52, and this screw is screwed into the screw hole 49, the inclined surfaces 50, 50 of the fixture 45 and the recess are inserted. 46 inclined surfaces 48, 48
slides, and the fixture 45 moves toward the insertion hole 42 side. The insertion hole 42 side of the fixture 45 is connected to the other half 4 of the outer peripheral surface of the cylinder shaft upper part 11' when the fixture moves.
3' is an arcuate surface 53 that coincides with the curve. By screwing in the screw 51, the upper part 11' of the cylindrical shaft is tightly held by the arcuate surface 53 and the arcuate surface 44, and is fixed to the substrate 40. At this time, the fixture 45 and the substrate 40 are in contact with each other only at the respective inclined surfaces 50 and 48.

A rotary blade 55 is disposed at the center of the bottom of the dehydration tank 1. The rotary blade 55 has a triangular prism-shaped protrusion in the center and is high in height, and blades 56 are protruded from each vertex of the triangular prism. The rotor blade 55 has a blade shaft 57
It is fixed with screws 58. The blade shaft 57 and the driving shaft 20 are connected through a reduction gear box 59, and the rotation of the driving shaft 20 is reduced in speed and transmitted to the driven shaft, that is, the blade shaft 57.

The reduction gearbox 59 consists of a gear case 60 and a case cap 61. 62 is gear case 6
0 and the case cap 61.
As is clear from FIG. 5, the upper part of the drive shaft 20 has a through hole 63 formed in the center of the case cap 61
It is inserted into the gear box 59 through the metal 64, and its upper end is inserted into a corrugated through hole 66 provided in the center of the sun gear 65, and four planetary gears 67 are meshed with this sun gear 65. . End plates 68 and 69 are fitted to the upper and lower ends of each planetary gear 67, a shaft 70 is inserted through the center of these end plates 68 and 69, and the upper and lower ends of this shaft 70 are fitted into bearing recesses of carriers 71 and 72. It is fitted. The outside of each planetary gear 67 is
A fixed gear 74 formed on the inner surface of the outer ring 73
mesh with. The outer ring 73 is fitted onto the inner surface of the gear case 60. The outer ring 73 is provided with a plurality of arcuate recesses 75 in the circumferential direction. Inside the case cap 61, with the cap 61 fixed to the gear case 60, a lower end of the outer circumferential ring 73 is provided to restrict movement of the outer circumferential ring 73 in the thrust direction, and a lower end of the inner surface of the gear case 60. An annular protrusion 76 that fits into the edge of the opening is integrally provided, and a plurality of protrusions 77 that fit into the recess 75 and prevent the outer ring 73 from rotating are provided. In this manner, the outer ring 73 is fixed so as not to move within the case 60 simply by attaching the case cap 61 to the gear case 60. 78
is an o-ring.

The lower end of the wing shaft 57 is inserted into a wavy transparent tag 79 provided at the center of the upper carrier 71. The wing shaft 57 is pivotally supported within a support tube 80 that projects integrally from the gear case 60 by metal members 81, 81. 82 is felt, and 83 is an oil seal.

The reduction gear box 59 is placed on a boss portion 84 that projects integrally from the dehydration tank bottom substrate 40 and is fixed with screws 85. An annular groove is formed around the through hole 63 on the lower surface of the case cap 61, and an annular packing 87 is fitted into the groove 86 to fix the gear box 59 on the boss portion 84. The upper end of the cylinder shaft upper part 11' is pressed against this packing 87, and the gearbox 59
It is sealed with water to prevent the liquid in the dehydration tank 1 from entering inside. The lower end of the central through hole 63 of the fork case cap 61 contacts the upper end of an oil seal 88 provided to seal the space between the cylinder shaft upper part 11' and the driving shaft 20, and prevents the oil seal 88 from lifting up. In the event that water intrudes from the water seal between the gasket 87 and the upper end of the cylinder shaft 11', the contact between the lower end of the through hole 63 and the oil seal 88 acts as a water seal, preventing water from entering the gearbox 59. prevents infiltration. 89 is a metal that supports the driving shaft 20.

In such a structure, during washing, the clutch 30 is disengaged and power is not transmitted to the cylinder shaft 11, and the brake is applied so that the cylinder shaft 11 is stopped, and only the driving shaft 20 rotates. Then, the sun gear 65 rotates, causing the planet gear 67 to rotate, and since the planet gear 67 meshes with the fixed gear 74, it rotates along the fixed gear 74. In other words, the planetary gear 67 revolves around the sun gear 65 at a low speed while rotating, and the rotation of this revolution is transmitted to the upper and lower carriers 71 and 72 via the shaft 70, and the blade shaft 57 is decelerated and rotated. The blades 55 rotate at low speed. During dewatering, the clutch 30 is engaged and the brake is released, so the cylinder shaft 11 rotates at the same speed as the driving shaft 20, and the gearbox 59 also rotates at the same speed as the driving shaft 20, so each gear 6 in the gearbox 59 rotates at the same speed as the driving shaft 20.
5, 67, and 74 are meshed with each other and do not rotate, but are integrated, and as a result, the blade shaft 57 rotates at the same speed as the driving shaft 20 and cylinder shaft 11 without being decelerated, and the rotor 55 rotates in the dehydration tank 1. It rotates as one.

According to the present invention, since the reduction gearbox 59 that decelerates the blade shaft 57 is installed in the dehydration tank 1, the sound of the gears meshing is absorbed by the water in the dehydration tank and becomes small, allowing quiet operation. becomes. Even though the gearbox is submerged in water, the annular gasket 87 attached to the bottom of the gearbox is pressed against the upper end of the cylindrical shaft 11 for driving the dehydration tank, sealing this area to prevent water from entering the gearbox. Therefore, even if the water seal in this part becomes incomplete, the lower end of the through hole 63 on the bottom of the gearbox should be connected to the cylindrical shaft 11.
The upper end of the oil seal 88 that seals water between the drive shaft 20 and the drive shaft 20 is brought into contact with the upper end of the oil seal 88, and this part is also water-sealed to form a double water-seal structure, reliably preventing water from entering the gearbox. It is possible. Furthermore, various effects can be achieved, such as being able to prevent the oil seal 88 that seals the space between the cylindrical shaft and the driving shaft from lifting up by using the lower end of the through hole 63 on the bottom surface of the gearbox.

[Brief explanation of the drawing]

The drawings show the present invention; Fig. 1 is a schematic longitudinal sectional view of the lower part of the dehydrating washing machine, Fig. 2 is an enlarged longitudinal sectional view of the same main part, and Fig. 3 is the center of the bottom board of the dehydrating tank with the gear box removed. FIG. 4 is a perspective view of the fixture, FIG. 5 is a longitudinal cross-sectional view of the inside of the gearbox, FIG. 6 is a half-sectional view of the assembly of the same parts, FIG. 7 is a view taken in the direction of arrow A in FIG. FIG. 8 is a plan view of the case cap, and FIG. 9 is a sectional view taken along the line 0-A ₁ -A ₂ - in FIG. 1...Washing and dehydration tank, 57...Wing shaft, 55...
Rotating blade, 11...Cylinder shaft, 20...Driving shaft, 59...
... Reduction gear box, 87 ... Annular packing, 6
3...Through hole, 88...Oil seal.

Claims (1)

[Scope of utility model registration request] In a dehydrating washing machine having rotary blades attached to a blade shaft at the bottom of a washing and dehydrating tank, a driving shaft is pivotally supported in a driving cylinder shaft of the dehydrating tank, and the rotation of the driving shaft is decelerated. A reduction gearbox for transmitting transmission to the blade shaft is installed at the bottom of the dehydration tank, an annular packing is attached to the bottom of the reduction gearbox that presses against the upper end of the cylindrical shaft, and an annular packing for inserting the drive shaft provided on the bottom of the gearbox is attached to the bottom of the reduction gearbox. A driving device for a dehydrating washing machine, in which a lower end of a through hole is brought into contact with an upper end of an oil seal that seals water between the driving shaft and the cylindrical shaft.