CN104711815A

CN104711815A - Hydraulic device of electricity-saving washing machine or washing machine not consuming electricity

Info

Publication number: CN104711815A
Application number: CN201510105403.7A
Authority: CN
Inventors: 覃黎
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-03-11
Filing date: 2015-03-11
Publication date: 2015-06-17

Abstract

The invention relates to a hydraulic device of an electricity-saving washing machine or a washing machine not consuming electricity. Two cavities of a hydraulic actuating cylinder of an original hydraulic device both need to act to drive a piston to move up and down. A reset spring is additionally installed in an existing hydraulic actuating cylinder, then, water enter only one cavity for acting, energy is stored for the reset spring while the piston is driven to move downwards, and the piston is driven to move upwards by depending on the reset spring.

Description

A kind of hydraulic means of power conservation type and not electricity consumption type washing machine

Art

The invention belongs to washing machine field.

Background technology

(applications/patents number: 201210038629.6) form hydraulic means by hydraulic actuator and two-way valve and drive, the water of discharge flows in water storage tank for subsequent use, as slurry for power conservation type and not electricity consumption type washing machine.The present invention simplifies this hydraulic means, reduce further cost.

Summary of the invention

Originally two chambers of the hydraulic actuator of hydraulic means all will be intake acting, and driven plunger moves up and down.Now in hydraulic actuator, install back-moving spring additional.So only need a chamber water inlet acting, to back-moving spring energy storage while driven plunger is descending, up by back-moving spring driven plunger.

There are 4 sub-valves and 4 entery and delivery ports in two-way valve inside originally, and new control valve is reduced to 2 sub-valves and 3 entery and delivery ports; Hydraulic actuator originally has 2 to have inlet/outlet, only has now 1 inlet/outlet.

Accompanying drawing explanation

Fig. 1 is that back-moving spring adopts helical spring, and hydraulic pressure chamber and back-moving spring subtend are arranged, compressed energy-storage;

Fig. 2 is that back-moving spring adopts helical spring, and hydraulic pressure chamber and back-moving spring are arranged in the same way, stretching energy storage;

Fig. 3 is that back-moving spring adopts wind spring, and hydraulic pressure chamber and back-moving spring are arranged in the same way, stretching energy storage;

Control valve water inlet (1), sub-valve A (2), hydraulic actuator side delivery port (3), sub-valve B (4), water storage tank side delivery port (5), tube connector (6), hydraulic cylinder intake-outlet (7), hydraulic cylinder (8), piston (9), helical spring (10), wind spring (11).

Detailed description of the invention

Hydraulic actuator upper chamber is hydraulic cylinder (8); Hydraulic cylinder and back-moving spring are arranged in the same way or subtend is arranged; Back-moving spring adopts helical spring (10) or wind spring (11).

Fig. 1 scheme be group valve A (2) and sub-valve B (4) when closing simultaneously whole device be in halted state; When group valve A (2) and sub-valve B (4) opens simultaneously, water flows into from control valve water inlet (1), flows out to water storage tank from water storage tank side delivery port (5); When group valve A (2) opens, sub-valve B (4) closes, water flows into from control valve water inlet (1), through hydraulic actuator side delivery port (3), that tube connector (6), hydraulic cylinder intake-outlet (7) flow into hydraulic cylinder (8) driven plunger is descending, and simultaneously helical spring (10) is by compressed energy-storage; When group valve A (2) closes, sub-valve B (4) opens, hydraulic cylinder (8) interior distress resolves, helical spring (10) driven plunger is up, the inner water of hydraulic cylinder (8) is extruded, and flows out to water storage tank from hydraulic cylinder intake-outlet (7), tube connector (6), hydraulic actuator side delivery port (3), sub-valve B (4), water storage tank side delivery port (5);

Fig. 2 scheme be group valve A (2) and sub-valve B (4) when closing simultaneously whole device be in halted state; When group valve A (2) and sub-valve B (4) opens simultaneously, water flows into from control valve water inlet (1), flows out to water storage tank from water storage tank side delivery port (5); When group valve A (2) opens, sub-valve B (4) closes, water flows into from control valve water inlet (1), through hydraulic actuator side delivery port (3), that tube connector (6), hydraulic cylinder intake-outlet (7) flow into hydraulic cylinder (8) driven plunger is descending, and simultaneously helical spring (10) is stretched energy storage; When group valve A (2) closes, sub-valve B (4) opens, hydraulic cylinder (8) interior distress resolves, helical spring (10) driven plunger is up, the inner water of hydraulic cylinder (8) is extruded, and flows out to water storage tank from hydraulic cylinder intake-outlet (7), tube connector (6), hydraulic actuator side delivery port (3), sub-valve B (4), water storage tank side delivery port (5);

Fig. 3 scheme be group valve A (2) and sub-valve B (4) when closing simultaneously whole device be in halted state; When group valve A (2) and sub-valve B (4) opens simultaneously, water flows into from control valve water inlet (1), flows out to water storage tank from water storage tank side delivery port (5); When group valve A (2) opens, sub-valve B (4) closes, water flows into from control valve water inlet (1), through hydraulic actuator side delivery port (3), that tube connector (6), hydraulic cylinder intake-outlet (7) flow into hydraulic cylinder (8) driven plunger is descending, and simultaneously wind spring (11) is stretched energy storage; When group valve A (2) closes, sub-valve B (4) opens, hydraulic cylinder (8) interior distress resolves, wind spring (11) driven plunger is up, the inner water of hydraulic cylinder (8) is extruded, and flows out to water storage tank from hydraulic cylinder intake-outlet (7), tube connector (6), hydraulic actuator side delivery port (3), sub-valve B (4), water storage tank side delivery port (5).

Claims

1. the feature of a kind of hydraulic means of power conservation type and not electricity consumption type washing machine is:

1, have control valve water inlet (1), sub-valve A (2), hydraulic actuator side delivery port (3), sub-valve B (4), water storage tank side delivery port (5) in control valve, hydraulic actuator has hydraulic cylinder (8) and back-moving spring;

2, the feature of a kind of hydraulic means of power conservation type and not electricity consumption type washing machine is that in hydraulic actuator, back-moving spring and hydraulic cylinder (8) are arranged in the same way, and back-moving spring adopts helical spring (11);

3, the feature of a kind of hydraulic means of power conservation type and not electricity consumption type washing machine is that in hydraulic actuator, back-moving spring and hydraulic cylinder (8) subtend are arranged, and back-moving spring adopts helical spring (11);

4, the feature of a kind of hydraulic means of power conservation type and not electricity consumption type washing machine is that in hydraulic actuator, back-moving spring and hydraulic cylinder (8) are arranged in the same way, and back-moving spring adopts wind spring (12).