SU1143392A1 - Washing machine - Google Patents

Abstract

WASHING MACHINE containing a washing tank, a safety valve installed on the water inlet, a float and a permanent magnet to control the relief element of the safety valve, characterized in that, in order to increase the reliability and service life of the machine, it is equipped with an additional constant magnet and overflow chamber mounted on the bottom of the safety valve body and connected to the washing tank, while the cavity of the safety valve body is divided by a horizontal membrane with its locking element has an axial longitudinal channel and is installed in the center of the membrane, with both magnets mounted coaxially to the locking element of the safety valve, respectively, on days (L of its body and on the float placed in the overflow chamber and facing one another with the same poles. - 2 4 00 with about 1C

Description

The invention relates to household appliances, namely, to washing machines, and can be used both in everyday life and in public utilities and public catering, for example, in household and communal dishwashers and washing machines, as well as in other devices protection from overflow machines connected to the water supply. A well-known washing machine containing a float connected to the microswitch built into the washing tank. When the water level exceeds the set point, the microswitch is activated and turns on the drain pump, which removes excess water ij. However, there are no elements in this machine for automatically interrupting the water supply pipe. Therefore, when the washing tank is overfilled before the failure is detected, clean water is drained into the sewer system and water consumption increases, which reduces the economy and reliability of the machine. Closest to the invention in terms of its technical essence and the effect achieved is a washer containing a washing tank, a safety valve installed on the water inlet, a float and a permanent magnet for controlling the shut-off element of the safety valve 2. However, the known device has a low reliability, which is reduced due to the presence of a double hinge connection of the float through a rod with a manometric pressure sensor membrane. In the event of failure of at least one of the hinges, there may be a failure of the machine as a whole. The purpose of the invention is to improve the reliability and service life of the supplied goal by the fact that the washer containing the washing tank, the safety valve installed on the water inlet, the float and the permanent magnet to control the locking element of the safety valve is equipped with an additional constant magnet and an overflow chamber, mounted on the bottom of the body of the safety valve and connected to the tank tank, while the cavity of the body of the safety valve is divided by a horizontal bar Its closure element has an axial longitudinal channel and is installed in the center of the membrane, where both magnets are mounted coaxially to the locking element of the safety valve, respectively, in the bottom of its body and on the float placed in the overflow chamber, and facing one another with the same poles . Fig. 1 shows a washing machine; figure 2 - safety valve with overflow chamber. The washing machine comprises a housing 1, a washing tank 2, a safety valve 3 installed by means of pipes 4 and 5 in series with the water supply valve 6, an overflow chamber 7 fixed to the bottom of the body of the safety valve 3 connected to the washing tank 2 of the machine through pipe 8 9. The cavity of the safety valve body is divided by a horizontal membrane 10 with openings 11 and 12 into the upper 13 and lower 14 cavities. A valve stem element 15 is installed in the center of the membrane with an axial longitudinal channel 16. In the lower cavity of the valve in the central part of its bottom there is a seat 17 in which a permanent magnet 18 is placed. In the cavity of the pressure chamber 7, connected to the atmosphere is a pipe 19, a float 20 The permanent magnet 21 is fixed in the upper part of it. The overflow chamber 7 is connected to the stopper 24 through the nozzle 22 and the pipe 23. The upper normal water level (shown in dotted line in Fig. 1) in the washing tank of the machine is necessary for normal operation. The sprinkler 25 from the circulation pump 26 is supported by a sensor — level 27 relay. Bleed 28 of the pipe 9 is placed in the wash tank 2 of the machine at the upper overflow level (figure 1 is shown by dot-dash). The liquid from the washing tank is removed with a drain pump. Washing machine works as follows. Under normal conditions of operation of the elements of the filling system of the washing tank 2, water through the nozzle 4 enters the upper cavity 13 of the safety valve body 3, then with the locking element 15 in the lower position through the nozzle 3

5 enters the inlet of the valve 6 for supplying water and then to the washing tank 2. In this case, due to the presence of holes 11 and 12 in the membrane 10 and the axial longitudinal channel 16 in the locking element 15, the pressure in the upper

13 and the bottom 14 cavity of the safety valve body 3 is equal to the pressure in the water supply system. The overflow chamber 7 is separated from the cavity of the safety valve body 3 by the bottom of the valve body, it has atmospheric pressure, because due to the pipe 19 it contacts with the environment and through pipe 8 of the pipe 9 with air of the washing tank 2.

In case of failure of the elements of the water supply system to the washing tank 2 that controls the overlapping of the supply pipeline, water reaches the overflow chamber 7 when the upper overflow level reaches 28, through pipe 28, pipe 9, pipe 8 enters the overflow chamber 7, lifts the float 20 with an integrated permanent magnet 21 When the last actuation level is reached, the magnet 18 interacts with the magnet 21; pushed out of the socket 17 and closes the axial longitudinal channel 16 of the locking element 15. After that, the pressure in the lower cavity 14 of the housing of the safety channel 3 becomes more than in the upper cavity 13, since the latter is connected to atmospheric pressure through the water supply valve 2. Then the magnet 18 together with the locking element 15 is moved upward to completely block the flow of water by the locking element. Lower cavity pressure

The 14 valve body of the safety valve 3 will be increased until

33924

pressure equalization will occur due to the openings 11 and 12 in the membrane 10.

The water pressure in the upper 13 and lower 14 cavities of the safety valve body 3 is equal to the pressure in the water supply system, and in the nozzle 5 to the air pressure (atmospheric) in the washing tank 2, since the axial longitudinal channel 16 of the locking element 15 is closed by a magnet 18. Therefore, the stop valve the element 15 reliably closes the entrance to the nozzle 5 and further to the washing tank 2. This prevents further flow of water from the water supply system to the washing tank and, accordingly, prevents the overflow of the washing machine.

After eliminating the fault in the water supply system, it is necessary to open the plug 24, drain the water from the overflow chamber 7 through the pipe 22, pipe 23 and close the plug again. After performing this technological operation, the float 20 with the magnet 21 fixed on it is lowered to the bottom of the overflow chamber 7, the permanent magnet 18 sits in the slot 17, the locking element 15 opens the entrance to the nozzle 5 for supplying water to the washing machine 2.

The invention provides more reliable locking of the safety valve in case of failure of the water supply valve. In addition, the machine achieves a no-joint connection between the float and the shut-off element of the safety valve. All this ensures a higher operational reliability of the machine and its reliable operation in emergency situations.

Claims (1)

A WASHING MACHINE containing a washing tank, a safety valve installed on the water supply pipe, a float and a permanent magnet to control the locking shut-off element of the safety valve, respectively, on the bottom of its body and on the float placed in the overflow chamber, and face each other with the same name the poles. 7, SU ,, p 1143392