DE9016823U1 - Circulation device for the water supply of a cleaning device - Google Patents

Description

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The present invention relates to a circulation device for the water supply of a cleaning device.

Conventional water purification devices use a pump to apply high pressure to the water, so that about 70 % of the water is discharged as waste water. In addition, the reverse osmosis membrane is frequently closed and opened, which makes it prone to damage.

It is therefore an object of the present invention to provide an improved circulation device for the water supply of a cleaning device, which can mitigate and eliminate the above-mentioned disadvantages.

The basic object of the present invention is to provide a circulation device for the water supply of a cleaning device that avoids waste water.

Furthermore, it is an object of the present invention to provide a circulation device for the water supply of a cleaning device, which protects the reverse osmosis membrane from destruction.

These objects are achieved by a circulation device for the water supply of a cleaning device according to the characterizing features of claim 1.

The attached drawings show:

Figure 1: an illustration of the present invention;

Figures 2A and 2B: further embodiments and

Figure 3: a representation according to the state of the art.

As shown in Figure 1, the circulation device according to the invention mainly comprises a control valve 1, filter

21, 22, 23 and 24, a pump 3, a tube 4 of the reverse osmosis membrane, a flow restriction 51, 52 and 53, lines 60,

61, 62, 63, 64, 65, 66, 67, 68 and 69 and a water tank 7. The control valve 1 is connected on one side to the water source 100 and on the other side via the line 61 to the first filter 21. At the inlet of the first filter 21 there is a check valve 8. The filter 21 is connected to the second filter 22 via the line 62 for further filtration of the water. This filter 22 is connected to the pump 3 via the line 63 so that the water pressure can be increased. The pump 3 is connected to the filter 23 via the line 64. At the same time, the line 64 is connected to the line 62 via the line 65. The line 65 is provided with a flow restriction 51 so that a portion of the water can flow with increased pressure through the line 65 and through the flow restriction 51 back to the line 62. When the pressure is reduced, the water flows back to the line

62, again through the second filter 22, so that the compressed water, which has not yet flowed through the filter 23, in which a filtration material made of activated carbon is located, is relaxed.

When the compressed water flows through the filter 23, it flows further through the line 66 into the pipe 4 of the reverse osmosis membrane. The water pressure opens the reverse osmosis membrane for osmotic filtration. The purified water then flows through the line 69 into the container 7 for storage or through the filter 24 via the line 60 to the faucet 9 and can be used. The water flowing through the pipe 4 of the reverse osmosis membrane that has not yet been filtered is discharged through the line 67. In the line 67 there are two spatially separated flow restrictions 52 and 53. Most of the waste water will therefore, after having flowed through the flow restriction 52 to reduce the pressure, flow back to the line 63 via the line 68 and be reused. Only a small part of the waste water will flow through the flow restriction 53 to reduce the pressure and then be discharged.

given.

It is also possible to install a solenoid valve 10 upstream of the flow restriction 53, so that this solenoid valve 10 prevents the discharge of water through the line 67 when the tube 4 of the reverse osmosis membrane no longer functions.

The water flowing through the reverse osmosis membrane tube 4 can actually still be used because opening the reverse osmosis membrane requires high water pressure in the tube 4 and a lot of water flows out of the reverse osmosis membrane tube 4 without being filtered. This water is purer than the water from the original source because it has already been filtered three times. It is therefore a pity to drain this water.

The device according to the invention uses a line 68 to connect the drain line 67 to the line 63 between the pump 3 and the second filter 22 so that the water can be reused and only a small amount of water is discharged. To stabilize the flow of water compressed by the pump 3, the line 65 is connected to the flow restriction 51 which is connected to the line 64 between the pump 3 and the third filter 23 so that the water, after the pressure reduction, is led to the line 62 between the two filters 21 and 22. At the same time, a check valve 8 is provided at the inlet of the first filter 21 so that when the water tank 7 is full and the faucet 9 is closed and not in use, the water in this line does not flow back and the reverse osmosis membrane in the pipe

4 is not closed due to the loss of water. Consequently, the device according to the invention provides very good water circulation and protects the reverse osmosis membrane from destruction.

Claims (7)

i .&iacgr; * ·> &igr;* 7 -e > a Circulation device for the water supply of a cleaning device Protection claims 1. Circulation device for the water supply of a purification device, which mainly comprises a control valve, a check valve, four filters, a pump, a tube of the reverse osmosis membrane, a water tank and a faucet, which are connected to one another by lines, characterized in that a check valve (8) is attached to the inlet of the first filter (21) and a first line (63) is provided as a circulation line for connecting the line (64) between the pump (3) and the third filter (23) to the line (62) between the first (21) and second filter (22), a second line (65) is provided as a circulation line for connecting the line (64) between the pump (3) and the third filter (23) and the line (62) between the first (21) and second filter (22) and a third line (68) is provided as a return and connection of the line (67) from the outlet of the tube (4) of the reverse osmosis membrane between the two flow restrictions (52, 53) with the line (63) between the second filter (22) and the pump (3). 2. Circulation device according to claim 1, characterized in that the line (64) between the pump (3) and the third filter (23) is connected by the line (65) to the line (63) between the second filter (22) and the pump (3). 3. Circulation device according to claim 1, characterized in that the line (64) between ~3 ·�Ogr;&Igr;>β β*· ^a ° β β # β < i i C J U β # C the pump (3) and the third filter (23) is connected through the line (65) to the line (61) between the control valve (1) and the first filter (21).