KR100482789B1 - Water purifier having dual prevention structure for general water - Google Patents

Abstract

The present invention is a sedimentation filter, a pretreatment neosensor filter, a membrane filter, and a post-treatment carbon filter are sequentially connected to each other to purify raw water, and concentrated water pipes through which wastewater filtered inside the membrane filter is discharged to one side of the membrane filter. The water purifier provided with a water supply control valve for controlling the supply of purified water between the pre-treated neosensor filter and the membrane filter; And a water intake control valve on the outlet side of the post-treatment carbon filter, the water supply control valve and the water intake control valve are automatically closed while the water purifier is stopped. At the same time, the extraction of the final purified water from the post-treatment carbon filter is stopped to remove the pressure by the raw water in the water purifier, and the concentrated water pipe is extended out to the upper side of the membrane filter to extend the concentrated water pipe. Water purifier that improves safety and reliability of the product by using the potential energy of water between the top of the membrane filter and the membrane filter to prevent the purified water from flowing out along the concentrated water pipe when the water purifier is stopped. To provide.

Description

Water purifier having dual prevention structure for general water}

The present invention relates to a water purifier, and in particular, by blocking the front and rear ends of the product at the time of blocking the raw water in the state of the operation of the water purifier to remove the pressure of the water injected into the water purifier, so that the purified water immediately flows out to the discharge port during the reconditioning A water purifier having a double raw water blocking structure.

In general, water purifiers, in particular reverse osmosis water purifiers are devices designed to provide clean water to users by purifying tap water or ground water by a reverse osmosis method. In addition, in the case of the direct type reverse osmosis water purifier shown in FIG. 1 as an example of the conventional reverse osmosis water purifier, raw water conveyed from the water source is immediately filtered without having a separate storage tank to enable intake of the final purified water.

Looking at the configuration of the conventional reverse osmosis water purifier having a general structure as shown in Figure 1, the precipitation filter (4), the pump (5), the pretreatment carbon filter (6), the membrane filter (7) and the post-treatment carbon filter (8) ) Has a structure arranged sequentially, and are connected to the water supply pipe (3) between them. The water supply pipe 3 is provided with a water supply valve 2 for controlling the inflow of raw water supplied from the raw water pipe 1 at the inlet side, and discharges purified water for intake through various filters at the outlet side. A water intake valve 9 is provided for this purpose.

The sedimentation filter 4 receives raw water such as tap water and groundwater to remove particulate matter. The pretreatment carbon filter 6 adsorbs chlorine and oxides from the raw water passing through the sedimentation filter 4. Perform the function of removing. The membrane filter 7 flows in purified water passing through the pretreated carbon filter 6 and removes heavy metals and ionic substances from the purified water, and the treated carbon filter 8 removes the membrane filter 7. It receives the purified water and serves to adsorb and remove the gaseous substance dissolved in the purified water. In addition, the pump 5 is located between the precipitating filter 4 and the pretreatment carbon filter 6 to increase the water pressure of the purified water passing through the precipitating filter 4 to transport the water to the pretreatment carbon filter 6. The water supply pipe 3 between the membrane filter 7 and the post-treatment carbon filter 8 is provided with a non-return valve 10 for preventing the reverse flow of purified water.

In addition, the membrane filter 7 is withdrawn from the water supply pipe (3) separate from the concentrated water pipe (11), through the concentrated water pipe (11) heavy metals and ions filtered by the membrane filter (7) The concentrated water (wastewater) containing the acidic substance will be discharged.

In the conventional reverse osmosis water purifier having such a configuration, the raw water introduced from the raw water pipe 1 through the water supply pipe 3 is precipitated filter 4, pre-treated carbon filter 6, membrane filter 7 and post-treated carbon. The water is passed through the filter 8 in order to be purified and finally discharged through the water intake valve 10. In addition, the concentrated water generated in the membrane filter 7 is disposed to be discharged to the outside through the concentrated water pipe (11). On the other hand, the concentrated water pipe 11 is provided with a flow control valve (concentrated water control valve; 12) to control the discharge of the concentrated water.

However, in the conventional water purifier of FIG. 1, the water is unnecessarily discharged through the concentrated water pipe by the pressure formed inside the water purifier and the water pressure of the purified water injected into the water purifier during the water purification operation after the water purification operation is finished. Since the water pressure drops inside the membrane filter and water flows down when the water is reflowed, normal water flows only when the water flows out again. Therefore, a delay time occurs when the water purifier is restarted. there was. In addition, the flow rate control valve 12 is installed in the concentrated water pipe 11 to solve the problem of delay time, but there was no particular effect.

2 is a view illustrating another example of a conventional direct type reverse osmosis water purifier, and an on / off valve 13 is provided at one side of the concentrated water pipe 11 ′ to solve the problem of leaking purified water and wastewater from the water purifier of FIG. 1. Is additionally installed. The on-off valve 13 may be installed on either side of the front and rear of the flow control valve 12, it is shown in Figure 2 positioned between the membrane filter 7 and the flow control valve (12). .

In addition, in the conventional water purifier of FIG. 2, a dual pump 5 ′ having a double pump structure is provided between the pretreatment carbon filter 6 and the membrane filter 7 instead of the pump 5 of FIG. 1. The water supply pipe 3 withdrawn from the pretreatment carbon filter 6 is connected to the membrane filter 7 through one side of the 5 '), and the membrane filter 7 through the other side of the dual pump 5'. The branch pipe 14 branched on one side of the concentrated water pipe 11 ′ is fed back to the membrane filter 7 so that a portion of the wastewater filtered from) can be fed back to the membrane filter 7 and filtered again. It is drawn in.

In FIG. 2, reference numeral "15" denotes water temperature adjusting means, and reference numeral "16" denotes water shortage detecting means.

On the other hand, in the conventional direct reverse osmosis water purifier, the flow rate ratio (%) of purified water and wastewater can be increased up to 80:20 by using the flow control valve 12, which can produce a larger amount of purified water than the previous water purification method. It represents.

The conventional water purifier of FIG. 2 configured as described above allows the on / off valve 13 to be closed at the same time as the water purifying operation is completed or after a certain time has passed, so that the water flow through the concentrated water pipe 11 'is further stopped when the water purifier is stopped. No longer occurs.

However, in the water purifier, the water inside the membrane filter may be prevented from leaking to the outside due to the closing of the on / off valve installed in the concentrated water pipe. However, since the raw water pressure of tap water is intact inside the water purifier when the on / off valve is closed. Some parts or pipe connection to break the weak point, and eventually there was a problem that water is leaked again through the broken portion.

The present invention has been made to solve the above problems, stop the operation of the water purifier to block the water supply and intake to protect the inside of the product from the raw water pressure and to form a constant drop between the membrane filter and the concentrated water pipe according to It is an object of the present invention to provide a water purifier having a double raw water blocking structure that prevents water that has already been introduced into the water purifier outflowing by using potential energy.

In order to achieve the above object, the present invention is a sedimentation filter, a pretreatment neosensor filter, a membrane filter, and a post-treatment carbon filter are sequentially connected to each other to purify raw water, and inside the membrane filter on one side of the membrane filter. A water purifier having a concentrated water pipe through which filtered wastewater is discharged, the water purifier comprising: a water supply control valve controlling a supply of purified water between the pretreatment neosensor filter and the membrane filter; And a water intake control valve on the outlet side of the post-treatment carbon filter, the water supply control valve and the water intake control valve are automatically closed while the water purifier is stopped. At the same time, the extraction of the final purified water from the post-treatment carbon filter is stopped to remove the pressure by the raw water in the water purifier, and the concentrated water pipe is extended out to the upper side of the membrane filter to extend the concentrated water pipe. Water purifier with a double raw water cut-off structure, characterized in that by using the potential energy of the constant water between the top of the membrane filter and the membrane filter to prevent the purified water from flowing out along the concentrated water pipe when the water purifier is stopped to provide.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the water purifier according to the present invention.

Here, the same reference numerals are given to the same components as the prior art, and the new reference numerals are given to the new components, and detailed descriptions of the same components will be omitted.

FIG. 3 shows a schematic configuration of a water purifier according to the present invention, and as shown, a water supply control valve 17 for controlling the supply of purified water between the pretreatment neosense filter 6 and the membrane filter 7. Install it. Further, a water intake control valve 18 for controlling the discharge of the water intake is provided on the ejection side of the aftertreatment carbon filter 8. The water supply control valve 17 and the water intake control valve 18 are opened when the water purifier is in operation and are automatically closed when the water purifier is in operation, thereby controlling the water pressure inside the water purifier, preferably inside the membrane filter 7. .

In addition, the water purifier of the present invention is configured such that the water supply pipe (3 ') connecting the pretreatment neosense filter (6) and the membrane filter (7) is drawn into the lower part of the membrane filter (7) and withdrawn upwards, and concentrated water The pipe 11 "also extends outward from the membrane filter 7 to form a constant drop h between the top of the concentrated water pipe 11" and the membrane filter 7.

In this configuration, when the water purifier is operated, the raw water supplied by the opening of the water supply control valve 17 is connected to the precipitation filter 4, the pretreatment neosense filter 6, the membrane filter 7, and the aftertreatment carbon filter 8. The water is purified while passing through, and the purified water can be taken out and used by opening the water intake control valve 18. At the same time, the wastewater filtered in the membrane filter 7 is transported by the working pressure of the pump 5 through the concentrated water pipe 11 ″ and discharged to the outside of the water purifier.

On the other hand, in the state where water purification is completed and the operation of the water purifier is stopped, the water supply control valve 17 and the water intake control valve 18 are automatically closed and the water supply to the membrane filter 7 is cut off, and the post-treatment carbon filter Extraction of the final produced purified water from (8) is also stopped. In this state, the operation of the pump 5 is stopped so that the pressure rise inside the membrane filter 7 no longer occurs. In addition, the concentrated water pipe (11 ") is drawn upwards of the membrane filter (7) to form a predetermined drop (h), the membrane filter (7) in the state that the water pressure no longer increases inside the membrane filter (7) ( 7) Since the water filled inside does not have energy enough to overcome the drop (h), it is possible to prevent the outflow of water through the concentrated water pipe (11 ").

As described above, the present invention prevents further supply of raw water in the state in which the water purifier is stopped, thereby preventing a pressure increase in the membrane filter, and using a drop between the concentrated water pipe and the membrane filter, Without increasing the pressure of the water supply through the concentrated water pipes to prevent the leakage of water inside the membrane filter by providing a water purifier with a double leak-proof structure it is possible to eliminate the delay time by allowing the purified water is discharged immediately toward the discharge port.

As described above, the present invention by using the water supply control valve and the water intake control valve in the state in which the operation of the water purifier is doubled to cut off the raw water in the water purifier to ensure the safety of use and cut off the raw water pressure inside the product The product can be protected from the impact of water pressure, and reliability is improved. When the water is re-purified through the valve by using the potential energy of water between the membrane filter and the concentrated water pipe, the purified water can be immediately discharged to the outside.

1 is a schematic diagram showing an example of a water purifier according to the prior art;

2 is a schematic view showing another example of a water purifier according to the prior art;

Figure 3 is a schematic diagram showing a water purifier with a double raw water blocking structure of the present invention

* Description of the symbols for the main parts of the drawings *

3: water supply pipe 4: sedimentation filter

5: pump 6: pre-treated neosense filter

7: membrane filter 8: post-treatment carbon filter

11 ": concentrated water piping 12: flow control valve

17: water supply control valve 18: intake control valve

h: drop

Claims (1)

A sedimentation filter, a pretreatment neosensor filter, a membrane filter, and a post-treatment carbon filter are sequentially connected to each other to purify raw water, and one side of the membrane filter is provided with a concentrated water pipe through which wastewater filtered from the membrane filter is discharged. In the water purifier, A water supply control valve controlling a supply of purified water between the pretreatment neosensor filter and the membrane filter; And The take-out side of the post-treatment carbon filter includes a water intake control valve for controlling the discharge of purified water, The water supply control valve and the water intake control valve are automatically closed while the water purifier is stopped, and the water supply to the membrane filter is cut off, and the extraction of the final purified water from the post-treatment carbon filter is stopped. The pressure caused by the raw water is removed, and the concentrated water pipe extends outwardly upward of the membrane filter so that the purified raw water is purified using the potential energy of water between the top of the concentrated water pipe and the membrane filter. Water purifier with a double raw water cut-off structure, characterized in that to prevent leakage along the concentrated water pipe when the operation is stopped.