KR0127639Y1 - Detector for suspension of water supply for a water purifier - Google Patents

Abstract

The present invention relates to a water level detecting device of a water purifier, in a water purifier provided with a membrane filtration device (23), in order to increase the pressure of water flowing into the membrane filtration device (23) in the previous stage of the membrane filtration device (23). When the water pump 91 and the water pump 91 is provided with a single stage detecting device 89 disposed at a previous stage of the water pump 91 to detect the presence or absence of water flowing in the water pump 91, It is characterized by stopping the operation of the water pump by detecting this, and because it is configured in this way, by preventing damage to the water pump and the membrane filter, it improves the durability of the water purifier.

Description

Water detector of water purifier

1 is a schematic longitudinal cross-sectional view showing a conventional water purifier.

Figure 2 is a schematic longitudinal cross-sectional view showing a water purifier to which the water level detecting device according to an embodiment of the present invention is applied.

FIG. 3 is a diagram showing the principal parts of the stage detecting apparatus of FIG.

Figure 4 is a detailed longitudinal cross-sectional view showing the water level detecting device of the water purifier according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

23: membrane filtration device 85, 87: first, second connection tube

89: water level detection device 91: water pump

93: joint member 95: pressure sensor

97: nut member 99: control line

The present invention relates to a water purification device for a water purifier, and more particularly, a water purifier that improves durability of a water purifier by detecting water when water is cut off from a tap water and stopping water pump operation to prevent damage to the water pump and the membrane filter. It relates to a singular detection device of.

As shown in FIG. 1, a conventional water purifier has a water purification chamber 5 having a water purification tank 3 disposed thereon so as to store filtered water in the upper part of the main body 1, and below the water purification chamber 5, Cold water tank 7 and the hot and cold water tank 11 in which the purified water introduced from the purified water tank 3 is converted into cold water and hot water are stored, and the hot and cold water tank 11 is formed, and below the cold / hot water chamber 11. A filtration chamber 15 in which various filtration devices are disposed to filter tap water introduced from the tap water 13 is formed, and a coolant is formed below the filtration chamber 15 to make the purified water in the cold water tank 7 into cold water. It has a structure in which the machine room 17 in which the various refrigerant | coolant apparatus and blower which form a cycle were arrange | positioned was formed.

In the filtration chamber 15, a precipitation filtration device 19 having a precipitation filter is installed to remove suspended matter and green debris contained in the tap water introduced from the tap water 13, and the precipitation filtration device ( 19) one side is provided with a sun carbon filter to remove the chlorine component and foreign matter (comparative large particles) contained in the water passed through the precipitation filtration device to protect the membrane filter described later as well as various harmful organic chemicals One pretreatment filtration device 21 is provided, and one side of the pretreatment filtration device 21 removes various heavy metals contained in water passing through the pretreatment filtration device 21 as well as carcinogens. Membrane filtration device 23 is provided with one side, the one side of the membrane filtration device 23 to remove the odor and toxic gas components permeated into the water passing through the membrane filtration device (23) A post-treatment filtration device 25 having a post carbon filter is installed, and one side of the post-treatment filtration device 25 is equipped with a UV filter to sterilize water passing through the post-treatment filtration device 25. A sterilization filtration device 27 is provided.

In the machine room 17, a compressor 29 is disposed on the bottom thereof to change the refrigerant gas of low temperature and low pressure into a refrigerant gas of high temperature and high pressure, and one side of the compressor 29 flows in from the compressor 29. A condenser 31 connected to the compressor 29 is disposed by a coolant tube (not shown) so as to change the high temperature and high pressure refrigerant gas into a refrigerant liquid, and one side of the condenser 31 flows into the condenser 31. A fan 33 is provided to blow air around the condenser 31 and the compressor 29 to liquefy the refrigerant and to cool the compressor 29. One side of the fan 33 is the fan 33. A motor 35 that generates power to rotate 33 is connected to the fan 33.

Inside the main body 1, partition members 37, 39, 41 are arranged to form the water purification chamber 5, the cold / hot water chamber 11, the filtration chamber 15, and the mechanical chamber 17, respectively. The air inlet 1a and the air outlet 1b are formed on the left and right sides of the machine chamber 17 formed below the partition member 41 so that air flows into the machine chamber 17 by the fan 33. On the outer bottom of the machine room 17, a plurality of supporting parts 1c are formed to easily install the main body 1.

One end of the purified water inlet pipe 43 connected to the sterilizing filtration device 27 of the filtration chamber 15 is connected to the upper surface of the purified water tank 3 so that the purified water flows into the purified water tank 3. The excessive purified water outlet pipe 47 connected to the main outflow pipe 45 is connected so that an excessive amount of purified water flowing into the purified water tank 3 flows to the outside, and the water purification tank 3 is connected to the bottom surface of the purified water tank 3. (3) the first purified water outlet pipe 49 and the second purified water connected to the cold water tank 7 and the hot water tank 9 so that the purified water flowing into the cold water tank 7 and the hot water tank 9 flows into the cold water tank 7 and the hot water tank 9; One end of the outflow pipe 51 is connected, respectively.

The first water discharge pipe 49 is connected to the upper surface of the cold water tank 7 through the partition member 37 and the main discharge pipe so that the cold water stored in the cold water tank 7 for a long time flows to the outside. One end of the long-term cold water discharge pipe 53 connected to 45 is connected, and inside the cold water tank 7, a coolant flowing therein to make the purified water introduced into the cold water tank 7 into cold water An evaporation tube 55 for evaporating is disposed, and one side of the cold water tank 7 is connected to one side of the cold water tank 7 so that the cold water stored in the cold water tank 7 is received through an intake valve (not shown). The cold water pipe 61 is connected to the lower surface of the cold water tank 7 via a cold water drain valve 59 so as to discharge cold water in the cold water tank 7. Is connected to a drain pipe 63 connected to the main outflow pipe 45. At this time, the long-term cold water outlet pipe 53 is formed high up to the upper portion of the purified water tank 3 so that the purified water tank 3 maintains a constant water level.

The second water purification pipe 51 is connected to the upper surface of the hot water tank 9 by passing through the partition member 37, and at the same time, the main discharge pipe so that hot water stored in the hot water tank 9 for a long time flows to the outside. One end of the long-term hot water outlet pipe 65 connected to 45 is connected, and a heater 67 for heating the purified water introduced into the hot water tank 9 into hot water inside the hot water tank 9. One side of the hot water tank (9) is connected to one end of the hot water intake pipe (69) to receive the hot water stored in the hot water tank (9) through an intake valve (not shown), and the hot water tank ( On the lower surface of 9), a hot water drainage pipe 73 is connected with a hot water drain valve 71 to discharge hot water in the hot water tank 9, and the hot water drainage pipe 73 is connected to the main discharge pipe 45. It is connected to the connected drain pipe 63. At this time, the long-term hot water outlet pipe 65 is formed high up to the upper portion of the purified water tank 3 so that the purified water tank 3 maintains a constant water level.

A water supply pipe 75 connected to the tap water 13 is connected to an upper surface of the precipitation filter device 19 disposed in the filtration chamber 15 so that tap water flows into the precipitation filtration device 19. The lower surface of the filtration device 19 and the upper surface of the pretreatment filter 21, the lower surface of the pretreatment filter 21, the upper surface of the membrane filtration device 23, the lower surface of the membrane filtration device 23 and the after The upper surface of the treatment filtration device 25, the lower surface of the after treatment filtration device 25 and the upper surface of the sterilization filtration device 27 are respectively the first, second, third, and fourth connection pipes 77, 78, and 79. , 80 are connected to each other, and the lower surface of the sterilization filtration device 27 is connected to the purified water inlet pipe 43 connected to the purified water tank 3. In addition, the second connecting pipe 78 is provided with a water pump 81 for increasing the pressure of the water to supply the water flowing out of the pre-treatment filter 21 to the membrane filtration device 23, the membrane One end of the concentrated water outlet pipe 83 is connected to the lower surface of the filtration device 23 so that the concentrated water that has not passed through the membrane filter 23a is allowed to flow out.

The membrane filter 23a has a small hole having a diameter of 0.0001u on its surface, so that water pressure must be high in order to allow water to pass through the membrane filter 23a. Where the water pump 81 for increasing the pressure of the water is installed.

When operating the operation switch (not shown) in the conventional water purifier configured as described above, the water pump 81 operates, and the water supplied from the tap water 13 is supplied to the water supply pipe 75, the precipitation filtration device 19, and the first connection pipe. (77) After being filtered while sequentially passing through the pretreatment filtration device 21, the pressure is increased by the water pump 81 provided in the second connecting pipe 78.

The water whose pressure is increased by the water pump 81 is a membrane filtration device 23, a third connection pipe 79, a post-treatment filtration device 25, a fourth connection pipe 80, and a sterilization filtration device 27. After passing through the filtration and sterilization in sequence, after entering the purified water tank (3) through the purified water inlet pipe 43, the cold water through the first purified water outlet pipe 49 and the second purified water outlet pipe (51). It is stored in the tank 7 and the hot water tank (9).

At the same time, the compressor 29 and the motor 35 operate, and the refrigerant gas of the high temperature and high pressure passing through the compressor 29 changes into the refrigerant liquid while passing through the condenser 31. At this time, the fan 33 receives the power (rotational power) from the motor 35 rotates, and the air introduced into the machine room 17 through the air inlet 1a by the rotation of the fan 33 is the condenser 31. ) And the refrigerant flowing in the condenser 31 while circulating around the compressor 29 to liquefy and the compressor 29 is cooled, and then flows out again through the air outlet 1b.

The high pressure refrigerant liquefied while passing through the condenser 31 flows into a capillary tube (not shown), and then is converted into a low pressure refrigerant liquid by the adiabatic expansion effect of the capillary tube and the cold water tank 7 It flows into the evaporation pipe 55 arrange | positioned in the inside). The refrigerant liquid introduced into the evaporation tube 55 exchanges heat with purified water stored in the cold water tank 7 while evaporating. At this time, the purified water stored in the cold water tank 7 is changed to cold water.

The refrigerant gas vaporized while passing through the evaporation tube 55 flows into the compressor 29 again, and the refrigerant cycle of the refrigerant that is changed into the refrigerant gas of high temperature and high pressure is continued.

In addition, power is applied to the heater 67 disposed in the hot water tank 9 by a power supply means (not shown), and heat generated from the heater 67 is applied to the purified water stored in the hot water tank 9. The purified water stored in the hot water tank 9 is changed to hot water.

Next, when a predetermined amount of purified water is filled in the purified water tank 3 and the cold water and hot water in the cold water tank 7 and the hot water tank 9 reach a predetermined temperature, the detection signals of the water level sensor and the temperature sensor (not shown) are not shown. Accordingly, the water pump 81 and the heater 67 stop the operation and the refrigerant cycle is stopped.

On the other hand, the filtered water is not passed through the membrane filter 23a of the membrane filtration device 23, that is, the concentrated water flows out to the sewer not shown through the concentrated water outlet pipe (83).

And, if you want to receive the cold or hot water stored in the cold water tank (7) and hot water tank (9), open the intake valve (not shown) connected to the end of the cold withdrawal pipe (57) or hot withdrawal pipe (69) Done.

Due to the intake of cold water or hot water stored in the cold water tank 7 and the hot water tank 9, the water level of the purified water tank 3 is lower than a certain level or the cold water temperature in the cold water tank 7 is higher than a constant temperature. Or when the hot water temperature in the hot water tank 9 is lower than a predetermined temperature, the water pump 81 and the heater 67 operate as described above according to the detection signals of the water level sensor and the temperature sensor (not shown), or the refrigerant cycle It is formed, the purified water flows into the purified water tank 3 through the purified water inlet pipe 43, the water level in the purified water tank 3 is increased.

When purified water is replenished in the purified water tank 3, the water in the purified water tank 3, the cold water tank 7 and the hot water tank 9 has been stored for some time, which may harm the user's health. have. Therefore, after a constant level in the purified water tank 3, purified water flows into the purified water tank 3 for a while. The hot water and cold water stored in the hot water tank 9 and the cold water tank 7 by excessively flowing purified water into the purified water tank 3 are respectively passed through the long-term hot water outlet pipe 65 and the long-term cold water outlet pipe 53. The main outflow pipe (45) flows into the sewer. At this time, since the highest height of the long-term hot water outflow pipe 65 is lower than the maximum height of the long-term cold water outlet pipe 53, hot water flows out earlier than the cold water. In other words, hot water, which is easy to be decomposed, is first leaked to the outside. In addition, the excessive amount of purified water flowing into the purified water tank (3) flows out of the sewer through the main outflow pipe (45) through the transient water purification pipe (47).

And, if water is stored in the purified water tank (3), cold water tank (7) and hot water tank (9) for a long time, it is discarded, if a certain period has passed, the purified water tank (3), cold water tank (7) and hot water The water stored in the tank 9 is discharged to the outside. At this time, if the operation switch (not shown) is operated, the cold drain valve 59 and / or the hot drain valve 71 are opened, and the water stored in the purified water tank 3, the cold water tank 7, and the hot water tank 9 is cold. The drainage pipe 61 and / or the hot water drainage pipe 73, the drainage pipe 63, and the main outflow pipe 45 sequentially flow out into the sewerage.

By the way, in the conventional water purifier configured as described above, when the supply of tap water is stopped from the tap water 13, there is no device for detecting the supply stoppage (single water) of the tap water. There was a problem in that the life of the water pump is reduced because the water pump wings are damaged by continuous operation (idling).

In addition, since air flowing out of the water pump 81 is filled by the membrane filter 23a of the membrane filtration device 23 by the idling of the water pump 81, the air that is filled in the membrane filter 23a is There was a problem in that the inner film of the membrane filter 23a is damaged to reduce the life of the membrane filtration device 23.

Therefore, the present proposal was made to solve the problems described above, and the purpose of the present proposal is to detect the water shortage from the tap water and stop the water pump operation to prevent damage to the water pump and membrane filter. It is to provide a singular sensing device.

Water purifier of the water purifier according to the present invention made to achieve the above object is a water purifier having a membrane filtration device, the water pump disposed in the previous stage of the membrane filtration device to increase the pressure of water flowing into the membrane filtration device And a water level detecting device disposed at a previous stage of the water pump to detect the presence of water flowing into the water pump, and stops the operation of the water pump by detecting it when water is separated from the tap water.

In addition, the water level detecting device is characterized in that the joint member, a pressure sensor connected to the joint member to detect the water pressure in the joint member, and a plurality of nut members for fixing the connection pipe to the joint member.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected about the part same as the part shown in FIG. 1, and the overlapping description is abbreviate | omitted.

As shown in FIG. 2, the lower surface of the precipitation filtration device 19 and the upper surface of the pretreatment filtration device 21, the lower surface of the pretreatment filtration device 21 and the upper surface of the membrane filtration device 23 are respectively formed in a first manner. And, connected to each other by the second connecting pipe (85, 87), in the middle of the first connecting pipe 85 is provided with a water level detecting device (89) to detect the presence or absence of water supplied from the tap water (13) In the middle of the second connecting pipe 87, a water pump 91 for increasing the pressure of water to supply the water discharged from the pretreatment filtration device 21 to the membrane filtration device 23 is disposed. have.

The water level detecting device 89 includes a joint member 93 which connects the front and rear parts 85a and 85b of the first connection pipe 85 to each other, and the joint member to detect the water pressure in the joint member 93. The pressure sensor 95 connected to 93 and a plurality of nut members 97 for fixing the front and rear parts 85a and 85b of the first connecting pipe 85 to the joint member 93 are provided.

A plurality of packing members 94 are disposed on the outer circumferential surfaces of the ends of the front half portions 85a and 85b of the first connecting pipe 85 to prevent leakage.

The joint member 93 is a T-shaped connecting tube, and both ends thereof are connected with the front and rear half portions 85a and 85b of the first connecting tube 85, and one end of the pressure sensor 95 is connected to the middle end thereof. Is connected. In addition, an inner surface of both ends of the joint member 93 is formed with an inclined portion having a larger inner diameter toward the outside such that the first connecting pipe 85 is tightly attached to the joint member 93 and the nut member 97. .

The other end of the pressure sensor 95 is connected to one end of a control line 99 connected to the water pump 91 so as to transmit a pressure signal to a control end (not shown) of the water pump 91.

On the side of the nut member 97 is formed a cylindrical recessed portion (97a) having a screw portion and an inclined portion so that both ends of the joint member 93 is in close contact.

Next, a method of assembling the water level detecting device 89 will be described.

First, the nut member 97 and the packing member 94 are respectively inserted into the outer circumferential surfaces of the ends of the front and rear half portions 85a and 85b of the first connecting tube 85, and then the front of the first connecting tube 85 is inserted. The nut member 97 is fastened to the joint member 93 while the second half portions 85a and 85b are inserted into both ends of the joint member 93. At this time, the inclination portion of the inner surface of the joint member 93 and the inclination portion of the cylindrical groove (97a) formed in the nut member 97, the front half portion (85a, 85b) of the first connecting pipe (85) is It is in close contact with the inner surface of the nut member 97.

Next, the pressure sensor 95 is screwed into the intermediate end of the joint member 93, and the control line 99 connected to the pressure sensor 95 is controlled by the water pump 91. Assembling of the stage detecting device 89 is completed while connecting to the stage.

Hereinafter, the operation and effects of the water level detecting device of the water purifier according to the embodiment of the present invention will be described.

When the water pump 91 is operated by an operation switch and control means (not shown), the tap water supplied from the tap water 13 is filtered through a plurality of filtration devices including the membrane filtration device 23, and then purified water tank ( 3), it is stored in the cold water tank (7) and hot water tank (9).

At this time, when the supply of tap water is stopped from the tap water 13, the water pressure in the first connecting pipe 85 decreases, and the pressure of the water level detecting device 89 disposed in the middle of the first connecting pipe 85 is reduced. The intensity of the pressure signal sensed by the sensor 95 is reduced. When the intensity of the pressure signal is equal to or less than a predetermined value, the pressure signal transmitted by the control line 99 to the control unit (not shown) of the water pump 91 is controlled by the control unit (not shown) as a medium. ) To stop the operation.

Again, when the tap water is supplied from the tap water 13 and the strength of the pressure signal detected by the pressure sensor is greater than or equal to a predetermined value, the tap water is transmitted to the control stage (not shown) of the water pump 91 by the control line 99. The pressure signal operates the water pump 91 by means of control means (not shown).

Therefore, when the tap water is not supplied into the first connection pipe 85, the water pump 91 stops and does not idle, so air is introduced into the water pump 91 or the membrane of the membrane filtration device 23. Air will not be filled in the filter 23a. As a result, damage to the water pump blades and damage to the inner film of the membrane filter 23a due to air flowing into the water pump 91 by idling is prevented.

In the above description, the water level detection device applied to the cold and hot water purifier has been described, but the water level detection device of the water purifier according to the present invention can be applied to all water purifiers having a pump including a cold water purifier.

As described above, the water level detection device of the water purifier according to the present invention is a very practical design that improves the durability of the water purifier by detecting water when water is separated from the tap and stopping the water pump operation, thereby preventing damage to the water pump and the membrane filter. .

Claims (2)

In the water purifier provided with the membrane filtration device 23, the water pump 91 disposed in the previous stage of the membrane filtration device 23 to increase the pressure of the water flowing into the membrane filtration device 23, and the water pump It is provided with a single-stage detection device 89 disposed in the previous stage of the water pump 91 to detect the presence or absence of water flowing into the water 91, to detect when the water from the tap water to stop the operation of the water pump The water level detecting device of the water purifier characterized by the above-mentioned. According to claim 1, wherein the water level detecting device 89 is a joint member 93, a pressure sensor 95 connected to the joint member 93 to sense the water pressure in the joint member 93, and the joint The water detection device of the water purifier, characterized in that consisting of a plurality of nut member (97) for fixing the connection pipe to the member (93).