KR100615075B1 - The structure of filter housing for in refrigerator - Google Patents

Abstract

The present invention relates to a filter housing structure for a refrigerator that can use an ice maker or a dispense even when the filter case is not fastened to the filter housing.

A filter housing structure for a refrigerator according to the present invention includes a filter housing (30) having a first inlet (30a) and a first outlet (30b) communicating with the first inlet (30a); A filter case (40) attached to and detached from the filter housing (30) and discharging water supplied through the first inlet (30a) of the filter housing (30) to be discharged to the first outlet (30b); When the filter case 40 is mounted to the filter housing 30, the filter case 40 is moved upward by the filter case 40 to communicate the first inlet 30a and the first outlet 30b with the filter case 40, respectively. When the filter case 40 is separated, the filter case 40 is elastically supported downward by the spring 34 interposed between the filter housing 30 and the first inlet 30a and the first outlet 30b communicate with each other. It is configured to include a valve 32 for blocking the water supply to the filter case 40. According to the above configuration, even when the filter case is not fastened to the filter housing, there is an advantage that can supply water to each part of the refrigerator.

Refrigerator, Filter Housing

Description

The structure of filter housing for refrigerator             

1 is a schematic cross-sectional view showing a schematic structure of a conventional filter housing for a refrigerator.

2 is a schematic cross-sectional view showing a state in which a first inlet and an inflow passage of a filter housing for a refrigerator according to the present invention are connected;

3 is an explanatory view showing a state connected to the first inlet and the first outlet of the filter housing for a refrigerator according to the present invention.

Explanation of symbols on the main parts of the drawings

30: filter housing 30a, 42: inlet

30b, 44 Exit 30c, 30d Evacuation Home

31a: Inflow channel 31b: Outflow channel

32: valve 32a: head

32b: body 34: spring

36: coupling portion 38,49: screw portion

40: filter case 46: fastening part

The present invention relates to a structure of a filter housing for a refrigerator, and more particularly, to a filter housing structure for a refrigerator that can use an ice maker or a dispense even when the filter case is not fastened to the filter housing.

Some of the commercially available refrigerators have a built-in water purifier (filter) inside the refrigerator, and are configured to supply purified water from the refrigerator to the outside of the refrigerator or to make ice from the purified water.

When replacing the filter of the water purifier, the water supply to the filter should be cut off. Therefore, conventionally, the solenoid valve which opens and closes the connection pipe connected to a water supply source was provided in the machine room. In order to replace the filter installed in the refrigerating compartment, when the refrigerating compartment door is opened, a door switch installed in contact with the door detects this and sends a signal to shut off the valve. That is, when an electrical signal is sent from the door switch, a magnetic field is generated by the electrical signal (power), and the valve is closed by the attraction force of the magnetic field. However, the structure as described above requires a separate electrical device composed of a door switch, a solenoid valve, etc., thus complicating the purified water flow path of the refrigerator. Therefore, the valve integral type water purification device which simplified the structure by installing the said valve in the said water purification device was developed. The valve integral water purifier is configured to mount a valve in the filter housing and to shut off the water supply passage when the filter is separated from the filter housing. A structure of a conventional valve integrated water purifier is described below with reference to the drawings.

1 is a schematic cross-sectional view for explaining the structure of a conventional refrigerator water purifier.

As shown, a conventional water purifier for a refrigerator includes a filter housing 10 and a filter case 20 coupled to a lower portion of the filter housing 10 and having a built-in filter.

One side of the filter housing 10 is formed with an inlet 10a through which tap water is introduced, and an outlet 11 through which purified water is discharged from the other side. In addition, a cylindrical coupling portion 16 inserted into the upper through hole 20a of the filter case 20 is formed at the inner central portion of the filter housing 10.

In addition, an inflow passage 10b connecting the inlet 10a and the upper portion of the filter case 20 is formed in the filter housing 10. A valve 12 having a “T” shape is installed above the inflow passage 10b, and the valve 12 moves up and down to open and close the inflow passage 10b. Therefore, the valve 12 serves to block the water supply to the filter case when the filter is replaced.

A spring 13 is fitted into the lower groove 12a of the valve 12. The lower portion of the spring 13 is inserted into the upper groove 14b of the valve actuating member 14. The spring 13 is the valve operating member 14 when the valve operating member 14 moved upward by the operation of the filter case 40 to be described later loses the support force by the filter case 40, Acts to give restoring force to move downward.

On the other hand, the lower outer periphery 14a of the valve operating member 14 is rounded and is configured to be easily moved along the upper cam surface 20b of the filter case 20 to be described later. The valve operating member 14 moves up and down along the inclined cam surface 20b and serves to interlock the valve 12 up and down.

In addition, the lower inner circumference of the filter housing 10 is provided with a plurality of locking jaws 18 to fasten the filter case 20.

On the other hand, the filter case 20 serves to guide the water flowing through the filter housing 10 to pass through the filter. The upper part of the filter case 20 is formed with a through hole (20a) is inserted into the center coupling portion 16 of the filter housing 10, the upper surface of the through hole 20a is inclined cam surface (20b) It consists of.

In addition, at four outer circumferences of the filter case, a fastening jaw 22 is fastened to the locking jaw 18 described above. The fastening jaw 22 serves to prevent the filter case 20 from being separated from the filter housing 10.

Hereinafter, an operation relationship for fastening the filter case 40 to the conventional filter housing 30 for a refrigerator configured as described above will be described.

In the state in which the inflow passage 10b of the filter housing 10 is closed by the valve 12, the coupling portion 16 of the filter housing 10 passes through the upper passage hole 20a of the filter case 20. Insert into and rotate. At this time, the filter case 20, the upper end portion of the filter case 20 to the outer periphery upper end 16b of the coupling portion 16 of the filter housing 10 and the upper end 10c of the inflow passage 10b. Tighten by rotating until contact. In this case, the through hole 20a of the filter case 20 is partitioned by the outer peripheral surface 16a (the left side in FIG. 1) and the filter (not shown) of the coupling portion 16 of the filter housing 10. . Therefore, as will be described later, water to be purified is introduced into one side, and purified water flows out to the other side.

However, as described above, when the filter case 20 is rotated to be fastened to the filter housing 10, the cam surface 20b, which is the inclined upper surface of the through hole 20a of the filter case 20, is an inflow passage ( The valve operating member 14 inserted into 10b) is pushed up. In this case, the valve operation member 14 compresses the spring 13 to move the valve 12 on which the upper surface of the spring 13 is fixed upward. When the valve 12 is moved upward, the inflow passage 10b that is closed by the valve 12 is opened. When the inflow passage 10b is opened, water is supplied to the filter case 20.

Water supplied to the filter case 20 is introduced into one side of the upper passage hole 20a of the filter case 20. Then, the water is purified while passing through a filter (not shown) built in the filter case 20, and is discharged to the coupling part 16 side of the filter housing 10 through one side of the through hole 20a of the filter case 20. The purified water flowing out to the filter housing 10 as described above is supplied to the ice maker of the freezer compartment through the outlet 11 of the filter housing 10.

On the other hand, when the filter case 20 is rotated and removed from the filter housing 10, the valve operating member 14 supported by the filter case 20 is the groove 14b of the valve operating member 14. ) Is lowered along the cam face 20b of the filter case 20 by the restoring force of the spring 13 compressed in In this case, the valve 12 with the upper surface of the spring 13 is interlocked downward. The valve 12 moved downwards blocks the inflow passage 10b to block water supply to the filter case 20.

The present invention configured as described above has the following problems. In a conventional filter housing structure for a refrigerator, water supplied to the filter housing is blocked in the inflow passage when the filter case is separated from the filter housing. Therefore, the water supply to the ice maker or the dispenser as well as the filter case are completely blocked. There is a problem in that the dispense and the ice making device cannot be used even in a region where water quality does not need to be purified or when it is difficult to obtain a filter.

The present invention has been made to solve the above problems, the present invention provides a filter housing structure for a refrigerator that can supply water to each part of the refrigerator to use an ice maker or a dispense even when the filter housing is not fastened to the filter housing. To provide.

In order to achieve the above object, the structure of the filter housing for a refrigerator according to the present invention, the filter housing having an inlet, an outlet in communication with the inlet; A filter case detachable from the filter housing and configured to purify the water supplied through the inlet of the filter housing and discharge the water to the outlet; When the filter case is mounted on the filter housing, the filter case is moved upward by the filter case to communicate the inlet and the outlet with the filter case, respectively, and the filter case is elastically supported downward when the filter case is separated from the filter housing. It is configured to include a valve that blocks the supply of water to the filter case while communicating.

According to the above configuration, even when the filter case is separated from the filter housing and the flow path for supplying water to the filter case is closed, water can be supplied to each part of the refrigerator through the flow path connecting the inlet and the outlet of the filter housing. have. This has the advantage that water can be supplied to each part of the refrigerator even if there is no need for water purification, or if there is no replacement filter case.

According to a specific embodiment of the present invention, the filter housing structure for a refrigerator according to the present invention is configured such that the valve is elastically supported downward by a spring interposed between the filter housing and the filter housing.

According to the above configuration, when the filter case is not fastened, the valve moves downward by the elastic force of the spring to open a flow path connecting the inlet and the outlet of the filter housing and to block the water supply to the filter case. Can be. In addition, when the filter case is fastened to the filter housing, the valve is moved upward by the filter case to close the flow path connecting the inlet and the outlet of the filter housing, and at the same time the water supply flow path to the filter case. You can open it.

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

2 is a schematic cross-sectional view schematically showing a filter housing structure for a refrigerator according to the present invention. As shown, the filter housing structure according to the present invention includes a filter housing 30 in which a flow path is formed such that tap water is supplied to the filter 45 side and water purified from the filter 45 is supplied to each part of the refrigerator, It is composed of a filter case 40 is fastened to the filter housing 30, the filter 45 is embedded.

A first inlet 30a through which tap water is supplied is formed at one side of the filter housing 30, and a first outlet 30b for sending purified water to each part of the refrigerator at an opposite side of the first inlet 30a. Is formed. The first inlet 30a and the first outlet 30b communicate with each other.

In the center of the filter housing 30, the first inlet 30a is connected to an inflow passage 31a for supplying water to the filter case 40. The first outlet 30b is connected to an outlet passage 31b through which water purified from the filter case 40 is discharged.

A valve 32 is provided at the center of the filter housing 30 which simultaneously connects the first inlet 30a, the first outlet 30b, the inlet passage 31a, and the outlet passage 31b.

The valve 32 has a "T" shape and consists of a head 32a and a body 32b. The valve 32 moves up and down, and serves to change the flow path. That is, in the state in which the filter case 40 is fastened, the valve 32 is positioned upward and the first inlet 30a and the first outlet 30b are opened by the body 32b of the valve 32. The connecting passage is closed.

In addition, when the filter case 40 is not fastened to the filter housing 30, the valve 32 is positioned at a lower side and connects the first inlet 30a and the first outlet 30b to each other. At the same time, the inflow passage 31a connected to the filter case 40 is closed.

The upper end of the valve 32 is elastically supported downward by the spring (34). The spring 34 serves to change the flow path by moving the valve 32 downward when the lower end of the valve 32 is not supported by the filter case 40.

Meanwhile, a first evacuation groove 30d for the head 32a of the valve 32 and a second evacuation groove for the spring 34 are disposed above the valve 32 at the center of the filter housing 30. 30c) is formed.

In addition, a coupling part 36 to which the filter case 40 is fastened is formed at the center of the filter housing 30. The coupling part 36 is a part connected to the first outlet 30b through an outflow passage 31b through which purified water is discharged to the outside of the filter device.

In addition, the lower end inner circumference of the filter housing 30 is formed with a screw portion 38, which is a portion that is fastened to the screw portion 49 of the upper outer circumference of the filter case 40 to be described later.

Hereinafter, a structure of the filter case 40 for a refrigerator according to the present invention will be described.

The filter case 40 which purifies the water supplied through the first inlet 30a of the filter housing 30 and discharges the water to the first outlet 30b, has an outlet flow path of the filter housing 30 at one side ( A second inlet 42 connected to 31a) is formed, and a second outlet 44 through which a purified water is discharged through a filter is formed at the center thereof. A fastening part 46 is formed at the outer periphery of the second outlet 44 so as to protrude into the coupling part 36 of the filter housing 30 described above.

As described above, a thread 49 is formed on the upper outer periphery of the filter case 40. The screw portion 49 serves to couple the filter case 40 to the filter housing 30.

Hereinafter, the operation relationship of the filter housing structure for a refrigerator according to the present invention will be described in detail.

2 shows a state in which the filter case 40 is fastened to the filter housing 30 according to the present invention and the first inlet 30a of the filter housing is connected to the inflow passage 31a.

As shown, the valve 32 is supported upward by the upper end of the filter case 40, compressing the spring 34 is moved upward. In this case, the head 32a of the valve 32 is located in the first evacuation groove 30d of the filter housing 30, and the body 32b of the valve 32 is connected to the first inlet 30a. It is located between the first outlet 30b. Therefore, the flow path connecting the first inlet 30a and the first outlet 30b is blocked, and the water introduced into the filter housing 30 through the first inlet 30a passes through the inlet passage 31a. It is supplied to the second inlet 42 of the filter case 40.

The water thus supplied is purified while passing through the filter 45 embedded in the filter case 40, and then the outlet flow path 31b of the filter housing 30 through the second outlet 44 of the filter case 40. Is supplied. The water supplied to the outlet passage 31b is distributed to each part of the refrigerator through the first outlet 30b of the filter housing.

On the other hand, to separate the filter case 40 from the filter housing 30, the filter case 40 is rotated. Then, the screw portion 49 of the lower outer periphery of the filter case 40, which is fastened to the screw portion 38 of the lower inner periphery of the filter housing 30, is separated.

When the filter case 40 is rotated as described above and separated from the filter housing 30, the valve 32 supported by the upper end of the filter case 40 loses the supporting force. Therefore, the valve 32 is moved downward by the restoring force of the spring 34 which elastically supports the valve 32 downward from the upper end of the valve 32.

In FIG. 3, the filter case 40 is completely separated from the filter housing 30 as described above, and the valve 32 is moved downward.

As shown, when the valve 32 is moved downward by the restoring force of the spring 34, the head 32a of the valve 32 closes the inflow passage 31a and the outlet passage 31b. Done. When the inflow passage 31a is closed in this way, the water supply to the filter case 40 is blocked. Therefore, when the filter case 40 is replaced, it is possible to block the water supply to the filter case 40 side.

On the other hand, when the valve 32 is moved downward as described above, the first inlet 30a and the first outlet 30b which are closed by the body 32b of the valve 32 are connected. In this case, water introduced through the first inlet 30a of the filter housing 30 is directly supplied to the first outlet 30b and distributed to each part of the refrigerator.

Therefore, according to the present invention, in the state in which the filter case 40 is separated from the filter housing 30, the water supply is blocked by the water supply to the filter case 40 to prevent leakage and at the same time, the first inlet 30a and the first outlet. The flow path connecting the 30b can be opened, so that water can be supplied to the ice maker or the dispenser of the refrigerator. As a result, the refrigerator filter housing structure according to the present invention is useful in the case where the water quality of the area where the refrigerator is installed is not good and does not need to be purified, or a filter case to be replaced cannot be obtained.

As described above, according to the filter housing structure for a refrigerator according to the present invention, when the filter case is separated from the filter housing, the water supply to the filter case is blocked, but the flow path connecting the inlet and the outlet of the filter housing is opened. do.

Therefore, even when the filter case is not fastened to the filter housing, water can be supplied to each part of the refrigerator, thereby making it possible to use an ice maker or a dispenser.

Claims (2)

A filter housing having an inlet and an outlet communicating with the inlet; A filter case detachable from the filter housing, a filter embedded therein, and a filter case for purifying water supplied through the inlet of the filter housing and discharging the water to the outlet; When the filter case is mounted on the filter housing, the filter case is moved upward by the filter case to communicate the inlet and the outlet with the filter case, respectively, and the filter case is elastically supported downward when the filter case is separated from the filter housing. A valve integrated filter housing structure for a refrigerator, characterized in that it comprises a valve that blocks the supply of water to the filter case while communicating. The structure of claim 1, wherein the valve is configured to be elastically supported downward by a spring interposed between the filter housing and the filter housing.

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