KR100756884B1 - Dispensor apparatus for refrigerator using the valve for changing path of fluid - Google Patents

Abstract

A dispenser apparatus for a refrigerator using a fluid path conversion valve is provided to reduce manufacturing costs and processes by simplifying structure of the fluid path conversion valve, and reduce power consumption by operating only one solenoid portion. A dispenser apparatus for a refrigerator using a fluid path conversion valve comprises a filter(3), a fluid path conversion valve(4), a purified water reservoir, an ice maker and a dispenser main body. The filter filters foreign matters from original water and produces purified water. The fluid path conversion valve is consisted of a case(14) having a suction port for suctioning the purified water and first and second discharge port, a solenoid portion(15,16) for opening/closing the first discharge port, and a linking portion for opening/closing the second discharge port. The purified water reservoir stores the purified water received from a first fluid path. The ice maker receives the purified water from a second fluid path, and makes ice. The dispenser main body discharges the purified water stored in the purified water reservoir through a purified water cock or receives ice from the ice maker and discharges the ice.

Description

Dispenser apparatus for refrigerator using the valve for changing path of fluid}

1 is a block diagram showing the structure of a dispenser device for a refrigerator according to the prior art,

Figure 2 is a block diagram showing a connection structure of the flow path switching valve and the flow path in the refrigerator dispenser device according to the prior art,

3 is a configuration diagram showing a flow path switching valve according to the present invention,

Figure 4 is a block diagram showing another operating state of the flow path switching valve according to the present invention,

Figure 5 is a block diagram showing a dispenser device for a refrigerator using a flow path switching valve according to the present invention,

6 is a block diagram showing the operation of the dispenser device according to the operation state of the flow path switching valve in the dispenser device for a refrigerator using the flow path switching valve according to the present invention.

Explanation of symbols on the main parts of the drawing

100; Flow path switching valve 110; case

111; Protrusion 112; Suction port

113; First discharge port 114; 2nd discharge port

120; Solide part 121; Solenoid

122; First plunger 130; Linkage

131; Link 132; 2nd plunger

133; Elastic member

The present invention relates to a dispenser device for a refrigerator using a flow path switching valve.

In general, a refrigerator equipped with a dispenser device for a refrigerator can reduce the trouble of opening and closing the refrigerator door to drink cold water or to obtain ice in a cold water container cooled to an appropriate temperature, and also reduce the refrigerating chamber cooling temperature loss at this time. There is an advantage to avoid.

1 is a block diagram showing a structure of a refrigerator dispenser device according to the prior art, Figure 2 is a block diagram showing a connection structure of the flow path switching valve and the flow path in the refrigerator dispenser device according to the prior art.

1 and 2, the dispenser device 1 for a refrigerator includes a raw water cock 2, an open / close valve 8, a filter 3, a flow path switching valve 4, a purified water storage tank 5, and a dispenser. It consists of a main body 6 and an ice maker 7.

First, the raw water cock 2 provides raw water such as tap water and ground water to the raw water flow path 12 of the dispenser device 1.

The open / close valve 8 communicates or blocks raw water provided to the raw water flow passage 12. The on-off valve 8 opens and closes the raw water flow passage 12 when the raw water cock 2 breaks or a failure occurs.

The filter 3 filters the foreign substances and harmful elements from the raw water to generate purified water. At least one filter 3 is provided.

The flow path switching valve 4 is to provide the purified water provided from the filter 3 to the ice maker 7 and the dispenser main body 6, respectively.

The flow path switching valve 4 alternately operates the case 14 accommodating the purified water and the purified water provided in the case 14 alternately to supply the purified water to the dispenser main body 6 side flow path 10 or to the ice maker 7. It consists of the 1st and 2nd solenoid parts 15 and 16 which supply a purified water to the side flow path 11.

The purified water storage tank 5 stores the purified water provided from the flow path switching valve 4 therein.

When the dispenser main body 6 turns on the purified water switch 17, the purified water stored in the purified water storage tank 5 is discharged through the purified water cock 9, and is normally installed to be exposed to the door of the refrigerator.

Since the dispenser main body 6 has an ice communication path 19 connected to the ice maker 7, when the ice switch 18 is turned on, the dispenser main body 6 supplies ice from the ice maker 7 through the ice communication path 19. I can receive it.

The operation of the dispenser device 1 for a refrigerator according to the prior art, as shown in Figs. 1 and 2, first, the raw water provided from the water cock 2 to the raw water flow passage 12 passes through the open valve 8 to filter. Provided by (3).

Thereafter, the raw water provided to the filter 3 is produced as a purified water by a filtering action, which is provided to the dispenser main body 6 or to the ice maker 7 side by the flow switching of the flow path switching valve 4.

That is, when the purified water is provided to the dispenser main body 6 by switching the flow path of the flow path switching valve 4, the first solenoid portion 15 communicates the flow path of the dispenser main body 6 side, after which the purified water is supplied to the dispenser main body. (6) It is stored in the purified water storage tank 5 along the side flow path 10. As shown in FIG.

The purified water stored in the purified water storage tank 5 is turned on through the purified water cock 9 while turning on the purified water switch 17 provided in the dispenser main body 6.

On the other hand, when the purified water is provided to the ice maker 7 by the flow path switching of the flow path switching valve 4, the second solenoid portion 16 communicates the flow path 11 on the ice maker 7 side, after which the purified water is (7) It is provided to the ice maker 7 along the side flow path 11.

When the ice switch 18 is turned on, the ice switch 18 may receive ice from the ice maker 7 through the ice communication path 19.

However, the refrigerator dispenser device 1 according to the prior art, as shown in Figure 2, because the flow path switching valve 4 is composed of a main body 14 and a pair of solenoid parts (15, 16), In addition to the large number of elements and complicated structure, the manufacturing process and manufacturing cost are increased, and there is a problem in that a relatively large amount of power is consumed to operate the solenoid units 15 and 16.

In addition, the conventional flow path switching valve (4) is made of a pair of solenoid portion (15, 16), relatively high failure rate and if any one of the solenoid portion (15, 16) is a failure to use There was an impossible problem.

The present invention has been made to solve the above problems, the components are consumed, the structure is simple, not only the manufacturing process and manufacturing cost is low, but also consumes a relatively small power, the flow rate switching valve with a low failure rate It is an object of the present invention to provide a dispenser device for a refrigerator.

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According to an aspect of the present invention for achieving the above object, a filter for generating a purified water by filtering foreign substances and harmful elements from raw water provided to the raw water flow through the raw water cock; Receiving a purified water from the filter so that purified water is alternately provided to the first and second flow paths, the case having a suction port for introducing purified water and first and second discharge ports for discharging purified water, and among the discharge ports A flow path switching valve comprising a solenoid portion for opening and closing a first discharge port and an interlocking portion for opening and closing a second discharge port among the discharge ports through a lever principle in linkage with the solenoid portion; A purified water storage tank configured to receive and store purified water from the first channel; An ice maker for receiving ice from the second flow path and freezing the ice to produce ice; And a dispenser body configured to discharge the purified water stored in the purified water storage tank through a purified water cock or to receive and discharge ice from the ice maker through an ice communication path, wherein the solenoid part in the flow path switching valve is caused by supply and interruption of electricity. A solenoid for generating or dissipating electromagnetic force and opening the first discharge port among the discharge ports through the electromagnetic force generated from the solenoid or closing the first discharge port among the discharge ports when the electromagnetic force is dissipated in the solenoid. And a first plunger connected to the interlocking part by a hinge, the interlocking part being connected to the first plunger by one side hingedly and hingedly fixed to a center of the case, and the other side of the connecting link. Hinged to each other and the first one of the outlet ports is opened. A second plunger which is moved to close the second discharge port of the discharge port and to open the second discharge port of the discharge port when the first discharge port of the discharge port is closed; Provided is a dispenser device for a refrigerator using a flow path switching valve comprising an elastic member to be elastically supported toward a second discharge port of the port.

The raw water flow path further includes an on-off valve for communicating or blocking the raw water.

Hereinafter, a preferred embodiment of a dispenser device for a refrigerator using a flow path switching valve according to the present invention will be described with reference to the accompanying drawings.

Figure 3 is a block diagram showing a flow path switching valve according to the present invention, Figure 4 is a block diagram showing another operating state of the flow path switching valve according to the present invention.

3 and 4, the flow path switching valve 100 according to the present invention includes a case 110 and the switching means.

First, the case 110 has a suction port 112 for introducing a fluid and a pair of discharge ports 113 and 114 for discharging the fluid.

In an embodiment, the case 110 has a suction port 112 at the side and discharge ports 113 and 114 at the bottom. In addition, the inner space of the case 110 preferably has a protrusion 111 to hinge-fix the connection link 131 described below.

On the other hand, the switching means is to communicate only one of the discharge port (113, 114) by alternately operating the fluid provided into the case (110).

In an embodiment, the switching means consists of a solenoid portion 120 and an interlocking portion 130.

The solenoid part 120 opens or closes any one of the discharge ports 113 and 114 (hereinafter, referred to as a first discharge port 113).

The solenoid part 113 may open or close the first discharge port 113 through the solenoid 121 that generates or dissipates the electromagnetic force due to the supply and interruption of electricity, and the electromagnetic force generated from the solenoid 121. When the electromagnetic force is dissipated in the solenoid 121, the first plunger 122 moves up and down to close the first discharge port 113.

Here, the first plunger 122 is preferably connected to the linkage 130 and the hinge.

The connection relationship between the one plunger 122 and the linking unit 130 will be described in detail in the linking unit 130 described below.

The linkage unit 130 is to open and close the other one of the discharge port 113, 114 (hereinafter referred to as the second discharge port 114) through the lever principle in conjunction with the solenoid portion 120.

The linking unit 130 is connected to the first plunger 122 and one side hinged and the connection link 131 is hinged to the center of the projecting piece 111 of the case 110, the other side of the connection link 131 The second discharge port 112 is closed when the first discharge port 113 is hinged, and the second discharge port 114 is opened when the first discharge port 113 is closed. The second plunger 132 and the second plunger 132 is composed of an elastic member 133 to be elastically supported toward the second discharge port 114.

Here, the elastic member 133 is preferably a coil spring.

As shown in FIGS. 3 and 4, the operation of the flow path switching valve 100 having the above-described structure is performed when the first plunger is supplied with electricity to the solenoid 121 when the first discharge port 113 is first opened. 122 moves upwards.

Accordingly, the connecting link 131 hinged to the first plunger 122 is hinged to the protruding piece 111 to move the second plunger 132 downward through the principle of the lever to the second discharge port 114. ) Is closed.

Thereafter, the first discharge port 113 is opened to communicate the fluid.

On the other hand, when the supply of electricity to the solenoid 121 is cut off when the second discharge port is opened, the first plunger 122 moves downward.

Accordingly, the connecting link 131 hinged to the first plunger 122 is hinged to the protrusion 111 to move the second plunger 132 upward through the principle of the lever to the second discharge port 114 ) Is opened.

Thereafter, the second discharge port 132 is opened to be elastically supported by the elastic member 133 so that the fluid communicates.

5 is a block diagram showing a dispenser device for a refrigerator using a flow path switching valve according to the present invention, Figure 6 is a dispenser device according to the operation state of the flow path switching valve in the dispenser device for a refrigerator using a flow path switching valve according to the present invention. Is a block diagram showing the operation of.

5 and 6, the refrigerator dispenser device 200 according to the present invention uses a flow path switching valve 100 having the above-described structure, and includes a water cock 2 and an open / close valve 8. And a filter (3), a purified water storage tank (5), an ice maker (7), and a dispenser body (6).

First, the raw water cock 2 provides raw water such as tap water or groundwater to the raw water flow passage 12 of the dispenser device 200.

The open / close valve 8 communicates or blocks the raw water provided to the raw water flow passage 12. The open / close valve 8 opens and closes the raw water flow passage 12 when the raw water cock 2 is broken or a failure occurs. It is to let.

The filter 3 filters foreign substances and harmful elements from raw water provided to the raw water flow passage 12 through the raw water cock 2 to generate purified water.

The purified water storage tank (refer to reference numeral '5' in FIG. 1) receives the purified water from the first flow path 10 and stores the purified water.

The ice maker (see reference numeral 7 in FIG. 1) receives the purified water from the second channel 11 and freezes to generate ice.

The dispenser body (see reference numeral '6' in FIG. 1) allows the purified water stored in the purified water storage tank 5 to be discharged through the purified water cock (see reference numeral '9' in FIG. 1) or from the ice maker 7 to the ice communication path ( The ice is supplied and discharged through reference numeral '19' of FIG. 1).

In the dispenser device 200 for a refrigerator using the flow path switching valve 100 according to the present invention, the raw water provided from the water cock 2 to the raw water flow passage 12 passes through the open valve 8 to the filter 3. Is provided.

Thereafter, the raw water provided to the filter 3 is produced as a purified water by a filtering action, which is provided to the dispenser main body 6 or to the ice maker 7 side by the flow switching of the flow path switching valve 4.

As shown in FIGS. 3 and 5, when electricity is supplied to the solenoid 121, the first plunger 122 moves upward, and accordingly, the first plunger 122 hinges. The connecting link 131 is hinged to the protrusion 111 to move the second plunger 132 downward through the principle of the lever to close the second discharge port 114. Thereafter, the first discharge port 113 is opened to communicate the purified water.

On the other hand, as shown in FIGS. 4 and 6, when the supply of electricity to the solenoid 121 is cut off, the first plunger 122 moves downward, and accordingly, the first plunger 122 is moved. ) And the connecting link 131 connected to the hinge is hinged to the protruding piece 111 to move the second plunger 132 upward through the principle of the lever to open the second discharge port 114. Thereafter, the second discharge port 132 is opened in an elastically supported state by the elastic member 133 so that the purified water communicates.

When the purified water is provided to the dispenser body 6 by the flow path switching of the flow path switching valve 4, the purified water is stored in the purified water storage tank 5 along the flow path 10 on the dispenser body 6 side.

The purified water stored in the purified water storage tank 5 is turned on through the purified water cock 9 while turning on the purified water switch 17 provided in the dispenser main body 6.

On the other hand, when the purified water is provided to the ice maker 7 by the flow path switching of the flow path switching valve 4, the purified water is provided to the ice maker 7 along the flow path 11 on the ice maker 7 side.

When the ice switch 18 is turned on, the ice switch 18 may receive ice from the ice maker 7 through the ice communication path 19.

The present invention relates to a dispenser device for a refrigerator using a flow path switching valve, the flow path switching valve includes a switching means for communicating with any one of the discharge ports by alternately operating the fluid provided into the case, the switching means It is composed of a solenoid part for opening and closing one of the discharge ports, and an interlocking part for opening and closing the other one of the discharge ports through the lever principle in conjunction with the solenoid part, which requires less components and simpler structure than the prior art. Therefore, not only the manufacturing process and the manufacturing cost are significantly reduced, but also because only one solenoid part is operated, the power consumption is excellent, and the flow path switching valve drives only one solenoid part. The circuit configuration can be simplified, and the failure rate is lower than that of the prior art. Since there is an advantage that the ratio is consumed less and can be used for a longer period of time, the flow path switching valve having the above-mentioned effect is provided in the dispenser device for a refrigerator, thereby reducing the overall manufacturing process and manufacturing cost of the dispenser device for a refrigerator, It also consumes less, costs less to maintain, and can be used longer.

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Claims (7)

delete delete delete delete delete A filter for generating a purified water by filtering foreign substances and harmful elements from raw water provided through raw water cock through raw water cock; Receiving a purified water from the filter so that purified water is alternately provided to the first and second flow paths, the case having a suction port for introducing purified water and first and second discharge ports for discharging purified water, and among the discharge ports A flow path switching valve comprising a solenoid portion for opening and closing a first discharge port and an interlocking portion for opening and closing a second discharge port among the discharge ports through a lever principle in linkage with the solenoid portion; A purified water storage tank configured to receive and store purified water from the first channel; An ice maker for receiving ice from the second flow path and freezing the ice to produce ice; And A dispenser body configured to discharge purified water stored in the purified water storage tank through a purified water cock or to receive and discharge ice from the ice maker through an ice communication path, The solenoid portion of the flow path switching valve, the solenoid for generating or dissipating the electromagnetic force due to the supply and shutdown of electricity, and the first discharge port of the discharge ports through the electromagnetic force generated from the solenoid or electromagnetic force to the solenoid When it is extinguished, the first plunger is moved to close the first discharge port of the discharge port and is connected to the linkage part by a hinge. A connection link having a center fixed to the hinge, and hinged to the other side of the connection link, when the first discharge port is opened, the second discharge port of the discharge ports is closed and the first discharge port is discharged. A second plunger which is moved to open the second discharge port of the discharge port when the port is closed; A dispenser device for a refrigerator using a flow path switching valve comprising a second plunger made of an elastic member to be elastically supported toward a second discharge port among the discharge ports. The method of claim 6, The dispenser device for a refrigerator using a flow path switching valve further comprises an opening and closing valve to communicate or block the raw water on the raw water flow path.

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