KR20200087242A - Water server and water supply method to water server - Google Patents

Abstract

A cold water tank 11 in which cold water is stored, a water supply container 14 filled with water to be supplied to the cold water tank 11, a water supply container 14 connected to the cold water tank 14, and a cold water tank 11 ) Is provided with a tank capacity detection means 15 for detecting whether or not the space capacity generated in the water supply is greater than or less than the content of the water supply container 14, the capacity of the cold water tank 11 is greater than the capacity of the water supply container 14, and the cold water tank When the space capacity generated in (11) is greater than the content of the water supply container 14, it is detected by the tank capacity detection means 15 that the total amount of water in the water supply container 14 connected to the cold water tank 11 is Water server 10 is supplied to the cold water tank (11).

Description

Water server and water supply method to water server

The present invention relates to a water server for dispensing cold water for drinking or hot water according to a user's request.

There is known a water server that provides a user with cold water or hot water in addition to water filled in a container such as a water supply bottle instead of tap water, and examples of such a water server include those described in Patent Document 1. The water server of patent document 1 is equipped with the cold water tank, the hot water tank, and the exchangeable water supply bottle which supplies water to a cold water tank. The water bottle is not cooled, so the water in it is at room temperature. In addition, the water in the water bottle is gradually reduced as it is dispensed from the water server for drinking. In addition, the water bottle is generally transported to the water server installation site by an expert and exchange there. At the time of exchange, the joint part of the cold water tank connected to the water supply bottle is also cleaned.

In such a water server, it is necessary to periodically sterilize a cold water path including a cold water tank. This is, for example, if the cleaning of the water bottle and the joint portion of the cold water tank is insufficient, the microorganisms attached thereto invade into the water bottle, multiply in the water bottle at room temperature, and as a result, water containing microorganisms. This is because it may happen that the water is supplied to the cold water tank from the water bottle. In order to sterilize microorganisms that have flowed into the cold water tank from the water bottle at room temperature, sterilization of the cold water tank and the like must be reliably performed at a predetermined frequency. In addition, this sterilization is often performed by high temperature water sterilization, in which the high temperature water obtained from the high temperature tank is sent to the cold water tank, including the case of Patent Document 1.

Japanese Patent Publication No. 2016-210467

On the other hand, the operation of the water server is limited during and after several hours of sterilization of the high temperature water, and it is also desirable to lower the frequency of the high temperature water sterilization because of the amount of power consumed during the high temperature water sterilization and subsequent recooling of the cold water tank have.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a water server and a method of supplying water to a water server in which good hygiene is maintained for a longer time.

In order to achieve the above object, according to the present invention, a cold water tank in which cold water is stored, a water supply container filled with water to be supplied to the cold water tank, a water supply container connected to the cold water tank, and a capacity of the cold water tank A tank capacity detection means is provided to detect whether the capacity of the container is greater than the content of the container and the amount of space generated in the cold water tank is greater than or less than the content of the water supply container. When detected by, a water server is provided in which the entire amount of water in the water supply container connected to the cold water tank is supplied to the cold water tank.

In addition, in order to achieve the above object, according to the present invention, the step of preparing a water supply container filled with water to be supplied to the cold water tank provided by the water server, and the space capacity generated in the cold water tank is the amount of water in the water supply container A method of supplying water to a water server is provided, comprising the steps of identifying a larger one, connecting the water supply container to the inlet of the cold water tank, and supplying the entire amount of water in the water supply container to the cold water tank through the inlet.

According to this, since the water in the bottle is all supplied to the cold water tank when the water supply container is exchanged, the possibility that water containing microorganisms grown at room temperature is supplied from the water supply container to the cold water tank is completely excluded. As a result, good hygiene of the cold water tank is maintained for a long time, and the frequency of hot water sterilization to the cold water tank can be reduced.

1 is a schematic diagram showing the configuration of a water server according to an embodiment of the present invention.

Hereinafter, the water server 10 according to the first embodiment of the present invention will be described with reference to FIG. 1.

The water server 10 according to the first embodiment is configured to dispense beverage cold water and hot water from a tank provided therein according to a user's request. To this end, the water server 10 includes a cold water tank 11, a hot water tank 12 communicating with the cold water tank 11, and an inlet portion 13 at the inlet of the tip of the inlet pipe 11a of the cold water tank 11 ) Connected via a water supply bottle 14, the tank capacity detection means 15 for detecting whether the space capacity generated in the cold water tank 11 is greater than or less than the content of the water supply bottle 14, a plurality of solenoid valves (16 to 19) ), a control unit 20 and a case (not shown). The control unit 20 is electrically connected to the plurality of solenoid valves 16 to 19 and the tank capacity detection means 15 by wires (not shown). The water server 10 also includes a cooling device for cooling the cold water tank 11 (not shown) and a heating device for heating the hot water tank 12.

The arrangement of the water supply bottle 14, the cold water tank 11, and the hot water tank 12 in the vertical direction is as shown in FIG. 1, and the supply of water generated by the water server 10 is caused by a head difference. In addition, in the water server 10 of the present embodiment, the water in the water supply bottle 14 is configured such that the entire amount is supplied to the cold water tank 11 at the stage when the water supply bottle 14 is connected to the cold water tank 11. , Therefore, an empty water supply bottle 14 is connected to the cold water tank 11.

The water server 10 is provided with a cold water spout 21 and a hot water spout 22, which are main spouts of cold and hot water, and a shelf (not shown) for placing cups or the like under the spouts is installed. have. In addition, a cold water button (not shown) and a hot water button (not shown) are disposed on the outer surfaces of the case near the cold water pouring port 21 and the hot water pouring port 22. The cold water inlet solenoid valve 16 and the hot water injector solenoid valve 17 are respectively disposed upstream of the cold water inlet 21 and the hot water inlet 22. When the cold water button is pressed by the user, the cold water pouring solenoid valve 16 is opened and cold water is discharged from the cold water main outlet 21. Likewise, when the hot water button is pressed by the user, the hot water pouring solenoid valve is opened to dispense hot water from the hot water pouring outlet 22.

The water supply bottle 14 in the present embodiment is made of synthetic resin, and contains water in good sanitary condition sealed in a beverage manufacturing company's factory. When the water supply bottle 14 is connected to the cold water tank 11, the entire amount of water contained therein is supplied to the cold water tank 11. At one end of the neck portion of the water supply bottle 14, one member 13a of the joint 13 is fixed, and the inlet of the tip of the neck portion is sealed by the one member 13a.

The water supply bottle 14 is filled with a smaller amount of water than the capacity of the cold water tank 11. In other words, the cold water tank 11 has a capacity that can accommodate a larger amount of water than the amount of water charged in the water supply bottle 14.

The cold water tank 11 is provided with an inlet conduit 11a connected upwards so that it can be connected to the water supply bottle 14. The other member 13b of the joint 13 is fixed to the tip of the inlet conduit 11a. The joint 13 is a well-known type and will not be described in detail, but while the other member 13a of the joint 13 and the other member 13b are mechanically connected by screwing together, the other member ( The sharp tip of the pipe-shaped puncture member (not shown) of 13b) is also fluidly connected by piercing the fragile portion (not shown) provided on one member 13a of the water supply bottle 14 It is structured as much as possible.

The inlet pipe 11a of the cold water tank 11 is also provided with a water supply solenoid valve 18 that opens and closes the inlet pipe 11a. The water supply solenoid valve is electrically connected to the control unit 20, and its operation is controlled by the control unit 20.

The cold water tank 11 is provided with an outlet 11b at its bottom portion, and a cold water pouring conduit 23 is connected to the outlet 11b. A cold water pouring port 21 is provided at the tip of the cold water pouring pipe 23, and the cold water pouring solenoid valve 16 for opening and closing the pipe is connected to the cold water pouring pipe 23 on the upstream side of the cold water pouring pipe 21. Installed. The cold water pouring water solenoid valve 16 is electrically connected to the control unit 20, and its operation is limited according to the amount of water stored in the cold water tank 11. That is, even if the cold water button is pressed when the amount of water stored in the cold water tank 11 is small, the control unit 20 does not permit the opening of the cold water pouring solenoid valve 16, and thus the cold water pouring solenoid valve 16 is closed. Is maintained, and cold water is not dispensed.

In order to facilitate the inflow of water from the water supply bottle 14, the cold water tank 11 is formed with a vent 24 for opening the inside of the cold water tank 11 to the atmosphere. A filter unit 25 is mounted on the vent 24 to prevent the ingress of dust or microorganisms into the cold water tank 11. A HEPA filter is used as a filter member of the filter unit 25.

The tank capacity detecting means 15 includes a first water level sensor 15a installed in the cold water tank 11. The first water level sensor 15a is arranged to detect whether the level of water stored in the cold water tank 11 is above or below a predetermined first level. Therefore, the first water level sensor 15a is electrically connected to the control unit 20 and a water level display lamp (not shown) installed on the front of the case of the water server 10. In addition, FIG. 1 shows a state in which the water level of the cold water tank 11 is lower than the first water level.

The first water level is a water level determined so that when the water level stored in the cold water tank 11 is less than the first water level, the space capacity generated in the cold water tank 11 is equal to or greater than the amount of water enclosed in the water supply bottle 14. Therefore, when it is detected by the first water level sensor 15a that the water level of the cold water tank 11 is less than the first water level, the entire amount of water enclosed in the water supply bottle 14 is supplied to the cold water tank 11 It is possible to do so, so the control unit 20 changes the water supply solenoid valve 18.

On the other hand, when it is detected that the water level of the cold water tank 11 is equal to or higher than the first water level, the space capacity generated in the cold water tank 11 is less than the content of the water supply bottle 14, so that the control unit 20 controls the water supply bottle The water supply solenoid valve 18 is closed so that water is not supplied from the 14 to the cold water tank 11. If the water level of the cold water tank 11 is higher than or equal to the first level, if water is supplied from the water supply bottle 14 to the cold water tank 11, water flows out from the vent 24 of the cold water tank 11 or , Otherwise, the water at room temperature remains in the water supply bottle 14 as in the prior art, so the possibility of microbial growth is not removed. In this embodiment, in order to prevent such a situation, the space capacity generated in the cold water tank 11 is detected by the first water level sensor 15a, and the entire amount of water in the water supply bottle 14 is accommodated in the cold water tank 11 The control unit 20 changes the water supply solenoid valve 18 only when possible.

The tank capacity detecting means 15 of this embodiment further includes a second water level sensor 15b. The second water level sensor 15b is arranged to detect whether or not the water level stored in the cold water tank 11 is above or below a predetermined second water level lower than the first water level. The second water level is set to detect the state of discharge of the cold water tank 11. When it is detected by the second water level sensor 15b that the water level stored in the cold water tank 11 is less than the second water level, the control unit 20 displays a water level lamp installed at the front of the case to indicate the water level. (Not shown). In addition, in this case, even if the cold water button is pressed, the control unit 20 does not permit the change of the cold water pouring solenoid valve 16. In addition, in the present embodiment, when a predetermined time elapses after the lighting lamp is turned on, the control unit 20 sounds an alarm sound informing the lighting state.

Although not shown, the cooling pipe of the cooling device is wound around the outside of the cold water tank 11. The cooling device is a known type that utilizes the compression and expansion of the refrigerant, and the cooling pipe wound in the cold water tank functions as an evaporator.

The cold water tank 11 and the hot water tank 12 disposed below it are communicated by a first connecting pipe 26 in which a flange-shaped portion is installed at the upper end. Water is supplied from the cold water tank 11 to the hot water tank 12 through the first connecting pipe 26. In addition, the cold water tank 11 and the hot water tank 12 are also communicated by the second connecting pipe 27. However, the 2nd connection pipe|channel 27 is provided with the thermodynamic valve 19 which opens and closes that pipe|tube, and the 2nd connection pipe|channel 27 is normally closed by the thermodynamic valve 19. When the thermal valve 19 is changed, the first connection pipe 26 and the second connection pipe 27 form a circulation path between the cold water tank 11 and the hot water tank 12. In the present embodiment, a downward flow flows in the first connection pipe 26 and an upward flow flows in the second connection pipe 27.

The hot water tank 12 is provided with an outlet 12b at its upper portion, and a hot water pouring pipe 28 is connected to the outlet 12b. A hot water dispensing outlet 22 is installed at the tip of the hot water dispensing conduit 28. The hot water pouring solenoid valve 17 is installed in the hot water pouring pipe 28 upstream of the hot water pouring outlet 22 to open and close the pipe.

An electric heater (not shown) is provided on the outer surface of the bottom surface of the hot water tank 12. The electric heater is intermittently operated by the control unit 20 so that the temperature of the hot water supplied to the drinker becomes a desirable temperature. In addition, in this embodiment, the hot water tank 12 side is sterilized by hot water using the hot water of the hot water tank 12, but the electric heater is also operated at this time.

Sterilization of the hot water on the cold water tank 11 side is performed by replacing the cold water in the cold water tank 11 with hot water. Therefore, by opening the thermal valve 19 by the command of the control unit 20, the second connecting pipe 27 is opened, and the electric heater is continuously operated to continuously heat the hot water in the hot water tank 12. Then, the hot water in the hot water tank 12 circulates between the cold water tank 11 by natural convection through the second connecting pipe 27 and the first connecting pipe 26. By continuously operating the electric heater for a certain period of time or more, the temperature of the water in the cold water tank 11 can be raised to 90° C. or higher, which is suitable for sterilization. By performing sterilization of the hot water in the cold water tank 11, not only the water in the cold water tank 11 is sterilized, but also the inner surface of the cold water tank 11 contacting the hot water and the inner surface of the pipe extending from the cold water tank 11 The part of the cold water tank 11 which becomes high temperature by conducting heat of high temperature water by being sterilized and the part surrounding it is also sterilized.

According to the water server 10 according to the first embodiment, when the water supply bottle 14 is exchanged, all the water in the bottle is supplied to the cold water tank 11. Therefore, the possibility that water containing microorganisms grown at room temperature is supplied from the water supply bottle 14 to the cold water tank 11 is completely excluded. As a result, a good hygiene state of the cold water tank 11 is maintained for a long time, and the frequency of sterilization of the hot water to the cold water tank 11 can be reduced. In the past, the frequency of high-temperature water washing was often determined once a day, but according to the water server of the present embodiment, it was confirmed that the hygienic condition of the cold water dispensed was maintained even if the frequency of high-temperature water washing was once every week.

Next, the water supply method to the water server according to the second embodiment of the present invention will be described. Here, it will be described that the water server according to the first embodiment is used.

First, a water supply bottle 14 filled with water to be supplied to the cold water tank 11 is prepared.

Next, it is confirmed that the space capacity generated in the cold water tank 11 is larger than the amount of water in the water supply bottle 14. This is achieved by the control unit 20 based on the signal from the first water level sensor 15a of the tank capacity checking means of the water server 10 in this embodiment. In addition, the control unit 20 changes the water supply solenoid valve 18 installed in the inlet pipe 11a extending from the cold water tank 11.

Next, the empty water supply bottle 14 connected to the cold water tank 11 is separated from the inlet of the tip of the inlet pipe 11a of the cold water tank 11. At this time, it is preferable to clean the joint 13 of the inlet.

Next, the prepared new water supply bottle 14 is inverted, and the front end of the neck portion of the water supply bottle 14 is connected to the inlet port of the front end of the inlet pipe 11a of the cold water tank 11. In this connection, one member 13a of the joint 13 fixed to the tip of the neck of the water supply bottle 14 is attached to the inlet of the cold water tank 11, and the other member 13b of the joint 13 is fixed. It is made by screwing on. In addition, in this embodiment, the water supply bottle 14 is opened by connecting according to the structure of the joint 13 described above, but when opened, the water in the water bottle 14 is supplied to the cold water tank 11. In addition, since it was confirmed that the space capacity generated in the cold water tank 11 was larger than the content of the water supply bottle 14, the total amount of water in the water supply bottle 14 was transferred to the cold water tank 11 within approximately 60 minutes in this embodiment. Is supplied. The water supply to the cold water tank 11 is completed.

It will be understood that the time required for the entire amount of water in the water supply bottle 14 to be supplied to the cold water tank 11 varies depending on the capacity of the water supply bottle 14 or the diameter of the pipe-shaped puncture member of the joint 13. . For example, it is possible to shorten the time required for water supply within a few minutes by increasing the aperture of the puncture member of the joint 13 or by forming an air hole in the joint 13.

As in the case of the first embodiment, by the water supply method for the water server according to the second embodiment, good sanitation of the cold water tank 11 is maintained for a long time, and high temperature water sterilization for the cold water tank 11 is maintained. It will be understood that it is possible to lower the frequency of implementation.

Other embodiments

The water server 10 according to the first embodiment is configured so that the control unit 20 controls opening and closing of the water supply solenoid valve 18 based on the signal of the first water level sensor 15a of the tank capacity checking means However, there is also an embodiment in which there is no water supply solenoid valve 18 and the signal from the first water level sensor 15a is displayed only on the water level indicator lamp. In this case, the person who replaces the water supply bottle 14 can determine whether to replace the water supply bottle 14 through the information of the water level indicator lamp.

Further, in place of the first water level sensor 15a, an embodiment in which a water level gauge of a simple type to be visually confirmed is provided in the cold water tank 11 is also possible.

In the water server water supply method according to the second embodiment, a water server 10 having a control unit 20 or a water supply solenoid valve 18 was used, and the control unit 20 or the water supply solenoid valve 18 was used. An embodiment of a water supply method to a water server that is not provided is also possible. In this case, confirmation of the space capacity created in the cold water tank is made by a person who replaces the water supply bottle by checking the indication of the water level indicator lamp, etc., and as a result of the verification, if it is determined that the water supply bottle can be replaced, the person who is replacing the water supply bottle Is connected to the cold water tank.

In the water server 10 according to the first embodiment, the water supply is over and the empty water bottle 14 is connected to the cold water tank 11, but the water supply bottle 14 is replaced with the cold water tank 11 at the end of the water supply. ), an embodiment with a lid that blocks the inlet of the cold water tank 11 is also possible.

Similarly, with respect to the water supply method to the water server according to the second embodiment, when the supply of the entire amount of water is completed, the water supply bottle 14 is separated from the cold water tank 11, and the inlet portion of the cold water tank 11 is covered with a lid, etc. An embodiment of adding a blockade by is also possible.

In the second embodiment, the water supply bottle 14 is inverted and opened while being connected to the inlet portion of the inlet pipe 11a of the cold water tank 11, but the embodiment also opens the water supply bottle 14 in an erected state. It is possible. In this case, a flexible tube-mounted joint communicating between the main outlet of the water supply bottle 14 and the inlet portion of the cold water tank 11 is prepared, and the water supply bottle 14 opened in the erected state and the inlet port of the cold water tank 11 are described above. After being connected by the joint, the water supply bottle 14 may be lifted upward of the cold water tank 11 and inverted.

The water server according to the first embodiment is configured to selectively dispense cold water and hot water according to demand, but an embodiment of a water server that dispenses only cold water is also possible. The water server in that case does not have a hot water tank and associated pipelines or solenoid valves. In addition, an electric heater for sterilizing hot water as well as a cooling channel is installed in the cold water tank.

10 water servers
11 Cold water tank
12 hot water tank
13 joint
14 water bottle
15 Capacity detection means
16 cold water pouring solenoid valve
17 hot water pouring solenoid valve
18 water supply solenoid valve
20 Control

Claims (10)

A cold water tank in which cold water is stored,
A water supply container filled with water to be supplied to the cold water tank, wherein the water supply container is connected to the cold water tank,
And a tank capacity detection means for detecting whether the capacity of the cold water tank is greater than the content of the water supply container, and the space capacity generated in the cold water tank is greater than or less than the content of the water supply container,
When it is detected by the tank capacity detection means that the space capacity generated in the cold water tank is greater than the content of the water supply container, the entire amount of water in the water supply container connected to the cold water tank is supplied to the cold water tank. Water server. According to claim 1,
A control unit,
A water supply solenoid valve installed in the inlet of the cold water tank through which water from the water supply container flows is further provided.
The control unit opens the water supply solenoid valve when the space capacity generated in the cold water tank, which is detected by the tank capacity detection means, is greater than the content of the water supply container, and if less, closes the water supply solenoid valve. server. The method according to claim 1 or 2,
The tank capacity detecting means includes a first water level sensor that detects whether or not the water level stored in the cold water tank is equal to or higher than a predetermined first water level,
The first water level is a water server that is a water level determined so that the space capacity generated in the cold water tank is equal to or greater than the content of the water supply container when the water level stored in the cold water tank is less than the first water level. According to claim 3,
A cold water injection solenoid valve installed at the cold water injection port of the water server is further provided.
The tank capacity detecting means further includes a second water level sensor that detects whether the level of the cold water tank is equal to or less than a predetermined second level of the water level lower than the first level,
When the level of water stored in the cold water tank detected by the second water level sensor is greater than or equal to the second water level, the control unit permits opening of the cold water injection solenoid valve, while the water level is less than the second water level A water server that does not allow the opening of the cold water injection solenoid valve. According to claim 4,
When a predetermined time elapses after the second water level sensor detects that the water level stored in the cold water tank is less than the second water level, the controller issues an alarm. The method according to any one of claims 1 to 5,
A water server in which the water supply container is connected to the cold water tank even after supply of water from the water supply container to the cold water tank is finished. The method according to any one of claims 1 to 5,
Further provided with a lid for closing the inlet of the cold water tank,
After the water is supplied to the cold water tank from the water supply container, the water supply container is separated from the cold water tank, and the inlet port is closed by the lid. The method according to any one of claims 1 to 7,
In order to selectively dispense hot water in addition to cold water, a hot water tank in communication with the cold water tank is additionally provided,
The water server is configured to supply hot water for sterilization from the hot water tank to the cold water tank. Preparing a water supply container filled with water to be supplied to the cold water tank provided by the water server,
Confirming that the space capacity created in the cold water tank is greater than the amount of water in the water supply container,
And connecting the water supply container to the inlet portion of the cold water tank, and supplying the entire amount of water in the water supply container to the cold water tank through the inlet portion. The method of claim 9,
Separating the water supply container from the inlet portion of the cold water tank after the supplying step,
A method of supplying water to a water server, further comprising blocking the inlet portion of the cold water tank.

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