JP2009196650A - Cold and hot water supplying apparatus - Google Patents

Abstract

The present invention relates to a chilled / hot water supply device that cools or heats water and supplies the chilled / hot water supply device that suppresses convection on the chilled water side or hot water side of the water bottle and prevents water leakage due to malfunction.
A cold / hot water supply device (2) for supplying cold water or hot water by cooling or heating water supplied from a bottle (gallon bottle 6), wherein the cold water tank (8) stores the cold water. A hot water tank (40) for storing the hot water, and a supply pipe (water supply pipe) that is connected to the cold water tank and the hot water tank and supplies the water of the bottle and / or the cold water of the cold water tank to the hot water tank. And a convection suppressing means (separator float 12) that opens and closes the water outlet portion (14) according to the water level of the cold water tank and suppresses convection of the cold water or hot water with respect to the bottle.
[Selection] Figure 1

Description

The present invention relates to a cold / hot water supply apparatus that supplies water such as drinking water provided in bottle units as cold water or hot water by cooling or heating.

  Cold and hot water supply devices (drinking water dispensers) that cool or heat water such as mineral water supplied in bottles and provide it as cold water or hot water have become widespread. This cold / hot water supply device is used for drinking water in general households in addition to drinking water supply in offices and the like.

With regard to such a cold / hot water supply device, Patent Document 1 discloses that a water bottle is installed in the upper part of the apparatus with a water outlet facing downward, the water supplied from the water bottle is stored in a cold water tank, and the water level in the cold water tank is at a certain level. When it goes up above, it is disclosed that the water overflowed from the cold water tank flows into the hot water tank and the hot water tank is filled.
JP 2000-85892 A (summary, FIG. 1 etc.)

  By the way, regarding such a cold / hot water supply device, when the hot water tank is full, the cold water tank is filled with water and the water level rises to the water outlet of the water bottle maintained in an inverted state, the water from the water bottle The supply of is stopped. In this case, since the water in the water bottle and the cold water are in contact with each other, a convection state occurs.

  If such a state continues, the water in the water bottle is cooled by the cold water in the cold water tank, and the water heated on the hot water tank side, that is, the hot water flows from the water supply pipe to the upper layer of the cold water tank, and as a result There is a disadvantage that the water in the water bottle is heated by warm water.

  Such heating of the water in the water bottle is not preferable for hygiene, and if the cold water is not consumed for a long time and is contaminated with bacteria or the like, it is necessary to discard the water in the water bottle. . In addition, it is necessary to dispose of the cold water in the cold water tank and periodically sterilize the cold water tank.

  Moreover, when the water in the water bottle is heated by the hot water and the internal pressure rises due to the expansion of the air in the water bottle, the water level on the cold water tank side may rise abnormally, which may cause water leakage.

  Then, the objective of this invention is related with the cold / hot water supply apparatus which supplies cold water or warm water, and exists in suppressing the convection of the cold water side or warm water side with respect to a water bottle.

Another object of the present invention relates to a cold / hot water supply device for supplying cold water or hot water, and is to prevent water leakage due to malfunction.

  In order to achieve the above object, the cold / hot water supply apparatus of the present invention is provided with convection suppression means for suppressing convection between the upstream side and the downstream side, so that cold water and hot water on the downstream side flow into the upstream side. Thus, the upstream heating is suppressed and the occurrence of water leakage due to malfunction is prevented.

  Therefore, in order to achieve the above object, the cold / hot water supply device of the present invention is a cold / hot water supply device that supplies cold water or hot water by cooling or heating water supplied from a bottle, and stores the cold water. A cold water tank, a hot water tank for storing the hot water, a supply pipe connected to the cold water tank and the hot water tank, and supplying water from the bottle or / and the cold water from the cold water tank to the hot water tank; It is provided with a convection suppression means that opens and closes the water outlet portion according to the water level of the tank and suppresses convection of the cold water or the warm water with respect to the bottle. With such a configuration, convection of water is suppressed and the above object can be achieved.

  In order to achieve the above-mentioned object, in the cold / hot water supply apparatus, preferably, the convection suppressing means is configured such that when the water outlet portion is closed, air is provided between the water outlet portion and the full water level of the cold water tank. A layer may be formed, and the air layer may block the water on the water outlet side and the water on the cold water tank side. With such a configuration, the water on the upstream side and the downstream side is separated and blocked by the air layer, and the above object can be achieved.

  In order to achieve the above object, in the cold / hot water supply apparatus, preferably, the convection suppression means moves up and down depending on a water level of the cold water tank, and opens and closes the water outlet portion. It is good also as a structure provided with the accommodated cover. The above object can also be achieved by such a configuration.

  In order to achieve the above object, in the cold / hot water supply apparatus, preferably, the float has a standing wall portion that circulates opposite to the water outlet portion, and the water is stored inside the standing wall portion. The float is held on the water outlet side using the surface tension of the water accumulated in the recess and the buoyancy acting on the float as a holding force, and the water level of the cold water tank decreases. When the weight of the float exceeds the holding force, the float may be lowered to open the water outlet. According to such a configuration, the water outlet portion is opened with a time delay from the lowering of the downstream water level, so that convection of water between the upstream side and the downstream side can be suppressed, and the above object can be achieved.

In order to achieve the above object, in the cold / hot water supply apparatus, preferably, the supply pipe includes a separation plate that separates the upper layer side and the lower layer side of the water of the cold water tank. It is good. The above object can also be achieved by such a configuration.

  (1) Concerning cold / hot water supply devices that supply cold water or hot water, convection between the cold water side and the hot water side can be suppressed, and inconveniences such as mixing of hot water with water on the water bottle side or cold water in the cold water tank can be prevented. .

  (2) Concerning the cold / hot water supply device for supplying cold water or hot water, convection between the cold water side and the hot water side can be suppressed, and heating by the hot water on the cold water side can be suppressed.

  (3) The expansion of air in the water bottle side can be suppressed and water leakage due to malfunction can be prevented.

  (4) Water bottle water can be quickly supplied to the cold water tank.

  (5) If a float is installed to open and close the water outlet, the water outlet can be opened and closed with a simple structure, contributing to low cost and space saving.

  (6) If the water outlet is blocked by a float, an air layer can be formed on the cold water tank side, and heat conduction by hot water and bacterial infection by heating can be suppressed.

(7) If the water outlet is closed with a float, the ingress of air can be suppressed by the surface tension of water, and the inflow of water from the water bottle to the cold water tank can be suppressed.

  The cold / hot water supply apparatus will be described with reference to FIGS. 1 and 2. FIG. 1 is a diagram illustrating an example of a cold / hot water supply device, and FIG. 2 is a diagram illustrating an example of an external configuration of the cold / hot water supply device.

  For example, a gallon bottle 6 is installed in the upper part of the casing 3 of the cold / hot water supply device 2 as a water bottle containing drinking water 4 as water, and the drinking water 4 in the gallon bottle 6 is It is supplied from the lid 10 of the cold water tank 8 which is the first tank. When the water level of the drinking water (cold water) 4 in the cold water tank 8 rises, the separator float 12 is pushed up. When the upper part of the separator float 12 contacts the water outlet part 14 of the lid part 10, the supply of the drinking water 4 from the gallon bottle 6 is stopped. Further, when the level of the drinking water 4 in the cold water tank 8 falls and the upper surface of the separator float 12 moves away from the water outlet portion 14 of the lid portion 10, for example, an air intake 16 provided in the lid portion 10 of the cold water tank 8. The air taken in from the water enters the gallon bottle 6 from the water outlet 14 through the cold water tank 8. Due to the intrusion of air, drinking water 4 is supplied from the gallon bottle 6 to the cold water tank 8. When the water level in the cold water tank 8 rises and the separator float 12 closes the water outlet part 14, the inflow of the drinking water 4 from the gallon bottle 6 is stopped again. That is, the separator float 12 constitutes convection suppression means for blocking the drinking water 4 in the gallon bottle 6 and the drinking water 4 in the cold water tank 8. With such a configuration, the drinking water 4 is supplied from the gallon bottle 6 to the cold water tank 8 according to the consumption of the drinking water 4.

  A separation plate 18 is installed in the cold water tank 8, and the drinking water 4 in the cold water tank 8 is divided into an upper layer portion and a lower layer portion by the separation plate 18. For example, an evaporator 19 is installed in the cold water tank 8 as a cooling means. The evaporator 19 is installed on the lower layer side partitioned by the separation plate 18 and cools the drinking water 4 on the lower layer side in the cold water tank 8. The cold water tank 8 is provided with a cold water sensor 20 as a first temperature detecting means, and detects the temperature of the drinking water 4 in the cold water tank 8. A cooling device 22 installed at the bottom of the casing 3 is connected to the evaporator 19. The cooling device 22 is connected to, for example, a compressor 24, a dryer 26, and a condenser 28 by a refrigerant pipe 30. A capillary tube 32 is installed in the middle of 30. In such a configuration, the drinking water 4 in the cold water tank 8 is cooled by circulating the refrigerant through the refrigerant pipe 30 between the cooling device 22 and the evaporator 19.

  A cold water supply pipe 34 is connected to the bottom of the cold water tank 8, and a cold water electromagnetic valve 36 is installed in the cold water supply pipe 34. In the cold / hot water supply device 2, the cold drinking water 4 is supplied from the cold water tank 8 through the cold water supply port 38 by opening the cold water electromagnetic valve 36.

  Below the cold water tank 8, a hot water tank 40 as a second tank is installed. The warm water tank 40 is provided with a warm water heater 42 as a heating means, and the warm water heater 42 heats the drinking water 4 in the warm water tank 40.

  In the hot water tank 40, a water supply pipe 46 having an opening 44 on the center upper surface of the separation plate 18 is installed through the cold water tank 8. That is, the water supply pipe 46 extends from the central upper surface of the separation plate 18 to the bottom side of the hot water tank 40. A hot water supply pipe 48 is connected to the upper part of the hot water tank 40, and a hot water electromagnetic valve 50 is installed in the hot water supply pipe 48. When the hot water electromagnetic valve 50 is opened, drinking water in the hot water tank 40 is provided. 4 is taken out from the hot water supply port 52. The amount of drinking water 4 that is extracted from the hot water supply port 52 is supplied to the hot water tank 40 through the water supply pipe 46 from the cold water tank 8 side. And the drinking water 4 for the water level fall of the cold water tank 8 is supplied from the gallon bottle 6 as described above.

  The hot water tank 40 is provided with a hot water sensor 54 as a second temperature detecting means, and detects the temperature of the drinking water 4 in the hot water tank 40. A drain pipe 56 is connected to the bottom of the hot water tank 40, and the drain pipe 56 is opened and closed by a drain plug 58.

  The cold water sensor 20 and the hot water sensor 54 may have any configuration as long as they can detect a set temperature, which will be described later. For example, a configuration using a thermistor thermometer or the like may be used.

  Further, a bypass pipe 60 is connected between the bottom of the cold water tank 8 and the upper part of the hot water tank 40 in addition to the water supply pipe 46, and the bypass pipe 60 is opened and closed by a bypass valve 62. The bypass pipe 60 forms a circulation passage for circulating the drinking water 4 between the hot water tank 40 and the cold water tank 8. When the bypass valve 62 is opened, the heated drinking water in the hot water tank 40 is heated. Reference numeral 4 denotes a configuration that circulates in the cold water tank 8. In order to prevent a short cycle between the circulation passage and the water supply pipe 46, the opening 44 of the water supply pipe 46 is opened above the separation plate 18, and the bypass pipe 60 is opened at the bottom of the cold water tank 8. .

  The cold / hot water supply device 2 is provided with a control device 64 as a control means, and the control device 64 is provided with a display / operation unit and a control unit. The control device 64 receives detection information from the cold water sensor 20, the hot water sensor 54, and the like, and performs various controls such as cooling control, heating control, and energy saving control.

  As shown in FIG. 2, the cold / hot water supply device 2 has a mounting portion 66 for the gallon bottle 6 formed in the upper portion of the housing 3 and a display / operation portion 68 installed below it. A water supply window 70 is opened, and a cold water supply port 38 and a hot water supply port 52 are installed therein. On the lower side of the cold water supply port 38 and the hot water supply port 52, a mounting portion 72 for placing a cup is formed.

  Next, the display / operation unit will be described with reference to FIG. 3A is a diagram illustrating a configuration of a panel unit that is an example of a display / operation unit, and FIG. 3B is a diagram illustrating an example of a display unit. In FIG. 3, the same parts as those in FIG.

  As shown in FIG. 3A, the display / operation unit 68 includes a display unit 74 for displaying time and the like, an addition switch (SW) 76 for adding values, and a subtraction switch for subtracting values. (SW) 78, a setting switch (SW) 80 for switching to or canceling the setting mode, an energy saving switch (SW) 82 for switching to or canceling the energy saving mode, a timer 130 (FIG. 4), Timer / clock switch (SW) 84 for adjusting time, start / stop switch (SW) 86 for starting or stopping, automatic high-temperature water circulation mode for notifying the user that the cleaning process is being performed by high-temperature water circulation As an example of the display unit 88 and the forced temperature change switch, a high temperature setting command (SW) 90 for performing a high temperature setting command different from the normal operation or releasing it, As an example of a temperature control switch, a chilled water setting command (SW) 92 that is different from normal operation or a chilled water setting switch (SW) 92 for releasing it, a hot water supply switch (SW) 94 for commanding hot water supply, unlocking hot water or water supply Is provided with a lock release switch (SW) 96 for instructing water supply and a water supply switch (SW) 98 for instructing water supply. Further, in the vicinity of the high temperature setting switch 90, for example, a normal temperature display unit 100 that displays a set temperature during normal operation as a first operation mode, for example, 85 [° C.] is displayed by lighting, and a high temperature displayed by lighting during forced high temperature. A display unit 102 is installed, and these are configured by lamps such as LEDs (Light Emitting Diodes). In the vicinity of the chilled water setting switch 92, a temperature display unit 104 that displays that the first chilled water set temperature, for example, 8 [° C.] is turned on, and the second chilled water set temperature, for example, 12 [° C.]. A temperature display unit 106 for displaying by lighting is installed, and these are also constituted by lamps such as LEDs. In addition, an unlock display unit 107 indicating whether or not the hot water supply SW 94 or the water supply SW 98 is unlocked by the lock release SW 96, an energy saving display unit 108 indicating that the energy saving SW 82 is pressed, and the like are provided.

  As shown in FIG. 3B, a clock / timer time display unit 109, a timer display unit 110, stage display units 112 and 114, a start display unit 116, and an end display unit 118 are set in the display unit 74. Yes. In the clock / timer time display unit 109, in addition to the normal clock display, settings such as the cleaning process and the start time of the energy saving mode are displayed.

  Next, FIG. 4 is referred about the structure of a control apparatus. FIG. 4 is a diagram illustrating a configuration example of the control device. 4, the same parts as those in FIGS. 1 and 3 are denoted by the same reference numerals. Note that the configuration of the control device is merely an example, and is not limited thereto.

  The control device 64 includes a control unit 120 including a microcomputer or the like, and the control unit 120 is connected to a display / operation unit 68. The control unit 120 includes a processor 122, an I / O unit 124, a storage unit 126, a RAM (Random Access Memory) 128, a timer 130, and the like, which are connected via a bus 132.

  The processor 122 includes a CPU (Central Processing Unit) or an MPU (Micro Processor Unit), and executes an OS (Operating System) and an operation program stored in the storage unit 126. The I / O unit 124 is an input / output interface of the control unit 120. For example, the hot water heater 42 connected to the I / O unit 124 such as taking in detected temperature information from the cold water sensor 20 and the hot water sensor 54 is used. The operation control signal is sent to the hot water solenoid valve 50, the cold water solenoid valve 36, the compressor 24, the bypass valve 62, and the like. In addition, an input operation instruction from the display / operation unit 68 is taken in and a display control signal is sent out.

  The storage unit 126 is configured by a ROM (Read Only Memory), and functions as a program storage unit that stores an OS to be executed by the processor 122 and an operation program related to an operation program of the cold / hot water supply device. Etc. may be stored. The RAM 128 functions as a working area for processing the operation program. The timer 130 is a time measuring unit and a clock unit, and measures time necessary for control such as acquiring time information related to various types of operation control.

  In addition, the control device 64 is connected to a power supply unit 134 that performs power supply control of the cold / hot water supply device 2 and a buzzer 136 as notification means in the case of an abnormal operation or the like.

  Next, FIG.5 and FIG.6 is referred about the flow of a separator float and drinking water. FIG. 5 is a diagram illustrating a configuration example of a separator float, and FIG. 6 is a diagram illustrating a flow of drinking water. 5 and 6, the same parts as those in FIG. 1 are denoted by the same reference numerals.

  When the gallon bottle 6 is placed on the mounting portion 66, the projection 140 at the center of the lid portion 10 opens the valve 144 on the cap 142 of the gallon bottle 6, and the drinking water 4 enters the intake port 146, and the water outlet It flows out from the part 14 toward the separator float 12. The float cover 148 of the separator float 12 has a lattice structure at the circumference and bottom, and the drinking water 4 flows into the cold water tank 8 from between the lattices. The drinking water 4 enters the cold water tank 8 from the periphery of the separation plate 18, and simultaneously flows from the opening 44 in the center of the separation plate 18 to the water supply pipe 46 and is supplied to the hot water tank 40. In such a configuration, as shown in FIG. 6, when the water level in the cold water tank 8 is lowered, the position of the separator float 12 is lowered, and the drinking water 4 is supplied from the water outlet portion 14 of the lid portion 10.

  Next, FIG. 7 is referred with respect to the flow of air. FIG. 7 is a diagram showing the flow of air. In FIG. 7, the same parts as those in FIG.

  The drinking water 4 in the gallon bottle 6 flows out from the water outlet 14 at the center of the lid 10, but the inside of the gallon bottle 6 is made negative pressure by the amount of the outflow, and air inflow (breathing connection) is caused by the negative pressure. As shown in FIG. 7, the outflow of the drinking water 4 starts once the air 149 enters the gallon bottle 6 from the air intake port 16 and the negative pressure is eliminated. . The outflow of the drinking water 4 and the air inflow are alternately repeated, and the drinking water 4 is supplied to the cold water tank 8.

  Next, FIG. 8 is referred about the interruption | blocking of drinking water. FIG. 8 is a diagram illustrating blocking of drinking water. In FIG. 8, the same parts as those in FIG.

  As shown in FIG. 8, when the hot water tank 40 becomes full and the water level in the cold water tank 8 rises, the separator float 12 floats in the float cover 148 according to the water level in the cold water tank 8 and the lid 10. In addition to blocking the inflow of drinking water 4, the intake (inflow) of air is blocked. At this time, the water level of the drinking water 4 is lower than the bottom of the lid 10 and is not in contact with the bottom of the lid 10 so that an air layer 150 is formed. That is, the separator float 12 is in a state where it floats on the drinking water 4 in the cold water tank 8, and a part of the upper side of the separator float 12 protrudes on the surface of the water. An air layer 150 is formed between the water surface 4 and the water outlet 14 of the gallon bottle 6.

  In this case, the upper portion of the separator float 12 is directly below the water outlet portion 14, and the drinking water 4 is collected in the concave portion 152. The drinking water 4 in the recess 152 is collected when the drinking water 4 is supplied. When the water level of the cold water tank 8 rises, the separator float 12 approaches the bottom of the lid 10, the outflow of the drinking water 4 from the gallon bottle 6 ends, and comes into contact with the drinking water 4 in the recess 152 of the separator float 12. The air inflow stops and the outflow of the drinking water 4 is blocked. At this time, the drinking water 4 in the recess 152 of the separator float 12 is in close contact with the bottom of the lid 10 and surface tension acts. This surface tension serves to prevent the inflow of air.

  When the drinking water 4 in the cold water tank 8 is consumed and its water level is lowered, the separator float 12 that is in close contact with the bottom of the lid 10 loses its buoyancy and the weight of the separator float 12 depends on the drinking water 4. The surface tension is overcome, the contact with the bottom of the lid 10 is released, and the separator float 12 falls to the lowered water level of the cold water tank 8. As a result, air flows into the gallon bottle 6 and the drinking water 4 flows into the cold water tank 8 from the gallon bottle 6 accordingly.

  Next, FIG. 9 is referred about a separator float. FIG. 9A is a front view showing the configuration of the separator float, and FIG. 9B is a plan view thereof.

  As shown in FIG. 9A, the separator float 12 has a circular valve portion 154 formed on the upper surface side and a concave portion 152 that is circulated by a standing wall portion 156 that forms the valve portion 154. ing. That is, the standing wall portion 156 is in close contact with the bottom side of the lid portion 10, and the drinking water 4 filled in the recessed portion 152 has a structure that rises and is stored above the standing wall portion 156 due to surface tension. Therefore, it is desirable that the upper end of the standing wall portion 156 be formed in a plane. Moreover, it is effective in obtaining sufficient surface tension that the inner diameter of the standing wall portion 156 is set sufficiently wider than the diameter of the water outlet portion 14.

  The separator float 12 has a cavity 158 for generating sufficient buoyancy, and a recess 160 for storing air is formed on the lower surface thereof. The separator float 12 is made of a material that has water resistance and has a weight sufficient to overcome surface tension, such as a resin or a foamed resin, in order to obtain buoyancy with respect to water. Any material can be used. If sufficient buoyancy can be obtained by the cavity 158 and the material, the recess 160 on the lower surface side may be omitted.

  A shaft portion 162 is provided in the center on the lower surface side of the separator float 12, and the lower end thereof is fitted in the hole 168 (FIG. 10) in the center of the float cover 148. Further, the plurality of ribs 164 formed radially around the separator float 12 at regular intervals are guide ribs when the separator float 12 moves up and down, and also serves as weighting together with reinforcement of the separator float 12. In addition, the gap between the float cover 148 and each rib 164 of the separator float 12 is very small, and is in line contact in order to ensure smooth sliding between the two.

  Next, FIG. 10 is referred about a float cover. FIG. 10 is a diagram illustrating a configuration example of the float cover.

  As shown in FIG. 10, the float cover 148 is attached to the bottom of the lid portion 10, and the lid portion 10 and the float cover 148 can be attached and detached by a lock mechanism 166 (FIG. 8). Further, a hole 168 through which the shaft portion 162 (FIG. 9) of the separator float 12 is inserted is provided at the bottom center of the float cover 148.

  With such a configuration, when the separator float 12 floats as the water level in the cold water tank 8 rises, the shaft 162 of the separator float 12 is determined by the hole 168 of the float cover 148 so that the course of the float is determined. As described above, the standing wall portion 156 and the concave portion 152 of the separator float 12 can be brought into contact with predetermined positions of the lid portion 10, and the water outlet portion 14 can be reliably closed. Further, in this way, the separator float 12 is brought into contact with the lid portion 10 to form the air layer 150 between the water surface of the drinking water 4 in the cold water tank 8 and the water outlet portion 14 of the lid portion 10. By utilizing the surface tension, convection between the cold water side and the hot water side can be suppressed, and hot water is mixed into the water on the gallon bottle 6 side or the cold water in the cold water tank 8, or the cold water side is heated by the hot water. Inconvenience can be suppressed, and heat conduction by warm water and bacterial infection by heating can be suppressed. In addition, by opening and closing the water outlet portion 14 by a float structure, it contributes to low cost and space saving.

As described above, the most preferable embodiment and the like of the present invention have been described. However, the present invention is not limited to the above description, and is described in the claims or disclosed in the specification. It goes without saying that various modifications and changes can be made by those skilled in the art based on the above gist, and such modifications and changes are included in the scope of the present invention.

The present invention relates to a cold / hot water supply apparatus that cools or heats water and supplies water, and can reliably prevent convection between water on the water bottle side and water on the cold water tank side with a simpler configuration. It can suppress that warm water mixes in the cold water of a cold water tank, and the water in a cold water tank is heated. In addition, by blocking the water outlet with a float, an air layer is formed on the cold water tank side, which can suppress heat conduction by hot water and bacterial infection by heating, which is useful

It is a figure which shows an example of a cold / hot water supply apparatus. It is a figure which shows an example of an external appearance structure of a cold / hot water supply apparatus. It is a figure which shows an example of the display and operation part of a cold / hot water supply apparatus. It is a figure which shows the structure of a control apparatus. It is a figure which shows the structural example of a separator float. It is a figure which shows the flow of drinking water. It is a figure which shows the flow of air. It is a figure which shows interruption | blocking of drinking water. It is a figure which shows the structural example of a separator float. It is a figure which shows the structural example of a float cover.

Explanation of symbols

2 Cold / Hot Water Supply Device 3 Case 4 Drinking Water 6 Gallon Bottle 8 Cold Water Tank 10 Lid 12 Separator Float 14 Water Outlet Port 16 Air Inlet 34 Cold Water Supply Pipe 40 Hot Water Tank 140 Protrusion 146 Inlet Port 148 Float Cover 150 Air Layer 152 Concave portion 154 Valve portion 156 Standing wall portion 158 Cavity portion 160 Concave portion 162 Shaft portion

Claims (5)

A cold / hot water supply device for supplying cold water or hot water by cooling or heating water supplied from a bottle,
A cold water tank for storing the cold water;
A hot water tank for storing the hot water;
A supply pipe connected to the cold water tank and the hot water tank to supply the bottled water or / and the cold water in the cold water tank to the hot water tank;
Convection suppression means for opening and closing the water outlet according to the water level of the cold water tank, and suppressing convection of the cold water or the warm water with respect to the bottle,
A cold / hot water supply apparatus comprising: In the cold / hot water supply apparatus of Claim 1,
The convection suppressing means forms an air layer between the water outlet portion and the full water level of the cold water tank when the water outlet portion is closed, and the water on the water outlet portion side and the cold water are formed by this air layer. A cool / warm water supply device that shuts off the water on the tank side. In the cold / hot water supply apparatus of Claim 1,
The convection suppression means moves up and down depending on the water level of the cold water tank, and floats to open and close the water outlet part;
A cover containing this float,
A cold / hot water supply apparatus comprising: In the cold / hot water supply apparatus of Claim 3,
The float is a standing wall portion that circulates in opposition to the water outlet portion;
A recess in which the water is stored inside the standing wall;
Using the surface tension of the water stored in the recess and the buoyancy acting on the float as a holding force to hold the float on the water outlet side, the water level of the cold water tank is lowered, When the weight of a float exceeds the holding force, the cold / hot water supply device is configured to lower the float and open the water outlet. In the cold / hot water supply apparatus of Claim 1,
The cold / hot water supply device, wherein the supply pipe includes a separation plate that separates the upper layer side and the lower layer side of the cold water tank.

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