JP2000219296A - Beverage feeding apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify a structure of a pipeline part for an air vent. SOLUTION: The first solenoid valve 6 with an air vent hole 8 on an outlet port 7 is provided on a hot water feeding port 5 of a hot water storing tank 1. The second solenoid valve 16 is provided on a discharging pipe 13B of a cooling coil 13 immersed in a cooling water tank 11 and an air vent hole 21 is provided on a connecting hole 19 of a joint 18 connected with an outlet side. An air vent hose 23 is raised up and connected with the air vent hole 21 and the joint 18 and the air vent hole 8 of the first electromagnetic valve 6 are connected with each other through a connecting hose 25. When the first solenoid valve 6 is opened, hot water H is discharged from the outlet port 7, and when the first electromagnetic valve 6 is closed, air is vented through the air vent hole 8, the connecting hose 25 and the air vent hose 23. When the second solenoid valve 16 is opened, cold water C is discharged from the outlet port 7 through the joint 18 and the connecting hose 25, and when the second solenoid valve 16 is closed, air is vented through the air vent hose 23.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a beverage supply device such as a tea machine.

[0002]

2. Description of the Related Art In recent years, many tea dispensers are capable of selectively discharging tea or plain hot water, or even cold tea or cold water. On the side that supplies tea or plain hot water, a hot water storage tank that can store hot water is provided, and a solenoid valve is provided at the discharge port, and when tea or white hot water is selected to be discharged, the solenoid valve is opened. The stored hot water is discharged by the head pressure, mixed with powdered tea, and then supplied directly to the spout as tea or plain hot water. On the other hand, on the side where cold tea or cold water is supplied, a cooling coil through which tap water can flow is immersed in a cold water tank storing cooling water, and an electromagnetic valve is provided at the outlet side of the cooling coil, so that cold tea or cold water is provided. Is selected, tap water is pumped to the cooling coil by opening the solenoid valve, discharged in a cooled state, mixed with powdered tea, and then directly as cold tea or as cold water It is supplied to. Here, on both the hot water storage tank side and the cold water tank side, it is common to provide an air vent in the middle of the outlet side of the solenoid valve so that hot or cold water flows smoothly even after the solenoid valve is closed. (See Japanese Utility Model Laid-Open No. 3-36590).

[0003]

However, when the supply pressure of tap water is high on the cold water tank side, a part of the cold water may be blown out from the air vent, so the air vent hose is connected to the air vent. To prevent cold water from spurting out. On the other hand, in the case of clogging on the spout port side also on the hot water storage tank side, there is a possibility that hot water may be ejected from the air vent port, so similarly raise the air vent hose to the air vent port and connect it. It is desirable. In other words, in order to reliably prevent cold or hot water from leaking, it is necessary to connect an air release hose to the air release port of each solenoid valve and support them in a rising form, which complicates the structure, There is a problem that a large space is required for piping. The present invention has been completed based on the above circumstances, and an object of the present invention is to simplify the structure of a piping portion for bleeding air.

[0004]

According to a first aspect of the present invention, there is provided a beverage supply apparatus capable of controlling discharge and stoppage of a liquid from a liquid supply source and controlling the outlet. Two on-off valves provided with air vents on the way are provided. The air vent of one on-off valve is connected to the outlet of the other on-off valve by a connection pipe, and the air vent of the other on-off valve is It is characterized in that the air vent pipe is connected. According to a second aspect of the present invention, in the first aspect, one of the on-off valves is provided in a liquid supply source capable of discharging hot water, and the other on-off valve is provided in a liquid supply source capable of discharging cold water. It has a characteristic where it is.

[0005]

Operation and effect of the invention <Invention of claim 1> When one of the on-off valves is opened, the liquid is discharged from the outlet of the on-off valve. When this one on-off valve is closed, the middle of the outlet is communicated with the outside air through an air vent, a connection pipe, and an air vent tube connected to the air vent of the other on-off valve. Liquid flows out smoothly. Even if a reverse flow occurs at the outlet side of one of the on-off valves, the liquid does not flow around to the connection pipe side and overflow. When the other open / close valve is opened, the liquid is discharged from the outlet of the open / close valve through the connection pipe, then through the air vent of the one open / close valve, and from the outlet of the one open / close valve. When the other on-off valve is closed, the liquid flows out smoothly because the middle of the outlet is communicated with the outside air by the air vent pipe. Even if a backflow occurs at the outlet side of the other on-off valve, the liquid does not flow around the air vent pipe and overflow. That is, in order to prevent air bleeding and liquid ejection in each of the two on-off valves, it is only necessary to provide one air bleeding pipe, and the structure including the support structure of the air bleeding pipe can be simplified, Piping space can also be reduced. <Invention of claim 2> In addition to being able to separately discharge hot water and cold water, by opening both on-off valves simultaneously, the two can be mixed and lukewarm water can be supplied.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIG.
It will be described based on. This embodiment exemplifies hot water and cold water supply portions in a tea machine. In the figure,
Reference numeral 1 denotes a hot water storage tank, which is provided with a throw-in type heater 2 on the bottom side in the hot water storage tank 1, and is opened through a water supply pipe 3 by opening a water supply valve (not shown). Tap water is supplied from the side, a predetermined amount is stored, and the temperature is maintained at a predetermined temperature by being heated by the heater 2. When the water level falls to a predetermined level, the water supply valve is opened to automatically supply water to the predetermined level.

A hot water supply port 5 is provided on the bottom side of the hot water storage tank 1, and the hot water supply port 5 is provided with an electromagnetic valve 6 (hereinafter, referred to as a first electromagnetic valve 6) having an outlet port 7 facing downward. . Therefore, when the first solenoid valve 6 is opened, the stored hot water H is discharged by the head pressure.
The outlet port 7 is connected to a spout (not shown) via a mixing container for mixing with powdered tea or the like, or directly connected to the spout. In the middle of the outlet port 7 of the first solenoid valve 6, an air vent 8 is projected obliquely upward, and a connecting member 9 having an enlarged diameter is provided at the tip thereof.

[0008] Above the hot water storage tank 1, a cold water tank 11 is provided. The cold water tank 11 has a heat insulating structure,
An evaporating pipe 12 is formed and arranged along the inner wall in a spirally wound spiral cylindrical shape. Evaporation pipe 12
Are drawn out to the outside, and are circulated and connected to a refrigeration apparatus (not shown) by a refrigerant pipe to constitute a known refrigeration cycle. Inside the evaporation pipe 12,
Evaporating pipe 12
Cooling coil 13 wound tightly around a cylindrical shape smaller than
Are concentrically housed. From the upper end and the lower end of the cooling coil 13, an inflow pipe 13A and an outflow pipe 13B are drawn out through the lid 15, and the inflow pipe 13A is connected to a water supply source side such as tap water. One outflow pipe 13B is
An electromagnetic valve 16 (hereinafter, referred to as a second electromagnetic valve 1) provided on the lid 15.
6).

That is, when the refrigerating device is operated on the cold water tank 11 side, the refrigerant circulated in the refrigerant pipe is vaporized in the evaporating pipe 12, and the cooling water W near the evaporating pipe 12 is absorbed by an endothermic action generated at that time. Cooling produces an ice layer, and the cooling water W is cooled by the latent heat of the ice layer.
Then, when the second solenoid valve 16 is opened, tap water is pressure-fed from the inflow pipe 13A and introduced into the cooling coil 13,
It is cooled while flowing through it and the second
The liquid is discharged through the solenoid valve 16.

A joint 1 having a downward connection port 19 is provided at the outlet port of the second solenoid valve 16 on the cold water tank 11 side.
8 is attached, and an obliquely upward air vent 21 is protruded in the middle of the connection port 19. Then, an air release hose 23 is connected to the air release port 21, and the tip thereof is raised and fixed by an attachment (not shown). Also, there is a gap between the connection port 19 of the joint 18 connected to the second electromagnetic valve 16 on the cold water tank 11 side and the connection tool 9 connected to the air vent 8 of the first electromagnetic valve 6 on the hot water storage tank 1 side. , And a connection hose 25.

Next, the operation of the present embodiment will be described. When the tea or white water discharging switch is operated, the first solenoid valve 6 on the hot water storage tank 1 side is opened for a predetermined time, and the stored hot water H is discharged from the hot water supply port 5 by the water head pressure, and is indicated by a dashed arrow. As shown in the figure, the outlet port 7 of the opened first solenoid valve 6
And mixed with powdered tea to be poured directly from the spout as tea or as white hot water.

The outlet port 7 of the first solenoid valve 6 communicates with the outside air through an air vent 8, a connection hose 25, an air vent 21 provided in the joint 18 on the second solenoid valve 16 side, and an air vent hose 23. Therefore, even after the first solenoid valve 6 is closed, the inside of the outlet port 7 is prevented from tilting to a negative pressure, and the hot water H flows smoothly, causing drooping on the spout side or in the spout path. Will not remain. Further, when clogging occurs on the spout side during the discharge of the hot water H, there is a possibility that a backflow may occur. However, there is no danger of the backflow spilling outside just by turning to the connection hose 25 side. In addition, the backflow is temporarily stored in the connection hose 25 or the like as described above, and flows out to the pouring path after the first solenoid valve 6 is closed. Dispensing quantitatively with time control is ensured.

On the other hand, when the switch for discharging cold tea or cold water is operated, the second solenoid valve 16 on the side of the cold water tank 11 is opened for a predetermined time, and tap water is introduced into the cooling coil 13 through the inflow pipe 13A. And cooled while flowing through it,
The cold water C is discharged through the opened electromagnetic valve 16. After that, as shown by the solid arrow,
8 through the connection hose 25, through the air vent 8 of the first solenoid valve 6 on the hot water storage tank 1 side, is supplied from the outlet port 7 and mixed with powdered tea as cold tea or as cold water directly from the spout. Will be poured out.

From the joint 18 connected to the output port of the second solenoid valve 16, the air release hose 23 is drawn out and communicated with the outside air, so that the cold water C is smooth even after the second solenoid valve 16 is closed. Similarly, no drooping occurs on the pouring outlet side or remains in the pouring path. Further, if clogging occurs on the spout side during the discharge of the cold water C, there is a possibility that backflow will occur. However, there is no danger that the backflow will only flow to the rising air release hose 23 side and overflow. Further, the amount of the backflow is temporarily stored in the air release hose 23 as described above, and the second solenoid valve 1
After the valve 6 is closed, it flows out to the pouring path side, so that the quantitative pouring due to the control of the opening time of the second solenoid valve 16 is ensured.

If a return pipe for connecting the inside of the cold water tank 11 and the outside air is set up on the lid 15 of the cold water tank 11 and the upper end of the air release hose 23 is connected in the middle of the return pipe, For example, even if the supply pressure of the tap water is high and the backflow becomes large and it cannot be completely contained in the air release hose 23, the overflowed water does not flow into the cold water tank 11 from the return pipe and overflow to the outside. . Further, if a control mode for simultaneously opening the first solenoid valve 6 on the hot water storage tank 1 side and the second solenoid valve 16 on the cold water tank 11 side is provided, the warm water H and the cold water C are mixed to supply lukewarm water. Can be.

As described above, according to this embodiment, the solenoid valves 6 and 6 provided separately in the hot water storage tank 1 and the cold water tank 11 are used.
At 16, when air bleeding and prevention of hot water H or cold water C were to be blown out, one air bleed hose 23 was used.
Can be achieved simply by providing Therefore, the structure including the support structure of the air release hose 23 can be simplified, and the piping space for the air release hose can be reduced.
Thus, the entire apparatus can be compactly assembled.

<Other Embodiments> The present invention is not limited to the embodiments described above and illustrated in the drawings. For example, the following embodiments are also included in the technical scope of the present invention. In addition, various changes can be made without departing from the scope of the invention. (1) In the above embodiment, the case where different types of tanks, such as a hot water storage tank and a cold water tank, are provided and each has an electromagnetic valve individually, but two tanks of the same type are provided. The present invention can be similarly applied to a case where each of them has an individual electromagnetic valve. (2) Further, the present invention can be similarly applied to a case where one common tank is provided and two solenoid valves that can be individually opened and closed are provided.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of one embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Hot water storage tank 5 ... Hot water supply port 6 ... 1st solenoid valve 7 ... Outlet port 8 ... Air vent 11 ... Cold water tank 13 ...
Cooling coil 13B ... Outflow pipe 16 ... Second solenoid valve 18
... Joint 19 ... Connection port 21 ... Air release port 23
... air release hose 25 ... connection hose H ... warm water C ...
Cold water W: Cooling water

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Tomohisa Moribe 3-16, Sakaemachi South Building, Toyoake City, Aichi Prefecture F-term in Hoshizaki Electric Co., Ltd. 3E047 AA02 BA01 BA02 DC03 DC08 EA05 3E082 AA01 BB01 DD01 DD05 DD09 EE01 EE05 4B004 AA18 BA31 BA35 CA17

Claims (2)

[Claims] 1. An on-off valve provided with an air vent at an intermediate position of an outlet and capable of controlling discharge and stop of a liquid from a liquid supply source. A beverage supply device, wherein the beverage supply device is connected to an outlet of the on-off valve by a connection pipe, and is connected to an air release port of the other on-off valve. 2. The liquid supply source according to claim 1, wherein one of the on-off valves is provided on a liquid supply source capable of discharging hot water, and the other on-off valve is provided on a liquid supply source capable of discharging cold water. Beverage supply equipment.