KR101786770B1 - Electromagnetic valve of beverage supply apparatus - Google Patents

Abstract

Disclosed is a solenoid valve for a beverage dispensing apparatus which can reliably perform sterilization in a short time. A solenoid valve of a beverage supply device comprising a plunger that moves linearly by an electromagnetic force of an electromagnetic coil and a valve body that is provided at a tip end of a plunger and that is pressed against a valve seat to close a valve inlet, Wherein the plunger of the solenoid valve is positioned lower than the proximal end of the opposite side of the plunger and the proximal end of the plunger is inclined with respect to the vertical axis in a direction away from the inlet of the solenoid valve.

Description

ELECTROMAGNETIC VALVE OF BEVERAGE SUPPLY APPARATUS < RTI ID = 0.0 >

The present invention relates to an electromagnetic valve for opening and closing a flow path of a beverage supply device such as a water server.

There has been an increase in the number of cases in which a solenoid valve operated by a user by operating a switch is used instead of a manual yoke type valve as an index of a water hole of a water server for supplying drinking water. As a solenoid valve of a water server that handles beverages, a direct-acting solenoid valve which is simple in structure of the passage compared with the pilot type and therefore easy to sterilize or clean is mainly used. Among the direct-acting type, a diaphragm type separating the beverage flowing in the solenoid valve from the operating portion of the plunger is mainly used.

In some cases, the water server is required to periodically sterilize the piping system including the valve. In this case, sterilization is performed by passing hot water through the piping system as described in Patent Document 1. [ In this case, however, the high temperature water circulates in the piping system in the water server but does not pass through the exponential passage. Therefore, the portion before the exponent which does not pass the high temperature water, The conduit side is sterilized by transferring the heat of the hot water flowing to the neighborhood to the high temperature by passing through the metal pipe. However, at this time, if the drinking water remains in the portion where the high-temperature water in the water jacket does not pass, there is a problem that the time required for reaching the sterilization temperature is considerably increased.

6 is a schematic vertical cross-sectional view of a solenoid valve 200 conventionally used as an exponent of a water server. The solenoid valve 200 includes an inlet pipe 211, an outlet pipe 212, the inlet pipe 211, An electromagnetic coil 216, a plunger 217, a valve body 219, a diaphragm 221, and the like. In this solenoid valve 200, when the valve inlet 213 is closed after the water server is used, water is filled in the region B on the side of the inflow conduit 211 and water remains in the region C on the side of the outflow conduit 212 . Water filled in Zone B does not cause hygiene problems, but water remaining in Zone C causes hygiene problems if hot water for sterilization does not pass through Zone C, or otherwise increases the time required for sterilization Factor. This is because the residual water in the region C contacts the outside air at one end thereof, and there is a possibility of adhesion and multiplication of the floating bacteria.

Japanese Patent Application Laid-Open No. 2006-021793

SUMMARY OF THE INVENTION It is an object of the present invention to provide a solenoid valve of a beverage supply device which can reliably perform sterilization in a short period of time.

In order to solve the above problems, the present invention provides a solenoid valve for a beverage supply device, comprising: a plunger that linearly moves by an electromagnetic force of an electromagnetic coil; and a valve body provided at a distal end of the plunger, And the plunger of the solenoid valve fixed in the beverage supply device is located at a position lower than the base end of the opposite side of the plunger so that the proximal end of the plunger is located on the vertical axis in the direction away from the inlet of the solenoid valve The present invention provides a solenoid-operated valve of a beverage supply device which is inclined with respect to a direction perpendicular to a direction

By inclining the solenoid valve in this manner, it is possible to realize a configuration in which the liquid beverage does not remain in the outflow conduit, thereby making it possible to realize a hygienic solenoid valve that is difficult to propagate microorganisms and is easy to sterilize. Further, even if the air tightness is difficult to occur or the air tightness occurs, the position is limited to a region on the flow path of the beverage liquid or extremely close to the flow path, so that whenever the beverage liquid flows, It is possible to realize a solenoid valve capable of blowing and blowing off the air that was present. Thereby, it is possible to provide an electromagnetic valve which can be sterilized in a short time without any obstruction of heat transfer to a site to be sterilized.

In the present invention, the plunger may be provided with a enlarged portion that functions to lower the moving speed of the plunger by engaging with the cylinder portion. The air inside the enlarged diameter portion of the plunger and the inside of the cylinder portion acts as an air damper to lower the moving speed of the plunger. This makes it possible to prevent the liquid from splashing to the user, particularly at the time of closing the valve.

In the present invention, the solenoid valve may be a viscous fluid that seals in a gap between the cylinder and the plunger, and may further include a viscous fluid functioning to lower the moving speed of the plunger together with the enlarged diameter portion good. This also makes it possible to prevent the liquid from splashing to the user, particularly at the time of valve closing.

In the present invention, the valve body may have a conical protrusion at its tip.

In the present invention, the solenoid valve may be a diaphragm valve having a diaphragm for isolating the liquid flowing in the solenoid valve from the plunger.

The present invention further relates to a solenoid valve for a beverage supply apparatus, comprising: a plunger that linearly moves by an electromagnetic force of an electromagnetic coil; a valve body provided at a distal end of the plunger; a valve body that is closed by a valve seat, Wherein the plunger of the solenoid valve fixed to the beverage supply device is located at a lower position than the proximal end of the opposite end of the plunger, Wherein the diaphragm is inclined with respect to a horizontal line so that a portion of the diaphragm closer to the inlet of the solenoid valve is positioned above the portion of the diaphragm farther from the center axis of the solenoid valve.

The present invention also provides a beverage supply apparatus having any one of the solenoid valves of the above-described beverage supply apparatus, wherein the solenoid valve is provided in a bent portion of the flow path.

In the present invention, the solenoid valve may be used for controlling the number of injectors to the outside.

1 is a schematic longitudinal sectional view of a solenoid valve of a beverage supply device according to a first embodiment of the present invention.
2 is a schematic longitudinal sectional view of a solenoid valve of a beverage supply device according to a second embodiment of the present invention.
3 is a schematic longitudinal sectional view of a solenoid valve of a beverage supply device according to a third embodiment of the present invention.
4 is a schematic longitudinal sectional view of a solenoid valve of a beverage supply device according to a fourth embodiment of the present invention.
5 is a schematic vertical sectional view of a solenoid valve of a beverage supply device according to the related art of the present invention.
6 is a schematic longitudinal sectional view of a solenoid valve of a conventional beverage supply device.

Before describing a solenoid valve of a beverage supply device according to an embodiment of the present invention, a solenoid valve of a beverage device according to the related art of the present invention will be described with reference to Fig. 5, which is a schematic longitudinal sectional view thereof.

The electromagnetic valve 100 shown in Fig. 5 is designed to prevent the generation of residual water on the outflow pipe side in the conventional electromagnetic valve 200 shown in Fig. 6, and includes an inlet pipe 111, an outlet pipe 112, a valve inlet 113 provided at one end of the outflow conduit 112, an electromagnetic coil 116, a plunger 117, a valve body 119, a diaphragm 121, and the like. According to this solenoid valve 100, since the valve inlet 113 is provided at one end of the outflow conduit 112 and the outflow conduit extends downward, no residual water is generated on the outflow conduit side. However, it has been confirmed that when the water valve is used in this solenoid valve 100, the air flow in the region indicated by A in Fig. 5 in the upper flow path of the valve body 119 occurs. It is preferable to remove air as well, because the microorganism breeds therein and obstructs heat transfer to the site to be sterilized.

Next, a solenoid valve 1 of a beverage supply device according to a first embodiment of the present invention will be described below with reference to Fig. 1, which is a schematic longitudinal sectional view thereof. This solenoid valve 1 is particularly disposed in a portion where the direction in which the water flow path changes (a bent portion of the flow path), thereby suppressing the remaining water and the air accumulation, and is particularly effective for main reception of beverage supply devices.

First, the "beverage supply device" in the present specification will be described. This device is a device for gradually supplying water or beverage liquid such as tea stored in an inner tank or the like in accordance with operation of a main button or the like by a user . In addition, the device is installed on a tabletop or on a floor. An example of such a device is a water server described in Patent Document 1. In the present specification, an invention will be described by way of example of a water server as a drink supply device.

Further, since the present invention has technical features regarding the electromagnetic valve of the beverage supply device, detailed description and illustration of the beverage supply device or the water server are omitted in this specification.

In the first embodiment, the solenoid valve 1 acts as an exponent of the water server, and is mounted at the distal end of the water tube (30) of the water server. The solenoid valve 1 is of a direct-acting type and comprises as main components an inlet pipe 11 having an inlet 11a at an end thereof and extending substantially horizontally, a valve inlet 13 at an upper end thereof, and an outlet 12a A valve seat 14 surrounding the valve inlet 13; a valve housing 15; an electromagnetic coil 16; an electromagnetic coil 16; A cylinder portion 18 of the valve housing 15 for guiding the movement of the plunger 17 and a valve member 18 fixed to or integrally formed with the distal end portion of the plunger 17. The plunger 17, (19) and. A compression coil spring 20 accommodated in the cylinder portion 18 so as to press the end face of the plunger 17 against the valve body 19 so as to isolate the circulating liquid from the plunger 17, The diaphragm 21 made of rubber is provided. The distal end of the plunger 17 is positioned below the proximal end of the plunger 17 on the opposite side.

The valve body 19 is pressed against the valve seat 14 by the force generated by the spring 20 when the electromagnetic coil 16 is not energized, The valve inlet 13 is closed. On the other hand, when the electromagnetic coil 16 is energized by the user by operating the main button (not shown) of the water server, the generated electromagnetic force overcomes the force of the spring 20, and the plunger 17 and the valve body 19 By lifting from the seat 14, the valve inlet 13 is opened and the beverage is discharged.

1, each component except for the inflow conduit 11 and the outflow conduit 12 is connected to a vertical axis Ag indicating the gravitational direction or to a horizontal axis extending obliquely with respect to the horizontal axis You can get direction. In the present embodiment, the plunger 17 has its longitudinal axis Ap extending from the vertical axis Ag to about 25 degrees in the counterclockwise direction in Fig. 1, that is, the proximal end of the plunger 17 is moved away from the inlet port 11a And the contact surface of the valve body 19 with the valve seat 14 is likewise inclined from the horizontal axis by about 25 DEG in the counterclockwise direction in Fig.

1, the end portion of the water tube 30 connected to the solenoid valve 1 extends horizontally. Therefore, the solenoid valve 1 whose inlet pipe 11 is connected to the water pipe line 30 is configured such that the contact surface of the plunger 17 and the valve element 19 is connected to the vertical axis Ag or the horizontal axis Is fixed to the water server with the axis inclined at about 25 占 in the counterclockwise direction in Fig.

The solenoid valve 1 shown in Fig. 1 is connected to and fixed to the water tube 30 by screwing the female screw portion formed at the distal end portion of the inlet pipe 11 and the male screw portion of the distal end portion of the water tube passage 30 . It will be appreciated that various other pipe joints or flange joints known in the art may be used instead for fixing the connection.

In the first embodiment, since the solenoid valve 1 is inclined and fixed as shown in Fig. 1, the region on the left side from the valve body 19 is lower than the region on the right side. As a result, no air buildup occurs in the area of at least the left side of the valve body 19 of the water staying around the valve body 19 when the valve inlet 13 is closed. On the other hand, there is a possibility of air buildup in the area on the right side of the valve body 19. [ However, even if the air accumulation occurs in the solenoid valve 1 of Fig. 1, since the place where the air accumulation occurs is extremely close to the water distribution channel or the distribution channel, water is discharged by water every time the water flows, There is no case of enlargement. Of course, no water remains in the outflow conduit 12.

In the first embodiment, the inclination angle? Of the plunger 17 of the electromagnetic valve 1 fixed to the water tube 30 from the vertical axis Ag is set to about 25 degrees, but in the present invention, The inclination angle [theta] is in a range of 10 to 40 [deg.], Which is a very suitable range, and therefore an embodiment in which the inclination angle [theta] is other than 25 [ In the present invention, the inclination angle? Is set to be smaller than the inclination angle? Of the valve seat 14, the valve body 19, the inflow conduit 11, the outflow conduit 12, and the diaphragm 21 of the electromagnetic valve 1 It will be understood that the optimum value may be changed depending on the shape and dimensions and the positional relationship of such mutual positions.

Next, the electromagnetic valve 2 of the drink supply device according to the second embodiment will be described with reference to Fig. The solenoid valve 2 of this embodiment is different from the solenoid valve 2 of the first embodiment in that the plunger 17 has the enlarged diameter portion 22 and that the valve element 19 has the conical protrusion 23 on the side in contact with the valve seat 14 And is different from the solenoid valve 1 of the first embodiment. The other parts are the same as those of the solenoid valve 1 of the first embodiment, and therefore, only the other parts will be described.

The plunger 17 of the solenoid valve 2 shown in Fig. 2 is guided by the cylinder portion 18 of the valve housing 15 in the same manner as in the first embodiment, but has a diameter An enlarged diameter portion 22 is formed. The enlarged diameter portion 22 is made to have a smaller outer diameter than the inner diameter of the cylinder portion 18 so as to lower the moving speed of the plunger 17, that is, to function as an air damper together with the air in the cylinder portion. When the plunger 17 is pushed by the spring 20 and the valve body 19 closes the valve seat 14 due to a decrease in the moving speed of the plunger 17, The speed of the water pushed out from the inside of the container 12 is lowered, so that it is possible to prevent the liquid from splashing to the user.

The conical protrusion 23 formed on the valve body 19 enters the valve inlet 13 from the tip thereof at the time of closing the valve. By forming the conical protrusion 23, it is possible to change the direction of water extrusion at the time of closing the valve and at the same time to reduce the amount of water pushed out, thereby preventing the liquid from splashing.

Next, the electromagnetic valve 3 of the drink supply device according to the third embodiment will be described with reference to Fig. The solenoid valve 3 of this embodiment differs from the solenoid valve 1 of the first embodiment in that a viscous fluid such as oil is sealed in the cylinder portion 18 to provide an oil damper function. However, the other parts are the same as those of the solenoid valve 1 of the first embodiment, and only the other parts will be described.

The solenoid valve 3 of the third embodiment is equipped with an O-ring 24 near the outlet of the cylinder portion 18 in order to seal the viscous fluid such as oil into the cylinder portion 18. [ The plunger 17 has the enlarged diameter portion 22 as in the case of the second embodiment. However, the enlarged diameter portion 22 of the plunger 17 of the third embodiment has a dimension such that the gap between the enlarged diameter portion of the plunger 17 and the cylinder portion 18 is larger than that of the second embodiment.

In the solenoid valve 3 of the third embodiment, the oil in the cylinder chamber below the enlarged diameter portion 22 of the plunger 17 moves downward in Fig. 3 when the plunger 17 is closed, The speed of movement of the plunger 17 is reduced by the viscous resistance when moving through the gap and into the cylinder chamber above the enlarged diameter portion 22. As a result, similarly to the case of the second embodiment, the speed of water pushed out from the outflow pipe 12 is lowered, so that it is possible to prevent the liquid from splashing to the user.

Next, the electromagnetic valve 4 of the drink supply device according to the fourth embodiment will be described with reference to Fig. This solenoid valve 4 is of a type which is different from that of the above-described embodiment and has no diaphragm. However, the other points are basically the same as the solenoid valve 1 of the first embodiment.

In the fourth embodiment, the solenoid valve 4 is arranged such that the longitudinal axis Ap of the plunger 17 is inclined by about 25 degrees from the vertical axis Ag indicating the gravity direction counterclockwise in Fig. 4, The area on the left side of the valve body 19 becomes lower than the area on the right side. As a result, in the region on the left side of Fig. 4 of the valve body 19 of the water staying around the valve body 19 when the valve is closed, no air gush occurs. On the other hand, there is a possibility of air buildup in the area on the right side of the valve body 19. [ However, even when the air accumulation occurs in the solenoid valve of Fig. 4, since the place of generation is close to the flow path of the water, the water is discharged by water every time the water flows, and there is no case where it is cumulatively expanded.

Although not shown, it is also possible to suppress the occurrence of air gushing in the area on the right side of the valve body 19 by increasing the diameter of the inlet pipe 11 of the solenoid valve 4 of the fourth embodiment upward Do.

The thickness of the valve housing 15 is set so as to fill the voids in the region of the valve body 19 in the region on the right side of the valve body 19 of the electromagnetic valve 4 of the fourth embodiment, May be increased inward.

In the solenoid valve 4 of the fourth embodiment, the protruding portion 23 of the conical shape of the valve body 19 and the enlarged diameter portion 22 of the plunger 17 described in the above- And the oil damper function described in the third embodiment may be added singly or in some cases in combination.

1 solenoid valve
11 inlet pipe
12 outflow channel
13 Valve inlet
14 valve seat
16 electromagnetic coils
17 plunger
18 cylinder part
19 valve body
20 Compression coil spring
21 Diaphragm
30 To the water pipe

Claims (8)

A solenoid valve for a beverage supply device,
A plunger linearly moved by the electromagnetic force of the electromagnetic coil,
A valve body provided at a distal end of the plunger, the valve body closing the valve inlet by being pressed against the valve seat,
And a cylinder portion for guiding the movement of the plunger,
Wherein the plunger of the solenoid valve fixed in the beverage supply device is positioned below the proximal end portion of the opposite end of the plunger and the proximal end portion is inclined with respect to the vertical axis in a direction away from the inlet port of the solenoid valve,
And the plunger has a enlarged diameter portion that functions to lower the moving speed of the plunger by fitting to the cylinder portion. The method according to claim 1,
And a viscous fluid which is sealed to be sealed in a gap between the cylinder portion and the plunger, the viscous fluid further comprising a viscous fluid functioning to lower the moving speed of the plunger together with the enlarged portion Solenoid valve. 3. The method according to claim 1 or 2,
Wherein the valve body has a conical protrusion at its tip. 3. The method according to claim 1 or 2,
Wherein the diaphragm is a diaphragm valve having a diaphragm that isolates the liquid flowing in the solenoid valve from the plunger. A solenoid valve for a beverage supply device,
A plunger linearly moved by the electromagnetic force of the electromagnetic coil,
A valve body provided at a distal end portion of the plunger, the valve body closing the valve inlet by being pushed by the valve seat,
A diaphragm for isolating the liquid flowing in the solenoid valve from the plunger,
And a cylinder portion for guiding the movement of the plunger,
Wherein the plunger of the solenoid valve fixed in the drink supply device is positioned below the proximal end portion of the opposite end of the plunger,
The diaphragm is inclined with respect to the horizontal line so that the portion of the diaphragm closer to the inlet port of the solenoid valve is located above the portion of the diaphragm farther from the center axis of the plunger,
And the plunger has a enlarged diameter portion that functions to lower the moving speed of the plunger by fitting to the cylinder portion. A beverage supply apparatus comprising a solenoid valve of a beverage supply apparatus according to any one of claims 1 to 3,
Wherein the electromagnetic valve is provided at a bent portion of the flow path. The method according to claim 6,
Wherein the solenoid valve is used for controlling the number of injectors to the outside. delete

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