KR101942286B1 - Water Supplying Device for Coffee Extraction Using Vacuum Pressure - Google Patents

Abstract

The present invention relates to an apparatus to supply water for brewing coffee using vacuum force. According to the present invention, the apparatus to supply water for brewing coffee using vacuum force comprises: a flow path connected to a water tank; a water supply vessel connected to the flow path, and having a storage space to store water and a water distribution member to downwardly drain the water stored in the storage space through a plurality of water outlets; a valve unit opening/closing the flow path to adjust the amount of the water supplied to the water supply vessel; a water blocking plate disposed on an upper part of the water distribution member to open/close a fluid flow to the water outlet; and an adjustment lever connected to the water blocking plate to adjust operation of the water blocking plate. By operating the water blocking plate with the adjustment lever, a user can open/close the flow path to the water outlet. Moreover, the apparatus to supply water for brewing coffee comprises an air passage installed in either or both of the water blocking plate and the adjustment lever to communicate with the water outlet. When water is supplied into the water supply vessel, the water blocking plate closes the fluid flow to the water outlet and the air passage communicates with the water outlet. After the water is supplied into the water supply vessel, the water blocking plate is able to form vacuum in the water supply vessel in a manner of opening the fluid flow to the water outlet. As such configuration, the vacuum force is formed in the water supply vessel and thus, a supply speed and amount of the water supplied to coffee powder are able to be adjusted, and the supplied water can be uniformly distributed to several positions of the coffee powder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water supply device for extracting coffee using a vacuum force,

The present invention relates to a water supply device for extracting coffee using a vacuum force.

Generally, when extracting coffee using beans, drip coffee can be classified into drip coffee that extracts coffee with hot water depending on the temperature of the coffee extract, and Dutch coffee (cold brew coffee) that extracts coffee with cold water or room temperature .

Among them, drip coffee contains hot water in the drip port, and the user extracts the water evenly into the coffee powder contained in the dripper, which is extracted in a short time of about 3 minutes. Dutch coffee is coffee that is extracted over a long period of time, approximately 3 to 20 hours, by dropping water at room temperature in a water tank through a valve into a coffee basket containing coffee powder.

The drip coffee produced by this process greatly changes the taste of the coffee depending on the method of supplying water to the coffee powder and the supply time. Therefore, the experience and know-how of the user who extracts the coffee are important. Therefore, in the case of a barista extracting drip coffee at a coffee shop, it is difficult to carry out the operation of accurately and precisely supplying water to the coffee powder while holding the drip port for a long time.

In addition, in the Dutch coffee, water falling down to the coffee basket through the valve is concentrated and concentrated only in the central portion of the coffee basket, so that the coffee powder contained in the central portion of the coffee basket is excessively extracted, So that the taste of the coffee is deteriorated due to under-extraction of the coffee components.

Recently, a variety of water supply devices have been developed which can uniformly distribute and supply water to a dripper or a coffee basket when extracting drip coffee with hand drip or extracting a coarse coffee.

1 is a sectional view showing an example of a conventional drip coffee maker.

The drip coffee maker includes a first vessel (10) having a first through hole at a lower end thereof so that water can be discharged downward; A container for receiving water discharged from a first through-hole, the container being disposed below the first container (10) and having a plurality of second through-holes at its lower end so that the water contained therein can be discharged onto the coffee powder 2 container (20); A container for receiving water discharged from a coffee powder and a second through hole, the container being disposed below the second container (20) and having a third through hole at its lower end so that the extracted drip coffee can be discharged downward 3 container (30).

A plurality of branch pipes having a predetermined inner diameter are connected to the lower end of the second vessel 20, and a second through hole is formed at the distal end of the branch pipe. The water contained in the second container 20 is gradually discharged through the second through hole so that the water contained in the first container 10 is supplied to the second container 20 and then discharged through the second through- It can fall uniformly into the coffee powder contained in the container 30. However, since the speed and amount of the water supplied from the first vessel 10 to the second vessel 20 can not be separately adjusted, water may be excessively introduced into the second vessel 20 and flow over the second vessel 20, The amount of the water contained in the second through hole 20 varies, and the speed of the water dropped through the second through hole is changed due to the change of the water pressure.

In this case, not only the coffee extraction conditions can not be kept constant but also the user is difficult to make drip coffee having various flavors and tastes by controlling the feeding rate and amount of water.

Therefore, it is possible to easily adjust the supply speed and amount of water supplied to the coffee powder while easily setting and using the dripper or the coffee basket at the time of extracting hand drip coffee or Dutch coffee, It is necessary to develop a water supply device for extracting coffee that can be supplied and dispersed.

Korean Patent No. 10-1454740

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a dripper for hand drip and a coffee machine for easily extracting coffee, It is an object of the present invention to provide a water supply device for coffee extraction which can uniformly disperse water supplied to various points of a coffee powder.

In order to achieve the above-mentioned object, the present invention provides a water extracting apparatus for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A water shutoff plate located on top of the water distribution member and operative to open and close fluid flow to the water outlet; An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate; And the water shutoff plate can be operated by the control lever to open and close the flow path to the outflow hole, and the coffee extracting water supply device is installed in at least one of the water shutoff plate and the control lever An air passage communicating with the outflow hole; Wherein, when supplying water into the water supply container, the water shutoff plate closes the fluid flow to the water outlet, and the air passage communicates with the water outlet, and after supplying water into the water supply container Can form a vacuum force inside the water supply container by the way that the water blocking plate opens the fluid flow to the water outlet.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A water shutoff plate located on top of the water distribution member and operative to open and close fluid flow to the water outlet; An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate; Wherein the control unit is operable to operate the water shutoff plate to open and close the flow path to the water outlet, and the water supply container, the valve unit, the flow path between the valve unit and the water supply container, Wherein at least one of the control levers is formed with an air passage communicating with the outside, and the coffee extracting water supply device includes an air passage opening / closing device capable of opening and closing the air passage; Wherein when the water is supplied into the water supply container, the water shutoff plate closes the fluid flow to the outflow hole, opens the air passage by the air passage opening / closing device, It is possible to form a vacuum force inside the water supply container by closing the air passage by the air passage opening and closing device and opening the fluid flow to the water outlet by the water blocking plate.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A support plate disposed on the upper portion of the water distribution member and supported on an inner circumferential surface of the water supply container, the support plate having a first flow path vertically communicating on one surface thereof; A water shutoff plate located above the water distribution member and operative to open and close the fluid flow of the support plate; An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate; Wherein the water shutoff plate can be opened and closed by operating the control lever to open and close the first flow path of the support plate by operating the water shutoff plate, An air passage provided in at least one of the control levers and communicating with the outflow hole; Wherein the water shutoff plate closes the first flow path of the support plate when the water is supplied into the water supply container, the air passage is in communication with the water outlet, and water is supplied into the water supply container The water blocking plate can form a vacuum force inside the water supply container by opening the first flow path of the support plate.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path and having a storage space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes with water stored in the storage space, A valve unit for adjusting the amount of water supplied to the valve; A support plate disposed on the upper portion of the water distribution member and supported on an inner circumferential surface of the water supply container, the support plate having a first flow path vertically communicating on one surface thereof; A water shutoff plate located above the water distribution member and operative to open and close the first flow path of the support plate; An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate; Wherein the water supply container, the valve unit, the valve unit, and the water supply container can be opened and closed by operating the water shutoff plate by operation of the control lever to open and close the first flow path of the support plate, At least one of the flow path and the control lever is formed with an air passage communicating with the outside, and the coffee extracting water supply device includes an air passage opening / closing device capable of opening and closing the air passage; Wherein the water shutoff plate closes the first flow path of the support plate when the water is supplied into the water supply container and opens the air passage by the air passage opening and closing device, The air passage is closed by the air passage opening / closing device, and the water shutoff plate forms a vacuum force inside the water supply container by opening the first flow path of the support plate can do.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A support plate positioned on the upper portion of the water distribution member and supported on the inner circumferential surface of the water supply container and having a first flow path vertically communicating on one surface thereof; An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member; And the water supply device for supplying water for extracting coffee comprises at least one of the support plate and at least one of the control levers, An air passage installed in the water outlet and communicating with the water outlet; Wherein when the water is supplied into the water supply container, the water distribution member closes the first flow path of the support plate, the air passage communicates with the water outlet, and water is supplied into the water supply container A vacuum force can be formed inside the water supply container by the way that the water distribution member opens the first flow path of the support plate.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A support plate disposed on the upper portion of the water distribution member and supported on an inner circumferential surface of the water supply container, the support plate having a first flow path vertically communicating on one surface thereof; An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member; Wherein the water supply container is capable of opening and closing the first flow path of the support plate by operating the water distribution member by the operation of the control lever, and the water supply container, the valve unit, At least one of the flow path and the control lever is formed with an air passage communicating with the outside, and the coffee extracting water supply device includes an air passage opening / closing device capable of opening and closing the air passage; Wherein when the water is supplied into the water supply container, the water distribution member closes the first flow passage of the support plate, opens the air passage by the air passage opening / closing device, , The air passage is closed by the air passage opening / closing device, and the water distribution member forms a vacuum force inside the water supply container by opening the first flow path of the support plate can do.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A support plate positioned on the upper portion of the water distribution member and supported on the inner circumferential surface of the water supply container and having a first flow path vertically communicating on one surface thereof; A water shutoff plate located on top of the water distribution member and operative to communicate with the water distribution member to open and close the first flow path of the support plate; An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member and the water blocking plate; Wherein the water separating member and the water shutoff plate are operated by the operation of the control lever to open and close the first flow path of the support plate, An air passage provided in at least one of the support plate and the control lever and communicating with the outflow hole; Wherein the water shutoff plate closes the first flow path of the support plate when the water is supplied into the water supply container, the air passage is in communication with the water outlet, and water is supplied into the water supply container The water blocking plate can form a vacuum force inside the water supply container by opening the first flow path of the support plate.

According to another aspect of the present invention, there is provided an apparatus for supplying coffee for extracting coffee, comprising: a channel connected to a water tank; A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space; A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container; A support plate disposed on the upper portion of the water distribution member and supported on the inner circumferential surface of the water supply container and having a first flow path communicating with the upper surface and the lower surface on one surface; A water shutoff plate located on top of the water distribution member and operative to communicate with the water distribution member to open and close the first flow path of the support plate; An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member and the water blocking plate; Wherein the water supply container, the valve unit, and the valve unit can be opened and closed by operating the water distribution member and the water shutoff plate by the operation of the control lever, At least one of the flow path between the water supply containers and the control lever is formed with an air passage communicating with the outside, and the water extraction device for extracting coffee includes an air passage opening / closing device capable of opening / closing the air passage; Wherein the water shutoff plate closes the first flow path of the support plate when the water is supplied into the water supply container and opens the air passage by the air passage opening and closing device, The air passage is closed by the air passage opening / closing device, and the water shutoff plate forms a vacuum force inside the water supply container by opening the first flow path of the support plate can do.

In any one of the above embodiments, a plurality of projections may be formed on the bottom surface of the water distributing member so as to protrude downward, and each of the outflow holes may be formed through the plurality of projections.

According to the present invention, it is possible to control the supply speed and amount of water supplied to the coffee powder by forming a vacuum force inside the water supply container, and to provide coffee extract A water supply device can be provided.

1 is a sectional view showing an example of a conventional drip coffee maker.
2 is a diagram showing a configuration of a water supply device for extracting coffee according to an embodiment of the present invention.
3 is a diagram showing a configuration of a water supply device for extracting coffee according to an embodiment of the present invention.
Figs. 4 to 12 are diagrams showing a configuration of a water supply device for extracting coffee according to the embodiments of the present invention, each having an air passage opening / closing device.
13 to 15 are diagrams showing the construction of a water supply device for coffee extraction according to another embodiment of the present invention, respectively.
16A and 16B are views for explaining the constitution of the water blocking plate and the water distribution member in FIG.
17 to 24 are diagrams showing a configuration of a water supply device for coffee extraction according to still another embodiment of the present invention.
25 to 33 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention having an air passage opening / closing device.
34 to 37 are diagrams showing a configuration of a water supply device for extracting coffee according to another embodiment of the present invention, respectively.
38 to 45 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention having an air passage opening / closing device.
46 to 48 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention, respectively.
49 to 56 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention having an air passage opening / closing device.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

2 is a diagram showing a configuration of a water supply device for extracting coffee according to an embodiment of the present invention. 3 is a diagram showing a configuration of a water supply device for extracting coffee according to an embodiment of the present invention. 4 to 12 are diagrams showing a configuration of a water supply device for extracting coffee according to embodiments of the present invention having an air passage opening / closing device.

The present invention is to provide a water supply device for coffee extraction using a vacuum force capable of controlling the supply speed and amount of water supplied to the coffee powder and uniformly dispersing the supplied water at various points of the coffee powder .

2 to 4, the water extracting device for coffee extracting according to the present invention comprises a flow path 110, a water supply container 120, a valve unit 130, a water blocking plate 140, An adjusting lever 150, an air passage 160, and an air passage opening / closing device 170.

The flow path 110 is connected to the water storage tank 102. The water storage tank 102 is accommodated in the water storage tank main body 101 and supplies water for extracting coffee to the water supply container 120 through the flow path 110. The water storage tank 102 may have various shapes such as a circular shape and a square shape.

3, the water storage tank 103 is positioned below the flow passage 110, and the water in the water storage tank 103 is pumped by the pumping pressure, And can be supplied to the water supply container 120 through the flow path 110.

The water supply container 120 is connected to the flow path 110. The water supply container 120 has an accommodation space for storing water and a water distribution member 122 for discharging the water stored in the accommodation space to the lower part through a plurality of outflow holes 124. [ The water can be uniformly dispersed and dropped into the dripper 2 or the coffee basket located below the water distributing member 122.

When the water distribution member 122 is assembled to the bottom surface of the water supply container 120, the watertightness is maintained by using a sealing member such as an O-ring, and the water supply member 120 It can be separated and washed.

A plurality of protrusions 123 may be formed on the bottom surface of the water distribution member 122 and the outflow holes 124 may be formed through the protrusions 123.

The valve unit 130 opens and closes the flow path 110 to regulate the amount of water supplied to the water supply container 120.

The water shutoff plate 140 is located above the water distribution member 122 and is actuated to open and close fluid flow to the water outlet hole 124. The water barrier plate 140 may have a disk shape, for example, and may have a shape in which the outer peripheral portion protrudes as necessary.

The control lever 150 is connected to the water shutoff plate 140 to control the operation of the water shutoff plate 140. The control lever 150 protrudes through, for example, an upper portion of the water supply container 120 to move the water shutoff plate 140 up and down by up and down movement. The control lever 150 may have various shapes such as a screw type, a push-pull type, and a spring type.

The air passage 160 communicates with the outside in order to discharge the air inside the water supply container 120 to form a vacuum force inside the water supply container 120. For example, As shown in FIG.

The air passage opening / closing device 170 is for opening and closing the air passage 160 and may have a stopper shape, for example.

4, when the water blocking plate 140 is moved downward to come into contact with the water distributing member 122 by the control lever 150, the water blocking plate 140 is rotated by the water distributing member The flow of the fluid to the outlet hole 124 of the outlet 122 is blocked.

Next, when the valve unit 130 is opened, water is quickly filled into the water supply container 120 through the flow path 110. At this time, when the air passage 160 is opened by the air passage opening / closing device 170, water in the water supply container 120 is filled with water in the water supply container 120 through the air passage 160 .

Preferably, the valve unit 130 is opened to the maximum to allow water to flow quickly into the water supply container 120, and at the same time, air in the water supply container 120 is discharged through the air passage 140 do. When the water supply container 120 is filled with an appropriate amount of water, the valve unit 130 is locked.

After the water supply container 120 is filled with an appropriate amount of water, the air passage 160 is closed by the air passage opening / closing device 170 as shown on the right side of FIG.

Next, when the water blocking plate 140 is moved upward by the adjusting lever 150 to be spaced apart from the water distributing member 122, the fluid flow to the water outlet hole 124 of the water distributing member 122 is released , And water is discharged through the outflow hole (124).

The outflow hole 124 is preferably formed to have a small diameter of 2 mm or less so that external air can not be introduced through the outflow hole 124. When the water filled in the water supply container 120 does not flow into the water supply container 120 while the water flows out through the water outlet hole 124, a vacuum force is generated inside the water supply container 120 . When the water supply container 120 is filled with water through the valve unit 130, the air passage opening / closing device 170 opens and closes the air passage 160, A vacuum force can be formed.

At this time, when the intensity of the generated vacuum force is greater than gravity acting on the water discharged through the water outlet hole 124, the water stored in the water supply container 120 is not discharged any more through the water outlet hole 124, In the water supply container 120, as shown in FIG.

Next, an appropriate amount of the coffee powder 4 is contained in the filter 3 provided inside the dripper 2 while the dripper 2 is placed on the drip server 1, To be positioned below the dispensing member 122.

Next, when the valve unit 130 is appropriately opened to supply water to the water supply container 120, the amount of water to be supplied is discharged through the plurality of outflow holes 124 and falls evenly into the coffee powder 4 And the water inside the water supply container 120 always maintains a constant amount. The amount of water falling into the coffee powder (4) is made possible by adjusting the valve unit (130).

According to the water supply device of the present invention, a vacuum force is generated in the water supply container 120 by the water shutoff plate 140, the control lever 150, the air passage 160 and the air passage opening / closing device 170 This vacuum force is used to control the supply speed and amount of water supplied to the coffee powder 4 through opening and closing of the valve unit 130 so that a constant amount of water is always kept in the water supply container 120 And the supplied water can be uniformly dispersed and supplied to various points of the coffee powder 4.

5 shows an example in which the air passage 160 is formed in the control lever 150. As shown in FIG.

In this embodiment, the control lever 150 is connected to the water shutoff plate 140 and protrudes out of the water supply container 120, and the air passage 160 extends from the inside of the water supply container 120 to the outside 4 except that it is formed on the adjustment lever 150 so as to have the same structure as that of Fig.

The air passage opening / closing device is operated to open and close the air passage 160. Here, the control lever 150 functions as an air passage opening / closing device. That is, the air passage 160 is operated to be opened and closed by moving the control lever 150 up and down to move the water shutoff plate 140 up and down.

When water is supplied into the water supply container 120, the control lever 150 moves downward to close the fluid flow to the water outlet hole 124 while the water shutoff plate 140 closes the air passage 160 Is opened.

The water shutoff plate 140 opens the fluid flow to the water outlet hole 124 and at the same time opens the air passage 160, Is closed. That is, the air passage 160 is closed by the inner wall of the neck portion while the inlet of the air passage 160 is positioned in the neck portion of the water supply container 120 by the upward movement of the control lever 150.

6 shows an example in which the air passage 160 is formed in the flow path 110 between the valve unit 130 and the water supply container 120. [

In this embodiment, the air passage 160 is formed in the passage 110 between the valve unit 130 and the water supply container 120, and the air passage opening / closing device 170 is operated to open and close the air passage 160 do.

When the water is supplied into the water supply container 120, the control lever 150 moves downward to close the fluid flow to the water outlet hole 124 and the air passage 160 to open do.

After the water is supplied into the water supply container 120, when the control lever 150 is moved upward, the water shutoff plate 140 opens the fluid flow to the water outlet hole 124, and the air passage opening / closing device 170 Closes the air passage 160.

4 except that the air passage 160 is formed in the flow path 110 between the valve unit 130 and the water supply container 120 in this embodiment.

Fig. 7 shows an example in which the air passage 160 is formed in the valve unit 130. Fig.

The valve unit 130 includes a valve passage 131 communicating with the flow passage 110 and the water supply container 120 and a control valve 132 installed in the valve passage 131 for opening and closing the flow passage 110 . For example, the valve unit 130 may be installed at the upper part of the water supply container 120 so as to be connected to the flow path 110.

An air passage 160 may be formed at one side of the valve passage 131 so as to be connected to an upper portion of the water supply container 520. The air passage opening / closing device 170 may be in the form of a stopper and operated to open and close the air passage 160.

The control lever 150 may be connected to the water shutoff plate 140 and extend downwardly through the water distribution member 122. The control lever 150 is operated up and down to adjust the operation of the water shutoff plate 140.

In this embodiment, the configuration of the control lever 150 and the other configuration except for the air passage 160 formed in the valve unit 130 are the same as the embodiment of Fig.

8 shows an example in which the water shutoff plate 140 opens and closes the flow path to the outflow hole 124 by horizontally rotating. 9A and 9B are views showing examples of the water blocking plate 140 and the water distribution member 122 of FIG.

The water blocking plate 140 has a flat disk shape and is rotated while being in contact with the water distributing member 122 by the rotation of the control lever 150.

9A and 9B show a side view of the water shutoff plate 140 and the remaining figures show a schematic plan view.

Referring to FIG. 9A, a plurality of water outlets 141 are formed in the water shutoff plate 140, and a plurality of water outflow holes 124 are formed in the water distribution member 122. In the plan view, the positions of the outlet 141 and the outlet 124 are different.

The outflow port 141 of the water blocking plate 140 and the outflow hole 124 of the water distribution member 122 are not in communication with each other and the fluid flow to the outflow hole 124 is closed .

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water outlet 141 of the water blocking plate 140 and the water outlet 124 of the water distributing member 122 are communicated with each other The fluid flow to the outlet hole 124 is opened.

Referring to FIG. 9B, the water barrier plate 140 has, for example, a cross shape.

The water shutoff plate 140 closes the outflow hole 124 of the water distribution member 122 to close the fluid flow to the outflow hole 124. [

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water blocking plate 140 opens the water outlet hole 124 of the water distribution member 122, 124 are opened. In addition to those shown in Figs. 9A and 9B, it is obvious that a person skilled in the art can open and close the fluid flow to the water outlet hole 124 by rotation of the water shutoff plate 140 in various forms.

In this embodiment, the other configuration is the same as the embodiment of Fig. 4 except that the water shutoff plate 140 opens and closes the flow path to the outflow hole 124 by the horizontal rotation.

10 to 12 show another example in which the water shutoff plate 140 has an air path opening / closing device while opening and closing the flow path to the water outlet hole 124 by horizontally rotating.

10, the air passage 160 is formed in the control lever 150 and extends from the inside of the water supply container 120 to the neck portion. The neck portion of the water supply container 120 is formed with an opening 125 communicating with and communicating with the air passage 160.

The water outlet 141 of the water blocking plate 140 and the water outlet 124 of the water distributing member 122 are not communicated with each other so that the fluid flow to the water outlet hole 124 is closed State.

The air in the water supply container 120 can be discharged to the outside through the air passage 160 and the opening 125 through the air passage 160 while water is supplied into the water supply container 120.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water outlet 141 of the water blocking plate 140 and the water outlet 124 of the water distributing member 122 are communicated with each other The fluid flow to the outlet hole 124 is opened.

On the other hand, the communication between the air passage 160 and the opening 125 is released by the rotation of the control lever 150, so that external air can not be introduced into the water supply container 120.

In this embodiment, the water shutoff plate 140 opens and closes the flow path to the outflow hole 124 by the horizontal rotation, and the other configuration is the same as that of the embodiment of Fig. 4 except for the configuration of the air passage 160.

11, an air passage 160 is formed in the flow path 110 between the valve unit 130 and the water supply container 120, which corresponds to Fig. In the present embodiment, the other configuration is the same as the embodiment of Fig. 6 except that the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation.

In Fig. 12, the air passage 160 is formed in the valve unit 130, which corresponds to Fig. In this embodiment, the other configuration is the same as the embodiment of Fig. 7 except that the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation.

13 to 15 are diagrams showing the construction of a water supply device for coffee extraction according to another embodiment of the present invention, respectively. 16A and 16B are views for explaining the constructions of the water blocking plate 140 and the water distribution member 122 in Fig.

13, the water supply device of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, an adjustment lever 150, and an air passage 165 .

The configuration of the flow path 110, the water supply container 120, the valve unit 130 and the water shutoff plate 140 are the same as those of the flow path 110, the water supply container 120, the valve unit 130, And the water shutoff plate 140, detailed description thereof will be omitted.

The control lever 150 is connected to the water shutoff plate 140 to control the operation of the water shutoff plate 140. The control lever 150 protrudes through, for example, an upper portion of the water supply container 120 to move the water shutoff plate 140 up and down by up and down movement.

The air passage 165 is formed on the upper portion of the control lever 150 and extends to the water blocking plate 140 to communicate with the water outlet hole 124.

When the water blocking plate 140 is moved downward to come into contact with the water distributing member 122 by the adjusting lever 150 as shown in the left side of Fig. 13, the water blocking plate 140 The flow of the fluid to the outlet hole 124 of the outlet 122 is blocked.

Next, when the valve unit 130 is opened, water is filled in the water supply container 120, and the air inside the water supply container 120 flows to the water shutoff plate 140 along the air passage 165 And then can be discharged to the outside through the outflow hole 124. When the water supply container 120 is filled with an appropriate amount of water, the valve unit 130 is locked.

Next, when the water blocking plate 140 is moved upward by the control lever 150 so as to be spaced apart from the water distributing member 122, the water in the water supply container 120 flows into the water blocking plate 140, The water is quickly filled between the water outlet 124 and the water outlet 124 through which the fluid flow to the water outlet 124 of the water distributing member 122 is released.

When air is not introduced into the water supply container 120 while water is discharged through the water outlet hole 124, a vacuum force may be formed inside the water supply container 120.

At this time, when the generated vacuum force becomes gravity or more acting on the water discharged through the water outlet hole 124, the water stored in the water supply container 120 is not discharged any more through the water outlet hole 124, And is trapped inside the container 120.

Next, when the valve unit 130 is appropriately opened to supply water to the water supply container 120, the amount of water to be supplied is discharged through the plurality of outflow holes 124 and falls evenly into the coffee powder 4 And the water inside the water supply container 120 always maintains a constant amount.

In this embodiment, the air passage 165 communicating with the water outlet hole 124 is provided on the control lever 150 and the water shutoff plate 140 is operated up and down without a separate air passage opening / closing device 170, So that a vacuum force is formed inside the supply container 120.

This is because when the air passage 160 is communicated with the water outlet hole 124 and the water shutoff plate 140 is moved upward after supplying water into the water supply container 120, Since the air is quickly filled between the water blocking plate 140 and the water outlet hole 124, air can be prevented from flowing into the water supply container 120 without a separate air passage opening / closing device 170.

Fig. 14 shows an embodiment in which the air passage 145 is formed in the water shutoff plate 140. Fig.

14, the water supply device of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, an adjustment lever 150, an air passage 145, .

The configuration of the flow path 110, the water supply container 120, the valve unit 130 and the control lever 150 are the same as those of the flow path 110, the water supply container 120, the valve unit 130, Lever 150, detailed description thereof will be omitted.

The water shutoff plate 140 is located above the water distribution member 122 and is actuated to open and close fluid flow to the water outlet hole 124. The water blocking plate 140 may have a disk shape, for example, and the outer circumferential portion may have a protruding shape.

The water shutoff plate 140 has a protrusion extending to the upper portion of the water supply container 120 at one side and the air passage 145 extends downward from the protrusion of the water shutoff plate 140 to communicate with the water outlet hole 124 do.

The process of discharging the air inside the water supply container 120 and the process of forming the vacuum force while water is supplied to the water supply container 120 is the same as that of the embodiment of FIG. 13, and thus a detailed description thereof will be omitted.

In this embodiment, an air passage 145 communicating with the water outlet hole 124 is provided in the water shutoff plate 140, and the water shutoff plate 140 is operated up and down without a separate air passage shutoff device 170 So that a vacuum force is formed inside the water supply container 120.

15 shows an example in which the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by horizontally rotating. 16A and 16B are views showing examples of the water blocking plate 140 and the water distribution member 122 of FIG.

The water blocking plate 140 is rotated in contact with the water distributing member 122 by the rotation of the adjusting lever 150. [

16A and 16B show a side view of the water shutoff plate 140, and the remaining figures show a schematic plan view.

16A, a plurality of water outlets 141 are formed in the water shutoff plate 140, and a plurality of water outflow holes 124 are formed in the water distribution member 122. In the plan view, the positions of the outlet 141 and the outlet 124 are different. An air passage 145 is formed in the water blocking plate 140 and an air hole 125 is formed in the water distributing member 122.

The water outlet 141 of the water blocking plate 140 and the water outlet 124 of the water distributing member 122 are not communicated with each other so that the fluid flow to the water outlet hole 124 is closed State. The air passage 145 of the water blocking plate 140 and the air hole 125 of the water distributing member 122 are communicated with each other so that the air inside the water supply container 120 flows to the outside through the air hole 125 Can be discharged.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water outlet 141 of the water blocking plate 140 and the water outlet 124 of the water distributing member 122 are communicated with each other The fluid flow to the outlet hole 124 is opened. On the other hand, the air passage 145 of the water blocking plate 140 and the air hole 125 of the water distribution member 122 are disconnected from each other by the movement, and the inflow of external air is blocked through the water outlet hole 124 .

16B, the water blocking plate 140 has, for example, a cross shape, and an air passage 145 is formed therein. An air hole 125 is formed in the water distributing member 122.

The water shutoff plate 140 closes the water outlet hole 124 of the water distribution member 122 so that the fluid flow to the water outlet hole 124 is closed and the water shutoff plate 140 And the air holes 125 of the water distribution member 122 are communicated with each other so that air in the water supply container 120 can be discharged to the outside through the air holes 125. [

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water blocking plate 140 opens the water outlet hole 124 of the water distribution member 122, 124 are opened.

On the other hand, the air passage 145 of the water blocking plate 140 and the air hole 125 of the water distribution member 122 are disconnected from each other by the movement, and the inflow of external air is blocked through the water outlet hole 124 .

The water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation so that the air flow path 145 of the water shutoff plate 140 and the air hole The other configuration is the same as that of the embodiment of Fig. 14 except that the connecting member 125 is communicated and disconnected. The configuration of the present embodiment can also be applied to the configuration of Fig. 13 in which the air passage 165 is formed in the control lever 150. Fig. In this case, the air passage 165 of the control lever 150 and the air hole 125 of the water distributing member 122 are operated to communicate and disconnect.

17 to 24 are diagrams showing a configuration of a water supply device for coffee extraction according to still another embodiment of the present invention.

17, the water supply device of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, a support plate 180, an adjustment lever 150, And an air passage (165).

The configuration of the flow path 110, the water supply container 120 and the valve unit 130 is the same as that of the flow path 110, the water supply container 120 and the valve unit 130 shown in FIG. 4, .

The support plate 180 is disposed on the upper part of the water distribution member 122 and is supported on the inner circumferential surface of the water supply container 120 and has a first flow path 181 communicating with the upper surface and the lower surface on one surface thereof. At least one first flow path 181 may be formed in various forms.

The water shutoff plate 140 is located above the water distribution member 122 and is actuated to open and close fluid flow to the water outlet hole 124. The water barrier plate 140 may have a disk shape, for example, and may have a shape in which the outer peripheral portion protrudes as necessary. In this embodiment, the water shutoff plate 140 is positioned on the upper portion of the support plate 180 and moves up and down by the control lever 150. Although not shown in the above embodiment, the water shutoff plate 140 may be positioned below the support plate 180 and be configured to be moved up and down by the control lever 150.

The control lever 150 is connected to the water shutoff plate 140 to control the operation of the water shutoff plate 140. The control lever 150 protrudes through, for example, an upper portion of the water supply container 120 to move the water shutoff plate 140 up and down by up and down movement.

The air passage 165 is formed on the upper portion of the control lever 150 and extends to the water blocking plate 140 and communicates with the outlet hole 124 through the first flow path 181.

17, when the water blocking plate 140 is moved downward to be in contact with the support plate 180 by the control lever 150, the water blocking plate 140 is rotated by the water distributing member 122 The flow of the fluid to the water outlet 124 of the water outlet 124 is blocked.

Next, when the valve unit 130 is opened, water is quickly filled into the water supply container 120 through the flow path 110. At this time, as the water supply container 120 is filled with water, the air inside the water supply container 120 flows to the water blocking plate 140 along the air passage 165, . When the water supply container 120 is filled with an appropriate amount of water, the valve unit 130 is locked.

Next, when the water blocking plate 140 is moved upward by the adjusting lever 150 to be spaced apart from the water distributing member 122, the fluid flow to the water outlet hole 124 of the water distributing member 122 is released The water in the water supply container 120 is rapidly filled between the water blocking plate 140 and the water outlet hole 124 through the first flow path 181 and the water is discharged through the water outlet hole 124.

When air is not introduced into the water supply container 120 while water is discharged through the water outlet hole 124, a vacuum force may be formed inside the water supply container 120.

The water blocking plate 140 is brought into contact with the support plate 180 to close the fluid flow to the water outlet hole 124 and the air passage 165 communicating with the water outlet hole 124 is connected to the control lever 150 so that a vacuum force is formed inside the water supply container 120 by operating the water shutoff plate 140 up and down without a separate air passage opening / closing device.

18 shows an embodiment in which the air passage 145 is formed in the water shutoff plate 140. Fig.

The water supply device of this embodiment includes a flow path 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, a support plate 180, an adjustment lever 150, .

The structure of the flow path 110, the water supply container 120, the valve unit 130, the support plate 180, and the control lever 150 is the same as that of the flow path 110, the water supply container 120, The unit 130, the support plate 180, and the control lever 150, detailed description thereof will be omitted.

The water shutoff plate 140 is located above the water distribution member 122 and is actuated to open and close fluid flow to the water outlet hole 124. The water shutoff plate 140 has a protrusion extending to the upper portion of the water supply container 120 at one side and the air passage 145 extends downward from the protrusion of the water shutoff plate 140 to connect the first flow path 181 And communicates with the outflow hole (124).

18, when the water blocking plate 140 is moved downward by the adjusting lever 150 to come into contact with the supporting plate 180, the water blocking plate 140 moves the water distributing member 122 The flow of the fluid to the water outlet 124 of the water outlet 124 is blocked.

Next, when the valve unit 130 is opened, water is quickly filled into the water supply container 120 through the flow path 110. At this time, as the water supply container 120 is filled with water, the air inside the water supply container 120 can be discharged to the outside through the water outlet hole 124 along the air passage 145.

Next, when the water blocking plate 140 is moved upward by the control lever 150 so as to be spaced apart from the water distributing member 122, water in the water supply container 120 flows through the first channel 181 The air flow into the water supply container 120 can be blocked without a separate air passage opening / closing device because it is quickly filled between the blocking plate 140 and the water outlet hole 124.

A vacuum force may be formed inside the water supply container 120 if air is not introduced into the water supply container 120 while water is discharged through the water outlet hole 124.

19 shows an embodiment in which the air passage 160 is formed in the support plate 140. Fig.

The water supply device of this embodiment includes a flow path 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, a support plate 180, an adjustment lever 150, .

The configuration of the flow path 110, the water supply container 120, the valve unit 130 and the control lever 150 is the same as that of the flow path 110, the water supply container 120, the valve unit 130, Lever 150, detailed description thereof will be omitted.

The water shutoff plate 140 is located above the water distribution member 122 and is actuated to open and close fluid flow to the water outlet hole 124.

The support plate 180 is disposed on the upper part of the water distribution member 122 and is supported on the inner circumferential surface of the water supply container 120 and has a first flow path 181 communicating with the upper surface and the lower surface on one surface thereof.

The support plate 180 has protrusions that extend to the upper portion of the water supply container 120 on one side and the air passage 185 extends downward from the protrusion of the support plate 180 to communicate with the water outlet hole 124.

The present embodiment has the same configuration as that of the embodiment of Fig. 18 except that the air passage 185 is formed in the support plate 180. Fig.

20 shows an example in which the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by horizontally rotating. 21A and 21B are views showing examples of the water blocking plate 140 and the support plate 180 of FIG.

The air passage 165 is formed on the upper portion of the control lever 150 and extends to the water blocking plate 140.

The support plate 180 is positioned on the upper part of the water distribution member 122 and is supported on the inner circumferential surface of the water supply container 120 and an air hole 183 and a water outlet 182 are formed.

The water shutoff plate 140 is rotated in contact with the support plate 180 by the rotation of the control lever 150.

21A and 21B show a side view of the water shutoff plate 140 and the remaining figures show a schematic plan view.

21A, a plurality of water outlets 141 are formed in the water shutoff plate 140, and a plurality of outflow ports 182 are formed in the support plate 180 as well. In the plan view, the positions of the outlet 141 and the outlet 182 are formed differently.

An air hole 146 communicating with the air passage 165 is formed in a central portion of the water blocking plate 140 and an air hole 183 is formed in a center portion of the support plate 180 at a position contacting the air hole 146. [ So that the air holes 146 and the air holes 183 are always in communication with each other.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water outlet 141 of the water blocking plate 140 and the water outlet 182 of the support plate 180 cross each other, Is in a closed state.

The air hole 146 of the water blocking plate 140 and the air hole 183 of the support plate 180 are communicated with each other so that the air inside the water supply container 120 flows through the air hole 183 and the outflow hole 124 ), And can be discharged to the outside.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water outlet 141 of the water blocking plate 140 and the water outlet 182 of the support plate 180 coincide with each other, Is opened.

The fluid flows between the support plate 180 and the water distribution member 122 so that the inflow of external air through the air hole 183 and the air hole 146 is blocked do.

Referring to FIG. 21B, the water barrier plate 140 has, for example, a cross shape, and an air hole 146 is formed therein. An air hole 146 communicating with the air passage 165 is formed at the center of the water blocking plate 140 and an air hole 183 is formed at the center of the support plate 180.

When the water shutoff plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water shutoff plate 140 closes the outlet port 182 of the support plate 180, the fluid flow to the outlet port 182 is closed The air hole 146 of the water blocking plate 140 and the air hole 183 of the support plate 180 are communicated with each other so that the air in the water supply container 120 flows into the air hole 183 and the outflow hole 183, (124) and can be discharged to the outside.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water blocking plate 140 opens the water outlet 182 of the support plate 180, do.

When the flow of the fluid to the outlet 182 is opened, the flow of fluid between the support plate 180 and the water distributing member 122 causes the flow of external air through the air hole 183 and the air hole 146 to be blocked do.

The water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation so that the air hole 146 of the water shutoff plate 140 and the air hole 183 are always in communication with each other.

22 shows another example in which the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation.

In this embodiment, the air passage 145 is formed in the water shutoff plate 140. 15 except that the water shut-off plate 140 is rotated in contact with the support plate 180. As shown in Fig.

23A and 23B are views showing examples of the water blocking plate 140 and the support plate 180 of FIG.

23A, a plurality of water outlets 141 are formed in the water shutoff plate 140, and a plurality of outflow ports 182 are also formed in the support plate 180. In the plan view, the positions of the outlet 141 and the outlet 182 are formed differently.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water outlet 141 of the water blocking plate 140 and the water outlet 182 of the support plate 180 cross each other, Is closed.

The air hole 146 of the water blocking plate 140 and the air hole 183 of the support plate 180 are communicated with each other so that the air inside the water supply container 120 flows through the air hole 183 and the outflow hole 124 ), And can be discharged to the outside.

When the water shutoff plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water outlet 141 of the water shutoff plate 140 and the water outlet 182 of the support plate 180 mutually coincide and communicate with each other, (182) is opened.

When the flow of the fluid to the outlet 182 is opened, the flow of fluid between the support plate 180 and the water distributing member 122 causes the flow of external air through the air hole 183 and the air hole 146 to be blocked do.

Referring to FIG. 23B, the water barrier plate 140 has, for example, a cross shape, and an air hole 146 is formed therein. An air hole 146 communicating with the air passage 145 is formed in the water blocking plate 140 and an air hole 183 is formed in the support plate 180.

When the water shutoff plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water shutoff plate 140 closes the outlet port 182 of the support plate 180, the fluid flow to the outlet port 182 is closed .

The air hole 146 of the water blocking plate 140 and the air hole 183 of the support plate 180 are communicated with each other so that the air inside the water supply container 120 flows through the air hole 183 and the outflow hole 124 ), And can be discharged to the outside.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150 so that the water blocking plate 140 opens the water outlet 182 of the support plate 180, do.

When the flow of the fluid to the outlet 182 is opened, the flow of fluid between the support plate 180 and the water distributing member 122 causes the flow of external air through the air hole 183 and the air hole 146 to be blocked do.

24 shows another example in which the water blocking plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation.

In this embodiment, the air passage 185 is formed in the support plate 180. [ 19 except that the water shut-off plate 140 is rotated in contact with the support plate 180. As shown in Fig. Examples of the water blocking plate 140 and the support plate 180 can be found in FIGS. 23A and 23B.

25 to 33 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention having an air passage opening / closing device.

25, the water supply device of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, a support plate 180, an adjustment lever 150, An air passage 160, and an air passage opening / closing device 170.

The configuration of the flow path 110, the water supply container 120, the valve unit 130, the air passage 160, and the air passage opening / closing device 170 are the same as those of the flow path 110, the water supply container 120, The valve unit 130, the air passage 160, and the air passage opening / closing device 170, detailed description thereof will be omitted. The structure of the water blocking plate 140 and the support plate 180 is the same as that of the water blocking plate 140 and the support plate 180 shown in FIG. 17, and thus a detailed description thereof will be omitted. The control lever 150 has the same configuration as the control lever 150 shown in Fig. 17 except that the air passage 165 is not formed.

The water blocking plate 140 is brought into contact with the support plate 180 to close the fluid flow to the water outlet hole 124 and the water supply container 120 is provided with the air passage 160 and the air passage opening / And a vacuum force is formed inside the water supply container 120 by operating the water shutoff plate 140 up and down.

Fig. 26 shows an embodiment in which the air passage 160 is formed in the control lever 150. Fig.

The water supply device of the present embodiment includes a channel 110, a water supply container 120, a valve unit 130, a water blocking plate 140, a support plate 180, an adjustment lever 150, an air passage 160, And an air passage opening / closing device.

The configuration of the oil passage opening and closing device is the same as the configuration of the oil passage opening and closing device of the oil passage 110, the water supply container 120, the valve unit 130, the air passage 160, The air passage 130, the air passage 160, and the air passage opening / closing device, detailed description thereof will be omitted.

The structure of the water blocking plate 140 and the support plate 180 is the same as that of the water blocking plate 140 and the support plate 180 shown in FIG. 17, and thus a detailed description thereof will be omitted.

The air passage opening / closing device is operated to open and close the air passage 160. Here, the control lever 150 functions as an air passage opening / closing device. That is, the air passage 160 is operated to be opened and closed by moving the control lever 150 up and down to move the water shutoff plate 140 up and down.

When the water is supplied into the water supply container 120, the control lever 150 moves downward to cause the water shutoff plate 140 to contact the support plate 180 to close the fluid flow to the water outlet hole 124 , And at the same time, the air passage 160 is opened.

The water shutoff plate 140 opens the fluid flow to the water outlet hole 124 and at the same time opens the air passage 160, Is closed.

27 shows an example in which the air passage 160 is formed in the flow path 110 between the valve unit 130 and the water supply container 120. [

27, the water supply apparatus of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, a support plate 180, an adjustment lever 150, An air passage 160, and an air passage opening / closing device 170.

The configuration of the flow path 110, the water supply container 120, the valve unit 130, the air passage 160, and the air passage opening / closing device 170 are the same as those of the flow path 110, the water supply container 120, The valve unit 130, the air passage 160, and the air passage opening / closing device 170, detailed description thereof will be omitted. The structure of the water blocking plate 140 and the support plate 180 is the same as that of the water blocking plate 140 and the support plate 180 shown in FIG. 17, and thus a detailed description thereof will be omitted. The control lever 150 has the same configuration as the control lever 150 shown in Fig. 17 except that the air passage 165 is not formed.

In this embodiment, the air passage 160 is formed in the passage 110 between the valve unit 130 and the water supply container 120, and the air passage opening / closing device 170 is operated to open and close the air passage 160 do.

Fig. 28 shows an example in which the air passage 160 is formed in the valve unit 130. Fig.

28, the water supply device of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a water shutoff plate 140, a support plate 180, an adjustment lever 150, An air passage 160, and an air passage opening / closing device 170.

The configuration of the flow path 110, the water supply container 120, the valve unit 130, the air passage 160, and the air passage opening / closing device 170 are the same as those of the flow path 110, the water supply container 120, The valve unit 130, the air passage 160, and the air passage opening / closing device 170, detailed description thereof will be omitted. The structure of the support plate 180 is the same as that of the support plate 180 shown in FIG. 17, and thus a detailed description thereof will be omitted.

The water shutoff plate 140 is positioned to contact the lower portion of the support plate 180. The control lever 150 may be connected to the water shutoff plate 140 and extend downwardly through the water distribution member 122. The control lever 150 is operated up and down to adjust the operation of the water shutoff plate 140.

When the water is supplied into the water supply container 120, the control lever 150 moves upward to cause the water blocking plate 140 to contact the support plate 180 to close the fluid flow to the water outlet hole 124 , The air passage 160 is opened.

After the water is supplied into the water supply container 120, when the control lever 150 moves downward, the water shutoff plate 140 opens the fluid flow to the water outlet hole 124, and the air passage opening / closing device 170 Closes the air passage 160.

29 shows an example in which the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by horizontally rotating. 30A and 30B are views showing examples of the water blocking plate 140 and the support plate 180 of FIG.

The water shutoff plate 140 is rotated in contact with the support plate 180 by the rotation of the control lever 150.

30A and 30B show a side view of the water shutoff plate 140, and the remaining drawings show a schematic plan view.

Referring to FIG. 30A, a plurality of water outlets 141 are formed in the water shutoff plate 140, and a plurality of outflow ports 182 are formed in the support plate 180 as well. In the plan view, the positions of the outlet 141 and the outlet 182 are formed differently.

The water outlet 141 of the water blocking plate 140 and the water outlet 182 of the support plate 180 are not communicated with each other and the fluid flow to the water outlet hole 124 is closed when the water outlet hole 124 is closed .

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water outlet 141 of the water blocking plate 140 and the water outlet 182 of the support plate 180 are communicated with each other, (124) is opened.

Referring to FIG. 30B, the water barrier plate 140 has, for example, a cross shape.

The water shutoff plate 140 closes the outlet port 182 of the support plate 180 and the fluid flow to the outlet hole 124 is closed.

When the water blocking plate 140 is rotated at a predetermined angle by the rotation of the control lever 150, the water blocking plate 140 opens the water outlet 182 of the support plate 180, Is opened.

In the present embodiment, the other configuration is the same as the embodiment of Fig. 25 except that the water shutoff plate 140 opens and closes the flow path to the water outlet hole 124 by the horizontal rotation.

31 to 33 show another example in which the water shutoff plate 140 opens and closes the flow path to the outflow hole 124 by horizontally rotating.

In Fig. 31, the air passage 160 is formed in the control lever 150, which corresponds to Fig. In this embodiment, the other structure is the same as the embodiment of Fig. 10 except that the water shutoff plate 140 comes into contact with the support plate 180 to open and close the flow path to the water outlet hole 124 by the horizontal rotation.

32, an air passage 160 is formed in the flow path 110 between the valve unit 130 and the water supply container 120, which corresponds to Fig. In the present embodiment, the other structure is the same as that of the embodiment of Fig. 11 except that the water shutoff plate 140 comes into contact with the support plate 180 to open and close the flow path to the water outlet hole 124 by the horizontal rotation.

33, the air passage 160 is formed in the valve unit 130, which corresponds to Fig. In this embodiment, the structure is the same as that of the embodiment of Fig. 12 except that the water blocking plate 140 is brought into contact with the support plate 180 to open and close the flow path to the water outlet hole 124 by the horizontal rotation.

34 to 37 are diagrams showing a configuration of a water supply device for extracting coffee according to another embodiment of the present invention, respectively.

34, the water supply apparatus of the present invention includes a channel 110, a water supply container 120, a valve unit 130, a support plate 180, an adjustment lever, and an air passage 185, The blocking plate is not installed separately.

The configuration of the flow path 110 and the valve unit 130 is the same as that of the flow path 110 and the valve unit 130 shown in FIG. 4, and thus a detailed description thereof will be omitted.

The water supply container 120 is connected to the flow path 110. The water supply container 120 has an accommodation space for storing water and a water distribution member 122 for discharging the water stored in the accommodation space to the lower part through a plurality of outflow holes 124. [

The support plate 180 is disposed on the upper part of the water distribution member 122 and is supported on the inner circumferential surface of the water supply container 120 and has a first flow path 181 communicating with the upper surface and the lower surface on one surface thereof. The support plate 180 is in contact with the water distribution member 122.

The control lever is connected to the water distribution member 122 to regulate the operation of the water distribution member 122. In this embodiment, the outer peripheral surface of the water distributing member 122 functions as an adjusting lever. For example, if the outer periphery of the water distribution member 122 is held and moved up and down, the water distribution member 122 can be moved up and down.

The air passage 185 is formed in a protruding portion protruding from the support plate 180 to the upper portion of the water supply container 120 and the air hole 183 of the support plate 180 and the water outlet hole 124).

34, when the water distributing member 122 is moved upward by the adjustment lever to come into contact with the support plate 180, the water distributing member 122 is moved to the first flow path of the support plate 180, (181) is closed and fluid flow to the water outlet hole (124) is blocked. The first flow path 181 of the support plate 180 and the water outlet hole 124 of the water distribution member 122 are formed at different positions in the plane.

Next, when the valve unit 130 is opened, water is quickly filled into the water supply container 120 through the flow path 110. At this time, the water supply container 120 is filled with water so that the air in the water supply container 120 flows to the support plate 180 along the air passage 185 and then flows out to the outside through the water outlet hole 124 Can be discharged. When the water supply container 120 is filled with an appropriate amount of water, the valve unit 130 is locked.

When the water distribution member 122 is moved downward by the adjustment lever so as to be spaced apart from the support plate 180, water in the water supply container 120 flows between the support plate 180 and the water outlet hole 124 And the water is discharged through the water outlet hole 124 as the fluid flow to the water outlet hole 124 of the water distributing member 122 is opened.

When air is not introduced into the water supply container 120 while water is discharged through the water outlet hole 124, a vacuum force may be formed inside the water supply container 120.

An air passage 185 communicating with the water outlet hole 124 is provided in the support plate 180 and the outer peripheral surface of the water distributing member 122 So that a vacuum force is generated inside the water supply container 120 by operating the water dispensing member 122 up and down.

35 shows an embodiment in which the control lever 150 is separately formed in the lower center of the water distribution member 122. [ 34 except for the configuration of the control lever 150. [

36 shows an example of opening and closing the flow path to the water outlet hole 124 by the horizontal rotation of the water distribution member 122. As shown in Fig. 37 is a view showing an example of the support plate 180 and the water distribution member 122 of Fig.

The water distributing member 122 is rotated in contact with the support plate 180 by rotation of the control lever. The outer peripheral surface of the water distributing member 122 functions as an adjusting lever.

The uppermost drawing in FIG. 37 shows a side view of the support plate 180, and the remaining drawings show a schematic plan view.

The air passage 185 is formed in a protrusion protruding from the support plate 180 to the upper portion of the water supply container 120 and communicates with the water outlet hole 124 of the water distribution member 122.

A first flow path 181 is formed in the support plate 180 and a plurality of outflow holes 124 are formed in the water distribution member 122. In the plan view, the positions of the first flow path 181 and the outflow hole 124 are formed differently. An air hole 183 is formed in the support plate 180 and an air hole 125 is formed in the water distribution member 122.

The first flow path 181 of the support plate 180 and the water outlet hole 124 of the water distribution member 122 are not communicated with each other so that the fluid flow to the water outlet hole 124 is closed Respectively. The air holes 183 of the support plate 180 and the air holes 125 of the water distribution member 122 are communicated with each other so that the air in the water supply container 120 is discharged to the outside through the air holes 125 .

When the water distributing member 122 is rotated by a predetermined angle by the control lever, the first flow path 181 of the support plate 180 and the outflow hole 124 of the water distributing member 122 are communicated with each other, Is opened.

On the other hand, the air hole 183 of the support plate 180 and the air hole 125 of the water distribution member 122 are disconnected from each other by the movement, and the inflow of external air through the water outlet hole 124 is blocked.

38 to 45 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention, respectively.

In the embodiment of Figs. 38 to 45, the water supply device is the same as the embodiment of Fig. 34 in that no water blocking plate is installed separately.

In Fig. 38, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 34, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. The operation is the same as that of the embodiment of FIG. 34 except for the configuration of the air passage 185.

In Fig. 39, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 34, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. The operation is the same as that of the embodiment of FIG. 34 except for the configuration of the air passage 185.

40, an air passage 160 is provided in the control lever 150 in place of the air passage 185 of FIG. 34, which is the same as the air passage 160 of FIG. The operation is the same as that of the embodiment of FIG. 34 except for the configuration of the air passage 185.

In Fig. 41, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 34, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. 7 Do. The operation is the same as that of the embodiment of FIG. 34 except for the configuration of the air passage 185.

In Fig. 42, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 36, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

In Fig. 43, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 36, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

44, an air passage 160 is provided in the control lever 150 in place of the air passage 185 of FIG. 36, which is the same as the air passage 160 of FIG. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

45, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 shown in Fig. 36. This is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. 7 Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

46 to 48 are diagrams showing a configuration of a water supply device for coffee extraction according to another embodiment of the present invention, respectively.

In Figure 46, the water shut-off plate 140 is operatively connected to the top of the water distribution member 122 to open and close fluid flow to the outlet holes 124. The water blocking plate 140 may have a disk shape, for example, and the outer circumferential portion may have a protruding shape.

The support plate 180 is disposed on the upper part of the water distribution member 122 and is supported on the inner circumferential surface of the water supply container 120 and has a first flow path 181 communicating with the upper surface and the lower surface on one surface thereof.

An air passage (185) is formed in the support plate (180) and communicates with the water outlet hole (124).

The control lever is connected to the water distribution member 122 to regulate the operation of the water distribution member 122. In this embodiment, the outer peripheral surface of the water distributing member 122 functions as an adjusting lever.

Holding the outer peripheral surface of the water distributing member 122 and raising the water distributing member 122 upward closes the fluid flow to the water outlet hole 124 while the water blocking plate 140 is in contact with the support plate 180. When the water distributing member 122 is pulled down by holding the outer peripheral surface of the water distributing member 122, the flow of water to the water outlet hole 124 is opened while the water blocking plate 140 is separated from the support plate 180.

47 is the same as the embodiment of Fig. 46 except that the air passage 145 is formed in the water shutoff plate 140 and communicated with the water outlet hole 124. In Fig.

48, the water shutoff plate 140 opens and closes the fluid flow to the water outlet hole 124 by the horizontal rotation. The outer circumferential surface of the water distributing member 122 functions as an adjusting lever, and the configurations of the water blocking plate 140 and the support plate 180 can be referred to FIG. 23A and FIG. 23B.

49 to 56 are diagrams showing a configuration of a water supply device for extracting coffee according to another embodiment of the present invention having an air passage opening / closing device.

In Fig. 49, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 46, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

In Fig. 50, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 46, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

51, an air passage 160 is provided in the control lever 150 in place of the air passage 185 of FIG. 46, which is the same as the air passage 160 of FIG. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

52, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 shown in FIG. 46. This is the same as the air passage 160 and the air passage opening / closing device 170 of FIG. Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

In Fig. 53, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 of Fig. 48, which is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

54, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 shown in Fig. 48. This is the same as the air passage 160 and the air passage opening / closing device 170 of Fig. 6 Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

55, an air passage 160 is provided in the control lever 150 in place of the air passage 185 of FIG. 48, which is the same as the air passage 160 of FIG. Except that the structure of the air passage 160 is the same as that of the embodiment of Fig.

56, an air passage 160 and an air passage opening / closing device 170 are provided instead of the air passage 185 shown in FIG. 48. This is the same as the air passage 160 and the air passage opening / closing device 170 of FIG. 7 Do. Except that the structure of the air passage 185 is the same as that of the embodiment of Fig.

As described above, in the water extracting apparatus for extracting coffee according to the present invention, the interaction between the water blocking plate 140, the support plate 180, the water distributing member 122, and the control lever (for example, To open and close the fluid flow to the water outlet hole 124 of the water distribution member 122 by rotation (e.g., rotation).

Accordingly, the water in the water supply container 120 is discharged to the outside while supplying water into the water supply container 120, and after the water is supplied into the water supply container 120, A vacuum force can be formed inside the supply container 120.

The vacuum force inside the water supply container 120 makes it possible to adjust the supply rate and amount of water supplied to the coffee powder and to uniformly distribute the supplied water to various points of the coffee powder.

The method of discharging the air in the water supply container 120 to the outside can be implemented in various forms as shown in the above embodiments. It is apparent that those embodiments can be modified and used by a general practitioner.

Therefore, the technical idea of the present invention is to prevent water from being discharged through the water outlet hole 124 of the water distribution member 122 while supplying water into the water supply container 120, So that it is possible to form a vacuum force in the water supply container 120 by discharging the inside air to the outside, and the scope of the present invention is not limited to the above specific embodiments.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

1: drip server
2: Dripper
3: Filter
4: Coffee powder
101: Reservoir body
102: Water tank
110: Euro
120: Water supply container
121: accommodation space
122: Water distribution member
123:
124:
130: Valve unit
140: Water blocking plate
141: Outlet
145: Air passage
150: Control lever
160: air passage
170: Air passage opening / closing device
180: Support plate
185: air passage

Claims (9)

1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A water shutoff plate located on top of the water distribution member and operative to open and close fluid flow to the water outlet;
An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate;
Lt; / RTI >
The water shutoff plate can be operated by the control lever to open and close the flow path to the water outlet,
The water extracting apparatus for extracting coffee,
An air passage provided in at least one of the water blocking plate and the control lever and communicating with the outflow hole;
Further comprising:
Wherein when the water is supplied into the water supply container, the water shutoff plate closes the fluid flow to the outflow hole, the air passage communicates with the outflow hole,
The water shutoff plate opens the fluid flow to the outflow hole, and after the water shutoff plate releases the flow of the fluid to the outflow hole, the air flow path forms a vacuum force inside the water supply container by not communicating with the outflow hole A water dispenser for coffee extraction. 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A water shutoff plate located on top of the water distribution member and operative to open and close fluid flow to the water outlet;
An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate;
Lt; / RTI >
By operating the control lever, the water shutoff plate can be operated to open and close the flow path to the water outlet,
At least one of the water supply container, the valve unit, the flow path between the valve unit and the water supply container, and the adjustment lever is formed with an air passage communicating with the outside,
The water extracting apparatus for extracting coffee,
An air passage opening / closing device capable of opening and closing the air passage;
Further comprising:
Wherein when the water is supplied into the water supply container, the water shutoff plate closes the fluid flow to the outflow hole, opens the air passage by the air passage opening / closing device,
Closing the air passage by the air passage opening and closing device after the water is supplied into the water supply container and opening the fluid flow to the water outlet by the water blocking plate, Wherein the coffee extracting apparatus comprises: 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A support plate disposed on the upper portion of the water distribution member and supported on an inner circumferential surface of the water supply container, the support plate having a first flow path vertically communicating on one surface thereof;
A water shutoff plate located above the water distribution member and operative to open and close the fluid flow of the support plate;
An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate;
Lt; / RTI >
The operation of the control lever activates the water shutoff plate to open / close the first flow path of the support plate,
The water extracting apparatus for extracting coffee,
An air passage provided in at least one of the water shutoff plate, the support plate, and the control lever to communicate with the outflow hole;
Further comprising:
Wherein when water is supplied into the water supply container, the water shutoff plate closes the first flow path of the support plate, the air passage is in communication with the outflow hole,
Wherein after the water is supplied into the water supply container, the water shutoff plate can form a vacuum force inside the water supply container by opening the first flow path of the support plate. 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A support plate disposed on the upper portion of the water distribution member and supported on an inner circumferential surface of the water supply container, the support plate having a first flow path vertically communicating on one surface thereof;
A water shutoff plate located above the water distribution member and operative to open and close the first flow path of the support plate;
An adjusting lever connected to the water blocking plate to adjust the operation of the water blocking plate;
Lt; / RTI >
The operation of the control lever activates the water shutoff plate to open / close the first flow path of the support plate,
At least one of the water supply container, the valve unit, the flow path between the valve unit and the water supply container, and the adjustment lever is formed with an air passage communicating with the outside,
The water extracting apparatus for extracting coffee,
An air passage opening / closing device capable of opening and closing the air passage;
Further comprising:
Wherein when the water is supplied into the water supply container, the water shutoff plate closes the first flow path of the support plate, opens the air passage by the air passage opening / closing device,
Wherein the air passage is closed by the air passage opening / closing device after the water is supplied into the water supply container, and the water shutoff plate opens the first flow path of the support plate in the water supply container A water supply device for coffee extraction capable of forming a vacuum force. 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A support plate positioned on the upper portion of the water distribution member and supported on the inner circumferential surface of the water supply container and having a first flow path vertically communicating on one surface thereof;
An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member; Lt; / RTI >
The operation of the control lever activates the water distribution member to open / close the first flow path of the support plate,
The water extracting apparatus for extracting coffee,
An air passage provided in at least one of the support plate and the control lever and communicating with the outflow hole;
Further comprising:
Wherein when the water is supplied into the water supply container, the water distribution member closes the first flow path of the support plate, the air passage is in communication with the outflow hole,
Wherein after the water is supplied into the water supply container, the water distribution member can form a vacuum force inside the water supply container by opening the first flow path of the support plate. 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A support plate disposed on the upper portion of the water distribution member and supported on an inner circumferential surface of the water supply container, the support plate having a first flow path vertically communicating on one surface thereof;
An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member;
Lt; / RTI >
The operation of the control lever activates the water distribution member to open / close the first flow path of the support plate,
At least one of the water supply container, the valve unit, the flow path between the valve unit and the water supply container, and the adjustment lever is formed with an air passage communicating with the outside,
The water extracting apparatus for extracting coffee,
An air passage opening / closing device capable of opening and closing the air passage;
Further comprising:
Wherein when the water is supplied into the water supply container, the water distribution member closes the first flow path of the support plate, opens the air passage by the air passage opening / closing device,
Wherein the air passage is closed by the air passage opening / closing device after the water is supplied into the water supply container, and the water distribution member opens the first flow path of the support plate in the water supply container A water supply device for coffee extraction capable of forming a vacuum force. 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A support plate positioned on the upper portion of the water distribution member and supported on the inner circumferential surface of the water supply container and having a first flow path vertically communicating on one surface thereof;
A water shutoff plate located on top of the water distribution member and operative to communicate with the water distribution member to open and close the first flow path of the support plate;
An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member and the water blocking plate;
Lt; / RTI >
The operation of the control lever activates the water distribution member and the water shutoff plate to open / close the first flow path of the support plate,
The water extracting apparatus for extracting coffee,
An air passage provided in at least one of the water shutoff plate, the support plate, and the control lever to communicate with the outflow hole;
Further comprising:
Wherein when water is supplied into the water supply container, the water shutoff plate closes the first flow path of the support plate, the air passage is in communication with the outflow hole,
Wherein after the water is supplied into the water supply container, the water shutoff plate can form a vacuum force inside the water supply container by opening the first flow path of the support plate. 1. A water supply apparatus for extracting coffee,
A channel connected to the water tank;
A water supply container connected to the flow path, the water supply container having an accommodation space capable of storing water and a water distribution member discharged downward through a plurality of outflow holes, the water stored in the accommodation space;
A valve unit for opening and closing the flow path to regulate the amount of water supplied to the water supply container;
A support plate disposed on the upper portion of the water distribution member and supported on the inner circumferential surface of the water supply container and having a first flow path communicating with the upper surface and the lower surface on one surface;
A water shutoff plate located on top of the water distribution member and operative to communicate with the water distribution member to open and close the first flow path of the support plate;
An adjusting lever connected to the water distributing member to regulate the operation of the water distributing member and the water blocking plate;
Lt; / RTI >
The operation of the control lever activates the water distribution member and the water shutoff plate to open / close the first flow path of the support plate,
At least one of the water supply container, the valve unit, the flow path between the valve unit and the water supply container, and the adjustment lever is formed with an air passage communicating with the outside,
The water extracting apparatus for extracting coffee,
An air passage opening / closing device capable of opening and closing the air passage;
Further comprising:
Wherein when the water is supplied into the water supply container, the water shutoff plate closes the first flow path of the support plate, opens the air passage by the air passage opening / closing device,
Wherein the air passage is closed by the air passage opening / closing device after the water is supplied into the water supply container, and the water shutoff plate opens the first flow path of the support plate in the water supply container A water supply device for coffee extraction capable of forming a vacuum force. 9. The method according to any one of claims 1 to 8,
Wherein a plurality of projections are formed on the bottom surface of the water distribution member so as to project downwardly, and the water outlet holes are formed through the plurality of projections, respectively.

Images