KR102487207B1 - Unit for supplying mineral - Google Patents

Abstract

The present invention relates to a mineral supply unit. The present invention includes a mineral cartridge in which minerals are accommodated; a mineral cartridge cap coupled to the opening of the mineral cartridge and including an outlet hole through which minerals flow out and an opening/closing member selectively opening the outlet hole by moving up and down; and a protruding member on which the mineral cartridge cap is detachably mounted, protruding at a position corresponding to the opening and closing member to press the opening and closing member, and a sealing member disposed on a bottom surface of the mineral cartridge accommodating portion and contacting the cartridge cap. and a mineral cartridge accommodating portion including a; wherein, when the mineral cartridge cap is fastened to the mineral cartridge accommodating portion, the thickness of a portion where the sealing member overlaps the mineral cartridge cap is such that the opening/closing member is attached to the protruding member. Provided is a mineral supply unit characterized in that it is greater than the pressed length.

Description

Mineral supply unit {UNIT FOR SUPPLYING MINERAL}

The present invention relates to a mineral supply unit for supplying minerals to produce mineral water.

In general, a drinking water supply device refers to a device for supplying drinking water to a user. This drinking water supply device may be an independent device, and it is also possible to form a part of home appliances such as a refrigerator.

The drinking water supply device can not only supply drinking water at room temperature, but also cool the drinking water flowing inside the drinking water supply device by using a cold water supply device including a refrigeration cycle or heat the drinking water with a heater so as to cool or hot water as needed. can also be supplied with

The drinking water may be ground water or raw water supplied from a tap water plant, or may be purified water obtained by filtering raw water supplied to the tap water plant by a separate filtering means. However, drinking water described below is meant to encompass drinkable water and is not limited to the above-mentioned types of water.

[0003] Recently, a drinking water supply device aims not only to provide filtered purified water or cold and hot water to users, but also to provide functional water tailored to the various needs of users. For example, a drinking water supply device having a mineral water supply module may be provided to provide a user with mineral water containing a predetermined amount of minerals.

Minerals are one of the five essential nutrients along with proteins, fats, carbohydrates and vitamins and are known to play an important role in biochemical (catalytic) action in the human body, as well as in the composition of bones and teeth.

In particular, elements such as calcium (Ca), potassium (K), magnesium (Mg), and sodium (Na) are sufficient in trace amounts, but are essential mineral elements for metabolism.

Mineral water containing these minerals can play an auxiliary role in improving health, such as discharging waste products accumulated in the body and promoting digestion.

In addition, when a predetermined amount of minerals are contained in drinking water, the user can feel a more improved water taste when drinking.

In order to generate such mineral water, an electrolysis device, a mineral filter, or a mineral water supply module for directly supplying liquid minerals to purified water through a mineral cartridge containing concentrated minerals and a mineral supply pipe may be applied to the drinking water supply device.

In the case of the mineral water supply module, it can be implemented in a compact size compared to other devices, and has the advantage of being able to control the mineral outflow for generating mineral water.

The mineral cartridge may be formed in a size and shape to be easily installed in a drinking water supply device. The mineral cartridge may contain a predetermined amount of minerals corresponding to a set number of outflows of minerals or a reference mineral water production amount for generating mineral water.

When the mineral cartridge is attached or detached to supply such mineral water, there is a problem in that the minerals contained in the mineral cartridge leak to the outside.

An object of the present invention is to provide a mineral supply unit capable of preventing the leakage of minerals to the outside when a mineral cartridge is exchanged.

In order to achieve the above object, the present invention includes a mineral cartridge in which minerals are accommodated; a mineral cartridge cap coupled to the opening of the mineral cartridge and including an outlet hole through which minerals flow out and an opening/closing member selectively opening the outlet hole by moving up and down; and a protruding member on which the mineral cartridge cap is detachably mounted, protruding at a position corresponding to the opening and closing member to press the opening and closing member, and a sealing member disposed on a bottom surface and contacting the cartridge cap. and an accommodating portion, wherein when the mineral cartridge cap is fastened to the mineral cartridge accommodating portion, a thickness of a portion where the sealing member overlaps the mineral cartridge cap is greater than a length in which the opening/closing member is pressed against the protruding member. A characterized mineral supply unit is provided.

When the mineral cartridge cap is fastened to the mineral cartridge accommodating portion, the protruding member may contact the opening/closing member after the mineral cartridge cap contacts the sealing member.

A height of a portion where the sealing member contacts the mineral cartridge cap may be lower than a height where the opening/closing member contacts the protruding member.

A height at which the protruding member protrudes from the bottom surface of the mineral cartridge accommodating portion may be higher than a height of the sealing member.

The sealing member may be made of a material that is deformed when pressed, and the opening/closing member may be provided to move when pressed.

The opening/closing member may close the outlet hole when not pressed by the protruding member, and may move into the mineral cartridge to open the outlet hole when pressed by the protruding member.

The opening/closing member may include a blocking member sealing the outlet hole inside the mineral cartridge, and an elevating member having one end connected to the blocking member and extending through the outlet hole.

It is possible that a lower end of the elevating member is provided with a seating piece forming a plane to contact the protruding member.

The mineral cartridge cap may have a guide piece protruding from the outside, and a guide groove guiding the guide piece may be formed in the mineral cartridge accommodating part.

The guide groove may include a first guide part guiding the mineral supply unit accommodating part to have an inclination with respect to the bottom surface of the mineral supply unit accommodating part, and a second guide part guiding the mineral supply unit accommodating part parallel to the bottom surface. .

The mineral cartridge accommodating part may include a mineral outlet pipe guiding a path through which minerals are discharged to the outside and a pump connection pipe guiding a path through which air is introduced from the outside.

According to the present invention, when the mineral cartridge is separated from the mineral supply unit to replace the mineral cartridge, since the mineral cartridge is sealed, it is possible to prevent leakage of minerals inside the mineral cartridge to the outside.

1 is a conceptual diagram of a drinking water supply device according to an embodiment of the present invention.
2 is a schematic view showing the configuration of a mineral water supply module according to an embodiment of the present invention.
3 is an exploded perspective view of a mineral supply unit according to an embodiment of the present invention;
4 is a view showing the appearance of the mineral supply unit in FIG. 3;
5 is a diagram explaining a combining process according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention that can specifically realize the above object will be described with reference to the accompanying drawings.

In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary according to the intentions or customs of users and operators. Definitions of these terms should be made based on the content throughout this specification.

Hereinafter, a mineral supply unit, a mineral water supply module, and a drinking water supply device including the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In defining terms, water before passing through a filter is referred to as raw water, raw water purified through the filter is referred to as purified water, and purified water containing minerals is referred to as mineral water. In addition, the rear end and the front end may refer to an upstream side and a downstream side based on the forward flow direction of the fluid, respectively.

Hereinafter, FIG. 1 is a conceptual diagram of a drinking water supply device to which a mineral water supply module is applied, and a drinking water supply device to which mineral water is supplied will be described with reference to FIG. 1 .

The accompanying drawing of the drinking water supply device shows an exemplary form of the present invention, which is provided only to explain the present invention in detail, and the technical scope of the present invention is not limited thereby.

As shown in FIG. 1 , the drinking water supply device 1 may convert raw water flowing into the drinking water supply device 1 through the external hydrant 10 into purified water through the filter unit 20 . The configuration of the filter unit 20 may be variously modified, and the filter unit 20 may be configured through a plurality of single filters. In FIG. 1, an embodiment in which three single filters are connected in series to form the filter unit 20 is shown, but it will not be limited thereto.

Specifically, the filter unit 20 may include a pre-carbon filter 21, a UF filter 22, and a post-carbon filter 23. Of course, other types of filters may be added depending on the case.

Purified water produced by filtering raw water can be discharged to the outside through the purified water pipe 30, the purified water supply valve 32, and the cock 73.

Cold water or hot water may be supplied to the drinking water supply device 1 according to a user's request.

The hot water supplied by heating the purified water is the first branch purified water pipe 301 branched at point A of the purified water pipe 30, the heating device 51, the hot water pipe 50, the hot water supply valve 52, and the cock 73 ) through which it can be discharged to the outside.

The cold water supplied after the purified water is cooled is the second branch purified water pipe 302 branched at point B of the purified water pipe 30, the cooling device 41, the cold water pipe 40, the cold water supply valve 42, and the cock 73 ) through which it can be discharged to the outside.

1 shows an embodiment in which purified water, cold water, and hot water are discharged through a single cock 73 for convenience of description. However, the configuration of the cork for water extraction may be provided with separate cocks for the extraction of purified water, cold water, and hot water, and the purified water and cold water may be provided with a single cock, and the hot water may be provided with a separate cock.

Meanwhile, a cock valve 74 may be provided at a rear end of the purified water supply valve 32, the cold water supply valve 42, and the hot water supply valve 52. The cock valve 74 may be connected to the distribution pipe 60. Also, the distribution pipe 60 may be connected to the purified water pipe 30, the cold water pipe 40, and the hot water pipe 50, respectively.

A water outlet pipe 70 through which purified water, cold water or hot water can be supplied may be provided at a rear end of the cock valve 74 .

Therefore, purified water, cold water or hot water can be supplied to the distribution pipe 60, and when the cock 73 is opened through the single cock valve 74, purified water, cold water or hot water can be selectively supplied through the water outlet pipe 70. can

Meanwhile, a mineral water supply module 100 for generating mineral water may be connected to the water outlet pipe 70 .

The mineral water supply module 100 may be connected to one side of the water outlet pipe 70 through the mineral water generator 120 connected to the water outlet pipe 70 .

Hereinafter, for convenience of description, the water outlet pipe 70 located in front of the mineral water generator 120 and supplying purified water to the mineral water generator 120 is referred to as a water supply pipe 71, and the mineral water generator 120 ) The discharge pipe 70 located at the rear end of the discharge pipe 72 is to be named.

That is, the water supply pipe 71 may be referred to as a pipe through which purified water, cold water, or hot water is selectively discharged and introduced into the mineral water generator 120 when the cock 73 is opened through the single cock valve 74.

The discharge pipe 72 is a pipe through which purified water, cold water, hot water, or mineral water flowing through the mineral water generator 120 is selectively discharged to the cock 73 according to a user's selection.

The mineral water supply module 100 may include a mineral supply pipe 110 connected to the mineral water generator 120 to supply minerals.

A mineral supply valve 130 for selectively supplying minerals to the mineral water generator 120 may be provided in the mineral supply pipe 110 . It may also include a mineral supply unit 180 including a mineral cartridge 140 in which the mineral concentrate is accommodated, and a pump 190 that pressurizes the mineral cartridge 140 to discharge minerals.

Meanwhile, the minerals supplied from the mineral water supply module 100 to the mineral water generating unit 120 may be concentrated minerals of high concentration.

A mineral concentrate in which minerals such as calcium (Ca), potassium (K), magnesium (Mg), and sodium (Na) are mixed may be accommodated in the mineral cartridge 140 .

For example, the mineral concentration of the mineral concentrate contained in the mineral cartridge 140 may be about 200 times the average concentration of minerals contained in purified water.

And according to the experimental results, the amount of mineral concentrate required to produce mineral water with a taste preferred by users is 0.0006 times the amount of purified water, which is an extremely small amount. In addition, in order to provide mineral water with a water taste within a permissible range each time, it is required to supply a predetermined amount of minerals for a predetermined time.

Therefore, as described above, since a predetermined amount of minerals must be constantly supplied for a predetermined time, the mineral water supply module 100 requires a micro-passage unit 200 capable of supplying a small amount of minerals.

The micro-channel part 200 may be formed in a cylindrical or polyhedral shape having a predetermined area and a predetermined length. Also, the flow rate discharged from the micro-passage unit 200 may be determined by the area and length if the pressure of the pump 190 pressurizes the same.

In addition, the micro-channel part 200 is preferably formed with a small flow cross section and a predetermined length capable of inducing a pressure loss of the liquid in order to supply a small amount of minerals set for a predetermined time to the mineral water generator 120. Do.

Specifically, when the micro-channel part 200 is formed in a cylindrical shape, the diameter may be formed in a range of 0.5 mm or more and 1.0 mm or less.

Also, the maximum diameter of the micro-passage unit 200 may be a diameter capable of supplying minerals within a predetermined tolerance range.

Specifically, the micro-passage portion 200 is preferably formed with a diameter that allows purified water or mineral water to be extracted within an allowable deviation for water taste when mineral water or purified water is discharged crosswise.

That is, when purified water crosses with mineral water and is discharged, the outflow of minerals remaining in the micro-passage portion 200 can be minimized so that purified water containing minerals in an acceptable concentration range can be formed with a diameter through which purified water is discharged. .

In addition, when mineral water is discharged across purified water, mineral water containing minerals in an acceptable concentration range may be formed in a diameter through which mineral water is discharged.

The minimum diameter of the micro-channel part 200 is most preferably formed to a diameter of 0.5 mm that can be molded or processed. Since it is not easy to mold or process a diameter of 0.5 mm or less, a problem of reduced productivity may occur.

In addition, the maximum diameter of the micro-channel portion 200, which satisfies the above conditions and is derived by experimentation, may be 1.0 mm.

The digitized diameter of the micro-passage unit 200 is a value derived based on a water supply pipe having an outer diameter of 6.35 mm and a pump having a discharge flow rate of 0.1 ml/s to 1 ml/s, which is commonly used in drinking water supply devices.

If the flow cross-sectional area of the micro-channel part 200 has a non-circular circular or polygonal shape, it is most preferable to have a minimum area that can be processed.

In addition, by forming the micro-passage part 200 in a predetermined length range, a pressure drop of minerals flowing through the micro-passage part 200 is induced so that a preset amount of minerals can be discharged. In addition, it is possible to reduce the influence of pressure variations that may occur according to the operation of the pump 190 .

Specifically, when the micro-passage part 200 is formed below the lower limit of the predetermined length range, the pressure drop of the minerals flowing through the micro-passage part 200 is small, so that a large amount of minerals can be discharged upwards the set mineral discharge amount. . That is, when the micro-passage portion 200 is formed short, the pressure of the minerals introduced from the mineral supply pipe 110 is not sufficiently reduced due to frictional loss, so that the discharge flow rate may exceed the set value.

Conversely, when the length is equal to or greater than the upper limit of the predetermined length range, excessive pressure loss due to friction of the minerals flowing through the micro-passage portion 200 may occur, and thus a mineral flow rate smaller than the set flow rate may be discharged.

Therefore, it is preferable that the micro-passage part 200 is formed with an appropriate length to discharge minerals in an appropriate range. Specifically, the length of the micro-channel part 200 may be formed to be 15 mm or more and 20 mm or less.

First, the configuration of the mineral water supply module will be described in detail with reference to FIG. 2 .

The mineral water supply module 100 according to the present invention includes a water supply pipe 71 for supplying purified water, a mineral supply pipe 110 for supplying minerals, and a discharge through which purified water or mineral water containing minerals in purified water is selectively discharged depending on whether minerals are supplied. Includes tube 72.

The mineral water supply module 100 may include a mineral supply valve 130 provided in the mineral supply pipe 110 and selectively opening and closing the mineral supply pipe 110 according to whether or not the mineral water is generated.

In addition, the mineral water supply module 100 may include a mineral water generator 120 in which purified water supplied from the water supply pipe 71 and minerals supplied from the mineral supply pipe 110 are mixed to generate mineral water. .

In the mineral water generator 120, a first connection pipe 121 connected to the water supply pipe 71, a second connection pipe 122 connected to the mineral supply pipe 110, and a discharge pipe 72 are connected. A third connection pipe 123 may be formed.

In addition, a micro-passage unit 200 may be provided in the second connection pipe 122 to form a mineral supply passage with a micro-flow rate in order to provide mineral water having a minimized variation in concentration of the contained minerals. The micro-passage unit 200 forms a flow path through which a micro-flow amount of minerals constantly flows for a predetermined period of time, thereby minimizing the variation in the amount of minerals discharged.

In addition, a mineral supply unit 180 for supplying minerals may be connected to the mineral supply pipe 110 .

The mineral supply unit 180 includes a mineral cartridge 140, a mineral cartridge cap 150 coupled to the mineral cartridge 140, and a mineral cartridge accommodating portion connecting the mineral cartridge 140 to the mineral supply pipe 110 ( 160) may be included.

The mineral cartridge 140 may be formed in a size and shape that is easy to mount on the drinking water supply device 1 .

In addition, the mineral cartridge 140 may have a predetermined volume capable of accommodating a predetermined amount of minerals corresponding to a set number of mineral outflows for generating mineral water or a standard mineral water production amount. Specifically, the mineral cartridge 140 may be formed as a polyhedron having a predetermined volume with an opening at one side to allow minerals to flow out.

On the other hand, the mineral cartridge 140 is required to be replaced at a predetermined cycle depending on when the stored minerals are exhausted or when the minerals are available for drinking. Therefore, it is preferable that the mineral cartridge 140 is detachably connected to the mineral cartridge accommodating part 160 for easy replacement.

To this end, a mineral cartridge cap 150 coupled to one open side of the mineral cartridge 140 and detachably mounted in the mineral cartridge accommodating portion 160 may be provided.

The mineral supply unit 180 may be connected to a pump 190 that pressurizes the inside of the mineral cartridge 140 and discharges the minerals inside the mineral cartridge 140 to the mineral supply pipe 110 .

In the process of supplying minerals from the mineral supply unit 180 to the mineral supply pipe 110, when a mineral water generation signal is first input, the mineral supply valve 130 is opened, and the minerals in the mineral supply pipe 110 are transferred to the mineral water generator ( 120) can flow.

Further, as the pressure in the mineral supply pipe 110 is lowered by the outflow of the minerals, the minerals stored in the mineral cartridge accommodating part 160 may be discharged into the mineral supply pipe 110 .

At the same time, the pump 190 supplies air to the mineral cartridge 140 to pressurize the minerals contained in the mineral cartridge 140 and discharge the minerals into the mineral cartridge accommodating part 160 .

Minerals discharged from the mineral cartridge 140 through the mineral cartridge cap 150 may be accommodated in the mineral cartridge accommodating part 160 and flow into the mineral supply pipe 110 .

When this process is repeated to supply minerals to the mineral water generator 120 and the mineral supply valve 130 is closed, the pressure of the mineral water supply module 100 is balanced so that no flow occurs.

The configuration of the mineral supply unit will be described with reference to FIG. 3 .

The mineral cartridge 140, the mineral cartridge cap 150, and the mineral cartridge accommodating portion 160 may be coupled in a line based on one vertical axis center line.

That is, the mineral cartridge cap 150 to which the mineral cartridge 140 is coupled may be vertically coupled to the mineral cartridge accommodating portion 160 .

The mineral cartridge 140 initially accommodates concentrated minerals of a certain level, and may be filled with nitrogen or the like during manufacturing to facilitate long-term storage in a partial space within the mineral cartridge 140 . Accordingly, when the mineral cartridge 140 is opened to be coupled to the mineral cartridge cap 150, a predetermined amount of air may be accommodated in the space filled with nitrogen to replace the nitrogen.

When the opening 141 of the mineral cartridge 140 is connected to the mineral cartridge accommodating part 160 by the mineral cartridge cap 150 to form the bottom surface, the air received in the mineral cartridge 140 moves to the ceiling surface and forms an air layer. can form

Meanwhile, the mineral cartridge cap 150 coupled to the opening 141 of the mineral cartridge 140 has an opening/closing member 154 through which minerals are selectively discharged, and an outlet hole opened by the opening/closing member 154 to allow the minerals to flow out. (156).

The opening and closing member 154 is connected to the blocking member 151 sealing the outlet hole 156 and one side is connected to the blocking member 151 and extends a predetermined length so that the other side is formed with a flat surface to easily receive pressure An elevating member 152 may be included.

The blocking member 151 is formed as a rotating body corresponding to the diameter of the outlet hole 156 and is installed inside the mineral cartridge 140 to block the outlet hole 156 from the inside of the mineral cartridge 140. can be located And the blocking member 151 may be formed of a material such as rubber or urethane having elasticity.

Also, the elevating member 152 may be mounted on the mineral cartridge cap 150 so as to pass through the outlet hole 156 and move into the mineral cartridge 140 by pressure.

Specifically, the elevating member 152 may be formed in a cylindrical shape having a diameter smaller than a predetermined length than the outflow hole 156 . The elevating member 152 may be provided with a blocking member 151 coupled to one end and a seating piece 1521 formed in a plane to easily receive pressure at the other end. The mounting piece 1521 may be formed to have a predetermined length longer than the diameter of the lifting member 152 .

An elastic member 153 in a compressed state may be provided between the blocking member 151 and the seating piece 1521 to an outer circumferential surface of the elevating member 152 in the longitudinal direction.

When pressure is not applied to the seating piece 1521, the elastic member 153 maintains a state in which the blocking member 151 blocks the outflow hole 156 by a restoring force so that the opening of the mineral cartridge 140 ( 141) can be sealed.

When pressure is applied to the elevating member 152, the elastic member 153 is compressed so that the blocking member 151 moves inside the mineral cartridge 140 to a predetermined height, thereby opening the outlet hole 156.

That is, in the mineral cartridge cap 150, the outlet hole 156 is opened only when the position of the opening/closing member 154 is changed by pressure, so that the minerals can flow out.

The mineral cartridge cap 150 may be rotationally coupled to the mineral cartridge 140 . To this end, a coupling portion 155 may be formed in the mineral cartridge cap 150 and a threaded portion 142 may be formed in the mineral cartridge 140 .

Meanwhile, a guide groove 168 through which a guide piece 158 protrudes from the outer circumferential surface of the mineral cartridge cap 150 may be formed on an upper outer circumferential surface of the mineral cartridge accommodating portion 160 .

The guide groove 168 may include a first guide part for guiding the guide piece 158 to move obliquely, and a second guide part for guiding the guide piece 158 in parallel. The first guide part and the second guide part may be disposed to be inclined to each other.

In the insertion part 161, one side where the outlet hole 156 of the mineral cartridge cap 150 and the opening/closing member 154 are positioned is inserted at a predetermined height so that the mineral cartridge cap 150 is positioned in the mineral cartridge accommodating part 160. It can serve as a support so that it can be positioned vertically.

A storage space 163 may be formed by extending a predetermined length to the lower side of the insertion part 161 . Accordingly, when the mineral cartridge cap 150 is inserted into the insertion portion 161, the inner bottom surface of the storage space 163 may be spaced apart from the outlet hole 156 of the mineral cartridge cap 150 by a predetermined height.

On the inside of the storage space 163, a protruding member 164 protrudes upward at a position corresponding to the opening/closing member 154 is provided. The protruding member 164 protrudes from the bottom surface of the ceramic mineral cartridge accommodating part 160 by a predetermined height.

The mineral cartridge accommodating part 160 may include a mineral outlet pipe 167 connected to the mineral supply pipe 110 and through which minerals are discharged.

In addition, the mineral cartridge accommodating part 160 may include a pump connection pipe 165 capable of forming a flow path for guiding the air supplied from the pump 190 to the air layer.

Meanwhile, a sealing member 162 may be provided between the mineral cartridge cap 150 and the mineral cartridge accommodating portion 160 to prevent leakage of minerals. The sealing member 162 may be made of a rubber material that is easily deformed by being compressed. The sealing member 162 is disposed on the bottom surface of the mineral cartridge accommodating part 160, and when the mineral cartridge cap 150 is coupled to the mineral cartridge accommodating part 160, it is disposed therebetween to be compressed and deformed. can

Referring to FIG. 4, a process of combining the mineral supply unit will be described.

First, in a state in which the mineral cartridge 140 and the mineral cartridge cap 150 are coupled, the user may fasten the mineral cartridge cap 150 to the mineral cartridge accommodating portion 160 .

At this time, the guide piece 158 is inserted into the guide groove 168. At this time, the guide piece 158 may be moved downward along the slope of the first guide after being disposed at the entrance of the first guide.

After the guide piece 158 passes through the first guide part, it may reach the second guide part and be guided in a horizontal direction.

When the mineral cartridge accommodating part 160 and the mineral cartridge cap 150 are coupled through the first guide part, the mineral cartridge cap 150 is rotated and guided so that the mineral cartridge accommodating part 160 comes closer to each other. . On the other hand, when the mineral cartridge accommodating part 160 and the mineral cartridge cap 150 are coupled through the second guide part, the distance between the mineral cartridge cap 150 and the mineral cartridge accommodating part 160 is maintained while maintaining , the mineral cartridge cap 150 is rotated.

Hereinafter, a bonding process of the mineral supply unit will be described with reference to FIG. 5 .

FIG. 5A is a view illustrating a process in which the mineral cartridge cap and the mineral cartridge accommodating portion are coupled, and FIG. 5B is a diagram illustrating a state in which the mineral cartridge cap and the mineral cartridge accommodating portion are coupled.

5A shows a state in which the guide piece 158 is guided in a portion corresponding to the first guide part. As shown in FIG. 5A , a height of a portion where the sealing member 162 contacts the mineral cartridge cap 150 may be lower than a height where the opening/closing member 154 contacts the protruding member 164 . That is, the protrusion of the protruding member 164 may be higher than the height of the sealing member 162 based on the bottom surface of the mineral cartridge accommodating portion 160 .

Since the sealing member 162 is disposed low, the mineral cartridge cap 150 may contact the sealing member 162 after the protruding member 164 is guided to the inside of the mineral cartridge cap 150. Therefore, a user can easily assemble the mineral cartridge cap 150 and the mineral cartridge accommodating part 160.

5B shows a state in which the guide piece 158 is guided in a portion corresponding to the second guide part. As shown in FIG. 5B, the thickness l2 of the portion where the sealing member 162 overlaps the mineral cartridge cap 150 is equal to the length l1 when the opening/closing member 154 is pressed against the protruding member 164 bigger than

When the mineral cartridge cap 150 is fastened to the mineral cartridge accommodating part 160, after the mineral cartridge cap 150 contacts the sealing member 162, the protruding member is attached to the opening/closing member 154. (164) comes into contact.

Therefore, when the user fastens the mineral cartridge cap 150 to the mineral cartridge accommodating part 160, the mineral cartridge cap 150 and the mineral cartridge accommodating part 160 are first connected by the sealing member 162. After being sealed, the protruding member 164 presses the opening/closing member 154 upward so that minerals can be discharged from the mineral cartridge 140 .

Even when the mineral cartridge cap 150 is separated from the mineral cartridge accommodating portion 160, after pressing the opening/closing member 154 upward by the protruding member 164 is released, the mineral cartridge cap ( 150) is released from contact with the sealing member 162. Minerals may be prevented from being discharged from the mineral cartridge 140 .

In other words, when the mineral cartridge cap 150 is fastened from the mineral cartridge accommodating part 160, the outlet hole is opened by the opening/closing member 154 after being sealed by the sealing member 162. When the mineral cartridge cap 150 is removed from the mineral cartridge accommodating part 160, after the outlet hole is sealed by the opening/closing member 154, sealing by the sealing member 162 may be released.

As described above, the preferred embodiments of the present invention have been described in detail, but those skilled in the art to which the present invention pertains, without departing from the spirit and scope of the present invention defined in the appended claims. Various modifications of the present invention will be able to be practiced. Therefore, changes in future embodiments of the present invention will not deviate from the technology of the present invention.

1: drinking water supply device 70: water outlet pipe
71: water supply pipe 72: discharge pipe
100: mineral water supply module 110: mineral supply pipe
120: mineral water generating unit 130: mineral supply valve
140: mineral cartridge 150: mineral cartridge cap
154: opening and closing member 156: outflow hole
160: mineral cartridge receiving unit 180: mineral supply unit
190: pump 200: micro-passage unit

Claims (11)

a mineral cartridge in which minerals are accommodated;
a mineral cartridge cap coupled to the opening of the mineral cartridge and including an outlet hole through which minerals flow out and an opening/closing member selectively opening the outlet hole by moving up and down; and
Accommodating a mineral cartridge including a protruding member on which the mineral cartridge cap is detachably mounted, protruded at a position corresponding to the opening and closing member to press the opening and closing member, and a sealing member disposed on a bottom surface and in contact with the cartridge cap. Including;
When the mineral cartridge cap is fastened to the mineral cartridge accommodating part, a thickness of a portion where the sealing member overlaps the mineral cartridge cap is greater than a length in which the opening/closing member is pressed against the protruding member. According to claim 1,
The mineral supply unit of claim 1 , wherein when the mineral cartridge cap is fastened to the mineral cartridge accommodating part, the protruding member contacts the opening and closing member after the mineral cartridge cap contacts the sealing member. According to claim 1,
The mineral supply unit of claim 1 , wherein a height of a portion where the sealing member contacts the mineral cartridge cap is lower than a height where the opening/closing member contacts the protruding member. According to claim 3,
Mineral supply unit, characterized in that the height of the protruding member is higher than the height of the sealing member with respect to the bottom surface of the mineral cartridge accommodating portion. According to claim 1,
The sealing member is made of a material that is deformed when pressed,
The mineral supply unit, characterized in that the opening and closing member is provided to move when pressed. According to claim 1,
The opening and closing member,
The mineral supply unit according to claim 1 , wherein the outlet hole is closed when not pressed by the protruding member, and moves into the mineral cartridge to open the outlet hole when pressed by the protruding member. According to claim 6,
The opening and closing member includes a blocking member sealing the outflow hole inside the mineral cartridge;
One end of the mineral supply unit, characterized in that it comprises a lifting member connected to the blocking member and extending through the outflow hole. According to claim 7,
Mineral supply unit, characterized in that the lower end of the lifting member is provided with a seating piece forming a plane to contact the protruding member. According to claim 1,
The mineral cartridge cap is provided with a protruding guide piece on the outside,
The mineral supply unit, characterized in that the mineral cartridge accommodating portion is formed with a guide groove for guiding the guide piece. According to claim 9,
The guide groove,
a first guide part which guides the mineral supply unit accommodating part to have an inclination with respect to the bottom surface;
A mineral supply unit including a second guide part guiding in parallel with a bottom surface of the mineral supply unit accommodating part. According to claim 1,
The mineral cartridge accommodating portion,
A mineral outflow pipe that guides the path through which minerals flow out
A mineral supply unit comprising a pump connection pipe guiding a path through which air is introduced from the outside.

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