KR200433236Y1 - A Drinking fountain of a water works direct connectiontype - Google Patents

Abstract

When the drinking water is used as raw water, the present invention can immediately drink cold water cooled by water pressure without using water in a separate reservoir tank, and furthermore, it is possible to directly drink heated hot water. To provide a drinking pot,

The present invention for achieving the above object is provided on the upper portion of the drinking fountain body is provided with a tap water ejection means for ejecting tap water is supplied through the water supply pipe is opened by the rotation operation of the lever and the drinking fountain body In the upper part of the water supply outlet is provided to drain the tap water discharged from the tap water discharge means, the drainage pipe for draining the tap water collected in the drainage to the outside of the drinking water main body, Instant cooling means installed in the drinking water main body to instantaneously cool the tap water supplied through the water supply pipe; A tap water flow line through which the cooled tap water discharged from the instant cooling means flows to the tap water ejecting means, wherein the instant cooling means comprises: a case having an empty interior; A compressor installed inside the case, for compressing and discharging the sucked refrigerant at high temperature and high pressure, a condenser for condensing the refrigerant discharged from the compressor, an expansion valve for expanding the refrigerant condensed in the condenser, and A refrigerant circulation cycle comprising a cooling tank in which a liquid for cooling is accommodated, and an evaporator for evaporating the refrigerant expanded in the expansion valve by spirally installing a refrigerant pipe up and down along an inner wall surface of the cooling tank; Part of the water supply pipe is characterized in that it is installed to be accommodated in the cooling liquid in the cooling tank.

Water, Direct, Negative, Cold Water, Hot Water

Description

Drinking fountain of a water works direct connectiontype

1 is an external perspective view of a water direct drinking fountain according to the present invention.

Figure 2 is a partial cross-sectional view showing the drain of the drinking water direct drinking fountain according to the present invention.

Figure 3 is a block diagram showing the configuration of a direct connection drinking fountain according to the present invention.

Figure 4 is a block diagram of a refrigerant cycle of a direct connection negative drinking water according to the present invention.

Figure 5 is an exploded perspective view showing a part of the instantaneous cooling means of the direct connection drinking fountain according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: water supply pipe

200: drinking fountain body

220: drain pan

230: drain pipe

300: instantaneous cooling means

310: Case

320: compressor

330: condenser

340: expansion valve

350: cooling tank

360: Evaporator

400: tap water flow line

The present invention relates to a drinking water directly connected to the drinking water, more specifically, when drinking water using raw water, it is possible to immediately drink cold water cooled by water pressure without using water in a separate reservoir tank and more Furthermore, the present invention relates to a water-directed drinking fountain which allows drinking hot water directly.

In the prior art-type negative street according to the prior art, there is a utility model registration No. 20-0349088 to which the present applicant has filed and registered a utility model application on August 28, 2003.

Prior art elected by the present applicant is a water fountain attached to the water purifier consisting of a housing of the upper and lower drinking fountains, connected to the water purifier storage tank, the water stored in the storage tank by the pressing of the water supply switch to pull up the water through the water supply pipe A feed pump and a solenoid valve; It is connected to the end of the water supply pipe, and the fountain-type water tap for ejecting water to the outside; A perforated plate formed in the front of the fountain faucet, the stainless plate having a predetermined width and having a plurality of holes so that the water falling when drinking does not splash out of the drinking fountain; A sewage receiver attached to a lower surface of the perforated plate to collect water falling during drinking; Discharge means for discharging the water collected in the sewage receiving device, comprising a drain pipe connected to one end of the sewage receiving device, the other end is connected to the pipe connected to the sewer.

The prior art elected by the present applicant configured as described above can be easily installed and used together with a water purifier for purifying tap water in educational facilities, park facilities, large-scale workplaces, restaurants, etc., and is clean around the water purifier and the drinking fountain. It is effective in preventing waste of paper resources by reducing the use of unnecessary disposable cups.

However, since the prior art as described above is configured to pump water through the water purifier to pump water temporarily stored in the cold / storage tank, the user can drink the purified water in a drinking and cold state. However, in order to drink hygienically safe water, there is an inconvenience of periodically cleaning the inside of the cold / storage tank of the water purifier.

In the prior art, when the cold water in the cold / water tank is exhausted, there is a closed stage in which cold water having a low temperature cannot be consumed until the temperature is lowered to the cold water again.

The present invention was created to solve the above problems, when drinking using tap water as raw water, it is possible to immediately drink cold water cooled by water pressure without using water in a separate reservoir tank and furthermore It is an object of the present invention to provide a water-directed drinking fountain which is capable of drinking hot water directly.

The present invention for achieving the above object is provided on the upper portion of the drinking fountain body is provided with a tap water ejection means for ejecting tap water is supplied through the water supply pipe is opened by the rotation operation of the lever and the drinking fountain body In the upper part of the water supply outlet is provided to drain the tap water discharged from the tap water discharge means, the drainage pipe for draining the tap water collected in the drainage to the outside of the drinking water main body, Instant cooling means installed in the drinking water main body to instantaneously cool the tap water supplied through the water supply pipe; A tap water flow line through which the cooled tap water discharged from the instant cooling means flows to the tap water ejecting means, wherein the instant cooling means comprises: a case having an empty interior; A compressor installed inside the case, for compressing and discharging the sucked refrigerant at high temperature and high pressure, a condenser for condensing the refrigerant discharged from the compressor, an expansion valve for expanding the refrigerant condensed in the condenser, and A refrigerant circulation cycle comprising a cooling tank in which a liquid for cooling is accommodated, and an evaporator for evaporating the refrigerant expanded in the expansion valve by spirally installing a refrigerant pipe up and down along an inner wall surface of the cooling tank; A part of said water supply pipe is installed so that it may be accommodated in the cooling liquid in the said cooling tank.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the direct-connected drinking fountain according to the present invention will be described in detail.

1 is an external perspective view of a faucet-type drinking fountain according to the present invention, Figure 2 is a partial cross-sectional view showing the drainage of the faucet-type drinking fountain according to the present invention, Figure 3 is a configuration of the faucet-type drinking fountain according to the present invention Figure 4 is a block diagram, Figure 4 is a block diagram of the refrigerant cycle of the direct-connected drinking fountain according to the present invention, Figure 5 is a partial exploded perspective view showing the configuration of the instantaneous cooling means of the direct-connected drinking fountain according to the present invention.

First, the present invention refers to the configuration is changed according to the manner of tap water jetting means 210, 210A, 710 that the tap water is finally ejected to be drinking by the user.

The tap water ejecting means 210 is a method of ejecting tap water by the rotation operation of the lever 211, which is commonly used in homes and schools, etc. Another name is called a faucet, water supply pipe 100 When the lever 211 is rotated and opened by the pressure of the tap water supplied through the tap water, the tap water is ejected. Detailed structure description thereof will be omitted since it is known in the art.

In addition, the tap water ejecting means 210A is not provided with the method of ejecting tap water by the above-described rotation operation of the lever 211, but only the ejection passage 211A capable of ejecting tap water therein is provided. Generally known well-known technology, detailed description thereof will be omitted.

The configuration of the present invention according to the tap water ejecting means as described above will be described.

The present invention is provided on the upper portion of the drinking water main body 200 is provided with a tap water ejecting means 210 is ejected through the water supply pipe 100 is opened by the rotation operation of the lever 211 and the above The drinking water receiving unit 220 is provided on the upper portion of the drinking water main body 200 to discharge the tap water discharged from the tap water discharge water stage 210, and the drinking water collected in the water collecting container 220 is disposed in the drinking water main body ( In the water-directed drinking fountain provided with a drain pipe 230 for draining to the outside of the 200, the moment for cooling the tap water installed in the drinking water tank body 200 is supplied through the water supply pipe 100 It comprises a cooling means 300 and the tap water flow line 400 for allowing the cooled tap water discharged from the instant cooling means 300 flows to the tap water ejecting means (210).

The instantaneous cooling means 300 is composed of a case 310 having an empty inside, and a refrigerant circulation cycle.

The refrigerant circulation cycle is installed in the case 310, and the compressor 320 compresses and discharges the sucked refrigerant at high temperature and high pressure, and the condenser 330 condenses the refrigerant discharged from the compressor 320. ), An expansion valve 340 for expanding the refrigerant condensed in the condenser 330, a cooling tank 350 in which a cooling liquid 351 is accommodated, and an inner wall surface of the cooling tank 350. The upper and lower refrigerant pipes 361 are provided in a spiral shape, and the evaporator 360 evaporates the refrigerant expanded by the expansion valve 340.

On the other hand, a portion of the water supply pipe 100 is installed to be accommodated in the cooling liquid 351 in the cooling tank 350.

Referring to the operation of the present invention configured as described above are as follows.

First, when the compressor 320 is driven, the compressor 320 compresses the refrigerant sucked from the evaporator 360 and discharges the refrigerant at high temperature and high pressure. The refrigerant compressed by the compressor 320 is introduced into the condenser 330, and the refrigerant introduced into the condenser 330 is condensed and introduced into the expansion valve 340. Thereafter, the refrigerant introduced into the expansion valve 340 is expanded and introduced into the evaporator 360, and the refrigerant evaporates in the evaporator 360.

That is, since the evaporator 360 according to the present invention consists of a refrigerant pipe 361 which is installed in a spiral shape up and down along the inner wall surface of the cooling tank 350 in which the cooling liquid 351 is accommodated, the refrigerant pipe 361 The refrigerant having a low temperature and low pressure circulating inside the heat exchanger exchanges heat with the cooling liquid 351 and returns to the compressor 320 again.

At this time, the cooling liquid 351 accommodated in the cooling tank 350 is in a state of freezing as the temperature decreases over time.

In the above state, when the user rotates the lever 211 to open the tap water ejecting means 210, the tap water in the water supply pipe 100 is in the cooling liquid 351 in the cooling tank 350 by water pressure. While flowing along the received water supply pipe 100, after being heat-exchanged with the cooling liquid 351, it is continuously ejected through the tap water spray means 210 via the tap water flow line 400, so that the user is in a cold water state You can drink it.

On the other hand, when the user rotates the lever 211 to close the tap water ejecting means 210, the tap water in the water supply pipe 100 is no longer flowing even if the water pressure is applied, stagnated until the front end of tap water ejecting means 210 It is in a state.

Here, since the tap water in the water supply pipe 100 accommodated in the cooling liquid 351 in the cooling tank 350 is always maintained at a low temperature at a low temperature, the user simply opens the tap water ejecting means 210 at any time. You can drink it.

So far, the type of tap water ejecting means 210 is applied to which tap water is supplied through the water supply pipe 100 as it is opened by the rotation operation of the lever 211.

On the other hand, the present invention is provided on the upper portion of the drinking fountain main body 200 and provided with a tap water jetting means 210A is installed on top of the drinking water main body 200 is discharged through the water supply pipe 100 Drain receiving device 220 is provided to drain the tap water discharged from the tap water discharge means 210A, the drain pipe 230 for draining the tap water collected in the drain 220 to the outside of the drinking water tank body 200. It is also applicable to the provided direct drinking fountain.

Instant cooling means 300 and the instant cooling means 300 for instant cooling of the tap water supplied through the water supply pipe 100 is installed inside the drinking water main body 200 in such a water-directed drinking fountain; The tap water flow line 400 and the tap water flow line 400 are installed on the tap water flow line 400 to allow the cooled tap water discharged from the tap to flow to the tap water ejecting means 210A. It includes a solenoid valve 500 for opening and closing the tap water flow line 400 according to the power supply.

Here, the solenoid valve is used as the solenoid valve 500.

The instantaneous cooling means 300 includes a case 310 having an empty interior and a refrigerant circulation cycle.

The refrigerant circulation cycle is installed in the case 310, and the compressor 320 compresses and discharges the sucked refrigerant at high temperature and high pressure, and the condenser 330 condenses the refrigerant discharged from the compressor 320. ), An expansion valve 340 for expanding the refrigerant condensed in the condenser 330, a cooling tank 350 in which a cooling liquid 351 is accommodated, and an inner wall surface of the cooling tank 350. The upper and lower refrigerant pipes 361 are provided in a spiral shape, and the evaporator 360 evaporates the refrigerant expanded by the expansion valve 340.

A portion of the water supply pipe 100 is installed to be accommodated in the cooling liquid 351 in the cooling tank 350.

Here, reference numeral 311 is a cover for closing the case 310, 351 is a tank cover for closing the upper opening of the cooling tank 350, 352 is a motor fixed to the tank cover 350, 354 is a rotary shaft extending downward from the motor shaft of the motor 352 accommodated in the cooling tank 350, 353 is installed at the end of the rotary shaft 354 to cool the liquid in the cooling tank 350 It is a screw which stirs the cooling liquid 351 to prevent 351 from freezing.

The tap water ejecting means 210A has a ejection passage 211A therein to eject the cooled tap water when the tap water flow line 400 is opened by the solenoid valve 500.

First, when the compressor 320 is driven, the compressor 320 compresses the refrigerant sucked from the evaporator 360 and discharges the refrigerant at high temperature and high pressure. When the refrigerant compressed by the compressor 320 flows into the condenser 330, the refrigerant introduced into the condenser 330 is condensed and introduced into the expansion valve 340. Thereafter, the refrigerant introduced into the expansion valve 340 is expanded and introduced into the evaporation ratio 360, and the evaporator 360 evaporates the refrigerant.

That is, since the evaporator 360 according to the present invention consists of a refrigerant pipe 361 which is installed in a spiral shape up and down along the inner wall surface of the cooling tank 350 in which the cooling liquid 351 is accommodated, the refrigerant pipe 361 The refrigerant having a low temperature and low pressure circulating inside the heat exchanger exchanges heat with the cooling liquid 351 and returns to the compressor 320 again.

At this time, the cooling liquid 351 accommodated in the cooling tank 350 is in a state of freezing as the temperature decreases over time.

In the above state, when the user rotates the lever 211 to open the tap water jet end 210, the tap water in the water supply pipe 100 is pressed into the cooling liquid 351 in the cooling tank 350 by water pressure. While flowing along the received water supply pipe 100, after being heat-exchanged with the cooling liquid 351, it is continuously ejected through the tap water spraying means 210A via the tap water flow line 400, so that the user cools the tap water You can drink it.

On the other hand, when cold water is ejected through the tap water ejecting means 210A, when the user presses the on / off switch 510 to electrically turn on, the solenoid valve 500 opens the tap water flow line 400. As a result, the water is spouted through the spout passage 211A of the tap water ejecting means 210A by the water pressure of the tap water supplied from the water supply pipe 100.

In the embodiment of the present invention configured as described above, before the tap water flows into the instantaneous cooling means 300, the branch pipe 600 and the branch pipe 600 is installed to branch from the water pipe 100, the branch pipe 600 The heater 610 is installed to surround the outer surface of the heater 610 for heating the tap water flowing in the branch pipe 600 according to the power supply, and the heater 610 is installed on the upper side of the drinking water main body 200 It may be further provided with a tap water jetting means 710 for heating the hot water flowing along the branch pipe 600 is opened and ejected by the rotation operation of the lever 711.

Here, the heater 610 may be used by an electric heater or a PTC (Positive Temperature Coefficient) heater that generates heat by itself, and a detailed structure description thereof will be omitted since it is a conventional technology.

In addition, the present invention, the branch pipe 620 in the rear end of the heater 610 is branched to install a branch pipe 620 so as to extend to the upper portion of the drinking water main body 200, on the branch pipe 620 The solenoid valve 630 is installed to open and close the branch pipe 620 according to the on / off power supply of the on / off switch 640. According to the opening and closing action of the 630, tap water spraying means 720 having a spray passage 721 is installed therein so that hot water is ejected.

On the other hand, the present invention is of course that the water filter 800 may be installed on the water pipe 100 to purify the tap water before the instantaneous cooling means 300 and the heater 610.

On the other hand, the present invention by installing a temperature sensor for sensing the temperature of the cooling liquid 351 in the cooling tank 350, when the cooling liquid 351 is lowered to the temperature to freeze the compressor 320 A signal can be sent to the control means (not shown) to stop operation.

In addition, the present invention can install tap water ejecting means (210) (210A) (710) (720A) as much as possible so that many people can drink cold water or hot water.

That is, when a large number of tap water jetting means 210 is installed, the number of tap water jetting means 210 may be branched by installing the tap water flow line 400 between the instantaneous cooling water 300 and the first solenoid valve 500. Install it.

In addition, in the case of installing a large number of tap water ejecting means (210A), if the number of the tap water ejection means (210A) in parallel to install the tap water flow line 400 through which the tap water flows through the first solenoid valve 500, do.

In addition, in the case of installing a large number of tap water jetting means 710 (710A) from which hot water is ejected, this also branches a tap water flow line 600 as much as in tap water jetting means 210 (210A) from which cold water is jetted. Install it.

As described above, when the drinking water is used as raw water, the present invention can directly drink cold water instantaneously cooled by water pressure without using water in a separate reservoir tank, and further, drink hot water directly. It becomes possible.

Claims (4)

It is installed on the upper portion of the drinking water main body 200 and is provided by the rotation operation of the lever 211, the tap water supply means 210 for ejecting the tap water supplied through the water supply pipe 100 and the drinking water main body The upper part of the 200 is provided with a drain receiver 220 for draining the tap water discharged from the tap water ejecting means 210, the tap water collected in the drain 220, the outside of the drinking tank main body 200 In the direct-connected drinking fountain provided with a drain pipe 230 for draining to, An instant cooling means (300) installed inside the drinking fountain main body (200) for instant cooling the tap water supplied through the water supply pipe (100); It includes a tap water flow line 400 for allowing the cooled tap water discharged from the instant cooling means 300 flows to the tap water ejecting means 210, The instantaneous cooling means 300, A case 310 having an empty interior; A compressor 320 installed inside the case 310 to compress and discharge the sucked refrigerant at high temperature and high pressure, a condenser 330 for condensing the refrigerant discharged from the compressor 320, and the condenser. Expansion valve 340 for expanding the refrigerant condensed in 330, the cooling tank 350 accommodated therein the cooling liquid 351, and the refrigerant pipe (up and down) along the inner wall surface of the cooling tank 350 ( A refrigerant circulation cycle consisting of an evaporator 360 for evaporating the refrigerant expanded in the expansion valve 340 by installing 361 in a spiral shape; A portion of the water supply pipe (100) is directly connected to the drinking water, characterized in that installed in the cooling liquid (351) in the cooling tank (350). The tap water ejecting means 210A is installed at the upper portion of the drinking tank main body 200 and has a tap water ejecting means 210A through which the tap water supplied through the water supply pipe 100 is ejected. Drain receiving 220 is provided to drain the tap water is discharged from the drop), the water supply connection is provided with a drain pipe 230 for draining the tap water collected in the drain 220 to the outside of the drinking tank body (200) In the formula negative band, An instant cooling means (300) installed inside the drinking fountain main body (200) for instant cooling the tap water supplied through the water supply pipe (100); A tap water flow line 400 for cooling the tap water discharged from the instant cooling means 300 to the tap water ejecting means 210A; Is installed on the tap water flow line 400, and includes a solenoid valve 500 for opening and closing the tap water flow line 400 according to whether the power supply according to the on / off switch 510 on, off, The instantaneous cooling means 300, A case 310 having an empty interior; A compressor 320 installed inside the case 310 to compress and discharge the sucked refrigerant at high temperature and high pressure, a condenser 330 for condensing the refrigerant discharged from the compressor 320, and the condenser. Expansion valve 340 for expanding the refrigerant condensed in 330, the cooling tank 350 accommodated therein the cooling liquid 351, and the refrigerant pipe (up and down) along the inner wall surface of the cooling tank 350 ( A refrigerant circulation cycle consisting of an evaporator 360 for evaporating the refrigerant expanded in the expansion valve 340 by installing 361 in a spiral shape; Some of the water supply pipe 100 is installed to be accommodated in the cooling liquid 351 in the cooling tank 350, The tap water spraying means 210A has a spout passage 211A therein so that the cooled tap water is ejected when the tap water flow line 400 is opened by the solenoid valve 500. versus. The method according to claim 1 or 2, A branch pipe (600) installed to branch a portion from the water pipe (100) before tap water flows into the instantaneous cooling means (300); A heater 610 installed to cover an outer surface of the branch pipe 600 and heating tap water flowing in the branch pipe 600 according to whether power is supplied; Tap water jetting means which is installed on the upper side of the drinking water main body 200 and heated by the heater 610 and flows along the branch pipe 600 is opened by the rotation operation of the lever 711 to eject the tap water 710 is a direct-connected drinking fountain characterized in that it is further provided. The method of claim 3, wherein Water purifier connected to the instantaneous cooling means 300 and the heater 610, characterized in that the water filter 800 is installed on the water pipe (100) to purify the water.

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