KR20070116568A - A mechanical type bidet - Google Patents

Abstract

A mechanical bidet is provided to supply bidet water closely at room temperature by containing low temperature water supplied by water supply facilities in a water tank of a bidet and heat-exchanging with the room temperature effectively, to promote heat exchange efficiency by making water stay in a water tank for a long time and to maximize the surface area of a water tank for heat exchange. A mechanical bidet is formed for jetting bidet water through a nozzle using the water pressure and the quantity of water supplied through an inflow pipe(310) of a water supply valve after raising the temperature of cold tap water closely at room temperature using a heat exchanging portion, wherein the heat exchanging portion includes a heat exchanging water tank(241) made of high thermal conductivity metal to exchange heat with the room temperature and equipped with plural partition walls to form a zigzag flow passage to let low temperature tap water flow in the heat exchanging water tank first and to discharge the warmed-up water to the nozzle through an outflow pipe(246).

Description

Mechanical Bidet {A Mechanical Type Bidet}

The present invention relates to a mechanical bidet, and more particularly, to a mechanical bidet for supplying bidet water close to room temperature by fresh water supplied to the low temperature in a water bath provided in the bidet by heat exchange with the room temperature of the room.

As the quality of life increases, toilets are becoming a culture, and bidets are installed in offices, schools, and public places as well as homes to solve the problem of cleanliness.

Bidets currently on the market are largely divided into electronic and mechanical.In the case of electronics, heating means for heating the seat on which the user sits, heating means for heating the bidet water to a certain temperature, drying hot air generating means for drying after cleaning, and various Various electronic means such as a sensor and a pressurizing means for injecting bidet water at various pressures through a nozzle are provided.

In the case of the electronic bidet has such a variety of functions is relatively expensive, and is composed of an electronic circuit there is a risk of electric shock due to water seeps when cleaning the toilet bowl.

And in order to apply power to the bidet should be provided with a power line for supplying a separate power from the outlet to the bidet, because the heater is repeatedly operated to maintain the bidet water at a constant temperature, unnecessary power consumption is generated There is a problem.

When such an electronic bidet is installed in a public toilet, breakage frequently occurs during various people's use, and therefore, installing an expensive electronic bidet is inefficient.

Therefore, a mechanical bidet is released in order to overcome such an inefficient part of the electronic, such a mechanical bidet is mainly sprayed directly through the bidet nozzle installed in the toilet with a constant pressure supplied to the room through the tap water Since the structure is much simpler than the electronic type, it can be supplied at low cost, and since there is no electrical equipment, the problem of the electronic type can be solved.

However, the biggest drawback of the mechanical bidet is that it is almost impossible to use the mechanical bidet in low temperature seasons such as winter, early spring, and late autumn by spraying the cold water supplied through the tap water to the user's local part of the bidet nozzle.

In addition, there has been provided a mechanical bidet that allows a certain amount of heat exchange in the room by providing a reservoir for such a problem. For example, Patent No. 10-0630901, registered by the Korean Intellectual Property Office, discloses a mechanical bidet with this function. According to the above disclosure technology, the reservoir is connected between the discharge water control valve and the injection nozzle by a pipe, which makes it difficult to operate in a region with low water pressure. In addition, since the cylindrical water tank is divided by one transverse plate, there is a problem that it is not easy to warm the low temperature water supply to room temperature because the heat exchange area is small.

The present invention has been devised to solve the problems and defects of the mechanical bidet as described above, by immersing the low-temperature water supplied through the tap water in the water tank provided in the bidet to effectively heat exchange with the room temperature of the room bidet water close to room temperature The purpose of the present invention is to provide a mechanical bidet to keep the water in the water tank as long as possible to increase the efficiency of heat exchange, and to maximize the surface area for heat exchange.

Mechanical bidet according to the present invention as described above,

A nozzle for spraying bidet water is provided inside the toilet, and a heat exchange water tank is fixedly mounted to the side of the toilet by a mounting hole.

One side of the heat exchange water tank is connected to the inlet pipe receiving the low-temperature water of the tap water, and the other side is connected to the outlet pipe directly connected to the nozzle and the valve for controlling the ejection state of the bidet water of the nozzle on the outlet pipe path Is installed,

Inside the heat exchange water tank, a plurality of partition walls are installed in a zigzag form at a predetermined interval so that water introduced from the inlet pipe is accommodated along the zigzag-shaped flow path so that bidet water having a high temperature at room temperature always flows out. Characterized in that configured to be convenient.

As described above, the present invention heats low-temperature tap water with room temperature to spray bidet water having a temperature of room temperature through the nozzle to supply a low-cost bidet without inconvenience in use even if a separate hot water supply device is not provided. It can be effective. In addition, the high heat exchange efficiency provides a mechanical bidet with low rejection due to the use even in a low temperature season.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is a view showing a state in which the present invention is mounted, a toilet seat 110 is installed on the toilet 100 and the upper portion of the toilet 100, the tank for receiving the wash water in the rear of the toilet 100 120 is installed, the conventional toilet seat is provided with a cover 130 for opening and closing the top of the toilet bowl (100).

A mechanical bidet of the present invention is installed in such a conventional toilet, and first, a nozzle 230 for spraying bidet water is installed at a position of a conventional bidet nozzle inside the toilet 100, and at the side of the toilet 100. The heat exchanger 240 fixed by the holder 210 is installed.

The cradle 210 is fixedly mounted by the mounting fixture 220 at the top of the toilet bowl 100 to support the nozzle 230 and to support the heat exchange unit 240, the cradle 210 The body of the side is extended to the lower portion of the heat exchanger 240 is fixed to the extended.

An inlet pipe 310 is connected to the rear surface of the heat exchanger 240 so that the low-temperature tap water introduced through the water valve 300 is introduced into the heat exchanger 240 through the inlet pipe 310. The water pressure and quantity are determined according to the opening degree of the valve 250 provided in the upper part of the cradle 210 by the bidet water exchanged with the room temperature of the room by the heat exchanger 240, and the user's local part through the nozzle 230. Is sprayed on.

At this time, since the tap water flowing through the water valve 300 has a constant water pressure and quantity, the bidet water is to be injected to the mechanical bidet through the nozzle 230 using the water pressure and quantity.

Tap water is a low temperature of about 8 ℃ annual average, it is practically difficult to use it as bidet water, through the heat exchange unit 240, the cold bidet water through the room temperature level (for example, room temperature level 23 ℃) Raised to be supplied through the nozzle 230.

To this end, the heat exchanger 240, as shown in Figure 2, is provided with a heat exchange water tank 241 of a cylindrical body sealed to the outside, this heat exchange water tank 241 is a metal with high thermal conductivity for heat exchange with room temperature It should be formed as, and may be copper, aluminum, iron and the like.

In addition, the heat exchange tank 241 has a structure of a cylinder completely sealed from the outside to maintain the water pressure of the tap water introduced through the inlet pipe 310 to the bidet water through the outlet pipe 246 to the nozzle 230. Can supply

Meanwhile, a plurality of partitions 241-1, 241-2, 241-3, and 241-4 are installed in the heat exchange tank 241, and the partitions 241-1 and 241-3 are arranged in the heat exchange tank 241. The barrier ribs 241-2 and 241-4 are configured to be in contact with the inner bottom surface part, and the other partitions 241-2 and 241-4 are configured to be connected to the inner upper surface part of the heat exchange water tank 241 to form a zigzag flow path in the vertical direction.

This structure allows heat exchange with the room temperature of the room while keeping the low temperature tap water introduced from the inlet pipe 310 as long as possible, as well as the flow path by the partition walls 241-1, 241-2, 241-3, and 241-4. Is formed so that the water which is first introduced into the heat exchange water tank 241 and the temperature rises is discharged first to the outlet pipe 246, and the partition walls 241-1, 241-2, 241-3, and 241-4 exchange heat. In contact with the inner body of the water tank 241, the partition wall (241-1, 241-2, 241-3, 241-4) by passing the outside room temperature to the tap water accommodated inside the heat exchange to efficiently Increase the temperature to room temperature.

In addition, the partition walls 241-1, 241-2, 241-3, and 241-4 are provided in a zigzag shape in the vertical direction as shown in the front sectional view of FIG. 4, so that the tap water is formed inside the heat exchange water tank 241. Staying as long as possible also increases the heat exchange efficiency.

The partition walls 241-1, 241-2, 241-3, and 241-4 must be formed of a metal having high thermal conductivity similarly to the heat exchange water tank 241.

Therefore, the water on the inlet pipe 310 side is still in a low temperature state, and the water in the low temperature state is raised to the room temperature along the zigzag flow path, and the water rises to the room temperature through the outlet pipe 246. It is provided toward the nozzle 230 and is sprayed.

The heat exchange efficiency with room temperature can be further increased only by increasing the surface area of the heat exchange water tank 241 as much as possible. For this purpose, as shown in FIG. 6, a plurality of heat exchange water tanks 241 are arranged in a horizontal or vertical direction along an outer circumference of the heat exchange water tank 241. Heat exchange plates 247 can be formed to increase the surface area.

That is, the heat dissipation fin type heat bridge plate 247 is formed along the lateral circumference of the heat exchange water tank 241 at regular intervals, thereby maximizing the area of contact with the room temperature, and the external room temperature is efficiently inside the heat exchange water tank 241. It may be delivered to the water received.

Therefore, the heat-exchanged water, that is, bidet water, flows out toward the nozzle 230 through the outlet pipe 246, and at this time, the user controls the degree of opening of the valve 250 and the water pressure of the bidet water sprayed through the nozzle 230 The quantity will be adjusted.

A plurality of fastening parts 245-1, 245-2, 245-3, and 245-4 are formed at the upper edge of the heat exchange water tank 241, and are bolted to and fixed to the lower portion of the holder 210.

In addition, the outlet 243 is formed in the lower portion of the heat exchange water tank 241 to discharge the water contained in the inside of the heat exchange water tank 241 to the outside, which is the present invention in a public toilet, such as a heating device is not installed in winter Since the water contained in the heat exchange water tank 241 may freeze when using the to discharge the water to prevent freezing.

In addition, it is a matter of course that the cap 244 for opening and closing the outlet 243 should be provided, and the drain grooves 242-5 and 242-6 are formed in the lower portions of the partitions 242-1 and 242-3, respectively. Therefore, all of the water contained in the bottom surface of the heat exchange water tank 241 is drained toward the outlet 243 through the drain grooves 242-5 and 242-6.

3 is a view illustrating another embodiment of the heat exchange water tank 241, in which the partition walls 241-1, 241-2, 241-3, 241-4, and 241-5 are moved up and down in the heat exchange water tank 241. Not provided in the zigzag form in the left and right directions, as shown in the planar cross-sectional view of Figure 3, the tap water is accommodated and stayed heat exchanged, and then supplied to the nozzle 230 through the outlet pipe 246.

The drainage grooves 242-6 and 242-7 are similarly formed at the lower ends of the partition walls 241-1, 241-2, 241-3, 241-4 and 241-5.

1 is a perspective view showing an installed state of a mechanical bidet according to the present invention.

Figure 2 is a perspective view showing the structure of the heat exchanger of the mechanical bidet according to the present invention.

Figure 3 is a perspective view showing another embodiment of the heat exchanger.

4 is a front cross-sectional view of FIG.

5 is a plan sectional view of FIG.

<Brief description of the main parts of the drawing>

100: toilet 110: base

120: tank 130: cover

200: bidet 210: holder

220: mounting fixture 230: nozzle

240: heat exchanger 241: heat exchange water tank

242: bulkhead 243: outlet

244 cap 245 fastening portion

246: outlet pipe 247: heat exchange plate

250: valve 300: water valve

310: inlet pipe

Claims (3)

A nozzle 230 for spraying bidet water is provided inside the toilet 100, and a heat exchange water tank 241 of a tubular body sealed to the outside by a mounting hole 210 is fixed to the side of the toilet 100. It is One side of the heat exchange water tank 241 is connected to the inlet pipe 310 that receives the water in the low temperature state of tap water, the other side is connected to the outlet pipe 246 directly connected to the nozzle 230 and on the outlet pipe path A valve 250 for adjusting the ejection state of the bidet of the nozzle 230 is installed, Inside the heat exchange water tank 241, a plurality of partitions 242 are installed in a zigzag form at a predetermined interval so that water introduced from the inflow pipe 310 is received along the zigzag flow path and then the outlet pipe 246. Mechanical bidet, characterized in that configured to be discharged toward.  The mechanical bidet according to claim 1, wherein a plurality of heat exchange plates (247) are formed in a horizontal or vertical direction along an outer circumference of the heat exchange water tank (241).  According to claim 1, wherein the drain grooves 242-5, 242-6 are formed in the lower end of the partition wall 242 provided inside the heat exchange water tank 241, the discharge port 243 in the lower portion of the heat exchange water tank 241 And a mechanical bidet, characterized in that the cap 244 for opening and closing the outlet 243 is installed.

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