KR200398102Y1 - A boiler having an water-saving type - Google Patents

Abstract

The present invention is a boiler 10 and a spiral pipe for heating the water supplied through the water supply pipe 20, the spiral pipe for heating the water supplied through the water supply pipe 20 and the boiler In a well-known boiler consisting of a hot water supply pipe 40 and a hot water supply pipe 30 for heating and supplying hot water by using hot water heated through 10, one side of the direct water pipe 20 is connected to the other. The side is connected to the boiler 10, the auxiliary tank 110 for storing a predetermined amount of water, connected to one side of the hot water supply pipe 30, the shut-off valve 131 for opening and closing operation, and the hot water supply pipe ( 30 is connected between the shutoff valve 131 and the circulation pipe 130 for supplying the cold water to the auxiliary tank, and formed on the other side of the circulation pipe 130 to suck the cold water to the auxiliary tank 110. Circulation pump 120 for supplying Is formed at the front end of the circulation pump 120 to measure the temperature of the cold water circulated through the circulation pipe 130 to control the shut-off valve 131 and the circulation pump 120 at the same time based on the set temperature The present invention is to provide a water-saving boiler consisting of a sensor 121, the present invention is unnecessary by recovering the cold water remaining in the spiral pipe and hot water supply pipe during operation of the boiler to circulate the water to be discharged through the faucet after conversion to hot water Since it can save the wasted water resources can not only create economic benefits, but also have the effect of reducing the fuel costs consumed during the operation of the boiler. Above all, the structure is simple, easy to assemble and dismantle, and can be installed without changing the structure of the existing boiler, so it is a very useful design that can increase the convenience and range of use.

Description

A boiler having an water-saving type}

The present invention relates to a water-saving boiler, and more particularly, it is possible to save water resources as well as use efficiency and utilization of the boiler by recovering and reusing the cold water remaining inside the spiral pipe and hot water supply pipe when the boiler is operated. A water-saving boiler for increasing the range.

In general, buildings and houses (apartments) are equipped with a separate boiler (heating system) for supplying heating and hot water, and these boilers are divided into electric and gas or briquette boilers according to the type of fuel medium used. There is a situation.

Such a heating system is a straight pipe 20 for supplying water flowing through the water supply (上 水道) largely as shown in Figure 1, and a spiral for heating the water supplied through the straight pipe 20 Piping (not shown) to the boiler 10 installed therein, and a hot water supply pipe 40 and a hot water supply pipe 30 for supplying heating and hot water using the hot water heated through the boiler 10. Is done.

At this time, the internal structure and operating principle of the boiler 10 is to supply the heating and hot water by heating the cold water, which is a known technique (apparatus) commonly used in the art, so that the detailed description in the present invention will be omitted. do.

Therefore, the user selectively discharges cold water or hot water by operating a temperature control lever of a faucet (not shown) connected to the hot water supply pipe 30. That is, when the temperature control lever is switched to the cold water direction, since the boiler 10 is not operated, the cold water is directly discharged through the water pipe 20, and conversely, when the temperature control lever is switched to the hot water direction, the boiler ( 10) will be able to use a constant temperature of hot water.

However, in the related art, until the boiler 10 is operated to rise to a predetermined temperature, any means and configuration for heating the cold water remaining in the spiral pipe and the hot water supply pipe installed inside the boiler 10 may not be formed.

Therefore, after operating the boiler 10, the user must open the faucet for a predetermined time to flow the cold water remaining in the spiral pipe and hot water supply pipe to the sewer until the hot water is discharged, which in turn causes a serious lack of water resources To have the end.

In addition, since the boiler 10 must be waited for a certain time after operating the boiler 10, the fuel cost of the boiler 10 is unnecessarily consumed, thereby causing an economic burden.

In particular, in the case of opening the faucet after operating the boiler 10, hot water is discharged while the user constantly adjusts the opening and closing range of the faucet so that the hot water is discharged, which implies the user's inconvenience and troublesome use of the faucet. It has a disadvantage.

Therefore, the cold water remaining in the spiral pipe and hot water supply pipe during the operation of the boiler can be supplied to the user by heating it to a certain temperature, thus saving water resources and increasing the use efficiency more than ever. to be.

Therefore, the present invention has been devised to solve the problems of the conventional boiler as described above, the present invention is to supply and discharge spiral pipe or cold, hot water formed inside the boiler until a certain temperature when operating the boiler By storing the cold water remaining in the auxiliary pipe in the auxiliary tank and circulating it back into the boiler, it is possible to supply hot water with a constant temperature, thereby increasing the economic benefit from the recycling of water resources flowing into the sewer during the initial operation of the boiler. Of course, to provide a water-saving boiler that can increase the utilization range and efficiency of the boiler.

Referring to the configuration of the subject innovation in detail as follows.

Figure 2 shows a perspective view for showing the present invention water-saving boiler 100, the present invention is a water supply pipe 20 for supplying water flowing through the tap water, and supply through the water pipe 20 Spiral piping for heating the water to be installed therein, the boiler 10, the heating hot water supply pipe 40 and the hot water supply pipe for supplying heating and hot water using the hot water heated through the boiler 10 (30) In a known boiler consisting of

One side is connected to the water pipe 20 and the other side is connected to the boiler 10 and the auxiliary tank 110 for storing a certain amount of water, and connected to one side of the hot water supply pipe 30 to open and close the operation Shut-off valve 131 for, the hot water supply pipe 30 and the shut-off valve 131 is connected between the circulation pipe 130 for supplying cold water to the auxiliary tank, and the other side of the circulation pipe 130 Is formed in the circulation pump 120 for sucking and supplying the cold water to the auxiliary tank 110, and formed in the front end of the circulation pump 120 to measure the temperature of the cold water circulated through the circulation pipe 130 It consists of a temperature sensor 121 to control the shut-off valve 131 and the circulation pump 120 at the same time based on the set temperature.

The auxiliary tank 110 is an important configuration in the present invention, that is to circulate the cold water remaining in the spiral pipe and the hot water supply pipe 30 of the boiler 10 at the same time with the storage, thereby the boiler 10 The cold water, which is inevitably discharged to the outside during the operation of the) to be stored and recycled in the auxiliary tank 110 will have the effect of significantly saving water resources.

At this time, the auxiliary tank 110 is formed with a known level sensor (not shown) for detecting the water level and a shutoff valve (not shown) that is operated according to a control signal of the level sensor. The level of 110 can be adjusted.

In particular, the water level sensor and the shutoff valve is configured to control and control the water level inside the water tank, in the present invention, the water level sensor and the shutoff valve are known, such as ball type and electronic sensor type Naturally, various well-known sensors and valves may be used. In this case, since the water level sensor and the shut-off valve can be easily modified and applied by those skilled in the art, it is a technology (purchased product). And details will be omitted.

The circulation pump 120 is a means for suctioning the cold water remaining in the spiral pipe and the hot water supply pipe 30 of the boiler 10 to supply to the auxiliary tank 110, wherein at one side the temperature of the cold water A temperature sensor 121 for sensing is formed.

At this time, the temperature sensor 121 is an essential configuration for circulating cold water by operating the circulation pump 120 and the shutoff valve 131 in the present invention.

Therefore, when the boiler 10 is operated, the temperature of the cold water flowing through the circulation pipe 130 is sensed, and when lower than a predetermined temperature, the shutoff valve 131 connected to the faucet is operated to be discharged to the faucet. After shutting off the cold water, the circulation pump 120 is operated to supply the cold water of the spiral pipe of the boiler 10 and the hot water supply pipe 30 to the auxiliary tank 110 through the circulation pipe 130. This cold water is circulated while being heated again through the boiler 10.

On the contrary, when the temperature of the cold water of the circulation pipe 130 rises to the hot water having a predetermined temperature through the temperature sensor 121, the shutoff valve 131 is opened by stopping the circulation pump 120. The faucet allows the user to use hot water.

At this time, the circulation pump 120 may use a pump having a timer function that can operate by setting the time, which is for the user to set the operating time of the circulation pump 120 by manual operation.

In particular, the circulation pump 120 is a pump for sucking and discharging the water in the pipe, a filter that can filter out foreign substances and other suspended matter in the water may be formed, and also a material resistant to corrosion by water It is preferable to use a known pump having.

The temperature sensor 121 has a variety of temperature setting range for each user, and the temperature of the hot water should be changed from time to time according to the use of the hot water (bath, shower, washing dishes, etc.), in this design, the temperature of the conventional boiler 10 And by receiving a control signal of the room temperature controller for the user to operate the time to allow the user to adjust the temperature of the boiler and at the same time adjust the set temperature of the temperature sensor 121, it can increase the convenience of use. It is preferable to form so that.

Although the embodiments of the present invention have been described in detail as described above, the scope of the present invention is not limited thereto, and it is natural that the present invention is included in the scope of the present invention up to a configuration that is substantially equivalent to the embodiments of the present invention. will be.

As such, the present invention recovers the cold water remaining in the spiral pipe and the hot water supply pipe during the operation of the boiler, thereby converting it into hot water and discharging it through the faucet, thereby creating economic benefits as it can save unnecessary wasted water resources. Of course it is possible to have the effect of reducing the fuel cost consumed during the operation of the boiler.

Above all, the structure is simple, easy to assemble and dismantle, and can be installed without changing the structure of the existing boiler.

1-reference diagram for showing the piping structure of a conventional boiler.

Figure 2-reference diagram for showing the piping structure of the present invention water-saving boiler.

* Explanation of symbols for main parts of the drawings

1: Piping structure of conventional boiler

10: boiler 20: water pipe

30: hot water supply pipe 40: hot water supply pipe for heating

50: gas supply pipe

100: the invention water-saving boiler

110: auxiliary tank 120: circulation pump

121: temperature sensor

130: circulation pipe 131: shut-off valve

Claims (1)

A water pipe 20 for supplying water introduced through the tap water, a boiler 10 in which a spiral pipe for heating water supplied through the water pipe 20 is installed, and the boiler 10. In the known boiler consisting of a heating hot water supply pipe 40 and a hot water supply pipe 30 for supplying heating and hot water using hot water heated through, One side is connected to the water pipe 20 and the other side is connected to the boiler 10 and the auxiliary tank 110 for storing a certain amount of water, and connected to one side of the hot water supply pipe 30 to open and close the operation Shut-off valve 131 for, the hot water supply pipe 30 and the shut-off valve 131 is connected between the circulation pipe 130 for supplying cold water to the auxiliary tank, and the other side of the circulation pipe 130 Is formed in the circulation pump 120 for sucking and supplying the cold water to the auxiliary tank 110, and formed in the front end of the circulation pump 120 to measure the temperature of the cold water circulated through the circulation pipe 130 Water-saving boiler, characterized in that consisting of a temperature sensor 121 to control the shut-off valve 131 and the circulation pump 120 at the same time based on the set temperature.