KR101258040B1 - Cold and hot water boilers for industrial electrical - Google Patents

Abstract

PURPOSE: A cold water and hot water boiler for industrial electricity is provided to reduce power consumption and time for heating water. CONSTITUTION: A cold water and hot water boiler(100) for industrial electricity comprises a water tank(10), a double container, an electric heater, a temperature measurement sensor, a circulation hose(50), a water supplementary system(60), and a control unit(70). The double container comprises a first container(21), a second container, and an exhaust pipe(23). The electric heater is installed in a circulation space of the double container. The temperature measurement sensor senses temperature of water circulated in the circulation space of the double container and transmits the measurement information to the control unit. The circulation hose is connected to the exhaust pipe and a first exit and circulates hot water for heating through the electric heater. The water supplementary system measures the level of the water and supplies the water to an inner side of the double container. The control unit controls the electric heater and the water supplementary system.

Description

Cold and hot water boilers for industrial electrical

The present invention relates to an industrial electric cold and hot water boiler, and more particularly, by securing a distribution space in which a small amount of water is distributed so as to be quickly heated through an electric heater inside the double container, It can reduce the time required to heat the water, thereby reducing the power consumption required for heating the water, and since a small amount of heated hot water is distributed in the double container, the surface area of the hot water accommodated in the double container is small, The present invention relates to an industrial electric cold and hot water boiler capable of minimizing losses and inducing efficient operation of a device.

In general, an alternative structure of a boiler widely used in various industrial fields is to heat the water in a container to a high temperature and circulate it to a heating system to heat the room. Various proposals are made according to heating means for heating water in a container. It is widely used.

One of the most commonly used is an electric boiler that uses industrial electricity or uses low-cost electricity at night to heat water in the container to a high temperature. Such electric industrial boilers have a relatively large container capable of storing a certain amount of water and at the same time form an electrically driven heating heater in the container to heat the water in the container to a high temperature. Is forced to circulate through the heating pipe to the heating system to achieve the heating.

However, such a conventional industrial boiler is simply configured to heat the water in the container as a heating heater that is electrically driven, so that a large amount of time is required to heat a large amount of water in the container to a certain temperature, which consumes power. The hot water, once heated, is easily cooled because it has a large surface area, and thus it is not sufficiently obtained the expected efficiency.

In other words, industrial boilers require a lot of hot water because of the relatively large heating area. However, when the capacity of the container is enlarged, the main point is to simply form a large container. Will be carried.

In addition, when the use of cold water is required to operate with a cooling device separately from the boiler, there was a problem that the operation management is inconvenient.

The present invention has been proposed to solve the above-mentioned problems, the object is to ensure a distribution space in which a small amount of water flows to be quickly heated through the electric heater inside the double container, inside the double container It can reduce the time required to heat the water circulated in the water, which can reduce the power consumption for heating the water, and the surface area of the hot water accommodated in the double container because a small amount of heated hot water is distributed in the double container. It is to provide an industrial electric cold and hot water boiler that can minimize the heat loss, leading to the efficient operation of the device.

In addition, since the vortex groove is formed inside the double container and the water circulated inside the double container rotates like a whirlwind along the vortex groove, the water flowing in the double container remains in the distribution space of the double container. It is to provide an industrial electric cold and hot water boiler that can induce efficient heat exchange with the electric heater.

In addition, it is possible to provide cold water inside the double container by using a cooling means to provide an industrial electric cold, hot water boiler that can ensure the ease of use of the device.

Industrial electric cold and hot water boiler according to the present invention for achieving the above object is a water tank containing water is stored therein, and having a space therein, the first side having a first outlet to discharge water A first container and a second container in which the inside is sealed and inserted into the first container, the outer circumferential surface of the first container being spaced apart from the inner circumferential surface of the first container, and the second container is located through the first container, A double container including a discharge pipe having a plurality of discharge holes for discharging water into the first container so that the water distributed in the first container is distributed in a distribution space formed between the first container and the second container; At least one electric heater installed in the circulation space of the double container; and a temperature measuring sensor for measuring the temperature of the water circulated in the distribution space of the double container and transmitting the measurement information to the control unit; A circulation hose connected in communication with the discharge pipe passing through the first container, and connected at the other end in communication with the first outlet of the first container; and measuring the water level of the water accommodated in the circulation space of the double container. And a water replenishment system for supplying the water contained in the tank into the double container, and a controller for controlling the operation of the electric heater and the replenishment system.

In addition, the water replenishment system includes a supply pipe for connecting the water tank and the double container in communication with each other, a supply pump installed on the supply pipe so that the water contained in the water tank is easily supplied to the double container, and the A water level measuring tube connected to the circulation space of the double container and a water level measuring sensor installed inside the water level measuring tube to measure the water level of the water level measuring tube and transmitting the measurement information,

The control unit for receiving the measurement information transmitted from the water level measuring sensor is characterized in that the water supply is easily supplied to the inside of the double container by operating the supply pump.

In addition, a spiral vortex groove is further formed on an outer circumferential surface of the second vessel of the double vessel to induce water flowing through the circulation space of the double vessel to be transported while twisting the circulation space along the vortex groove to open the circulation space. It is characterized in that the water flowing through can be evenly heated through the electric heater.

In addition, the second inlet formed on one side of the first container of the double container and the water introduced into the distribution space of the double container through the second inlet so that water flows into the distribution space of the double container. A second outlet formed at one side of the one container, one end of which is connected in communication with the second inlet, and the other end of which is connected to the second outlet in communication with the second outlet, and installed on the circulation pipe of the double container. And a circulating pump configured to easily circulate the water accommodated in the circulation space, and a cooler installed on the circulating pipe to cool the water circulated into the circulation pipe. It is characterized by operating through the control of.

According to the industrial electric cold and hot water boiler according to the present invention as described above, by securing a distribution space in which a small amount of water is distributed so that it can be quickly heated through the electric heater inside the double container, it is distributed inside the double container It can reduce the time required to heat the water, thereby reducing the power consumption required for heating the water, and since a small amount of heated hot water is distributed in the double container, the surface area of the hot water accommodated in the double container is small, There is an effect that can lead to efficient operation of the device by minimizing losses.

In addition, since the vortex groove is formed inside the double container and the water circulated inside the double container rotates like a whirlwind along the vortex groove, the water flowing in the double container remains in the distribution space of the double container. Therefore, there is an effect that can induce efficient heat exchange with the electric heater.

In addition, it is possible to provide the cold water inside the double container by using the cooling means has the effect of ensuring the ease of use of the device.

1 is a perspective view of an industrial electric cold and hot water boiler according to an embodiment of the present invention
2 is an exploded perspective view of main parts of the industrial electric cold / hot water boiler shown in FIG.
3 is a cross-sectional view AA of the industrial electric cold and hot water boiler shown in FIG.
4 is a cutaway perspective view of a double vessel of an industrial electric cold / hot water boiler according to another embodiment of the present invention.
5 is a state diagram used in the water replenishment system of the industrial electric cold and hot water boiler shown in FIG.
6 is a state diagram used in the industrial electric cold and hot water boiler shown in FIG.
7 is a state diagram used of the cooling means of the industrial electric cold and hot water boiler shown in FIG.

Industrial electric cold and hot water boiler according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 show an industrial electric cold and hot water boiler according to an embodiment of the present invention, Figure 1 is a perspective view of the industrial electric cold and hot water boiler according to an embodiment of the present invention, Figure 2 is shown in Figure 1 3 is a sectional view of an essential part of an industrial electric cold / hot water boiler shown in FIG. 3, and FIG. 3 is a cross-sectional view of the industrial electric cold / hot water boiler shown in FIG. 1, and FIG. 4 is an industrial electric cold / hot water boiler according to another embodiment of the present invention. 5 is a cutaway perspective view of a double container of FIG. 5 is a state diagram of the water replenishment system of the industrial electric cold / hot water boiler shown in FIG. 1, and FIG. 6 is a state diagram of the industrial electric cold / hot water boiler shown in FIG. 7 is a view showing a state of use of the cooling means of the industrial electric cold and hot water boiler shown in FIG.

As shown in the drawings, the industrial electric cold / hot water boiler 100 according to the embodiment of the present invention includes a water tank 10, a double vessel 20, an electric heater 30, and a temperature measuring sensor ( 40, a circulation hose 50, a water replenishment system 60, and a control part 70 are included.

As shown in FIG. 1 and FIG. 2, the water tank 10 accommodates and stores water 1 therein, and when water 1 circulated in the double container 20 to be sewn is evaporated and consumed. The water 1 stored in the water tank 10 is replenished into the double container 20 through the water replenishment system 60 to be installed later.

As shown in Figures 1 to 3, the double container 20 has a space therein, the first container 21 having a first outlet 21b for discharging water 1 on one side, A second container 22 and an outer circumferential surface of the first container 21 are positioned to be inserted into the first container 21 and spaced apart from the inner circumferential surface of the first container 21. Is located through, the outer circumferential surface of the water (1) flows into the interior of the first vessel 21 to be distributed in the distribution space 24 formed between the first vessel 21 and the second vessel (22) And a discharge pipe 23 in which a plurality of discharge holes 23a for discharging the furnace 1 are formed.

That is, as shown in FIG. 3, the distribution space 24 through which a small amount of water 1 is circulated so as to be quickly heated through the electric heater 30 to be installed inside the double vessel 20 is opened. By securing, it is possible to reduce the time consumed to heat the water (1) circulated in the double vessel 20 can not only reduce the power consumption required for heating the water (1), the double vessel Since a small amount of heated hot water is distributed in the (20), the device can be operated to increase the energy use efficiency of the device by reducing the heat loss by minimizing the surface area of the hot water accommodated in the double vessel 20.

Here, of course, a heat dissipation cover (not shown) may be formed on the outer circumferential surface of the double vessel 20 to prevent the heat inside the double vessel 20 from being lost to the outside.

In addition, as shown in FIG. 4, a spiral vortex groove 80 is further formed on the outer circumferential surface of the second vessel 22 of the double vessel 20 to distribute the circulation space 24 of the double vessel 20. Induced to be transported while the water (1) whirls the distribution space 24 along the vortex groove (80) to distribute the water (1) to distribute the distribution space 24 evenly through the electric heater (30) It is desirable to allow it to warm up.

At this time, since the water 1 distributed in the double container 20 rotates while swirling along the vortex groove 80, the water 1 flowing in the double container 20 is doubled. As the time remaining in the distribution space 30 of the vessel 20 is extended, the water is heated more quickly, which leads to efficient heat exchange with the electric heater 30.

2 and 3, the electric heater 30 is installed in the distribution space 24 of the double vessel 20, in the industrial electric cold and hot water boiler 100 of the present invention "U "Is configured so that a plurality of heaters are installed at equal intervals, but is not limited to this.

Here, the electric heater 30 is operated by the control of the control unit 70 to be rearranged is a molon.

As shown in FIG. 2, the temperature measuring sensor 40 measures the temperature of the water 1 circulated in the distribution space 24 of the double vessel 20, and measures the measured information of the control unit 70. To send it.

That is, the operation of the electric heater 30 is determined through the control of the controller 70 receiving the measurement information transmitted from the temperature measuring sensor 40.

1 and 2, one end of the circulation hose 50 is connected in communication with the discharge pipe 23 passing through the first vessel 21, the other end is the first vessel 21 It is configured to be connected in communication with the first outlet (21b) of.

Such, the circulation hose 50 is a hot water for heating is usually circulated through the electric heater 30, when the industrial electric cold and hot water boiler 100 of the present invention is installed in a plastic house, usually in the ground It is buried to provide the warmth of the warm water flowing in the circulation hose (50) in the ground.

Therefore, it is a matter of course that a plurality of circulation hoses 50 can be installed and used in the plastic house occupying a large space so that the circulation hose 50 is evenly embedded.

Here, of course, the ordinary pump 2 may be installed on the circulation hose 50 so that hot water is easily distributed into the circulation hose 50.

As shown in Figures 1 to 3, the water replenishment system 60 measures the water level of the water (1) accommodated in the distribution space 24 of the double vessel 20 to the water tank (10) To receive the water (1) is supplied into the double vessel 20,

Supply pipe 61 for connecting the water tank 10 and the double vessel 20 in communication with each other, and the water (1) installed on the supply pipe 61 is accommodated in the water tank 10 is the double vessel Supply pump 62 to be easily supplied to the (20), the water level measuring tube (63) connected in communication with the circulation space 24 of the double vessel 20, and the water level measuring tube (63) inside It is configured to include a water level measuring sensor 64 is installed to measure the water level of the water level measuring tube 63, and transmit the measurement information.

That is, since the same water level as the water 1 accommodated in the distribution space 24 is formed inside the water level measuring tube 63 installed in communication with the distribution space 24 of the double vessel 20, FIG. As shown in 5a, the water level measurement sensor 64 installed in the water level measurement tube 63 measures and transmits the water level of the water level measurement tube 64, and the control unit received through the measurement information transmitted at this time. If it is recognized at 70 that water (1) replenishment is required for the double vessel 20, the water (1) contained in the water tank (10) by operating the supply pump 62 as shown in Figure 5b The double vessel 20 is forcibly provided so that the water 1 is replenished.

Here, when the water 1 is replenished in the double container 20 through the measurement information of the water level measuring sensor 64 to reach an appropriate level, the controller 70 stops the operation of the supply pump 62. By stopping it, the water (1) is replenished to the double vessel (20).

Through the above method, since the water (1) can be continuously replenished inside the double container 20, it is a matter of course that the user can operate and use the device very conveniently.

As shown in FIG. 1, the controller 70 controls the operation of the electric heater 30 and the water replenishment system 60 so that the water 1 accommodated in the double container 20 is automatically brought to a proper temperature. Allow it to warm up or replenish.

In addition, as shown in FIGS. 1 to 3, the first formed in one side of the first vessel 21 of the double vessel 20 so that water 1 flows into the distribution space 24 of the double vessel 20. It is formed on one side of the first container 21 so that the water 1 introduced into the distribution space 24 of the double container 20 through the second inlet 91 and the second inlet 91 is discharged. A second outlet 92, one end is connected in communication with the second inlet 91, the other end is a circulation pipe 93 is connected in communication with the second outlet 92, and the circulation pipe 93 A circulation pump (94) installed on the circulation container (94) to easily circulate the water (1) contained in the circulation space (24) of the double vessel (20), and the circulation pipe (93) installed on the circulation pipe (93). It may be configured to further include; cooling means 90 consisting of a cooler (95) for cooling the water (1) flowing into the inside.

That is, when the use of cold water is required, as shown in FIG. 7, the electric heater 30 is stopped and the cooler 95 is operated to the first container 21 of the double vessel 20. By being connected to the second inlet 91 and the second outlet 92 is formed to cool the circulation pipe 93 in which the water (1) accommodated in the double container 20 is circulated through the circulation, The water 1 circulated in the circulation pipe 93 is cooled to allow the cold water to be easily supplied to the double vessel 20.

Here, the cooler 95 is operated through the control of the control unit 70, a conventional cooler is used, a detailed description of such a cooler will be omitted.

Industrial electric cold and hot water boiler 100 of the present invention composed of the above components is a small amount of water (1) to be quickly heated through the electric heater 30 inside the double vessel (20) By securing the distribution space 24 to be distributed, it is possible to reduce the time consumed to heat the water (1) distributed in the double vessel 20 can reduce the power consumption required for heating the water (1) In addition, since a small amount of heated hot water is circulated in the double container 20, the surface area of the hot water accommodated in the double container 20 is small, thereby minimizing heat loss to induce an efficient operation of the device. It works.

In addition, since the vortex groove 80 is formed inside the double vessel 20, and the water 1 circulated in the double vessel 20 rotates in a whirlwind along the vortex groove 80, The water 1 flowing through the double vessel 20 remains in the distribution space 24 of the double vessel 20 to extend the time to effect efficient heat exchange with the electric heater 30. have.

In addition, it is possible to provide cold water to the inside of the mall double container 20 by using the cooling means 90 has the effect of ensuring the ease of use of the device.

Industrial electric cold and hot water boiler 100 according to an embodiment of the present invention having the configuration as described above is used as follows.

First, as shown in FIG. 6A, a plurality of electricity installed in the distribution space 24 through the control of the control unit 70 to heat the water 1 for distributing the distribution space 24 of the double container 20. The heater 30 is operated.

Then, as illustrated in FIG. 6B, the water 1 flowing through the circulation space 24 of the double vessel 20 is heated by heat exchange with the electric heater 30, and the warmed hot water is circulated to the circulation hose 50. The hot water introduced and introduced into the circulation hose 50 is heat-exchanged with the outside while being circulated through the circulation hose 50, and the cooled water 1 is discharged through the circulation hose 50. The circulation is supplied to the inside of the double vessel 20 is heated again through the electric heater 30 to continuously circulate the circulation hose 50 and the double vessel 20.

At this time, as shown in FIG. 4, the water 1 flowing through the double vessel 20 rotates inside the double vessel 20 along the vortex groove 80 formed in the second vessel 22. Of course, the flow can be induced to exchange heat with the electric heater 30 very efficiently.

Here, when the water 1 flowing through the double vessel 20 is evaporated and exhausted, the water 1 inside the double vessel 20 automatically through the water replenishment system 60 as shown in FIG. 5. ), The user can operate the device very conveniently.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this is by way of example and not limited to the above-described embodiments, various modifications and equivalent embodiments are possible from those skilled in the art. You will understand the point. In addition, modifications by those skilled in the art can be made without departing from the scope of the present invention. Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and their technical spirit.

1. Water 2. Pump
10. Water tank 20. Double container
21. First container 21a. 1st entrance
21b. Exit 1 22. Second Container
23. Exhaust pipe 23a. Discharge hole
24. Distribution space 30. Electric heater
40. Temperature sensor 50. Circulation hose
60. Water replenishment system 61. Supply pipe
62. Supply pump 63. Water level measuring tube
64. Water level sensor 70. Control part
80. Vortex Groove 90. Cooling Means
91. Entrance 2 92. Exit 2
93. Circulation pipe 94. Circulation pump
95. Cooler
100. Industrial Electric Cold & Hot Water Boiler

Claims (4)

A water tank 10 accommodating and storing water 1 therein;
The first container 21 has a space therein, the first container 21 having a first outlet 21b through which water 1 is discharged, and the inside is sealed and inserted into the first container 21, The second container 22 is positioned so that the outer circumferential surface is spaced apart from the inner circumferential surface of the first container 21, and the water (1) circulated in the outer circumferential surface is located therethrough. A plurality of discharge holes 23a for discharging water 1 into the first container 21 are formed to be distributed in the distribution space 24 formed between the first container 21 and the second container 22. Double container 20 including the discharge pipe 23;
One or more electric heaters (30) installed in the distribution space (24) of the double vessel (20);
A temperature measuring sensor 40 for measuring the temperature of the water 1 circulated in the distribution space 24 of the double vessel 20 and transmitting the measurement information to the controller 70;
A circulation hose 50 having one end connected in communication with the discharge pipe 23 passing through the first container 21, and the other end connected in communication with the first outlet 21b of the first container 21;
Replenishing water to measure the water level of the water (1) accommodated in the distribution space 24 of the double vessel 20 so that the water (1) contained in the water tank 10 is supplied into the double vessel (20) System 60; And
Industrial electric cold and hot water boiler, characterized in that it comprises a; control unit 70 for controlling the operation of the electric heater 30 and the water replenishment system (60).
The method of claim 1,
The water replenishment system 60,
A supply pipe 61 for connecting the water tank 10 and the double container 20 to each other in communication with each other;
A supply pump 62 installed on the supply pipe 61 so that the water 1 accommodated in the water tank 10 is easily supplied to the double vessel 20;
A water level measuring tube (63) connected in communication with the distribution space (24) of the double vessel (20),
It is configured to include a water level measuring sensor 64 installed inside the water level measuring tube 63 to measure the water level of the water level measuring tube 63, and transmit the measurement information,
By operating the supply pump 62 in the control unit 70 for receiving the measurement information transmitted from the water level measurement sensor 64, it is characterized in that the water is easily replenished into the double vessel 20 Industrial electric cold and hot water boiler.
The method of claim 1,
A spiral vortex groove 80 is further formed on the outer circumferential surface of the second vessel 22 of the double vessel 20, so that water 1 for circulating the circulation space 24 of the double vessel 20 is the vortex groove. Induced to be transported whirlwinding along the distribution space 24 along 80 so that the water 1 circulating through the distribution space 24 can be heated evenly through the electric heater 30. Industrial electric cold and hot water boiler.
The method of claim 1,
A second inlet 91 formed at one side of the first vessel 21 of the double vessel 20 so that water 1 flows into the circulation space 24 of the double vessel 20;
A second outlet 92 formed at one side of the first container 21 to discharge water 1 introduced into the distribution space 24 of the double container 20 through the second inlet 91; ,
One end is connected in communication with the second inlet 91, the other end is in circulation pipe 93 is connected in communication with the second outlet 92,
A circulation pump 94 installed on the circulation pipe 93 so that the water 1 contained in the circulation space 24 of the double container 20 is easily circulated;
Cooling means (90) is provided on the circulation pipe (94) consisting of a cooler (95) for cooling the water (1) circulated in the circulation pipe (93);
The cooler (95) is an industrial electric cold, hot water boiler, characterized in that operating through the control of the control unit (70).

Images