KR101301792B1 - All-in-one electric hot water heater case - Google Patents

Abstract

PURPOSE: An integrated electricity hot water heating case is provided to store heat that is radiated from thermal medium heated by a heating unit to a main body, and transfers the heat to thermal medium that is not heated, thereby quickly and evenly heating the thermal medium. CONSTITUTION: An integrated electricity hot water heating case (100) includes a lateral passage (112), a vertical passage (114), a heating unit (120), and a sealing unit (130). The lateral passage is passed through an electric hot water heating case so as to be arranged in a line. The vertical passage is connected into both ends of the lateral passage. The vertical passage is penetrated in the same size as the lateral passage. An inlet line (102) into which the thermal medium is induced and an outlet line (104) from the thermal medium is discharged are connected on both upper and lower ends of the vertical passage. The heating unit is inserted into and fixed to each lateral passage so as to be sealed. The sealing unit seals the other side of the lateral passage.

Description

All-In-One Electric Hot Water Heater Case

The present invention relates to a hot water heating case of an electric boiler that uses water as a heat medium and heats it to be used for hot water and heating, and more particularly, the heat medium is integrally provided without a pipe for circulating heating by an electric heater. It is easy, the heating of the heat medium is made quickly and easily, minimizing the heat dissipation of the heated heat medium and excellent thermal efficiency to the integrated electric hot water heating case.

In general, an electric boiler refers to a boiler that uses heat of electricity instead of fuel. An electric boiler is an electrode type that generates Joule heat through electric current between electrodes by using water as an electric resistor in terms of type, and There is a resistance type that directly or indirectly inserts a metal resistance wire and uses the heat generated.

The electric boiler heats water corresponding to the working pressure to a temperature slightly lower than the saturation temperature to circulate hot water in a heating facility, and is used for heating, hot water heating, hot water supply, and general heating.

Electric boilers include electric boilers that heat water and supply steam to a heating facility according to the use of a heat medium, and electric boilers that heat water and supply hot water to a heating facility. The hot water is supplied to a heating facility. The boiler is called electric hot water boiler.

The electric hot water boiler as described above may be used as a moth or hot water by heating the heat medium stored in the water tank by the electric heater.

Such an electric hot water boiler takes a long heating time by heating the heat medium stored in the water tank by the electric heater, and there is a problem that the user does not easily heat the desired temperature.

In addition, the electrical energy for heating the stored hot water is consumed a lot, and the heat loss due to the heat dissipation during the storage of the heated heating medium is not easy to maintain the proper temperature.

In addition, there is a problem in that the space for the installation of the boiler also increases due to the size of the boiler is necessary because it is necessary to store a large capacity of heat medium.

In order to improve this, conventionally, a technology for inserting a heating means into a pipe has been developed, such as Korean Utility Model Publication No. 20-0433110 (rapid heating electric boiler 2006.12.01).

This is schematically described with reference to FIGS. 1 and 2 as follows.

1 and 2, in order to minimize the heat loss of the boiler, the heat insulating case 10 is covered with a heat insulating material, etc., and a plurality of "U" type inside the heat insulating case 10. The connector 23 is laid in a laid state so that it is arranged in multiple stages at equal intervals up and down, and the bent portion of the connector 23 is placed on the same vertical line, and the penetrated tip of the connector 23 is "T." The water connection pipe 20 is vertically connected to the connection pipe 24 which is connected to the upper and lower sides of the "type connection port 25" so that the water is zigzag-circulated and circulated.

In addition, one side of the connection port 25 coupled to the lower end of the water circulation pipe 20 is composed of a lower inlet port 21 into which water is introduced, and one side of the connection port 25 coupled to the upper end has an upper outlet 22 through which water is discharged. It consists of

Further, the water circulation pipe in the longitudinal direction in which the rod-shaped heater 30 is mounted in the coupling hole 26 formed in the outer side of the connection port 25 of the connection pipe 24 and the horizontally arranged connection pipe 23 is horizontal. (20) In the configuration in which the heater 30 is built with a predetermined gap therein, the water is circulated and sequentially heated directly to the plurality of heaters 30 while the water is circulated and transported through the water circulation pipe 20, thereby for heating water and hot water. The water supply is to be made.

In addition, the water circulation tube 20 is of course fixed to the support so as not to move inside the heat insulating case (10).

Conventional hot water heating case provided as described above has the advantage that the heating medium is instantaneously heated by the heater while circulating the connecting pipe body can use the heating or hot water immediately.

In addition, there is no need to provide a separate bucket by the connecting tube has the advantage that the installation space is reduced.

However, the conventional hot water heating case has a problem in that construction is not easy due to the inconvenience of having to connect the connection body separately.

Moreover, there is a problem in that maintenance is not easy because it cannot be easily grasped when a leak occurs due to a defect in the connecting pipe, so that the entire case must be disassembled and the connecting pipe needs to be reconstructed.

In addition, there is a problem in that the heat loss during the heating or circulation of the heat medium in the connecting pipe is dissipated to the outside through the connecting pipe, which causes a lot of heat loss.

Therefore, in order to prevent this, there is an inconvenience that a separate insulation material should be provided in the hot water heating case.

In addition, the repair is not easy due to the insulation material during the repair due to leakage, and there is an inconvenience of recharging the insulation material again after the repair.

The present invention is to solve the conventional problems, the heat medium is integrally provided without a pipe circulating heating by the electric heater, easy maintenance, heating of the heat medium quickly and easily, heat dissipation of the heated heat medium The purpose of the present invention is to provide an integrated electric hot water case with excellent thermal efficiency.

In the integrated electric hot water case according to the present invention, at least one horizontal flow path is provided in a main body having a rectangular parallelepiped shape, and at least one vertical flow path is provided to be interconnected to both ends of the horizontal flow path so that the thermal medium is horizontal. Characterized in that it is provided to be circulated through the flow path and the vertical flow path.

In the present invention, the main body is preferably provided to form a plate shape consisting of a rectangular parallelepiped.

In the present invention, at least one or more heating means corresponding to the transverse flow path is fixedly inserted into one side of the transverse flow path to heat the heating medium, and vertically connected to the other end of the transverse flow path and both ends of the transverse flow path. The upper and lower ends of any one of the flow path is preferably provided to be sealed by a sealing means.

In the present invention, it is preferable that at least one main body provided with the horizontal flow path and the vertical flow path is arranged.

In the present invention, the horizontal flow path and the third flow path interconnected with the vertical flow path is further provided so that the heat medium is circulated three-dimensionally in the X, Y, Z direction through the horizontal flow path and the vertical flow path and the third flow path. Is preferred.

In the integrated electric hot water heating case according to the present invention, the heat dissipated from the heated heat medium by the heating means is received in the integral body and transferred to the unheated heat medium so that the heat medium can be heated evenly and quickly, even after the heating is completed. Heat received in the heat medium is transferred to the heat medium, the heat medium is not easy to cool has the effect of maximizing thermal efficiency.

In addition, since the heat medium is circulated through the horizontal flow passage and the vertical flow passage through the main body without the need for a separate circulation pipe, there is an effect that the production of the heating case can be easily performed and can be mass produced easily.

In addition, since the horizontal flow path and the vertical flow path penetrate the case main body, there is no problem such as leakage in the flow path, and when the leaking means of the sealing means can be easily grasped and repaired, there is an easy maintenance effect.

In addition, by arranging a plurality of case bodies to form one block, the user can freely change the desired capacity, and there is an excellent effect of easily heating a large heat medium at a time.

1 is a perspective view showing a conventional heating case.
2 is a perspective view showing the circulation pipe structure of FIG.
Figure 3 is a perspective view of a heating case according to the present invention.
4 is a front sectional view of Fig. 3; Fig.
5 is a cross-sectional view of the use state provided with a heater means in FIG.
6 is a perspective view illustrating a state in which a plurality of heating cases of FIG. 3 are arranged.
7 is a perspective view showing a heating case according to another embodiment of the present invention.
8 is a perspective view showing a heating case according to another embodiment of the present invention.

Referring to the drawings, an integrated electric hot water case according to the present invention will be described.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

As shown in FIGS. 3 and 4, the case 100 according to the present invention includes a plate-shaped main body 110 having a thin rectangular parallelepiped, a plurality of horizontal flow paths 112 and the plurality of horizontal passages 112 penetrating the main body 110. A vertical flow passage 114 is integrally provided to be connected to both ends of the horizontal flow passage 112.

4 and 5, the main body 110 is preferably provided with an aluminum material having a high thermal conductivity (one), but made of various materials such as various metal materials and synthetic resins according to the user's convenience. Can be.

The horizontal flow path 112 is preferably provided to penetrate from one side of the thin surface to the other side to be arranged in a line on the main body 110.

The vertical flow passage 114 is preferably provided so that the vertical flow passage 114 passes through the same size as the horizontal flow passage 112 in a vertical thickness up and down of a thin surface to be connected to both ends of the horizontal flow passage 112. .

And, as shown in FIG. 5, the heating means 120 is inserted into and fixed to one side of the horizontal flow path 112, respectively.

And, the other side of the horizontal flow path is sealed by the sealing means 130.

The heating means 120 is preferably provided with a heating pipe that is heated by electricity.

In addition, the heating means 120 is preferably screwed to each other in order to be hermetically fixed to the horizontal flow path 112, it may be fixed to the horizontal flow path 112 in a variety of ways for the convenience of the user.

In addition, the inlet line 102 through which the heat medium (not shown) is introduced and the discharge line 104 through which the heat medium is discharged is provided at both upper and lower ends of any one of the vertical flow passages 114.

And another image of the vertical flow passage 114. Both ends are closed by the sealing means (130).

Of course, the connection of the inflow line 102 or the discharge line 104 may be changed in various ways according to the user's convenience is included in the technical idea of the present invention.

For example, the inflow line may be connected to the lower side of the vertical flow path, the discharge line may be connected to the upper side of the vertical flow path, and the rest may be used by being sealed by the sealing means.

In addition, the sealing means 130 is coupled to the ends of the horizontal flow path 112 and the vertical flow path 114 by the screw method is closed the horizontal flow path 112 and the vertical flow path 114.

Case 100 of the present invention configured as described above, the heat medium is introduced into the vertical flow path 114 through the inlet line 102 by a circulation pump (not shown) as shown in FIG.

As described above, the heat medium introduced into the main body 110 is accommodated in the horizontal flow path 112 and the vertical flow path 114 interconnected in the main body 110 by a circulation pump, circulated and discharged to the discharge line 104.

At this time, when the heating means 120 generates heat by an external power source, the heat medium accommodated in the horizontal flow path 112 is heated by the heating means 120.

The heating medium heated by the heating means 120 as described above is circulated through the horizontal flow path 112 and the vertical flow path 114 is heated to the temperature desired by the user is discharged through the discharge line 104, so that the user is heated or hot water Can be used immediately.

Therefore, the integrated electric hot water heating case according to the present invention is heated by the heating means, the heat dissipated from the heat medium is accommodated in the body integrally formed into a single plate to transfer heat to the heat medium not yet heated, the heat medium is heated evenly quickly Can be.

In addition, even after the heating is completed, the heat received in the main body is transferred to the heat medium so that the heat medium does not cool easily, thereby maximizing thermal efficiency.

In addition, since the heat medium is circulated through the horizontal flow passage and the vertical flow passage through the main body without the need for the separate circulation pipe, it is easy to manufacture the case.

Further, since the horizontal flow path and the vertical flow path penetrate the case body, no problems such as water leakage occur in the flow path, and when the leaking means of the sealing means is easily grasped and repaired, maintenance is easy.

In addition, as shown in FIG. 6, a plurality of cases may be arranged to heat the heat medium by adjusting the capacity of the heat medium to the desired capacity.

Most preferably, the horizontal flow path provided in the case according to the present invention is preferably provided with 18 pieces, and the case according to the present invention is preferably provided with six pieces forming one block so as to provide the best heating efficiency. .

Such a configuration will be based on the experience of the applicant and the results of the experiments.

As illustrated in FIG. 7, the case 100 according to another exemplary embodiment of the present invention has a plurality of horizontal passages 112 and vertical passages 114 integrally passing through the case 100 to form one block. As equipped with,

Detailed description thereof will be omitted because it is about the same as described in Figures 3 to 6.

However, since the plurality of horizontal flow paths 112 and the vertical flow paths 114 are provided at one time in the case 100 having one block, the user may heat the large heat medium in one case 100 at a time.

As illustrated in FIG. 8, the case 100 according to another exemplary embodiment of the present invention has a plurality of horizontal flow paths 112 and vertical flow paths 114 integrally formed such that the case 100 forms one block. It is provided to penetrate, and further provided with a third flow path 116 connected to the horizontal flow path 112 and the vertical flow path 114,

Detailed description thereof will be omitted because it is about the same as described in Figures 3 to 6.

However, the plurality of horizontal flow paths 112 and the vertical flow paths 114 and the third flow paths 116 connected to the horizontal flow paths 112 and the vertical flow paths 114 pass through the case 100 formed as one block. The heat medium is circulated three-dimensionally in the XYZ direction so that the heat medium of the large capacity can be heat-circulated quickly more easily.

In addition, the horizontal flow path and the vertical flow path described in the present invention as described above may be provided to have a predetermined depth without being penetrated by the user's convenience.

What has been described above is only one embodiment for carrying out the integrated electric hot water case according to the present invention, the present invention is not limited to the above-described embodiment, the scope of the present invention as claimed in the claims below Without this, anyone skilled in the art to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be made.

100: case 102: inflow line
104: discharge line 110: main body
112: horizontal euro 114: vertical euro
116: third flow path 120: heating means
130: sealing means

Claims (5)

It is made of aluminum plate of one disc (thick) with high thermal conductivity, so that the thickness of the rectangular parallelepiped is thin.
A plurality of horizontal flow paths 112 are penetrated from one side of the thin side to the other side so that they are arranged in a line,
The vertical flow path 114 is provided to penetrate into the same size as the horizontal flow path 112 up and down inside both ends of the thin surface so as to be connected to both ends of the horizontal flow path 112,
Heating means 120 is inserted into and fixed to each of the horizontal flow paths 112,
The other side of the horizontal flow path 112 is sealed by the sealing means 130,
The inflow line 102 for heating the heat medium and the discharge line 106 for discharging the heat medium are connected to upper and lower ends of any one of the vertical flow passages 114,
Another image of the vertical flow path 124. Both ends are sealed by the sealing means 130,
2 to 6 discs having 10 to 18 horizontal flow paths 112 are formed to form one block, and the heat medium heated by the heating means 120 is 10 to 18 horizontal flow paths 112 and the horizontal direction. The integrated electric hot water case, characterized in that the user is circulated through the vertical passage 114 penetrates the passage and is heated up to a desired temperature and discharged through the discharge line 104. delete delete delete delete

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