KR20110114403A - Water heater cap - Google Patents

Abstract

The present invention relates to a water pipe type dual vacuum tube connection cap applied to the solar hot water system;
The purpose of the technical implementation is to provide a hot water tank and a connection cap for efficiently controlling the flow rate and circulation action of the hot water at the connection portion of the double vacuum tube, and the low temperature hot water filled in the hot water tank and the double vacuum tube. The hot and hot water regenerated in the furnace is naturally circulated by the convection phenomenon, and by this natural circulation action, a series of heat exchange actions are more smoothly and easily achieved, thereby collecting hot water and supplying hot water. It is to provide a water pipe type double vacuum tube connecting cap that is applied to solar hot water system, which is to be greatly improved.
In order to achieve the above object, according to a concrete means of the present invention,
In the solar hot water system made of a connection relationship between the hot water tank is filled with low-temperature hot water, and a double vacuum tube having a hot water circulation hole;
Coupling the cap body with the constriction membrane, the insertion port, and the concave-convex stopper shape having a fixed coupling piece to the hot water circulation hole of the double vacuum tube;
On one side of the sealing membrane, it is achieved by further connecting the hot water circulation pipe in a vertical through structure.

Description

Water tube type double vacuum tube connection cap applied to solar hot water system

The present invention relates to a water pipe connection cap of a water pipe type, and more particularly, in a solar hot water system, a stratification phenomenon (a phenomenon in which a layer is formed due to temperature and density of hot water) in a connection portion between a hot water tank and a double vacuum tube. The present invention relates to a water pipe-type double vacuum pipe connecting cap applied to a solar hot water system to increase the heat collecting efficiency of a hot water system by applying a connection cap to prevent and install the heat exchange action smoothly.

Fossil fuels, such as coal, petroleum, and gas energy, which are widely used in general, are extremely limited in terms of the industrial society of today's high growth road and the resulting population growth rate. If the relationship persists, there will be a serious crisis of resource depletion in the near future, especially fossil fuels, which inevitably generate large amounts of carbon dioxide upon combustion, thereby accelerating global warming. In fact, it is a reality today that it is also emerging as a serious environmental pollution problem.

Therefore, in order to solve such problems of fossil fuel use, countries around the world are making a lot of researches and efforts to develop alternative energy sources that are naturally friendly.In Korea, the Ministry of Commerce, Industry and Energy and the Ministry of Science and Technology have We are working hard on education.

Therefore, in recent years, natural energy sources that can replace fossil fuels, for example, energy sources using solar, biomass, geothermal, tidal, wave, wind, etc., have already reached the commercialization stage. Solar energy is a source of infinite energy, that is, no risk of exhaustion, which is the source of natural energy. Today, it is applied to various alternative energy sources throughout the industry, such as solar generators, solar collectors, and solar hot water (heating) systems. It can be seen that.

On the other hand, in the various apparatuses using the above-mentioned solar energy, in particular, the solar hot water system collects the sun's radiant heat into a planar heat collecting plate, and the temperature of the heat exchange medium (circulating water) circulated by the collected solar heat. By being raised, abundant hot water is supplied to homes or industrial facilities, and further, a heating function is provided.

Thus, in general, conventional solar hot water systems that are widely used, as shown in Figure 1, as a configuration;

It includes a hot water tank 10 of a predetermined capacity for storing and supplying circulating water;

A plurality of double vacuum tubes receiving low-temperature hot water from the hot water tank 10 and raising it to a high temperature by solar heat collection and heat-exchanging the high temperature hot water stored in the hot water tank with low temperature hot water ( 20).

However, as described above, in the conventional solar hot water system, the connection relationship between the hot water tank 10 and the double vacuum tube 20 is a simple through connection relationship, for example, a cylindrical tube, as shown in a partially enlarged view of FIG. 1. The upper surface of the double vacuum tube taking the structure, the width corresponding to the diameter, was in direct communication with the hot water tank;

Therefore, in the conventional solar hot water system, the circulation water to be heat exchanged, for example, the amount of low temperature hot water and high temperature hot water is not properly controlled, the inflow and outflow circulation in the double vacuum tube is kept the same, and the circulation rate is also very high. It proceeds rapidly, thereby giving a problem of a structural defect that the rise temperature of the circulating water (hot water) is extremely limited, in particular, the cold hot water filled in the hot water tank, and the hot water of the hot water stored in the double vacuum tube The difference in temperature causes stratification (layer formation due to temperature and density of hot water) and acts as a barrier to thermal cycling, which leads to considerable functional problems that result in extremely low heat collection efficiency. To give.

On the other hand, another conventional solar hot water system, as described above, has a limited functional problem of lowering the heat collection efficiency, and thus, from the user's point of view, the initial installation cost is relatively high, even though the efficiency is high. The problem was that the installation of a hot water system, for example, a solar hot water system, which was significantly lower than expected, was to be avoided. In addition, after the installation, the initial investment cost return period due to energy efficiency was relatively long. In other words, the problem of considerable economic deterioration also exists.

Accordingly, the present invention is to solve the general problems of the conventional double vacuum tube connection structure, applied to the solar hot water supply system;

An object of the present invention is to provide a hot water tank and a connection cap for efficiently controlling the flow rate and circulation action of hot water at the connection portion of the double vacuum tube, to the low temperature hot water filled in the hot water tank and the double vacuum tube. The hot and hot water regenerated in the natural circulation is naturally circulated by convective phenomena, and by this natural circulation action, a series of heat exchange actions are more smoothly and easily achieved, thereby collecting hot water and supplying hot water. It is to provide a water pipe type double vacuum tube connecting cap applied to solar hot water system, which is greatly improved.

On the other hand, another object of the present invention, by the connection cap, by adjusting the circulation amount of the hot and hot water in a more natural, stable form, to make a series of heat exchange action to be made efficiently, the conventional solar heat It is possible to prevent unnecessary stratification phenomenon generated by the hot water system, and in particular, by preventing such stratification phenomenon, the heat collecting efficiency is extremely improved, and the installation and utilization of users are further increased, and as an improved energy efficiency, In addition, the initial investment payback period is also provided to provide a water pipe type double vacuum tube connecting cap for solar hot water system, which can be relatively shortened.

Thus, to achieve the above object, as a specific means of the water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention;

In the solar hot water system made of a connection relationship between the hot water tank is filled with low-temperature hot water, and a double vacuum tube having a hot water circulation hole;

Coupling the cap body with the constriction membrane, the insertion port, and the concave-convex stopper shape having a fixed coupling piece to the hot water circulation hole of the double vacuum tube;

On one side of the sealing membrane, it is achieved by further connecting the hot water circulation pipe in a vertical through structure.

Therefore, the water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention, the cap body consisting of a sealing membrane and the insertion port, and the fixed coupling piece to the hot water tank, the connection portion of the double vacuum tube, The hot and cold water packed in the hot water tank and the hot and hot water regenerated in the double vacuum tube are naturally circulated by convection, and thus, a series of heat exchange actions are more desired and stable. Along with efficiency, to improve hot water supply function;

In addition, according to the prevention of stratification by the cap body, the heat exchange function is improved, so that the installation and utilization rate of the solar hot water system can be increased, and, as an improved energy efficiency, the initial facility investment cost, for example, of the solar hot water system The installation cost recovery period is also extremely shortened, which provides a very useful expected effect.

1 is a schematic configuration diagram of a conventional solar hot water system
Figure 2 is a perspective view of a water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention
Figure 3 is an installation state of the water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention
Figure 4 is a cross-sectional view of the operation state of the water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention
Figure 5 is another embodiment of the water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention

Hereinafter, according to the present invention, a preferred embodiment configuration of the water pipe-type dual vacuum tube connection cap applied to the solar hot water system will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a water pipe type double vacuum tube connection cap applied to the solar hot water system according to the present invention, Figure 3 is an installation state diagram of the water pipe type double vacuum tube connection cap applied to the solar hot water system according to the present invention, Figure 4 is As a cross-sectional view of the installation state of the water pipe-type dual vacuum tube connection cap applied to the solar hot water system according to the present invention, looking at the series configuration;

This, in the solar hot water system 100 consisting of a hot water tank 1 and a double vacuum tube (2), which is applied to the connection portion of the hot water tank (1) and the double vacuum tube (2), and And a high temperature water circulation pipe (4).

Here, first, the hot water tank 1 constituting the solar hot water system 100, the inlet and store the low-temperature hot water supplied from the circulating water required for supplying hot water and heating water, for example, a water supply pipe. As a conventional configuration, such a hot water tank 1, as shown in FIG. 3, the inlet 11 and the outlet 12 are formed in a symmetrical structure on one side and the other side, The lower surface, as a regular and repetitive arrangement structure, it is configured in the form further provided with a plurality of vacuum tube connecting hole 13, which is connected to the double vacuum tube 2, which will be described later.

In addition, the double vacuum tube (2) constituting the solar hot water system 100 is a common configuration for causing the temperature of the supplied low temperature hot water to be raised to high temperature hot water by solar heat collection, and thus, such a double vacuum tube (2), the upper surface is provided with a hot water circulation hole 21 of the open structure, the lower surface is formed into a cylindrical tube of a predetermined length taking a closed form, again, double vacuum tube (2) inner surface Is formed into a structure in which a heat collecting film sheet (not shown) is provided

On the other hand, the cap main body 3 is a core configuration of the present invention, such a cap main body 3, as shown in Figure 2, the sealing film having a low temperature water inlet 311 in the lower surface ( 31 is formed, a cylindrical structure extending toward the upper surface of the sealing film 31, the insertion hole 32 is formed, and again, the fixed coupling piece having a circular band shape on the outer edge of the upper end surface of the insertion hole (32) It is preferable to form the concave-convex stopper structure in which 33 is provided integrally.

In addition, the hot water circulation pipe 4 causes the hot water of which the temperature has risen in the above-described double vacuum tube 2 to be circulated and supplied into the hot water tank 1 to store the low temperature stored in the hot water tank 1. As a means for exchanging heat with hot water, such a hot water discharge pipe 4 is preferably formed of a stainless steel tube having a predetermined length, as shown in FIG. 2.

Therefore, the double vacuum tube water heater connection cap according to the present invention made of a configuration, such as is applied to the ordinary hot water system 100, consisting of a hot water tank 1 and a double vacuum tube (2), a series of installation , Look at the relationship;

First, the hot water circulating pipe 4 is integrally connected to one side of the sealing membrane 31 adjacent to the low temperature water inlet 311 in a vertical through structure to provide a cap body 3 as a finished article. To be.

Subsequently, the provided cap body 3 is coupled to an open upper surface of the double vacuum tube 2, for example, a hot water circulation hole 21, as shown in FIG. 2, by an insertion structure.

At this time, when the cap main body 3 is inserted and coupled to the hot water circulation hole 21, the fixed engaging piece 33 provided with the cap main body 3 is in close contact with the outer edge of the hot water circulation hole 21. It is to take the form, whereby, the bonding treatment member (B) made of a silicone or resin adhesive or the like applied to the bonding portion where the fixed coupling piece 33 is in close contact, the fixed coupling piece 33 It is desirable to allow the to be combined in a rigid sealed structure.

Thereafter, as a final process, the double vacuum tube 2 to which the cap main body 3 is coupled, as shown in FIG. 3, is made defective in the vacuum tube connection hole 13 of the hot water tank 1, and the installation relationship thereof is improved. That's it.

At this time, the double vacuum tube 2 is coupled to the cap body 3, as shown in Figure 3, provided with a number of the number of the vacuum tube connection hole 13 provided with a hot water tank (1), to be applied Will be.

In addition, the form in which the double vacuum tube 2 is coupled to the vacuum tube connection hole 13 of the hot water tank 1 has the same coupling form without different from the conventional one, for example, watertight packing or screw detachment method. It is not to deviate from the known coupling structure, therefore, a detailed description thereof will be omitted.

Accordingly, the solar hot water system to which the double vacuum tube water heater connection cap is applied according to the present invention is to provide the hot water of the low temperature supplied from the water supply pipe by the solar heat collection to the high temperature hot water or the heating water. As a result, a series of working relationships are as follows.

First, the low-temperature hot water is supplied from the outside through the inlet 11 to be filled and stored in the hot water tank 1.

Subsequently, the low temperature hot water stored in the hot water tank 1 is naturally introduced into the double vacuum tube 2 connected to the lower surface of the hot water tank 1, and at this time, the low temperature hot water introduced into the double vacuum tube 2. As shown in FIG. 4, in the cap body 3, the cap body 3 is guided through the low temperature water inlet hole 311 formed by the sealing membrane 31 and filled into the double vacuum tube 2.

Therefore, the low temperature hot water introduced into and filled with the double vacuum tube 2 is a temperature of the hot water being increased by the solar heat collecting action by the double vacuum tube 2, and thus, the temperature is increased in the double vacuum tube 2. The hot hot water is circulated naturally into the hot water tank 1 through the hot water circulation pipe 4 by convection again, and performs heat exchange with the cold hot water stored in the hot water tank 1. The hot water whose temperature is increased by the heat exchange action is to perform a series of processes supplied to the user through the outlet 12 of the hot water tank 1.

Thus, in the series of processes as described above, the cold water inflow hole 311 of the cap body 3 into which the cold hot water flows in is narrower than the inner diameter of the double vacuum tube 2, and the cold hot water By restricting the amount of inlet to extend the collection residence time of the low temperature hot water introduced into the double vacuum tube (2), it will perform a function to increase the thermal efficiency, in addition, the hot water circulation pipe (4), also narrow tube shape As a result, the hot vacuum of which the temperature is raised in the double vacuum tube 2 is naturally circulated to a limited capacity to prevent unnecessary stratification and the like.

On the other hand, Figure 5 is another embodiment of the water pipe type dual vacuum tube connection cap applied to the solar hot water system according to the present invention, the present invention as another embodiment, as described above, the cap body 3 as an embodiment In the, it is preferable that the insertion hole 32 having a cylindrical structure, the elastic watertight packing 321, which is made of a soft resin material on the outer side edge, is further bonded and formed.

Accordingly, the present invention as yet another embodiment, in the cap body 3 is coupled to the hot water circulation hole 21 of the double vacuum tube 2, without using a separate bonding treatment material (B), such as adhesive or the like. In addition, the insertion hole 32 may be inserted into and coupled to the hot water circulation hole 21 of the double vacuum tube 2 by an elastic crimping action by the elastic watertight packing 321, which also departs from the scope of the present invention. It is not.

1 hot water tank 2 double vacuum tube 3 cap body
4: hot water circulation pipe 11: inlet 12: outlet
13: vacuum tube connection hole 21: hot water circulation hole 31: sealing membrane
32: insertion hole 33: fixed coupling 100: solar hot water system
311: low temperature water inlet 312: elastic watertight packing B: bonding treatment

Claims (3)

In the solar hot water system (100) provided with a hot water tank (1) filled with low temperature hot water, through and connected to a plurality of double vacuum tubes (2) provided with hot water circulation holes (21);
The double vacuum tube 2, the cap body 3 to the hot water circulation hole 21 is further formed coupled;
The cap body 3 includes a sealing membrane 3 having a low temperature water inlet hole 311, an insertion hole 32 extending in a cylindrical structure on an upper surface of the sealing membrane 3, and the insertion hole 32. It is formed of a concave-convex plug structure provided with a fixed coupling piece 33 on the upper outer surface edge;
The sealed membrane 3 is a solar hot water, characterized in that the hot water circulation pipe (4) having a predetermined length in a vertical through structure, more integrally connected to one side adjacent to the low temperature water inlet hole (311). Water pipe double vacuum tube connection cap applied to the system.
The method of claim 1;
The fixing piece 33 is a sealing structure of the upper end portion of the hot water circulation hole 21 provided in the double vacuum tube 2 by a bonding material (B) made of any one of silicon and resin adhesive material. Water pipe type double vacuum tube connection cap applied to the solar hot water system, characterized in that the coupling is formed.
The method of claim 1;
In the cap body (3), the insertion hole 32 having a cylindrical structure, the water pipe-type double vacuum tube applied to the solar hot water system, characterized in that the soft elastic watertight packing 321 is further coupled to the outer surface edge Connection cap.

Images