KR200316516Y1 - heat exchanger for water tank - Google Patents

Abstract

The present invention relates to a heat exchanger for a water tank, and more particularly, to maintain the optimum temperature of the seawater or fresh water contained in various water tanks, and to minimize the resistance of the flowed fluid, thereby greatly improving circulation efficiency and heating efficiency. A water tank heat exchanger that can be improved.

The heat exchanger includes a body provided with a space portion through which fluid flows, a refrigerant pipe positioned in the body space portion to perform heat exchange such that the water temperature decreases as the refrigerant flows, and a heater located at the body space portion to raise the water temperature. And a water temperature sensing unit located in the body space and sensing a water temperature.

The heater unit includes a heating element for generating heat, and a heating element detecting sensor for sensing a heating temperature of the heating element, wherein the heating element provides a heat exchanger for the bath, which is installed outside the space part of the body. .

Description

Heat exchanger for water tank

The present invention relates to a heat exchanger for a water tank, and more particularly, to maintain the optimum temperature of the seawater or fresh water contained in various water tanks, and to minimize the resistance of the flowed fluid, thereby greatly improving circulation efficiency and heating efficiency. A water tank heat exchanger that can be improved.

In general, various tanks in which live fish are stored in sashimi restaurants and live fish stores, that is, aquariums, can be kept in a natural environment, for example, in the case of sea fish, sea water is contained, and in the case of freshwater fish, Fresh water is contained to allow fish to survive for a long time, and the habitat environment has a great influence on the water temperature. Therefore, each tank has a constant water temperature as heat is exchanged by refrigerant and heater for water temperature management. The heat exchanger is installed to be maintained.

The heat exchanger, in particular, increases the temperature by supplying heat when the water temperature of the water contained in the water tank decreases in summer or winter, and when the water temperature rises excessively, it takes away the heat and lowers the water temperature so that the temperature of the seawater or fresh water contained in the tank is fished. It is a structure that maintains the optimum water temperature for habitation.

Briefly describing the general structure of the heat exchanger, the body is provided with a space portion therein and the seawater and fresh water flows, and the refrigerant pipe which is disposed inside the body to lower the temperature of seawater and fresh water by allowing the refrigerant to flow; The heater unit is disposed inside the body to increase the temperature of the sea water and fresh water flows, and the water temperature sensing unit for sensing the temperature of the sea water or fresh water flows disposed adjacent to the heater in the body do.

The refrigerant pipe is connected to a separate cooling device and the heat exchange is performed while the refrigerant flows, and the heater part is heat-constructed while the heating wire is heated by itself while being heated by the application of electricity.

However, since such a heat exchanger is fixed to the heater unit to protrude from the inside of the body and occupies a predetermined space, excessive resistance is generated when seawater or fresh water flows due to its structure, thereby lowering circulation efficiency and of course heat loss. Is generated and satisfactory heating efficiency cannot be obtained.

In addition, the conventional heat exchanger does not provide a means for controlling the heating temperature of the heater unit, which causes the seawater or freshwater contained in the water tank to overheat, causing live fish to die or more seriously cause a large fire. This can be

The present invention is devised to solve the conventional problems as described above, the object of the present invention is to maintain the optimum temperature of the sea water or fresh water contained in the various tanks, as well as to minimize the resistance of the flow fluid It is possible to significantly improve the circulation efficiency and the heating efficiency by preventing the heat loss, and to provide a water tank heat exchanger that can prevent the fire caused by overheating in advance.

In order to realize the object of the present invention as described above, the body is provided with a space portion for the fluid flow therein, a refrigerant pipe which is located in the body space portion and performs heat exchange to lower the water temperature as the refrigerant flows, and the body Located in the space portion and the heater to increase the water temperature, and includes a water temperature sensing unit for sensing the water temperature located in the body space,

The heater unit includes a heating element for generating heat, and a heating element detecting sensor for sensing a heating temperature of the heating element, wherein the heating element provides a heat exchanger for the bath, which is installed outside the space part of the body. .

1 is a perspective view of the tank heat exchanger according to the present invention.

Figure 2 is a cross-sectional view for explaining the internal structure of the tank heat exchanger according to the present invention.

Figure 3 is a use state showing a preferred installation example of the tank heat exchanger according to the present invention.

4 is an enlarged cross-sectional view of the heater unit of FIG. 2;

5 is a plan sectional view of FIG.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 and 2, the water tank heat exchanger according to the present invention includes a body 2 having a space 2a through which fluid flows, and a space 2a of the body 2. Located in the space portion 2a of the body 2, the refrigerant pipe 4 for performing heat exchange to lower the water temperature while the refrigerant flows, the heater unit 6 for performing heat exchange to increase the water temperature, and the body It is located in the space portion (2a) of (2) includes a water temperature sensing unit (8) for sensing the water temperature.

The body 2 may be formed in the form of a cylindrical or polygonal box formed with a space 2a for flowing fluid, that is, seawater or fresh water, and is made in the form of a cylinder in the accompanying drawings as an example. have.

The material of the body 2 may be a synthetic resin material having excellent durability and salt resistance, etc., in addition to the metal material can be used as long as it satisfies the purpose of the present invention.

The inlet 10a and the outlet 10b penetrating the inside are formed in the upper and lower portions of the body 2 so that sea water or fresh water can flow through the space portion 2a, and disposed inside the body 2. Connecting ports 12a and 12b are formed to connect the inlet side and the outlet side of the refrigerant pipe 4, respectively.

The inlet 10a and the outlet 10b of the body 2 are connected to the pipe (L1) so that the water contained in the aquarium (T) can be circulated while being circulated as shown in FIG. ) Is connected to the inlet-side connection pipe (L1) is the pump (P) is installed in the structure by which the water contained in the aquarium (T) is circulated while being flowed into the body (2) by the pumping of the pump (P) to be.

In addition, although not shown in the drawings, the body 2 may be formed in a structure capable of increasing or decreasing the capacity of the internal space 2a while being fitted so that two or more parts are equally divided to maintain the seal in the vertical direction. . The structure of the body 2 can be easily changed in the form corresponding to the size of the aquarium (T) and the required circulating capacity of seawater or fresh water.

In addition, although the body 2 is not shown in the figure, caps capable of opening or blocking the inner space 2a from the outside may be installed at the upper and lower portions, respectively. When the cap is installed so that the inside is easily opened or blocked, it can provide more convenience during maintenance.

The refrigerant pipe 4 is disposed in the space portion 2a of the body 2 to exchange heat with seawater or fresh water circulated as the refrigerant flows, and a hollow metal pipe may be used.

The refrigerant pipe 4 is wound in the form of a coil as shown in FIG. 1 so as to be installed in the space 2a of the body 2 so that the inlet and outlet sides thereof are connected to the connector 12a, 12b. Each of the connectors 12a and 12b may be connected to an external cooling device C and a supply pipe L2 as shown in FIG. 3.

Although not shown in the drawing, the cooling device C may be made of a well-known cooling system equipped with a condenser, a compressor, and an expansion valve, and the refrigerant cooled by the device may include the refrigerant pipe 4 described above. It is a cooling structure that drops the water temperature of the water flowing into the body (2) within the set temperature range while being circulated to.

4 and 5, the heater unit 6 includes a heating element 14 and a heating element detecting sensor 16 installed on one side of the heating element 14 or sensing the heating temperature. do.

The heating element 14 may be made of a plate-shaped metal material having a predetermined thickness, in the accompanying drawings made of a cylindrical shape corresponding to the body (2) space (2a) and the bottom of the body (2) The thing fixed to the surface is shown as an example.

Inside the heating element 14 is provided a heating line (W) for generating heat in accordance with the application of electricity can be made of a well-known heat generating structure for generating heat by the heating line (W), the heating element ( The upper surface of 14 may be, for example, planar, without degrading the flow of water.

The heating element 14 may be firmly fixed to the fixing groove 18 formed on the bottom surface of the body 2 by a fastening member such as a fitting or a bolt, and the upper side of the heating element 14 May be set within the protruding range of about 5 mm or less from the bottom surface of the body (2).

When the heating element 14 is set above the protruding range in the body 2, the heating element 14 and the flowing water may contact each other to reduce circulation efficiency.

And, when the heating element 14 is set in the fixing groove 18 of the body 2, the contact portion of the groove 18 and the heating element 14, as shown in FIG. The heat shield plate 20 may be fitted to prevent the fixing groove 18 of the body 2 from being melted or deformed by heat when the heating element 14 is heated. A metal material with excellent shortness may be used.

A heating element detecting sensor 16 for detecting a heating temperature of the heating element 14 is installed inside the heating element 14, and as shown in FIG. 4, the heating element W is connected to the heating line W inside the heating element 14. It can be connected directly to the current line supplying.

The heating element detecting sensor 16 may be a thermal fuse, which is connected to a current line and the like to flow a current, and the contact is self-contacted by heat detected from the outside regardless of the flow of current. It is a well-known thermal sensor that has a short-circuit structure that essentially blocks the current flowing through the fuse when excessive temperature is detected.

In the above description, an example in which a temperature fuse is used as the heating element detecting sensor 16 is not limited thereto. For example, although not shown in the drawings, a bimetal may be used, and in addition, a sensing member that satisfies the purpose of the present invention may be variously applied.

In addition, the material of the coolant tube 4 and the heating element 14 may be a metal material such as titanium (Ti / titanium), tantalum (Ta / tantalum), or zirconium (Zr / zirconium). It is not only light in weight but also excellent in thermal conductivity, corrosion resistance, chemical resistance, salt resistance, and the like, and is suitable as a material for the refrigerant pipe 4 and the heating element 14 according to the present invention.

In the above description, the heating element 14 of the heater unit 6 is provided on the bottom surface of the body 2 as an example in the description and drawings, but is not limited thereto. For example, although not shown in the drawings, it may be installed on the upper surface or side surface of the space portion 2a of the body 2. Of course, at this time, it should be set within a range that does not protrude excessively into the space portion 2a of the body 2, and should be firmly fixed to the body 2 with a groove or a fastening member as in the above-described embodiment. .

In the above description, the heating element 14 is formed in a disc shape as an example and is illustrated in the drawings and the drawings. For example, although not shown in the drawings, it may be made in the form of a polygonal plate, or in addition, the shape that does not protrude excessively after being installed in the space portion 2a of the body 2 may be variously applied.

The space 2a of the body 2 is provided with a water temperature sensing unit 8 for sensing the temperature of water flowing through the space 2a. The water temperature sensing unit 8 includes a housing ( 22 and a temperature sensor 24 disposed inside the housing 22 to sense heat conducted from the outside. In the accompanying drawings, the space portion 2a penetrates the upper side of the body 2. It is shown by an example that it is fixed by the protruding posture.

The housing 22 may be made of a metal material having a predetermined length, and the temperature sensor 24 is fixed to the body 2 so that the seal can be maintained, and in contact with the flow of water while being heated. This is the structure that is inverted.

The temperature sensor 24 may be used as a water temperature sensor for sensing the external heat, this water temperature sensor may be a type already known as a sensor for water temperature detection in the heat exchanger according to the present invention. .

The water tank heat exchanger according to the present invention having the above structure is connected to an aquarium (T) in which live fish and the like are contained, as shown in FIG. It is possible to provide an optimal habitat environment by circulating and supplying the aquarium T while maintaining the water temperature within the set range.

In addition, the heater 6 installed in the space 2a of the body 2, that is, the heating element 14 is installed in a position not occupying the space 2a to minimize the resistance of the flowed water. By preventing heat loss of heat exchanged seawater and improving circulation efficiency, the heating element is continuously detected by the heating element detecting sensor 16, causing the fish to die or fire due to excessive heating of the heating element 14. It can be prevented in advance.

In the above description of a preferred embodiment of the water tank heat exchanger according to the present invention, the present invention is not limited to this, but various modifications within the scope of the utility model registration claims and the detailed description of the invention and the accompanying drawings. It is possible to implement, and this also belongs to the scope of the present invention.

As described above, the water tank heat exchanger according to the present invention has a structure in which the heater part is installed so as not to be occupied by the space part area of the body, thereby minimizing friction or resistance of the fluid flowing into the space part, thereby improving circulation efficiency. In addition, satisfactory heat exchange efficiency can be obtained by preventing heat loss of the heat-exchanged fluid. In addition, as the friction or resistance of the fluid flowing inside the body as described above, the vibration is reduced to prevent parts from being damaged or deteriorated, thereby extending the life of the product as well as the cost of maintenance You can save a lot of time.

In addition, the tank heat exchanger according to the present invention, by preventing the heating element from being excessively generated by the heating element detection sensor of the heater unit in advance that the large amount of fish in the tank dead due to excessive heat generation or a large fire occurs in advance. You can prevent it.

Claims (4)

A body having a space in which a fluid flows therein, a coolant tube positioned in the body space to perform heat exchange so that the water temperature is lowered while the refrigerant flows therein, a heater located at the body space and raising the water temperature; Located in one of the body space and includes a water temperature sensing unit for sensing the water temperature, The heater unit includes a heating element for generating heat and a heating element sensing sensor for sensing a heating temperature of the heating element, wherein the heating element is formed in a plate shape having a predetermined thickness and is installed outside the space part of the body. Water tank heat exchanger, characterized in that. The heat exchanger of claim 1, wherein the heating element of the heater part is installed on any one of a bottom surface, an upper side, and a side of the space of the body. The heat exchanger of claim 1, wherein the heater element is formed of any one of titanium (Ti / titanium), tantalum (Ta / tantalum), zirconium (Zr / zirconium), and stainless steel. The heat exchanger of claim 1, wherein the heating element detecting sensor of the heater part is made of any one of a thermo fuse and a bimetal.