KR200483935Y1 - Aquarium heating or cooling device - Google Patents

Abstract

The present invention relates to an aquarium 100 cooling / heating device 1 capable of keeping the water of an aquarium 100 constant at a predetermined temperature. The present invention relates to an aquarium 100, A discharge port 3 in which one end of the other end of the return pipe 102 having one end connected to the aquarium 100 is connected and a discharge port 3 in which the other end of the inlet port 2 and the discharge port 3 are connected, A heat exchanging block 4 having a communication hole 5 formed therein and a thermoelectric element 6 attached to one surface of the heat exchanger block 4 so as to communicate with the thermoelectric element 6, A cooling fan 8 installed on one surface of the evaporation plate 7 for rotation in the forward direction, a temperature sensor 91 for measuring the water temperature of the aquarium 100, And is electrically connected to the thermoelectric elements 6 and the temperature control panel 92, And the control unit 9 configured to compare the water temperature and the set temperature of the fan 8 so that the water is heated or cooled by the thermoelectric element 6. According to this, the water temperature of the aquarium 100 is constantly It is possible to extend the survival period of the target organism and to reduce the installation cost and the maintenance and repair cost with a simple structure, thereby improving the durability and prolonging the life of the product.

Description

Aquarium heating or cooling device

When the temperature of the water in the aquarium is lower than a predetermined temperature, the water is cooled. If the temperature of the water is lower than a predetermined temperature, In the aquarium.

Generally, an aquarium refers to a facility for collecting and living organisms living in the water. It is for observing the ecology and habitat of the creatures living in the water in an environment suitable for their ecological condition and displaying them, In order to increase the water temperature according to the ecology and the habit of the living organisms that are raised or displayed on the inside, the water in the aquarium is transferred to the heat exchanger through the heating means inside the heat exchanger and then transferred to the aquarium As described in Utility Model No. 408843 (published on Feb. 17, 2006), a heater in which water is submerged in the aquarium was heated to heat the water by a heater. In order to lower the water temperature, the water inside the aquarium was heated When cooling, a public utility model No. 1999/33507 (published August 5, 1999) A technique has been developed in which water in the aquarium is sucked into the aquarium by the cooler and cooled by the cooling pipe through which the liquefied oxygen passes through the coolant in the cooler while returning to the aquarium. A separate heater or cooler must be used for heating or cooling, respectively, so that heating and cooling are not performed at the same time.

Of course, the technology for cooling and heating the water of an aquarium simultaneously has been developed for a long time, as in Korean Patent Laid-Open No. 28584 (published July 15, 1998), but it is also possible to circulate the water inside the aquarium with the heat- Heating and cooling are performed by a heater provided inside the heat exchange tank and a heat exchanger through which the vaporized refrigerant flows and it is possible to heat and cool the water in the aquarium so that the temperature of the water can be kept constant. In the case of sea water, the heat exchanger and the heat exchanger in the heat exchanger are rapidly corroded and the life of the product is extremely short. In the case of the public utility model disclosed in August 5, 1999, seawater is used in the aquarium The seawater is circulated inside the cooler and the cooler and the cooling pipe are frequently corroded, Will repair had a number of problems such as frequently done.

KR 20-0408843 Y1 2006. 2. 17. KR 20-1999-0033507i Aug. 5, 1999. KR 10-1998-0028584 A 1998. 7. 15.

The present invention has been made to solve the above-mentioned problems of the prior art, and the present invention is to circulate the circulation pipe through a circulation pump installed to circulate water through a filter to filter water in an aquarium, When the water in the aquarium is circulated through the circulation tube, it is possible to heat or cool the water by the thermoelectric element. If the desired temperature is set, the thermoelectric element is heated and cooled according to the temperature of the water. It is possible to maintain the temperature constantly. Therefore, it is possible to maintain the temperature of the water according to the type of the organism to be raised or displayed in the aquarium only by the cold / warm apparatus having the circulation tube and the thermoelectric element, Even if water is used only inside the circulation tube And thus it is possible to prolong the lifespan by coating the inner surface of the circulation tube with a corrosion inhibitor and to simplify the structure and significantly reduce the installation cost, maintenance cost and maintenance cost. I have completed this design.

As a specific means for solving the aforementioned problems, the present invention provides an aquarium cold / warm apparatus, wherein the other end of the discharge pipe connected to the aquarium is connected to the aquarium cold / hot apparatus of the present invention, A discharge port configured to discharge the water introduced into the inlet port into the aquarium so that the inlet port and the outlet port are communicated with each other, and a communication hole is formed therein so that the inlet port and the outlet port are communicated with each other A heat exchange element is attached to one surface of the heat exchange block to heat or cool the heat exchange block to heat or cool the water passing through the communication hole.

In addition, an evaporation plate having a refrigerant inserted therein is installed on one surface of the thermoelectric element, and a cooling fan, which is rotated in the forward direction, is installed on one surface of the evaporation plate. A temperature sensor for measuring the temperature of water in the aquarium and a temperature sensor And a control unit for electrically heating and cooling the water passing through the communication hole of the heat exchange block by comparing the water temperature and the set temperature and electrically connected to the thermoelectric panel and the thermoelectric element and the cooling fan, do.

According to the concrete means for solving the above-mentioned problems, the aquarium cooling apparatus of the present invention is not provided with the cooling apparatus and the heating apparatus separately as in the prior art, but has a thermoelectric element capable of simultaneously performing the heat generation and the endothermic function according to the polarity of the voltage The water temperature of the aquarium can be always maintained at a desired set temperature by making it possible to heat or cool the water of the aquarium circulated by the circulation pump to the filter only by the evaporation plate and the cooling fan operating in accordance therewith, Or easily fit into the survival environment of the displayed organism, thereby having an advantage of prolonging the survival period of the organism.

In addition to this, even if seawater is used as an aquarium water, in this embodiment, the water is supplied to a separate reservoir or tank for heat exchange, and then heat is exchanged in the reservoir or the tank by a heater or a cooler. Since the communication hole inside the block is simply communicated, the water is gradually heated or cooled in the circulation of the discharge and recovery, and the separate storage tank, the heat exchanger and the tank are not used. It is possible to improve the durability and prolong the lifetime of the product because there is no need to replace the equipment frequently due to the corrosion of the storage tank, the heat exchanger and the like. It is a devise.

Figure 1 is a schematic illustration of an aquarium to which the present invention is applied.
Fig. 2 is a diagram showing an example of the stereoscopic view
Fig. 3 is a sectional view showing an example of the present invention
Fig. 4 is an exemplary view showing an example of a heat exchange block in the present invention
5 is an exemplary view showing another example of the heat exchange block in the present invention

The present invention relates to an aquarium cooling / heating apparatus for automatically controlling the temperature of water stored in an aquarium to adjust the conditions of a living organism cultivated or displayed in an aquarium. It should be explained in detail.

As shown in FIG. 1, the cooling apparatus 1 for an aquarium according to the present invention is connected to an aquarium 100 by piping so that the water in the aquarium 100 is circulated while being heated or cooled, ) Can be controlled to a desired temperature.

The cold storage device 1 according to the present invention includes a discharge pipe connected to the aquarium 100 for circulating the water by a circulation pump 300 circulating the water of the aquarium 100 to the filter 200 at one side of the main body 11 1 and 2, one end of a discharge pipe 101 is connected to an aquarium 100 at an upper portion of one side of the cold / warm apparatus 1, 100 is connected to the filter 200 through a circulation pump 300. One end of the discharge pipe 101 is connected to the circulation pump 300 through which the water is discharged from the aquarium 100 through the discharge pipe 101 And the other end of the return pipe 102 having one end connected to the aquarium 100 is connected to the lower part of one side of the cold / hot apparatus 1, (3) is discharged so as to be recovered to the aquarium (100) through the recovery pipe (102) And the upper and lower positions of the inlet 2 and the outlet 3 may be reversed.

Even if the water of the aquarium 100 is used as seawater on the inner surface of the discharge pipe 101 and the return pipe 102, corrosion resistance can be coated to prevent corrosion, thereby improving durability.

The upper inlet port 2 and the lower outlet port 3 are connected to upper and lower ends of one side of the heat exchange block 4 fixed to the inside of the main body 11 as shown in FIG. Is formed with a communication hole 5 inside so that the inlet port 2 and the outlet port 3 are communicated with each other so that the water flowing into the upper inlet port 2 is discharged to the lower outlet port 3. [

4, the communication hole 5 of the heat exchange block 4 is formed in a "U" shape in which one end is connected to the inlet port 2 and the outlet port 3 so that both ends thereof communicate with each other, The connection hole 5 may be formed in a zigzag shape so that both ends thereof communicate with the inlet port 2 and the outlet port 3 on one side and the outlet port 3 as shown in FIG. .

The communication hole 5 is coated on the inner surface of the aquarium 100 to prevent corrosion even if the water of the aquarium 100 is used as seawater, thereby improving the durability due to corrosion and prolonging the life of the product.

The heat exchanger block 4 has the upper and lower inlet ports 2 and the outlet port 3 communicated with the communication hole 5 and is provided with a thermoelectric element (Peltier effect device) 6 is attached so that the water passing through the communication hole 5 of the heat exchange block 4 is heated or cooled by heating or cooling the heat exchange block 4 If the amount of the water for the aquarium 100 is large, two to four thermoelectric elements 6 may be integrally attached to the heat exchange block 4.

An evaporator plate 7 or an evap plate 7 having a refrigerant therein is attached to the other side of the thermoelectric element 6 opposite to the heat exchange block 4. According to the evaporation plate 7, 6) to the evaporation plate 7 is in an exothermic state (= hot state). When the adhered surface from the thermoelectric element 6 to the evaporation plate 7 is in an endothermic state (= cold state) .

As described above, in order to cool or heat the adhering surface of the thermoelectric element 6, the evaporation plate 7 functions as a refrigerant in the inside of the evaporation plate 7, A fan 8 is provided, and the cooling fan 8 supplies external air to cool or evaporate the evaporation plate 7.

The control unit 9 controls the voltage of the thermoelectric element 6 and the rotation of the cooling fan 8. The control unit 9 measures the water temperature of the aquarium 100 And is electrically connected to a temperature control panel 92 that is electrically connected to a temperature sensing sensor 91 provided inside the aquarium 100 and configured to be adjusted to a desired set temperature, The cooling fan 8 is electrically connected to the fan 8 so as to heat the water passing through the communication hole 5 of the heat exchange block 4 by the thermoelectric element 6 when the water temperature is lower than the set temperature, And the external air of a relatively higher temperature than the evaporation plate 7 is supplied to the evaporation plate 7 to warm up the evaporation plate 7. When the temperature of the water is higher than the set temperature, 5, the cooling water is circulated through the cooling fan 8, So that external air having a temperature lower than that of the evaporation plate 7 is supplied to the evaporation plate 7 to cool the evaporation plate 7.

2, the temperature control panel 92 is installed on the upper side of the main body 11, for example. In the temperature control panel 92, the temperature of water in the aquarium 100 sensed by the temperature sensor 91 from the left side, On the right side of the display window, the temperature display is individually set up and down. To the right of the setting button and the setting button for increasing or decreasing the set temperature, an operation lamp corresponding to each of the heating lamps And a power button for controlling the entire power supply of the cold / warm apparatus 1 are installed.

The opposite side of the heat exchange block 4 is also heated or cooled by heating or cooling the heat exchange block 4 by the thermoelectric element 6 on the side opposite to the side where the thermoelectric element 6 is attached in the heat exchange block 4. [ And the heater pipe 61 or the cooling fan 62 may be attached so as to be cooled.

The aquarium 100 cooling apparatus 1 constructed as described above is transferred to the filter 200 by the circulation pump 300 through the discharge pipe 101 whose one end is connected to the aquarium 100, And then the water is transferred to the discharge port 3 through the communication hole 5 in the heat exchange block 4. [

If the water temperature sensed by the temperature sensor 91 installed inside the aquarium 100 when the water passes through the communication hole 5 is lower than the set temperature set by the setting button on the temperature control panel 92, The thermal exchange block 4 is heated by the element 6 to heat the water passing through the inner communication hole 5 of the heat exchange block 4. Conversely, if the temperature of the water is higher than the set temperature, Exchanger block 4 to cool the water passing through the inner communication hole 5 of the heat exchange block 4. [

As described above, the water temperature by the temperature sensor 91 inside the aquarium 100 is compared with the set temperature which adjusts the height in the temperature control panel 92. If the water temperature is lower, If the set temperature is lower, the polarity of the voltage supplied to the thermoelectric element 6 is changed so that the thermoelectric element 6 cools the water in the cold / hot apparatus 1.

The evaporator plate 7 and the cooling fan 8 are disposed at the outer side of the thermoelectric element 6 so as to rotate in the forward direction of the evaporator plate 7, An endothermic reaction occurs on the surface of the thermoelectric element 6 to the outer evaporation plate 7 to heat the evaporation plate 7 to supply the outside air to the cooling fan 8 to heat the thermoelectric element 6, An exothermic reaction occurs on the surface of the thermoelectric element 6 to the outer evaporation plate 7 to cool the evaporation plate 7 by the cooling fan 8. [

In the present invention, when the heat exchange block 4 is heated or cooled by the thermoelectric element 6 on the opposite side to which the thermoelectric element 6 is attached in the heat exchange block 4, the opposite side of the heat exchange block 4 is also heated The heat pipe 61 or the cooling fan 62 can be attached so as to cool the heat exchanger block 4 or the heat exchanger block 4 so that the heating and cooling efficiency of the water passing through the communication hole 5 in the heat exchanger block 4 can be further improved.

According to the configuration and operation of the present invention described above, the temperature of the water stored in the aquarium 100 can be maintained at a uniform temperature by automatically heating or cooling the water to a user's desired temperature. As a result, Or to maintain the survival environment of the displayed organism, thereby significantly increasing the survival time.

Even if the water of the aquarium 100 is used as seawater, the water is transferred to a separate storage tank and then heat exchanged. Then, the water that has been circulated by the circulation pump 300 to the filter 200 through the aquarium 100, (5) through which the inlet (2) and the outlet (3) communicating with the outlet and the return pipe (102) are connected to each other through the outlet (101) and the return pipe (102) 6, the heating and cooling of the discharge pipe 101, the return pipe 102 and the heat exchange block 4 are corroded to prolong the service life and the maintenance and repair costs are remarkably reduced. In addition, And the inner surface of the recovery pipe 102 and the inner surface of the communication hole 5 of the heat exchange block 4 are coated with a corrosion inhibitor, the lifetime can be further extended.

Although the present invention has been described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And shall be determined not only by the claims for utility model registration described below but also by equivalents thereof.

1: cold / hot device 11:
2: inlet 3: outlet
4: Heat exchange block 5:
6: thermoelectric element 61: heater pipe
62: cooling fan 7: evaporation plate
8: cooling fan 9:
91: Temperature sensing sensor 92: Temperature control panel
100: aquarium 101: discharge pipe
102: collection pipe 200: filter
300: circulation pump

Claims (2)

An inlet 2 connected to one end of a discharge pipe 101 having one end connected to the aquarium 100 and configured to receive the water discharged from the aquarium 100,
A discharge port 3 coupled to one end of the other end of the return pipe 102 having one end connected to the aquarium 100 and adapted to discharge the water introduced into the inlet 2 to the aquarium 100,
A communication hole 5 is formed in a "U" shape or a zigzag shape in which the inlet 2 and the discharge port 3 are in contact with each other so as to communicate with each other. In order to prevent corrosion by the seawater of the communication hole 5, A heat exchange block 4 coated with an anti-
A thermoelectric element 6 attached to one surface of the heat exchange block 4 to heat or cool the heat exchange block 4 so as to heat or cool the water passing through the communication hole 5,
An evaporation plate 7 attached to one surface of the thermoelectric element 6 to cool the mounting surface of the thermoelectric element 6 when the thermoelectric element 6 is in an exothermic state and to cool the thermoelectric element 6 when the mounting surface is in an endothermic state,
A cooling fan (8) installed on one surface of the evaporation plate (7) so as to be rotated in a forward direction so as to heat or cool the evaporation plate (7)
A temperature control panel 92 electrically connected to the temperature sensor 91 provided inside the aquarium 100 for measuring the water temperature of the aquarium 100 and configured to adjust the temperature to a desired temperature, And is connected electrically to the thermoelectric element 6 and the cooling fan 8 so as to compare the water temperature and the set temperature so that the water passing through the communication hole 5 of the heat exchange block 4 by the thermoelectric element 6 (9) configured to heat or cool the heat exchanger
The heat exchanger block 4 is provided with a heater pipe 6 which is attached to the opposite side of the heat exchanger block 6 to heat or cool the heat exchanger block 4 when the heat exchanger block 4 is heated or cooled. 61) or a cooling fan (62).
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