KR20190028147A - Fish tank for live fish car - Google Patents

Abstract

According to the present invention, a fish tank for a live-fish car includes: a fish tank installed in a live-fish car; and a water temperature control device installed in the upper part of the water tank. The water temperature control device includes: a heat exchange chamber installed in the upper part of the tank; a supply pipe installed on a side of the heat exchange chamber to transfer the water in the tank into the heat exchange chamber; a discharge pipe installed on the other side of the heat exchange chamber to discharge the water in the heat exchange chamber to the tank; cooling and heating coils installed inside the heat exchange chamber; a cold water circulation line connecting the cooling coil with an air conditioner of the live-fish car to supply a refrigerant for the air conditioner to the cooling coil; and a hot water circulation line connecting the heating coil with a heater of the live-fish car to supply engine coolant for the heater to the heating coil. According to the present invention, the temperature of the fish tank is regulated by using chilled air, which is generated from the air conditioner of the live-fish car through the cold water circulation line and the cooling coil of the water temperature control device, and heat, which is generated from the engine of the live-fish car through the hot water circulation line and the heating coil of the water temperature control device, and thus, the present invention is capable of enabling live fish to live until being sold to consumers as well as reducing fuel consumption of the live-fish car for water temperature regulation.

Description

Fish tank for live fish car

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water tank for a live fish tank, and more particularly to a water tank for a live fish tank provided with a water temperature adjusting device for allowing a live fish stored in a live fish tank to survive freshly.

Live fish is a vehicle that transports live fish in acid form. The fish tank is basically equipped with a water tank for storing live fish with seawater, and an oxygen supply device and a water temperature control device for keeping the environment of the water tank suitable for survival of live fish can be additionally provided.

Of these, the water temperature control system keeps the temperature of the water tank constant, thereby preventing live fish from being killed due to rapid water temperature changes during the winter or summer.

On the other hand, most conventionally known live water temperature control devices are configured to operate by receiving power from a generator of a live fish.

Japanese Patent Application Laid-Open No. 10-0434197, a water temperature holding device of a live fish tank Japanese Patent Application Laid-Open No. 10-2013-0048997, Korean Patent Registration No. 10-1009061, High density live vehicle and its transportation system Registration Utility Model No. 20-0289646, an air pump for a live fish vehicle having a water temperature sensing function

The present invention provides a living fish tank for a living fish which is able to control the temperature of the water tank by using heat generated from the engine of the vehicle and cool air generated from the air conditioner of the vehicle, .

The problems to be solved by the present invention are not limited to the above-mentioned problems. Other technical subjects not mentioned will be apparent to those skilled in the art from the following description.

The water tank for a live fish vehicle according to the present invention includes a water tank provided in a vehicle and a water temperature adjusting device provided on the water tank, wherein the water temperature adjusting device includes: a heat exchange chamber provided above the water tank; A discharge pipe installed on the other side of the heat exchange chamber for discharging the water supplied into the heat exchange chamber to the water tank and a cooling coil provided inside the heat exchange chamber, And a cooling water circulating line for connecting the cooling coil and the cooling device of the vehicle to supply the cooling medium of the vehicle cooling device to the cooling coil by connecting the cooling coil and the heating coil of the vehicle, And a hot water circulation line for supplying engine cooling water.

The water tank is composed of a left side water tank and a right side water tank arranged right and left with a water tank partition wall therebetween, the supply pipe is connected to the left water tank, the discharge pipe is connected to the right water tank, And a flow port connecting the inner side of the left side water tank and the inside side of the right side water tank is formed on the upper side.

The heat exchange chamber is composed of a left chamber and a right chamber arranged laterally with a chamber partition wall therebetween. The supply pipe, the cooling coil, and the heating coil are installed in the left chamber, and the discharge pipe is connected to the right chamber Wherein a flow pipe is formed at an upper portion of the chamber partition wall so as to connect the inside of the left chamber and the inside of the right chamber and protruded to the inside of the right chamber, As shown in FIG.

The filtration unit includes a support plate for vertically partitioning the inner space of the right chamber, a drainage passage formed in the support plate for connecting the upper space of the support plate and the discharge pipe, And a filter medium for filtering the foreign matter from the water.

The cold water circulation line may include a refrigerant withdrawing pipe connecting one end of the cooling coil and the refrigerant line between the expansion valve and the evaporator in the cooling apparatus of the vehicle and the other end of the cooling coil and the evaporator And a refrigerant inlet pipe connecting the refrigerant lines between the compressors.

The hot water circulation line includes a cooling water withdrawing pipe for connecting a heater hose between the hot water valve and the heater core at one end of the heating coil and the heating device of the vehicle and a cooling water outlet pipe at the other end of the heating coil, And a coolant inlet pipe connecting the heater hose between the heater core and the water pump.

A temperature sensor for detecting the temperature of the water tank; a controller for outputting a temperature-rising signal and a cold-temperature signal based on a temperature difference detected in advance from the temperature detected by the temperature sensor; A cold temperature valve that is opened or closed in accordance with a cold signal of the controller, and a display that displays a temperature of the temperature sensor.

According to the present invention, the cooling water generated by the air conditioner of the vehicle, that is, the air conditioner of the vehicle, is used by the cooling coil and the cold water circulation line of the water temperature control device, and by the heating coil of the water temperature control device and the hot water circulation line, The temperature of the water tank can be adjusted by using the heat generated from the engine of the water tank, so that the live fish stored in the live fish tank can survive freshly to the consumer.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view showing a state in which a live fish tank is installed in a vehicle according to an embodiment of the present invention; Fig.
2 is a perspective view of a water temperature control apparatus according to an embodiment of the present invention;
3 is a perspective view illustrating an internal structure of a heat exchange chamber in a water temperature control apparatus according to an embodiment of the present invention.
4 is a cross-sectional view of a heat exchange chamber;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For convenience of explanation, elements shown in the drawings may be exaggerated, omitted, or schematically represented.

FIG. 1 shows a water tank 100 for a live fish tank installed in a vehicle according to the present invention, and FIG. 2 shows a water temperature control apparatus 200 according to the present invention.

The living fish tank 100 according to the present invention is installed in a vehicle. The live fish tank 100 is composed of a pair of water tanks 110 and 120 and a water temperature control unit 200 on the upper side of the pair of water tanks 110 and 120 .

In the left water tank 110 and the right water tank 120, live fish are contained together with seawater. The left water tank 110 and the right water tank 120 are installed with a water tank partition 130 interposed therebetween. A trough 140 connecting the inner side of the left side water tank 110 and the inner side of the right side water tank 120 is formed in the upper part of the water tank partition wall 130 so that seawater can move from one side tank to the other side.

The water temperature regulating apparatus 200 according to the present invention includes a heat exchange chamber 210 disposed on the upper side of the water tank 100 and water disposed in the heat exchange chamber 210 on one side of the heat exchange chamber 210, A discharge pipe 230 installed at the other side of the heat exchange chamber 210 for discharging the water supplied into the heat exchange chamber 210 to the water tank 100, A cooling coil 240 and a heating coil 250 installed inside the cooling coil 240 and a cooling device 10 of the vehicle to connect the cooling coil 240 to the cooling coil 240, A hot water circulation line 260 for supplying the engine cooling water of the vehicle heating device 20 to the heating coil 250 by connecting the heating coil 250 to the heating device 20 of the vehicle, A temperature sensor 280 for detecting the temperature of the water tank 100, a temperature sensor 280 for detecting a temperature detected by the temperature sensor 280, A temperature rise valve (2A0) opened and closed in accordance with a temperature rise signal of the controller (290), and a cold temperature valve (290) opened and closed in accordance with a cold temperature signal of the controller (290) And a display (not shown) for displaying the temperature of the temperature sensor 280. The temperature sensor 280 may be a temperature sensor.

The heat exchange chamber 210 provides a place where water in the water tank 100 is heat exchanged. The water in the water tank 100 is supplied to the heat exchange chamber 210 through the supply pipe 220 and then discharged to the water tank 100 through the discharge pipe 230. Therefore, the supply pipe 220 may be provided with a pump.

3 and 4 show the internal structure of the heat exchange chamber 210. As shown in FIG.

As shown in FIG. 3, the heat exchange chamber 210 includes a left chamber 211 and a right chamber 212 disposed laterally with a chamber partition 213 therebetween. At this time, the supply pipe 220, the cooling coil 240, and the heating coil 250 are installed in the left chamber 211 and the discharge pipe 230 is installed in the lower part of the right chamber 212. The cooling coil 240 and the heating coil 250 are each formed by a tube wound in a coil shape and installed inside the left chamber 211.

A flow pipe 214 connecting the inside of the left chamber 211 and the inside of the right chamber 212 is formed at an upper portion of the chamber partition wall 213. The flow pipe 214 is formed to protrude inward of the right chamber 212. The water discharged from the left chamber 211 to the right chamber 212 through the flow pipe 214 is poured to the center of the right chamber 212.

The right chamber 212 is provided with a filtration unit 215. 4, the filtration unit 215 includes a support plate 215a for vertically dividing the inner space of the right chamber 212 and a support plate 215b for connecting the upper space of the support plate 215a and the discharge pipe 230, And a filter member 215c disposed on the support plate 215a and configured to filter foreign substances from the water discharged from the flow pipe 214. [ At this time, the support plate 215a is formed to be inclined so that the height of the portion where the drainage passage 215b is formed is gradually lowered. As a result, the filtration unit 215 filters the foreign matter from the water discharged from the flow pipe 214 and flows to the discharge pipe 230 side.

2, the supply pipe 220, the discharge pipe 230, the cold water circulation line 260, and the hot water circulation line 270 of the water temperature control device 200 will be described.

One end of the supply pipe 220 is disposed close to the bottom of the left water tank 110 and the other end is disposed close to the bottom of the left chamber 211 through the upper portion of the side wall of the left chamber 211. The water supplied from the water tub 100 to the heat exchange chamber 210 through the supply pipe 220 is filled from the bottom of the left chamber 211 and then flows to the right chamber 212 through the flow pipe 214 .

The discharge pipe 230 is disposed such that one end thereof is disposed close to the bottom of the right water tank 110 and the other end thereof is connected to the lower side wall of the right chamber 212. The water discharged from the heat exchange chamber 210 to the water tub 100 flows from the bottom of the right water tub 120 to the left water tub 110 through the flow channel 140.

The cold water circulation line 260 is for supplying the refrigerant used in the cooling apparatus 10 of the vehicle to the cooling coil 240. Hereinafter, before describing the cold water circulation line 260, the cooling apparatus 10 of the vehicle will be briefly described with reference to Fig.

A cooling apparatus 10 of a vehicle includes a compressor 11, a condenser 12, an expansion valve 13, and an evaporator 14. The refrigerant sequentially circulates through them to cool ambient air. The compressor (11) converts the low-temperature and low-pressure gas refrigerant into the high-temperature high-pressure gas using the rotational force of the automobile engine and sends it to the condenser (12). The condenser 12 is installed in front of the radiator and changes the high-temperature and high-pressure gas state to a high-temperature and high-pressure liquid state refrigerant by the cooling fan. The refrigerant exiting the condenser 12 passes through an expansion valve 13. The refrigerant expands as a valve that is opened or closed in accordance with the gas pressure and is changed to a low temperature and a high pressure to be sent to the evaporator 14. Ambient air can be cooled by an evaporator (14). The refrigerant discharged from the evaporator 14 is in a low-temperature and low-pressure gas state and is sent to the compressor 11 again. The change in the state of the refrigerant continues to lower the temperature of the surrounding air.

In the present invention, a drawing pipe is connected from the refrigerant line between the condenser 12 and the expansion valve 13 for drawing out the refrigerant, and a drawing pipe is connected to the refrigerant line between the compressor 11 and the evaporator 14 Respectively.

That is, in the present invention, the cold water circulation line 260 is connected to one end of the cooling coil 240 and a refrigerant outlet pipe connecting the refrigerant line between the expansion valve 130 and the evaporator 14 in the air- And a refrigerant inlet pipe 262 connecting the other end of the cooling coil 240 and the refrigerant line between the evaporator 14 and the compressor 11 in the cooling apparatus 10 of the vehicle, And the refrigerant of the vehicle cooling apparatus 10 is supplied to the coil 240.

The hot water circulation line 270 is for supplying the engine cooling water used in the heating apparatus 20 of the vehicle to the heating coil 250. Hereinafter, before describing the hot water circulation line 270, the heating apparatus 20 of the vehicle will be briefly described with reference to Fig.

The heating device 20 of the vehicle has a structure for raising the air temperature inside the vehicle by using the heated cooling water as the engine is cooled. The heating device 20 includes a hot water valve 21 connected to the engine 30, a heater core 22, and a water pump 23. As a result, the cooling water from the engine 30 is supplied to the heater core 22 through the hot water valve 21, exchanges heat with the indoor air, and then returns to the engine 30 via the water pump 23.

In the present invention, a drawing pipe is connected from a heater horse between the hot water valve 21 and the heat core 22 to draw cooling water, and the heater core 22 and the water pump 23 ) Connected to the heater hose.

That is, in the present invention, the hot water circulation line 270 is connected to one end of the heating coil 250 and the heater hose between the hot water valve 21 and the heater core 22 in the heating apparatus 20 of the vehicle. A cooling water inlet pipe 272 for connecting the heater hose between the heater core 22 and the water pump 23 in the heating device 20 of the vehicle and the other end of the heating coil 250 And supplies the engine cooling water of the vehicle heating device 20 to the heating coil 250. [

The temperature sensor 280 detects the temperature of the water tub 100. [ 2, the temperature sensor is installed in the left water tank 110, but the temperature sensor may be installed in the left water tank 110, the right water tank 120, or both of them.

The warming-up valve 2A0 is installed in the hot water circulation line 270 and the cold-temperature valve 2B0 is installed in the cold water circulation line 260. [

The controller 290 of the temperature controller generates a temperature-rising signal and a cold-temperature signal based on the temperature detected by the temperature sensor 280 and a preset temperature difference, and outputs the signal to the temperature-rising valve and the cold-temperature valve. The controller sets a preset reference temperature, an upper limit temperature higher than the reference temperature, and a lower limit temperature lower than the reference temperature. When the temperature is set to one reference temperature, the temperature rise signal and the cold temperature signal can be output due to frequent temperature changes in the vicinity of the reference temperature.

According to the present invention, when the temperature detected by the temperature sensor is a temperature value higher than the upper limit temperature, the cold temperature signal is outputted and the cold temperature valve is opened until reaching the lower limit temperature. When the temperature detected by the temperature sensor is lower than the lower limit temperature, the temperature increase signal is output and the temperature increase valve is opened until reaching the lower limit temperature.

Accordingly, the temperature of the water tank is set within the range of the lower limit temperature to the upper limit temperature. Then, when the temperature of the water tank is maintained within the temperature range and the upper limit temperature is reached, a cold signal is outputted to open the cold valve until reaching the lower limit temperature. Further, when the temperature of the water tank is maintained within the above-mentioned temperature range, when the temperature reaches the lower limit temperature, the temperature rising signal is outputted and the temperature rising valve is opened until reaching the upper limit temperature.

In an embodiment, the temperature sensors may be installed in the left and right tanks, respectively. At this time, if the temperature detected in the left tank and the temperature difference detected in the right tank deviate from the preset temperature range, circulation of seawater can be forced for temperature balance of the left tank and the right tank. At this time, if the temperature is within the lower limit temperature and the right limit temperature range, only the pump installed in the supply pipe can be driven without circulating the temperature rise signal and cold temperature signal to circulate the seawater in the left and right tanks.

The controller according to the present invention drives the temperature-raising valve and the cold-warming valve to adjust the temperature of seawater contained in the water tank. In addition, the controller can be driven to balance the temperature of the seawater in the left and right tanks.

Meanwhile, temperature control of the water tank according to the present invention can be performed manually. When manually adjusting the temperature of the water tank, a speaker or bell may be installed that provides an audible signal when the temperature is outside the temperature range indicated on the display.

The display is installed in a dashboard of the vehicle, preferably a center fascia, together with a switch for operating the warming valve and the cold valve.

As a result, the driver of a live fisherman can confirm the temperature of the water tank through the display during operation, and the temperature of the water tank can be adjusted by operating a switch provided in the interior of the vehicle together with the display.

The water tank for a living fisher according to the present invention having the above-described structure can be constructed by a cooling coil 240 of the water temperature control device 200 and a cold water circulation line 260, The temperature of the water tub 100 can be adjusted by using the cold air and the heat generated by the engine 30 of the vehicle by the heating coil 250 and the hot water circulation line 270 of the water temperature control device 200 , The live fish stored in the live fish car can survive freshly to the consumer, and the fuel consumption of the vehicle for water temperature control can be reduced.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the invention is not limited thereto. Various modifications and changes thereto may be made by those skilled in the art. The present invention is not limited thereto.

100: Water tank 110: Left tank
120: right side water tank 130: water tank bulkhead
140: flow port 200: water temperature control device
210: heat exchange chamber 211: left chamber
212: Right chamber 213: Chamber bulkhead
214: flow pipe 215:
220: supply pipe 230: exhaust pipe
240: cooling coil 250: heating coil
260: cold water circulation line 261: refrigerant withdrawing pipe
262: Refrigerant inlet pipe 270: Hot water circulation line
271: Cooling water drawing pipe 272: Cooling water drawing pipe
280: temperature sensor 290: controller
2A0: temperature rise valve 2B0: cold temperature valve

Claims (5)

A water tank 100 installed in a vehicle; And
And a water temperature control device (200) installed above the water tub (100)
The water temperature regulating device 200
A heat exchange chamber 210 provided above the water tank 100;
A supply pipe 220 installed at one side of the heat exchange chamber 210 for transferring the water contained in the water tank 100 into the heat exchange chamber 210;
A discharge pipe 230 installed at the other side of the heat exchange chamber 210 and discharging the water supplied into the heat exchange chamber 210 to the water tank 100;
A cooling coil 240 and a heating coil 250 installed inside the heat exchange chamber 210;
A cold water circulation line 260 connecting the cooling coil 240 and the cooling apparatus 10 of the vehicle to supply the refrigerant of the vehicle cooling apparatus 10 to the cooling coil 240;
A hot water circulation line 270 connecting the heating coil 250 and the heating device 20 of the vehicle to supply the engine cooling water of the vehicle heating device 20 to the heating coil 250;
A temperature sensor 280 for detecting the temperature of the water tank 100;
A controller (290) for outputting a temperature-rising signal and a cold-temperature signal on the basis of the temperature detected by the temperature sensor (280) and a preset temperature difference;
A temperature rise valve (2A0) opened and closed in accordance with a temperature rise signal of the controller (290);
A cold valve (2B0) opened and closed in accordance with a cold signal of the controller (290); And
And a display for indicating the temperature of the temperature sensor (280).
The method according to claim 1,
The water tank 100 includes a left water tank 110 and a right water tank 120 which are disposed laterally with a water tank partition 130 interposed therebetween,
The supply pipe 220 is connected to the left water tank 110,
The discharge pipe 230 is connected to the right water tank 120,
And a flow hole (140) connecting the inside of the left water tank (110) and the inside of the right water tank (120) is formed in the upper part of the water tank partition wall (130).
The method according to claim 1,
The heat exchange chamber 210 includes a left chamber 211 and a right chamber 212 disposed laterally with a chamber partition 213 interposed therebetween,
The supply pipe 220, the cooling coil 240, and the heating coil 250 are installed in the left chamber 211,
The discharge pipe 230 is installed at a lower portion of the right chamber 212,
A flow pipe 214 connected to the inside of the left chamber 211 and the inside of the right chamber 212 and protruding to the inside of the right chamber 212 is formed on the chamber partition wall 213,
Wherein the right chamber (212) is provided with a filtration unit (215) for filtering out foreign matter from water discharged from the flow pipe (214).
The method of claim 3,
The filtration unit 215 includes a support plate 215a for vertically partitioning the inner space of the right chamber 212 and a support plate 215a for connecting the upper space of the support plate 215a and the discharge pipe 230. [ And a filter member 215c disposed above the support plate 215a to filter out foreign matter from the water discharged from the flow pipe 214. The water tank 215c may be a water tank,
The method according to claim 1,
The cold water circulation line (260)
A refrigerant outlet pipe 261 connecting one end of the cooling coil 240 and the refrigerant line between the expansion valve 13 and the evaporator 14 in the cooling apparatus 10 of the vehicle; And
And a refrigerant inlet pipe 262 connecting the other end of the cooling coil 240 and the refrigerant line between the evaporator 14 and the compressor 11 in the cooling apparatus 10 of the vehicle,
The hot water circulation line (270)
A cooling water withdrawing pipe 271 connecting one end of the heating coil 250 and the heater hose between the hot water valve 21 and the heater core 22 in the heating apparatus 20 of the vehicle; And
And a cooling water inlet pipe 272 connecting the other end of the heating coil 250 and the heater hose between the heater core 22 and the water pump 23 in the heating apparatus 20 of the vehicle Fish tank
A water tank for a live fish tank.

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