KR100283122B1 - Water jammer for ice heat storage refrigeration system - Google Patents

Abstract

The present invention relates to a water disturbance device for an ice storage refrigeration system that can increase the heat exchange rate by periodically disturbing the water in the heat storage tank by using the vibration of the horseshoe hoe operated by the air cylinder, and the water disturbance device is a solenoid valve (36). In order to allow the compressed air in the air compressor to flow in the pipe 32 and the piston 42 pressurized by the return means by the air introduced through the pipe 32 to slide along the inner wall. It is comprised by the installed air cylinder 40 and the vibrator 50 which is operatively couple | bonded with the rod 48 of the piston 42, and disturbs the water in the heat storage tank 30, vibrating when the piston 42 moves. .

Description

Water jammer for ice heat storage refrigeration system

The present invention relates to a water disturbance device for an ice heat storage refrigeration system, and more particularly, for an ice heat storage refrigeration system that can increase the heat exchange rate by periodically disturbing the water in the heat storage tank by using the vibration of the horseshoe hoe. It relates to a water disturbance device.

In general, air conditioners are designed to maintain optimum temperature and humidity according to all climatic conditions and indoor environments. This includes an air conditioner to keep the indoor air cool in a hot summer, and to keep the indoor air warm in a cold winter. There is a heating device to

Cooling systems include air-conditioners and refrigeration systems that use water as a refrigerant. The air conditioner cools the room by supplying cold air generated during the evaporation of the liquid refrigerant into the gaseous refrigerant, while the refrigeration system cools the water introduced through the heat exchange generated when the liquid refrigerant evaporates. Make. The cooled cold water cools the air and distinguishes it from the air conditioner in that the cooled air is supplied to the room and cooled.

Among refrigeration systems, there is an ice storage refrigeration system that cools using the heat of fusion of ice. The ice storage refrigeration system uses the refrigeration system at night to freeze the ice and then uses the heat of fusion of ice to cool the indoor space during the day when power consumption is high. At this time, a heat storage tank is used to freeze and store the ice. In the heat storage tank, the sub-zero brine containing the antifreeze delivered from the freezer heat exchanges with the water in the heat storage tank to generate ice, and the disturbance of the structure as shown in FIGS. 1A and 1B as a method for increasing thermal efficiency at the time of freezing. Use the device to disturb the water.

First, the heat storage tank of the type as shown in Figure 1a is a method of disturbing the water by spraying air, in the overall configuration, the water is stored inside, the process of inflowing and circulating sub-zero function delivered from the freezer In the heat storage tank 10 is built-in coil 20 to cool the water in the inside, and the pipe 12 for blowing air through a plurality of air outlets 18 arranged in the lower portion of the coil 20 and , And consists of a solenoid valve 16 to regulate the flow of air passing through the pipe 12, the cover 11 is covered with an upper portion of the heat storage tank (10).

When the solenoid valve 16 is opened, the compressed air in the air compressor (not shown) is supplied to the pipe 12 and then disturbed the water while being discharged through the air outlet 18. Accordingly, the function introduced along the arrow P is heat-exchanged with the water in the heat storage tank 10 in the course of circulating the coil 20 and cooled, and then returned to the freezer along the arrow P '.

Next, in the heat storage tank as shown in FIG. 1B, water is disturbed by using a motor. In the heat storage tank 10 ′, as described with reference to FIG. 1A, a coil 20 ′ is built in the heat storage tank 10 ′. At the bottom of '), a stirring fan 14' driven by the motor 12 'is provided. Therefore, when the external electricity is supplied to the motor 12 ', the motor 12' is operated to rotate the fan 14 'to disturb the water in the heat storage tank 10'.

In the conventional ice heat storage refrigeration system having such a configuration, in the case of the disturbance device using the air of FIG. 1A, since the atmospheric temperature is about 30 ° C. even at night during hot summer, the temperature of the air generated by the air compressor is also very high. do. Since the high temperature air is sprayed into the heat storage tank as it is, it takes a long time to freeze the ice and there is a problem that the thermal efficiency is lowered. In addition, since the disturbance device shown in Figure 1b uses a separate motor for driving a fan, the electrical energy consumption is high, and when using a submersible motor requires a separate installation space, the size of the entire heat storage tank is Resulting in increased results.

In order to solve the above problems, the present invention instead of a method of directly disturbing water by supplying compressed air in the air compressor inside the heat storage tank, by vibrating the vibrator using compressed air supplied from the air compressor, the heat storage tank It is an object of the present invention to provide a water disturbance device for an ice storage heat storage refrigeration system capable of improving thermal efficiency by disturbing water therein.

Figure 1a, 1b is a schematic view showing a heat storage tank of a conventional ice heat storage refrigeration system,

Figure 2 is a schematic view showing a heat storage tank of the ice heat storage refrigeration system according to the present invention.

♣ Explanation of symbols for main part of drawing ♣

20: heat exchange coil 30: heat storage tank

32: air pipe 36: solenoid valve

40: air cylinder 42: piston

46: Spring 48: Piston Road

50, 52: Vibrator 60: Timer

An object of the present invention described above is to cool by using a heat of fusion of ice made by heat exchange between water and water introduced from a freezer, and in a heat storage refrigeration system having a coil in which water is circulated inside a heat storage tank in which water is stored. The air cylinder is installed so that the compressed air flows in the air compressor according to the opening of the solenoid valve, the air cylinder installed so that the piston pressurized by the return means by the air introduced through the pipe can slide along the inner wall. It is achieved by a water disturbance device for an ice storage refrigerating system, characterized in that it is operatively coupled to the rod of the oscillator and vibrates to disturb water in the heat storage tank while vibrating upon movement of the piston.

Hereinafter, with reference to the accompanying Figure 2 will be described in detail with respect to the water disturbance device for ice heat storage refrigeration system according to a preferred embodiment of the present invention.

Figure 2 is a schematic view showing a heat storage tank of the ice heat storage refrigeration system according to the present invention. As shown here, in the preferred embodiment of the present invention, instead of the conventional direct disturbance method by compressed air, an indirect disturbance method by the vibrator 50 vibrated by the air cylinder is adopted. In general, the heat storage tank 30 is provided with a coil 20 through which water is introduced in the direction of an arrow P, and the introduced water is exchanged with water in the heat storage tank 30 in the process of circulating the coil 20. This will cool it. After heat exchange, the function is sent to the freezer along arrow direction P '.

In the heat storage tank having such a configuration, in the schematic configuration of the water disturbance device according to the present invention, the pipe 32 into which the compressed air is introduced in accordance with the operation of the solenoid valve 36, and the pipe 32 introduced through the pipe 32, is introduced. An oscillator operatively coupled to the piston 42 via the air cylinder 40 and the rod 48 through which the internal piston 42 slides by air, and disturbs water in the heat storage tank 30. It consists of 50.

Here, the timer 60 is installed for periodic opening and closing of the solenoid valve 36 installed on the pipe 32, and the compressed air introduced from the air compressor (not shown) through the pipe 32 is an air cylinder ( It is introduced into 40 to pressurize the piston 42. An impact portion 48a is formed at the end of the rod 48 connected to the piston 42 to strike the vibrator 50. The outer circumferential surface of the piston 42 is fitted with a seal 44 for preventing the leakage of air.

In addition, a return means for returning the piston 42 to its original position is provided in the air cylinder 40. In the present invention, a horseshoe-shaped vibrator 50 is employed as the return means. The vibrators 50 were arranged so as to face each other in pairs for resonance vibration. Although only two are shown in FIG. 2, two to four or more vibrators may be arranged to face each other in pairs depending on the capacitance.

Next, the process of disturbing the water by using the disturbing device having such a configuration will be described.

When the solenoid valve 36 is energized and opened by the operation of the timer 60, the compressed air in the air compressor flows into the air cylinder 40 through the pipe 32. As shown in an enlarged view in FIG. 2, the air introduced into the air cylinder 40 through the pipe 32 moves as shown by the solid line while sliding and sliding the force of the coil spring 46. In the process, the vibrator 50 is hit by the striking portion 48a attached to the end of the rod 48. As a result, the oscillator 50 vibrates and oscillates the vibrators 52 which are arranged in opposite directions to disturb the water.

As the water is disturbed by the vibrator 50, heat exchange is actively developed through the contact between the outer surface of the coil 20 and the water, so that the water can be cooled at a high speed.

According to the present invention described above, by vibrating the vibrator using the compressed air supplied from the air compressor, the water in the heat storage tank is disturbed. Accordingly, the heat transfer rate is improved compared to the conventional method of directly disturbing water by supplying hot air, thereby reducing the time to freeze ice.

Claims (5)

In the ice heat storage refrigeration system in which the coil 20 through which water is circulated is built in the heat storage tank 30 in which water is stored by cooling using fusion heat of ice made by heat exchange between water and water introduced from the refrigerator. , A pipe 32 into which the compressed air is introduced from the air compressor according to the opening of the solenoid valve 36; An air cylinder 40 installed so that the piston 42 pressed by the return means by the air introduced through the pipe 32 can slide along the inner wall; Ice storage heat storage refrigeration system, characterized in that it is operatively coupled to the rod 48 of the piston 42, the oscillator 50 to disturb the water in the heat storage tank 30 while vibrating when the piston 42 moves. Water disturbance device. The method of claim 1, The vibrator (50) is a water disturbance device for ice heat storage refrigeration system, characterized in that a plurality arranged in pairs facing each other in the heat storage tank (30). The method of claim 1, The solenoid valve (36) is opened and closed in accordance with the operation of the timer 60 to interrupt the flow of compressed air, characterized in that the ice storage heat refrigeration system water disturbance device. The method of claim 1, The return stage for pressurizing the piston 42 is a water disturbance device for ice heat storage refrigeration system, characterized in that the coil spring (46). The method of claim 4, wherein Water perturbation device for ice heat storage refrigeration system, characterized in that the seal 44 is fitted to the outer peripheral portion of the piston 42 to prevent the leakage of compressed air.