KR200236516Y1 - In One Freezer Storage Tank With Cooling Machine - Google Patents

Abstract

The present invention relates to a small capacity ice storage cooling system suitable for general homes and small business buildings in the ice storage cooling system using the midnight power. In particular, the outdoor unit which is the ice storage tank and the freezer is integrated to pursue installation convenience and The present invention relates to a method for reducing city park prices, and includes a compressor, a condenser, a receiver, an expansion valve, etc. constituting an outdoor unit in a control box attached to one side of an ice tank, and the controller of the outdoor unit and the controller of the ice tank are one controller. It is designed to reduce the manufacturing cost, provide convenience of installation construction, and reduce the construction cost at the same time, and block the provision of the cause of defects due to construction errors in advance.

Description

Ice storage tank integrated with outdoor unit {In One Freezer Storage Tank With Cooling Machine}

The present invention relates to a small capacity ice storage cooling system suitable for general homes and small business buildings in the ice storage cooling system using midnight power. In particular, the outdoor unit, which is a freezer, is integrated in the ice storage tank to pursue the convenience of installation and to manufacture It is about the method to reduce the cost.

Conventionally, since the outdoor unit, which is a refrigerator, and the ice storage tank are separately manufactured and installed at the installation site, the refrigerant pipe and the electric wire are connected to each other, thereby causing inconvenience to the piping technician, the refrigeration technician, and the electrician to travel to the installation site. In the manufacturing process, the control unit of the ice storage tank and the control unit of the outdoor unit were similar to each other, but there was an inherent point in the irrationality of separately manufacturing the device.

The technical purpose of the present invention is to present an effect obtained by integrating the outdoor unit and the ice storage tank by installing an outdoor unit in a control box attached to one side of the ice storage tank in an ice storage heat-cooling system using a midnight electric power.

Figure 1 is an exemplary system diagram of a conventional ice heat storage cooling system

FIG. 2 is an example control sequence diagram of FIG.

Figure 3 is one embodiment of a schematic diagram of ice storage tank integrated with the outdoor unit of the present invention

<Explanation of symbols for the main parts of the drawings>

DESCRIPTION OF SYMBOLS 1 Condenser 2 Fan for condenser 3 Compressor

4: receiver 5: refrigerant liquid pipe service valve 6: refrigerant gas pipe service valve

7: refrigerant liquid pipe 8: refrigerant gas pipe 21: ice storage tank control box

22: expansion valve 23: cold water circulation pump 24: cold water outlet valve

25 icing tube 26 cold water inlet valve 27 cold water inlet pipe

28: cold water outlet pipe 41: midnight power supply 51: general power supply

100: outdoor unit 200: ice tank 210: ice tank control box

300: indoor unit 400: outdoor unit control unit 500: ice storage control unit

600: indoor unit control unit

Hereinafter, the technical configuration of the present invention in detail.

First, referring to FIG. 1, the conventional ice storage cooling system is briefly described. The outdoor unit 100 includes a compressor 3, a condenser 1, a receiver 4, a condenser fan 2, and a liquid refrigerant service valve 5. It consists of a gas refrigerant service valve (6), and the ice tube 200 is immersed in the water inside the ice tank 200, and the expansion tank 22 and the cold water pump 23 in the control tank 21 of the ice tank. And a cold water outlet valve 24 is installed between the outdoor unit 100 and the ice storage tank 200 to the refrigerant liquid pipe 7 and the refrigerant gas pipe 8.

The control device of such an ice storage system has the same or similar shape as shown in FIG. 2.

The midnight power 41 is supplied to the controller 400 of the outdoor unit from the outside, and the midnight power is supplied to the compressor COMP and the fan through the breaker switch NFB1 and the magnetic contactor MC1, and overload current is applied to each load line. Relays OCR1 and OCR2 are respectively provided.

The power for control is composed of general power 51 rather than late-night power. When the power is first supplied to the control unit 500 of the ice storage tank, the control power is supplied to each control unit of the ice storage tank and the outdoor unit via the breaker switch NFB2.

One end of the operation switch SW belonging to the ice storage control unit 500 is connected to the contact point of the ice making limit relay FX, the other end of the contact point is connected to the power supply, and the other end of the operation switch SW is crossed to the outdoor unit to relay ( X1) is connected in series through the 'b' contact of the coil and fan overcurrent relay (OCR2), compressor overcurrent relay (OCR1), refrigerant low pressure limit switch (LPL), and refrigerant high pressure limit switch (HPL). The magnetic contactor coil MC1 is configured to allow a current to flow by the contact of the contact X1-1 of the relay X1 and to transmit an abnormality of the system by the contact of the relay X1-2. L1) is configured to turn on.

Ice storage control unit 500 The magnetic contactor (MC2) is a sequence configured to allow a current to flow in the coil when the 'cooling' signal is received from the control unit 600 of the indoor unit and to operate the pump pump by the contact point outdoor unit It can be seen that four wires are wired between the controller 400 and the ice storage controller 500.

As described above, in the conventional ice storage system, the outdoor unit 100 and the ice storage tank 200 are separately configured to connect the respective refrigerant pipes 7 and 8 and the control units 400 and 500 for circulation of the refrigerant. Refrigerant piping and electrical wiring are required, which cannot be completed in the manufacturing process, and it is inevitable to perform customized work at the installation site. As mentioned above, there is an increase in the construction cost due to the inconvenience of each technician to be dispatched. In addition, there is an inherent end to which manufacturing costs rise as each product is manufactured before that.

The present invention is constructed as shown in Figure 3 by removing the waste and cut off the factors of manufacturing cost and city park price rise,

In the control box 210 attached to one side of the ice tank 200, the compressor 3, the condenser 1, the condenser fan 2, the receiver 4, and the expansion valve 22 constituting the refrigeration cycle are included. The liquid refrigerant service valve 5 and the gas refrigerant service valve 6 are connected to the icing tube 25 in the ice tank.

A cold water outlet valve 24 and a cold water pump 25 are installed in the lower portion of the control box 210 to connect the indoor unit 300 through the cold water outlet pipe 28.

In the control box, the outdoor unit control unit 400 and the ice storage control unit 500 shown in FIG. 2 are configured in one control unit to connect each detection and each control element.

Although not shown as another method of such a configuration, the outdoor unit attached to one side of the ice storage tank and the control box may be installed on the top or bottom of the installation or attached to the other side may also be an application.

If you configure as above and look at the effect,

When the outdoor unit is built in the control box 210 of the ice storage tank as in the present invention, the arrangement of each component part, that is, the compressor 3, the condenser 1, and the condenser fan 2 may be very diverse. Is a diagram showing only the system and is not represented until the layout. However, the condenser 1 is generally composed of an air-cooled heat exchanger tube and has a 'B' shape, a 'V' shape or a 'V' shape, and a condenser fan (2). It is reasonable to position the air outlet at) upwards or laterally.

It is appropriate to arrange the compressor 3 in contact with the lower surface such as the circulation pump 25 in the control box 210 in consideration of the weight and vibration, and the receiver 4 and the expansion valve 4 are located in the upper part of the control box. Is placed.

The controller integrated into one not shown in FIG. 3 is naturally disposed in the middle of the control box 210.

The manufacturing process of the outdoor unit is the position of the compressor (3) is only slightly lower than the conventional method, which is no different from the method of manufacturing the independent outdoor unit, and the refrigerant service valve (5) and the evaporator By connecting the icing tube 25 in the corresponding ice tank, the system constituting the refrigerating cycle can be completed at the production plant and also enables consistent and final product inspection.

The control sequence represented in FIG. 2 is divided into an outdoor unit 400 and an ice storage tank 500 and manufactured separately and connected to each other by wires. Since all functions can be implemented, productivity can be improved as compared to the conventional method, and terminal blocks among components can be reduced, and work man-hours can be reduced.

Most importantly, the effect of pre-working in the production plant is greater than performing the refrigerant piping and wire wiring work at the installation site. It is possible to reduce the overall work man-hours and the time of the work, and the conventional installation site work is listed, the ice storage tank 200 and the outdoor unit 100 is fixed to the installation site and the refrigeration technician is a refrigerant liquid pipe (7). ) And the refrigerant gas pipe 8 are cut to a length appropriate to the installation site condition, and the refrigerant liquid pipe 7 is controlled by bending and welding. The refrigerant gas pipe 8 is controlled by the ice storage tank control box to the inlet of the expansion valve 22. After connecting to each of the service valves (5) and (6), and then wrapped in a heat insulating material, and each of the remaining air in the icing tube using a vacuum pump After additionally opening each service valve (5) (6) to open the refrigerant circulation passage, and then the electrician works to connect the terminal blocks of each control unit 400, 500 with wires, the indoor unit 300 and the ice tank The operation of connecting the signal lines between the 200 follows.

Thereafter, the plumbing technician may connect the indoor unit 300, the cold water outlet pipe 28, and the cold water inlet pipe 27, and supply water to the ice storage tank 200.

As described above, it is confirmed that there is a need for dispatching various technical personnel or dispatching technicians with various technologies at the installation site, and it may take a long time, and due to errors in the work, Closing that can lead to failure can not be excluded.

As described above, the present invention integrates the component parts of the outdoor unit into the control box 210 of the ice storage tank 200 in the cooling system using the small ice storage heat using the late-night electric power. Productivity can be increased by saving and consistent operation, which can reduce manufacturing costs, and the cause of defects can be eliminated by standardized inspection. Especially, it is not necessary to dispatch various technical personnel at the installation site, and installation is very easy. This is a simple and novel design that has the advantage of reducing the park cost and the cause of the defect caused by the error of installation is removed in advance.

Claims (2)

An ice storage tank constituting an ice storage cooling system using a midnight electric power, wherein the outdoor storage unit and the control box are attached to one side of the ice storage tank. The control unit according to claim 1, wherein the outdoor unit and the control box are integrated into one unit, and a control unit including the cold water circulation pump, the compressor, the condenser, the condenser fan, the receiver, the expansion valve, and each control unit of the outdoor unit and the ice storage tank are integrated into one unit. Ice storage tank integrated with the outdoor unit characterized in that.