JP5646300B2 - Refrigeration equipment - Google Patents

Description

  The present invention provides a split type chilled / hot water device in which a chilled / hot water unit having a chilled / hot water specification is connected to an outdoor unit via a refrigerant pipe, or a single functional component of each of the outdoor unit and the chilled / hot water unit. The present invention relates to a refrigeration apparatus that enables common use of a control board of an outdoor unit and that can perform optimal defrosting control when, for example, a monoblock type chilled / hot water apparatus integrally provided in the casing is manufactured.

Conventionally, a split-type chilled / hot water apparatus has been proposed in which a chilled / hot water unit having a chilled / hot water specification is connected to an outdoor unit via a refrigerant pipe (see, for example, Patent Document 1).
In this type, control of cold / hot water specifications is executed according to a control program stored in the control board of the outdoor unit.

JP 2004-251486 A

By the way, when it is going to manufacture the monoblock type cold / hot water apparatus which integrally has each functional component of the above-mentioned outdoor unit and cold / hot water unit in the single housing | casing, the control program stored in the control board of the said outdoor unit If is used as it is, it is possible to execute control of the cold / hot water specification, but inconvenience arises in the defrost control.
Therefore, the object of the present invention is to solve the problems of the conventional techniques described above, and when manufacturing a split type or monoblock type hot / cold water apparatus, manufacturing management is easy and the control board of the outdoor unit is made common. An object of the present invention is to provide a freezing device that can be realized.

In the present invention, an outdoor unit is standardized as a standard outdoor unit, and an air-cooled specification indoor unit is connected to the standard outdoor unit via a refrigerant pipe, or an air conditioner is configured, or the standard outdoor unit A chilled / hot water unit having a chilled / hot water specification is connected via a refrigerant pipe to form a split type chilled / hot water apparatus, or a chilled / hot water unit connected to the standard outdoor unit via a refrigerant pipe A monoblock type chilled / hot water apparatus that integrally has each functional component in a single housing is selected, and includes a control board disposed in the standard outdoor unit, and the control board is shared It includes a nonvolatile memory that stores executable in the control program, the standard outdoor unit in which the control board is provided with the air conditioner, the split-type hot and cold water system Depending on which of the monoblock chilled and hot water devices is connected, by rewriting the operating conditions related to the defrost control of the control program stored in the nonvolatile memory according to the length of the refrigerant pipe, Enable defrost control,
The control board controls the opening degree of the mechanical valve when the monoblock type cold / hot water apparatus is configured, as compared with the case where the air conditioning apparatus or the split type cold / hot water apparatus is configured. To do.

In general, in this type of cold / hot water apparatus, when the outdoor heat exchanger of the outdoor unit functions as an evaporator, for example, when producing hot water in winter, the evaporator is frosted, and the outdoor heat exchanger Inconvenience occurs in heat exchange at the time, and at this time, the four-way valve is switched to the position of the cooling cycle, the reverse cycle is realized, high-pressure refrigerant is passed through the outdoor heat exchanger, and the frost adhering to the outdoor heat exchanger is defrosted To be done. When comparing the above-mentioned split type chilled water device with the monoblock type chilled water device, the length of the refrigerant pipe connecting the units to the split type is larger than it can fit in a single housing. Is set longer. The length of the refrigerant pipe affects the opening control of the mechanical valve during the above-described defrosting operation.
In the split type, the length of the refrigerant pipe connecting each unit becomes long. Therefore, when the opening degree of the mechanical valve is managed with 20 to 480 pulses, for example, the outdoor condition is reduced to about 300 pulses as an operating condition. Adjusting the amount of refrigerant supplied to the exchanger, the monoblock type refrigerant pipe is not so long, so the mechanical valve opening is opened to about 400 pulses, for example, and the amount of refrigerant supplied to the outdoor heat exchanger is increased. adjust.

In addition, when the operation condition regarding the defrost control of the control program stored in the nonvolatile memory is rewritten according to the length of the refrigerant pipe, and the monoblock chilled water device is configured by the control board, the air Since the opening degree of the mechanical valve is largely controlled as compared with the case where the harmony device or the split type hot / cold water device is configured, the defrosting control is optimized according to the length of the refrigerant pipe. In addition, when manufacturing an air conditioner or a split-type or mono-block type hot / cold water device, manufacturing control of the control board becomes easy, and the control board of the outdoor unit can be shared.
Further, according to the present invention, the opening of the mechanical valve as an operating condition is set in accordance with the length of the refrigerant pipe, for example, 300, 350, 400 pulses, etc., for example, when the cold / hot water apparatus is installed. You may make it rewrite conditions.

In the present invention , the control stored in the non-volatile memory depends on whether the standard outdoor unit equipped with the control board is connected to an air conditioner, a split type chilled water device, or a monoblock type chilled water device. By rewriting the operating conditions related to the defrost control of the program according to the length of the refrigerant pipe, the defrost control can be executed, and when the control board constitutes a monoblock chilled water device, the air conditioner or Since the opening of the mechanical valve is controlled to be larger than when a split type hot / cold water device is configured, the defrosting control can be optimized according to the length of the refrigerant pipe, and the air When manufacturing a harmony device or a split-type or mono-block type hot / cold water device, the control management of the control board is facilitated, and the control board of the outdoor unit can be shared.

It is a refrigerant circuit diagram of an air conditioning apparatus (refrigeration apparatus). It is a refrigerant circuit diagram of a split type chiller device (refrigeration device). It is a refrigerant circuit figure of a monoblock type chiller device (refrigeration device). It is a figure explaining an operating condition.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
1 to 3 show a refrigerant circuit of an air conditioner (see FIG. 1) or a so-called chiller device (see FIGS. 2 and 3) corresponding to this embodiment.
FIG. 1 shows a so-called split type air conditioner.
The air conditioner 210 includes a standard outdoor unit (hereinafter simply referred to as an outdoor unit) 11 and an indoor unit 212. The outdoor unit 11 is used as a standard outdoor unit in common with the outdoor unit 11 shown in FIG. 2 described later. The outdoor refrigerant pipe 14A of the outdoor unit 11 and the indoor refrigerant pipe 214B of the indoor unit 212 are connected via inter-unit pipes 252 and 253. To form a refrigeration cycle.
In the following description, the outdoor refrigerant pipe 14A and the indoor refrigerant pipe 214B are referred to as “refrigerant pipe 214” unless otherwise distinguished.

A compressor 16 is disposed in the outdoor refrigerant pipe 14 </ b> A of the outdoor unit 11. An accumulator 17 is disposed on the suction side of the compressor 16, and a four-way valve 18 is disposed on the discharge side. The four-way valve 18 is provided with an outdoor heat exchanger 19, a mechanical valve (outdoor expansion valve) 24, and a strainer 25. 19A is an outdoor fan, and 26 is a muffler.
The indoor unit 212 connected to the outdoor unit 11 includes an indoor heat exchanger 228 and an indoor fan 229.
During the heating operation, the four-way valve 18 of the outdoor unit 11 is switched to the heating cycle side, the indoor heat exchanger 228 of the indoor unit 212 functions as a condenser, and the room is heated by blowing air from the indoor fan 229. During the cooling operation, the four-way valve 18 of the outdoor unit 11 is switched to the cooling cycle side, the indoor heat exchanger 228 of the indoor unit 212 functions as an evaporator, and the room is cooled by blowing air from the indoor fan 229.

FIG. 2 shows a so-called split-type chiller device.
The chiller device (refrigeration device) 10 includes an outdoor unit 11 as a standard outdoor unit and a cold / hot water unit 12. The outdoor unit 11 is shared with the outdoor unit 11 of FIG. 1 described above as a standard outdoor unit, and the outdoor refrigerant pipe 14A of the outdoor unit 11 and the chiller side refrigerant pipe 14B of the cold / hot water unit 12 are inter-unit pipes 52, 53. To form a refrigeration cycle. The inter-unit pipes 52 and 53 are set to an appropriate length according to the installation situation at the site, and may be as long as several tens of meters, for example. In the following description, the outdoor refrigerant pipe 14A and the chiller side refrigerant pipe 14B are referred to as “refrigerant pipe 14” unless otherwise distinguished.

A compressor 16 is disposed in the outdoor refrigerant pipe 14 </ b> A of the outdoor unit 11. An accumulator 17 is disposed on the suction side of the compressor 16, and a four-way valve 18 is disposed on the discharge side. The four-way valve 18 is provided with an outdoor heat exchanger 19, a mechanical valve (outdoor expansion valve) 24, and a strainer 25. 19A is an outdoor fan, and 26 is a muffler.
The cold / hot water unit 12 connected to the outdoor unit 11 includes a receiver tank 27 and a plate heat exchanger 28. The plate heat exchanger 28 includes alternately stacked refrigerant channels and water channels (not shown), and a water pipe 30 is connected to the water channels (not shown). An expansion tank 31, a water pump 32, and a water heating device (electric heater) 33 are sequentially connected to the water pipe 30 and connected to a cold / hot water load facility 34. 35 is a pressure gauge, 36 is a flow switch, and 37 is a safety valve.

When hot water is produced with this split chiller device, the four-way valve 18 of the outdoor unit 11 is switched to the heating cycle side, and the plate heat exchanger 28 on the cold / hot water unit 12 side functions as a condenser. Water is circulated in the direction of the solid arrow from the cold / hot water load facility 34 by the water pump 32 to the plate heat exchanger 28, and this water is heated by the plate heat exchanger 28 and the water heating device (electric heater) 33. Return to the cold / hot water load facility 34.
When producing cold water, the four-way valve 18 of the outdoor unit 11 is switched to the cooling cycle side, and the plate heat exchanger 28 on the cold / hot water unit 12 side functions as an evaporator. Water is circulated from the cold / hot water load facility 34 to the plate heat exchanger 28 in the direction of the solid line arrow by the water pump 32, and this water is cooled by the plate heat exchanger 28 and circulated to the cold / hot water load facility 34. At this time, the water heating apparatus 33 is stopped.

FIG. 3 shows a so-called monoblock chiller device (integrated cold / hot water device).
This integrated cold / hot water apparatus 110 is integrally provided with each functional component of an outdoor unit and a cold / hot water unit in a single casing 111.
That is, the compressor 116 is disposed in the single casing 111 as a functional component of the outdoor unit (corresponding to the outdoor unit 11 in FIGS. 1 and 2). An accumulator 117 is disposed on the suction side of the compressor 116, and a four-way valve 118 is disposed on the discharge side. The four-way valve 118 is sequentially provided with an outdoor heat exchanger 119 and a mechanical valve (outdoor expansion valve) 124. 119A is an outdoor fan. In addition, the casing 111 includes a receiver tank 127 and a plate heat exchanger 128 as functional components of the cold / hot water unit (corresponding to the cold / hot water unit 12 of FIG. 2). The plate heat exchanger 128 includes alternately stacked refrigerant flow paths and water flow paths (not shown), and a water pipe 130 is connected to the water flow paths (not shown). Water is circulated by the water pump 132 to the water pipe 130, and a water heating device (electric heater) 133 and an expansion tank 131 are connected in this order. 135 is a pressure gauge, 136 is a flow switch, 137 is a safety valve, and 138 is a water pressure sensor.

  When hot water is produced by the integrated cold / hot water device 110, the four-way valve 118 is switched to the heating cycle side, and the plate heat exchanger 128 functions as a condenser. In the plate heat exchanger 128, water from the inlet 130A circulates in the direction of the solid arrow by the water pump 132, and this water is heated by the plate heat exchanger 128 and the water heating device 133, and cold / hot water is discharged from the outlet 130B. Return to load equipment (not shown). On the other hand, when producing cold water with the integrated cold / hot water apparatus 110, the four-way valve 118 switches to the cooling cycle side, and the plate heat exchanger 128 functions as an evaporator. In the plate heat exchanger 128, water from the inlet 130A circulates in the direction of the solid arrow by the water pump 132, and this water is cooled by the plate heat exchanger 128 and is supplied from the outlet 130B to a chilled / hot water load facility (not connected). Circulate to the figure. When making cold water, the operation of the water heating device 133 is stopped.

Next, the control system will be described.
In the present embodiment, a common control board 1 is provided for all the outdoor units shown in FIGS. The control board 1 includes a nonvolatile memory 1A, and a control program for the air cooling specification is stored in the nonvolatile memory 1A. The predetermined operating conditions of the control program can be rewritten. When the control board 1 is changed from the air cooling specification to the cold / hot water specification, the operating conditions are appropriately rewritten by the rewriting operation. For example, in the case of the air cooling specification shown in FIG. 1, the control board 1 in which the control program in the air cooling specification is stored is used without changing the air cooling specification, and as shown in FIG. When a cold / hot water unit having cold / hot water specifications is connected to the control board 1, for example, a rewriting jig (not shown) is connected to the control board 1, and the operation conditions are rewritten by the rewriting operation.

FIG. 4 shows the operating conditions described above.
In the present embodiment, from the manufacturing plant, <0: air conditioner> (see FIG. 1), <1: split chiller device of hot water 50 ° C. hot water> (see FIG. 2), <2: hot water 55 ° C. hot water No. 4 split type chiller device (also see FIG. 2) and <3: monoblock chiller device with hot water 55 ° C. hot water> (see FIG. 3).

<0: Air conditioner>
In this case, as described above, the control board 1 storing the control program in the air cooling specification is used without change.
The following shows heating.
(A) There is no operating condition for hot water temperature control.
(B) The operating condition of the refrigerant high pressure control is the refrigerant temperature A ° C. discharged from the compressor 16 of the standard outdoor unit 11, and when the discharge temperature exceeds A ° C., it is estimated that the high pressure is abnormal. Operation is stopped.
(C) In the outside air temperature control, when the outside air temperature around the standard outdoor unit 11 decreases, the drive current value of the outdoor fan 19A is increased, and when the outside air temperature increases, the current value is decreased, and the rotational speed of the outdoor fan 19A is 220 to It is controlled at 880 rpm. The operating condition at this time is the rotational speed 220-880 rpm of the outdoor fan 19A.
(D) In the defrost control, when frost is generated in the outdoor heat exchanger 19, the four-way valve 18 is switched to the position of the cooling cycle, and the reverse cycle is realized as the flow of the refrigerant. A high-pressure refrigerant is flowed to remove the frost adhering to the outdoor heat exchanger 19. The operating condition at this time is the valve opening of the mechanical valve 24, and the mechanical valve 24 is managed with 20 to 480 pulses during normal control other than during defrosting control. Be controlled.

<1: Split-type chiller device for hot water at 50 ° C.
In this case, for example, a rewriting jig (not shown) is connected to the control board 1, and the operating condition is rewritten as follows by inputting the condition <1> by the rewriting operation.
(1a) The operating condition of the hot water temperature control is the heating condensing temperature, and this condensing temperature is rewritten to 50 ° C. With this rewriting, in the hot water temperature control, the condensation temperature is controlled to 50 ° C. according to the detection of a temperature sensor (not shown) provided at the inlet / outlet of the plate heat exchanger 28.
(1b) The refrigerant temperature is rewritten to (A + α) ° C. When the refrigerant temperature exceeds (A + α) ° C., it is estimated that the high pressure is abnormal, and the operation of the compressor 16 is stopped.
(1c) The operating conditions of the outside air temperature control are the same as those in the above-described <0: Air conditioner>, and rewriting is not performed.
(1d) The operating conditions of the defrosting control are the same as those in the above-described <0: Air conditioner>, and rewriting is not performed.

<2: Split-type chiller device for hot water 55 ° C. hot water>
In this case, the operating condition is rewritten as follows by inputting the condition <2> by the rewriting operation.
(2a) The condensation temperature is rewritten to 55 ° C.
(2b) The refrigerant temperature is rewritten to (A + β) ° C. Here, A <α <β.
(2c) The operating conditions of the outside air temperature control are the same as those in the above-described <0: Air conditioner> and are not rewritten.
(2d) The operating conditions of the defrosting control are the same as those in the above-described <0: Air conditioner>, and rewriting is not performed.

<3: Monoblock chiller device with hot water at 55 ° C.>
In this case, the operating condition is rewritten as follows by inputting the condition <3> by the rewriting operation.
(3a) The condensation temperature is rewritten to 55 ° C.
(3b) The refrigerant temperature is rewritten to (A + β) ° C. Here, A <α <β.
(3c) The lower limit value of the rotational speed of the outdoor fan 19A is rewritten to 400 rpm. By this rewriting, the rotational speed of the outdoor fan 19A is controlled to be higher at 400 to 880 rpm in accordance with the outside air temperature as compared with the other model.
(3d) In the monoblock type, the length of the refrigerant pipe is short as much as various devices can be accommodated in a single casing, as compared with the above-described split type hot / cold water device. Therefore, in the defrosting control, the opening degree of the mechanical valve 124 is managed with 20 to 480 pulses in the normal control, but is controlled to the opening degree of 400 pulses. That is, the opening degree of the mechanical valve 124 is opened to 400 pulses, and the supply amount of the refrigerant to the outdoor heat exchanger 119 is adjusted.

  In this configuration, whether the air-cooled indoor unit 212 is connected to the standard outdoor unit 11 via the refrigerant pipes 52, 53, the cold / hot water cold / hot water unit 12 is connected, or the standard outdoor unit 11 and the cold / hot water are connected. Even when the integrated chilled / hot water device 110 having each functional component of the water unit 12 integrally in a single casing is manufactured, the operating conditions of the control program of the air cooling specification stored in the nonvolatile memory 1A, that is, during heating By rewriting the condensing temperature, the refrigerant high pressure, the outside air temperature, etc., it is possible to easily perform the operation suitable for hot water hot water. According to this, the control board 1 can be shared.

In general, in this type of cold / hot water apparatus, when the outdoor heat exchanger 19 of the outdoor unit 11 functions as an evaporator, for example, when producing hot water in winter, the evaporator is frosted and outdoor heat is generated. Inconvenience occurs in the heat exchange in the exchanger 19, and at this time, the four-way valve 18 is switched to the position of the cooling cycle to realize a reverse cycle, and a high-pressure refrigerant is passed through the outdoor heat exchanger 19 to the outdoor heat exchanger 19. Defrost adhering frost. When the split-type cold / hot water apparatus 10 and the monoblock-type cold / hot water apparatus 110 are compared, the split type connects the units so as not to fit in the single casing 111. The lengths of the refrigerant pipes 52 and 53 are set long. The length of the refrigerant pipe affects the opening control of the mechanical valves 24 and 124 during the defrosting operation. In the split type, the lengths of the refrigerant pipes 52 and 53 connecting the units become long. Therefore, when the opening degree of the mechanical valve 24 is managed with 20 to 480 pulses, the operating condition is limited to about 300 pulses. The refrigerant supply amount to the outdoor heat exchanger 19 is adjusted. In the monoblock type, the refrigerant pipe is not so long, so the opening of the mechanical valve 124 is opened to about 400 pulses, and the refrigerant is supplied to the outdoor heat exchanger 119. Adjust the supply amount.
In this configuration, since the defrosting control can be executed by rewriting the operating conditions related to the defrosting control of the control program stored in the nonvolatile memory 1A, so-called split type or monoblock type hot / cold water devices 12, 110 are manufactured. In this case, the manufacturing management of the control board 1 becomes easy, and the control board 1 can be shared.

  As mentioned above, although this invention was demonstrated based on one Embodiment, this invention is not limited to this. In the above embodiment, the split-type chiller device 12 and the monoblock-type chiller device 110 are compared, and the operating conditions related to the defrosting control of the control program stored in the nonvolatile memory 1A are rewritten. For example, the operation condition related to the defrosting control of the control program stored in the nonvolatile memory 1A may be rewritten according to the length of the refrigerant pipes 52 and 53, for example. In this case, according to the length of the refrigerant pipes 52 and 53, the opening degree of the mechanical valves 24 and 124 as operation conditions is set by subdividing, for example, 300, 350, 400 pulses, for example, The operating conditions may be rewritten during installation. According to this, it is possible to optimize the defrosting control according to the length of the refrigerant pipe.

DESCRIPTION OF SYMBOLS 1 Control board 1A Non-volatile memory 10 Split type chiller device (refrigeration device)
11 Standard outdoor unit (outdoor unit)
12 Cold / hot water unit 16 Compressor 18, 118 Four-way valve 24, 124 Mechanical valve (outdoor expansion valve)
28,128 Plate heat exchanger 52,53 Inter-unit piping 110 Monoblock chiller device (integrated cold / hot water device)
111 Housing 210 Air conditioner (refrigeration equipment)
212 Indoor unit

Claims (1)

The outdoor unit is standardized as a standard outdoor unit,
An air-cooled specification indoor unit is configured by connecting an air-cooled specification indoor unit to the standard outdoor unit via a refrigerant pipe, or a cold / hot water specification cold / hot water unit to the standard outdoor unit via a refrigerant pipe. To form a split-type chilled / hot water device, or to the standard outdoor unit, each functional component of the chilled / hot water unit connected via a refrigerant pipe is integrated in a single casing. Select whether to configure a monoblock type cold / hot water device,
A control board disposed in the standard outdoor unit;
The control board includes a nonvolatile memory storing a common control program so as to be executable,
The standard outdoor unit provided with the control board is stored in the non-volatile memory depending on whether it is connected to the air conditioner, the split type chilled water device or the monoblock type chilled water device. By rewriting the operating conditions related to the defrost control of the control program according to the length of the refrigerant pipe, the defrost control can be executed.
The control board controls the opening degree of the mechanical valve when the monoblock type cold / hot water apparatus is configured, as compared with the case where the air conditioning apparatus or the split type cold / hot water apparatus is configured. Refrigeration equipment.

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