JP3960786B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to prevention of erroneous piping of refrigerant piping of an air conditioner having a plurality of outdoor units in the same refrigerant system.
[0002]
[Prior art]
Conventionally, in a multi-type air conditioner having a plurality of indoor units, piping to the indoor unit becomes complicated. Therefore, the outdoor unit is operated to the indoor unit by automatic address control for the indoor unit. Circulating the refrigerant, detecting the temperature change of the heat exchanger in the indoor unit, and confirming this temperature change by communication, it is determined whether the refrigerant pipe is misplaced and the communication wiring is miswired .
[0003]
On the other hand, with respect to the outdoor unit, even if one outdoor unit is operated, the refrigerant is not circulated because the compressor is stopped in the other stopped outdoor units. Thus, since the temperature change in the heat exchanger does not appear, especially in the refrigerant pipes connecting the outdoor units, confirmation of erroneous pipes has not been performed.
[0004]
[Problems to be solved by the invention]
However, when a multi-type air conditioner with multiple outdoor units installed in the same refrigerant system is installed, there are many cases where an air conditioner of a plurality of refrigerant systems is installed. It is difficult to place outdoor units connected to the same refrigerant system adjacent to each other due to the location, etc., and to arrange the piping between the units of these outdoor units. Is likely to be. Furthermore, if a plurality of refrigerant systems are racked together, it is more difficult to check for erroneous piping.
[0005]
For this reason, an object of the present invention is to provide a control means for detecting and notifying an incorrect piping of the refrigerant piping connecting the outdoor units of a plurality of outdoor units connected to the same refrigerant system. It is to provide a harmony device.
[0006]
[Means for Solving the Problems]
The invention according to claim 1 is an air conditioner configured by connecting a plurality of outdoor units with inter-unit piping and configured by one system of refrigerant piping, and each of the plurality of outdoor units detects a refrigerant state. A pressure sensor or a temperature sensor for operating, one of the plurality of outdoor units is operated, a detected value from the pressure sensor or the temperature sensor built in the stopped outdoor unit, If the difference between the detected value from the pressure sensor or temperature sensor built in the outdoor unit is greater than or equal to the specified value, the piping connection between both units is correct. It is characterized by comprising a control means for judging that “the piping connection is incorrect”.
[0007]
The invention according to claim 2 is characterized in that a switch is provided on the control unit of at least one outdoor unit among a plurality of outdoor units, and the control means is started by operating the switch. And
[0008]
The invention according to claim 3 is characterized in that the determination result of the erroneous piping detected by the control means is notified.
[0009]
According to a fourth aspect of the present invention, at least one of the pressure detected by the stopped outdoor unit of the control means or a signal indicating the temperature is transmitted to the control unit provided with the switch by the communication wiring. It is characterized by that.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 3.
[0013]
First, referring to FIG. 1, FIG. 1 is a diagram in which a plurality of outdoor units equipped with a compressor driven using power of a gas engine or the like and a plurality of indoor units are connected by the same refrigerant circuit. In the schematic diagram of the air conditioner configured, for example, the outdoor units 1 and 2 are connected in parallel to the inter-unit piping 5, and the indoor units 3 and 4 are connected in parallel at the extended end of the inter-unit piping 5. It demonstrates as a connected air conditioning apparatus.
[0014]
The outdoor unit 1 includes an engine 10 that generates power by burning fuel such as gas, a compressor 11 that is driven by the power, a four-way valve 12 that changes the circulation direction of the refrigerant, and a refrigerant flow rate. An outdoor motor-operated valve 13 to be adjusted, an outdoor heat exchanger 14 for exchanging heat of the refrigerant compressed by the compressor 10 with outdoor outside air, and an accumulator 15 are connected by a refrigerant pipe and are built in. It is connected to the inter-unit pipe 5 via the manual valves 20 and 21.
[0015]
A cooling water pump 17 that circulates cooling water that cools the engine 10 and a radiator 16 that is provided in the outdoor heat exchanger 14 and radiates heat of the cooling water are connected to each other through a cooling water pipe. .
[0016]
Furthermore, an outdoor fan 18 that blows air to the outdoor heat exchanger 14 and pressure sensors 22 and 23 that detect refrigerant pressure on the outlet side and the inlet side of the compressor 11 are provided. The engine 10, the four-way valve 12, The control unit 19 performs control such as turning on and off the control devices of the outdoor motor operated valve 13, the cooling water pump 17, and the outdoor blower 18.
[0017]
In addition to the control of the outdoor unit 1, the control unit 19 receives a signal such as a request for cooling and heating from the indoor units 3 and 4 and a required capacity, calculates an air conditioning load from the indoor unit side, The number of operating units corresponding to the air conditioning load and the operating capacity are calculated, and the operation of the outdoor unit 1 in which the control unit 19 is stored and the operation instruction to the outdoor unit 2 are performed. Further, in the present embodiment, a description will be given as an example in which the control unit 19 is provided with control means for detecting an erroneous piping of the inter-unit piping between the outdoor units of the air conditioner according to the present invention.
[0018]
Similarly, the outdoor unit 2 also includes an engine 30 that generates power by burning fuel such as gas, a compressor 31 that is driven by the power, a four-way valve 32 that changes the circulation direction of the refrigerant, and a refrigerant. The outdoor motor-operated valve 33 for adjusting the flow rate of the refrigerant, the outdoor heat exchanger 34 for exchanging heat of the refrigerant compressed by the compressor 30 with the outside air, and the accumulator 35 are connected and built in via refrigerant piping. The piping is connected to the inter-unit piping 5 via manual valves 40 and 41.
[0019]
A cooling pump 37 that circulates cooling water that cools the engine 30 and a radiator 36 that is provided in the outdoor heat exchanger 34 and radiates the cooling water are connected to each other through a cooling water pipe.
[0020]
Furthermore, an outdoor blower 38 for blowing air to the outdoor heat exchanger 34, pressure sensors 42 and 43 for detecting refrigerant pressure on the outlet side and the inlet side of the compressor 31, and the engine 30 and the four-way valve 32 are provided. And a control unit 39 for controlling on / off of the outdoor electric valve 33, the cooling water pump 37, and the outdoor blower 38, and for communicating with the control unit 19 in the outdoor unit 1 through the communication wiring 6. .
[0021]
As for the indoor units 3 and 4, first, the indoor unit 3 includes an indoor heat exchanger 50 and an indoor motorized valve 52 that are connected by a refrigerant pipe and are connected to the inter-unit pipe 5. An indoor blower 51 that blows air to the heat exchanger 50 and an indoor temperature sensor 53 that detects an air conditioning load are provided. The indoor control unit 54 communicates with the control unit 19 through the communication wiring 7 and the indoor blower 51 The air volume adjustment and the valve opening degree adjustment of the indoor electric valve 52 are performed.
[0022]
Similarly, in the indoor unit 4, the indoor heat exchanger 55 and the indoor motor-operated valve 57 are connected by a refrigerant pipe, are built in, and are connected to the inter-unit pipe 5, and air is sent to the indoor heat exchanger 55. The indoor blower 56 to be performed and the indoor temperature sensor 58 to detect the air conditioning load are provided. The indoor control unit 59 communicates with the control unit 19 through the communication wiring 7, adjusts the air volume of the indoor blower 56, and the indoor motor operated valve. 57 valve opening degree adjustment is performed.
[0023]
Here, the control unit 19 will be described with reference to FIG. 2. The control unit 19 receives the communication from the outdoor control unit 60 that controls the outdoor unit 1 and the indoor units 3 and 4, and the air conditioning load. calculates, and operation of the outdoor unit 1 and 2 corresponding to the air conditioning load, the central control unit 61 with an instruction to calculate and its operating capacity, the detection of erroneous piping between the outdoor unit according to the present invention It is comprised by.
[0024]
The central control unit 61 is provided with a switch 62 for starting detection of erroneous piping between the outdoor units , and the control unit 60 includes a detection of a failure and a central control including the detection of piping. A seven-segment display unit 63 for displaying a warning of a failure in the system communicated from the unit 61 is provided. In this alarm display, a symbol by a combination of alphabets and numbers is displayed on the display unit, The contents of the alarm are displayed. When the alarm is not displayed, the display contents other than this (for example, 00 or-) are not displayed.
[0025]
When the installation of the air conditioner shown in FIG. 1 is completed, the automatic setting of the connected indoor units and the trial operation are performed. Before that, the installation is performed visually or by an inspection device such as a tester. The location where the work has been performed is reconfirmed, and erroneous piping of the inter-unit piping connecting the outdoor units according to the present invention is detected.
[0026]
The method for detecting an erroneous piping of inter-unit piping connecting outdoor units according to the present invention is to operate one outdoor unit among a plurality of outdoor units connected by the inter-unit piping and stop the rest. The pressure or temperature of the refrigerant pipe in the outdoor unit is confirmed by communication, the wrong pipe is judged, notified, and this prevention is performed. In the embodiment described below, for example, the operation It is described that one outdoor unit to be operated is operated in the heating mode and erroneous piping is detected.
[0027]
In the outdoor unit, in the initial state after the power is turned on, the four-way valve is in the off state and is in the cooling mode.
[0028]
Referring to FIG. 3, when the outdoor units 1 and 2 are turned on and a switch 62 provided on the central control unit 61 in the control unit 19 built in the outdoor unit 1 is operated, erroneous piping is detected. The control means is started.
[0029]
First, power is turned on and it is confirmed whether or not it is in the initial state (S1). If it is not in the initial state, this erroneous pipe detection is ignored and terminated. switch 62 provided on the 61 is performed has been determined whether or not the operation (S2), if not operated, it waits, when it is operated, pressure data of the pressure sensor 43 of the chamber outside the unit 2 P43 ( 1) is received and stored in the memory b (S4), the four-way valve 12 of the outdoor unit 1 is turned on (S5), the compressor 11 is operated (S6), and the timer a is started.
[0030]
The pressure data P43 (2) of the pressure sensor 43 of the outdoor unit 2 is received again (S8), and the change in pressure with the pressure data P43 (1) stored in the memory b in step 4 is calculated. A difference c is set (S9), and it is determined whether or not the pressure difference c is a numerical value greater than or equal to a reference value d (S10).
[0031]
Here, the timer a, the reference value d, and the count value f described later are preset numerical values, and the timer a is operated by connecting the high pressure side and the low pressure side of the refrigerant pipe of the outdoor unit. The reference value d is a numerical value that can be used to determine whether or not the piping is incorrect, and the count value f is a numerical value that is approximately 5 times or less.
[0032]
If the pressure difference c does not reach the reference value d in step 10, it is confirmed whether the timer a has timed up (S11). If the pressure difference c remains below the reference value d, The operation from step 8 to step 11 is repeated while the operation of the compressor 11 is continued until the timer a expires, and the pressure difference c must reach the reference value d even when the timer a expires. For example, the count of the counter e is incremented by 1 (S12), the compressor 11 is temporarily stopped (S13), the four-way valve 12 is turned off (S14), and the count of the counter e is the alarm processing reference count. It is determined whether or not the value is f (S15). If the count value f has not been reached, the timer a is reset (S16), the process returns to Step 2, and the operation of the erroneous pipe detection is again waited for. If reached preparative value f, erroneous performs notification to the alarm processing that a piping (S17), and ends this flowchart.
[0033]
If the pressure difference c has reached the reference value d in step 10, the compressor 11 is stopped (S18), the four-way valve 12 is turned off (S19), and it is notified that there is no erroneous piping (S20). ), The initial state is reset (S21), and this flowchart is terminated.
[0034]
Then, the outdoor unit in which the erroneous piping is detected by the erroneous piping detection control means corrects the piping between the outdoor units by the hand of a construction contractor or a service contractor, and the erroneous piping is prevented.
[0035]
In this embodiment, for the sake of simple explanation, the number of outdoor units is two, the outdoor unit 1 is operated in the heating mode, and only erroneous piping of the outdoor unit 2 is detected. Since the communication data includes the addresses of the outdoor units, even in the case of two or more outdoor units, it can be determined which of the outdoor units is erroneously piped.
[0036]
In the present embodiment, the outdoor unit 1 that is operated for detection of erroneous piping is set to the heating mode, and the stopped outdoor unit 2 is operated contrary to the cooling mode so that a difference in the temperature and pressure of the refrigerant pipes is noticeable. and a mode has been described in the method for detecting the pressure data P43 of the pressure sensor 43, the outdoor unit 1 to oPERATION, also the outdoor unit 2 is stopped as the same operation mode, the outdoor unit is operating 1 and the low-pressure side and the high-pressure side refrigerant pipes of the outdoor unit 2 that are stopped are connected to each other, so that the low-pressure side and the high-pressure side of the refrigerant pipe described above are connected and operated. Although the pressure difference is not noticeable, the pressure data can be detected by the pressure sensor 43 of the outdoor unit 2. Also, the erroneous piping detection can be performed by using pressure sensors 22, 23, 42 and 43 provided in the outdoor units 1 and 2 as temperature sensors and detecting the temperature data.
[0037]
Moreover, although it demonstrated as the central control part 61 of the control part 19 mounted in the outdoor unit 1 which operated the part which accommodated the control means which detects erroneous piping, it is not necessary to specify as the outdoor unit to operate in particular, for example, It is possible to mount the outdoor unit 2 that is the smallest or largest outdoor unit address in the stopped outdoor unit 2 to detect the erroneous piping, and the central control unit 61 In particular, it is not necessary to provide it in the outdoor unit, and it can be housed in a single casing to form one control device.
[0038]
【The invention's effect】
According to the above description, one outdoor unit among a plurality of outdoor units connected to the same refrigerant system is operated, and the detected value from the pressure sensor or the temperature sensor built in the stopped outdoor unit, and the operation If the difference between the detected value from the pressure sensor or temperature sensor built in the outdoor unit in the inside is greater than or equal to the specified value, “pipe connection between both units is correct”, and if the difference is less than the specified value, Because it is equipped with a control means that determines that the piping connection between the units is incorrect, the control means detects an incorrect piping of the refrigerant piping, and notifies this so that an erroneous piping of the inter-unit piping connecting the outdoor units can be detected. It becomes possible to prevent.
[Brief description of the drawings]
FIG. 1 is a schematic view of an air conditioner in which a plurality of outdoor units and indoor units each equipped with a compressor driven by a driving force of a gas engine or the like are connected to one refrigerant system.
FIG. 2 is a schematic diagram showing a control unit 19 of the outdoor unit 1;
FIG. 3 is a flowchart showing an outline of an erroneous pipe detection procedure.
[Explanation of symbols]
1 Outdoor unit (Unit 1)
2 Outdoor unit (Unit 2)
3 Indoor unit (Unit 1)
4 Indoor unit (Unit 2)
5 Inter-unit piping 6 Communication wiring (between outdoor units)
7 Communication wiring (between indoor and outdoor units)
10 Engine (1st outdoor unit)
11 Compressor (Outdoor Unit 1)
12 Four-way valve (Outdoor unit 1)
13 Outdoor motorized valve (Outdoor unit 1)
14 Outdoor heat exchanger (Outdoor unit 1)
15 Accumulator (Outdoor Unit 1)
16 Radiator (1st outdoor unit)
17 Cooling pump (Outdoor unit 1)
18 Outdoor blower (Outdoor unit No. 1)
19 Control Unit (Outdoor Unit 1)
20 Refrigerant manual valve (Outdoor unit 1)
21 Refrigerant manual valve (Outdoor unit 1)
22 Pressure sensor (Outdoor unit No.1)
23 Pressure sensor (Outdoor unit 1)
30 Engine (Outdoor unit 2)
31 Compressor (Outdoor Unit 2)
32 Four-way valve (Outdoor unit No.2)
33 Outdoor motorized valve (Outdoor unit 2)
34 Outdoor heat exchanger (Outdoor unit 2)
35 Accumulator (Outdoor Unit 2)
36 Radiator (Outdoor Unit 2)
37 Cooling pump (Outdoor unit 2)
38 Outdoor blower (Outdoor unit No.2)
39 Control Unit (Outdoor Unit 2)
40 Refrigerant manual valve (Outdoor unit 2)
41 Refrigerant manual valve (Outdoor unit 2)
42 Pressure sensor (Outdoor unit No.2)
43 Pressure sensor (Outdoor unit No.2)
50 Indoor heat exchanger (1st indoor unit)
51 Indoor blower (Indoor unit No. 1)
52 Indoor motorized valve (Indoor unit 1)
53 Indoor temperature sensor (1st indoor unit)
54 Indoor control unit (Indoor unit No. 1)
55 Indoor heat exchanger (Indoor unit No. 2)
56 Indoor blower (Indoor unit No. 2)
57 Indoor motorized valve (indoor unit 2)
58 Indoor temperature sensor (Indoor unit 2)
59 Indoor Control Unit (Indoor Unit 2)
60 Machine room 61 Heat exchanger room 62 Exterior panel 67 Air inlet

Claims (4)

In an air conditioner configured by connecting a plurality of outdoor units with inter-unit piping and configured with one refrigerant piping, each of the plurality of outdoor units includes a pressure sensor or a temperature sensor for detecting a refrigerant state. , One of the plurality of outdoor units is operated, a detected value from a pressure sensor or a temperature sensor built in the outdoor unit being stopped, and a pressure sensor built in the outdoor unit being operated or Control that judges that “the piping connection between both units is correct” if the difference from the detected value from the temperature sensor is greater than or equal to the predetermined value, and “the piping connection between both units is incorrect” if the difference is less than the predetermined value An air conditioner comprising means. 2. The control unit according to claim 1 , wherein a switch is provided on the control unit of at least one outdoor unit among the plurality of outdoor units, and the control unit is started by operating the switch. Air conditioner. The air conditioning apparatus according to claim 1 or 2 , wherein a determination result of erroneous piping detected by the control means is notified. 2. The control unit according to claim 1, wherein at least one of the pressure detected by the stopped outdoor unit of the control unit or a signal indicating the temperature is transmitted to the control unit provided with the switch through the communication wiring. 3. The air conditioning apparatus according to 3 .

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