JPH0739876B2 - Air conditioner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to an air conditioner for mainly air-conditioning a room in which a computer is installed, and more specifically, an outdoor unit equipped with a compressor whose capacity can be controlled in a plurality of steps. The present invention relates to an air conditioner including a plurality of indoor units including an indoor heat exchanger and an indoor fan.

(Prior Art) Conventionally, an air conditioner for a computer room in which the capacity can be controlled in a plurality of steps and the capacity is controlled according to the room temperature has been already proposed as disclosed in Japanese Patent Laid-Open No. 59-125360. ing.

This air conditioner uses two compressors whose capacities are controllable, attaches a reheater to the evaporator and connects a hot gas bypass passage, and controls the operation and reheat operation of the compressor. The capacity can be controlled in multiple steps by using a setter and detector for the blown air temperature, and the temperature difference between the set temperature set by these setters and the blown air temperature detected by the detector is set at regular intervals. Compared with, the temperature difference is 0-2
When the temperature difference is over 2 ° C., the temperature is kept as it is, and when the temperature difference is over 2 ° C., the temperature is increased by one step.

(Problems to be solved by the invention) However, in the above-mentioned conventional example, the compressor is paired with the evaporator and the reheater, and the operation of the compressor is based on one blown air temperature. Control and reheat operation control are performed, so when using one air conditioner to air-condition one computer room where multiple computers are installed,
When air-conditioning a plurality of computer rooms, there is a problem that air-conditioning cannot be performed accurately in accordance with the operation and stoppage of a plurality of computers. That is, it is necessary to accurately air-condition the computer room in response to the heat generated by the operation of the computer. However, when using a plurality of computers, if these computers are operated or stopped, the Since a temperature difference occurs between the temperature around the computer and the temperature around the computer during operation, and the temperature of the intake air is affected, simply controlling the capacity based on the temperature of one blown air provides accurate air conditioning for each computer. Cannot be done.

Therefore, it is conceivable to use a plurality of indoor units for one outdoor unit that houses a compressor, and install each indoor unit corresponding to each computer, but use one indoor temperature detector. When controlling the ability with
The above-mentioned problems still remain, and in the case of individually controlling the capacity of each indoor unit by the above-mentioned reheat operation, a complicated control mechanism is required, which causes a problem of high cost.

An object of the present invention is to use a plurality of indoor units for one outdoor unit that houses a compressor, while performing accurate indoor air conditioning as compared with the case of using one indoor unit, with a simple configuration. The point is that the temperature of air blown out from each indoor unit can be accurately controlled according to the indoor load condition.

(Means for Solving Problems) According to the present invention, in order to solve the above problems, as shown in FIG. 1, a compressor (1, 2) having a capability controllable in a plurality of steps.
An outdoor unit (A) provided with a plurality of indoor units (B) provided with an evaporator (11, 12) and an indoor fan (13)
~ (F) and each indoor unit (B) ~
A plurality of temperature detectors (61 to 65) that individually detect the temperature of the air passing through (F), a temperature setter (66) that sets the room temperature, and the temperature detectors (61 to 65). Comparing the passing air temperature of all the indoor units and the temperature control width determined based on the set temperature, when all of the passing air temperature is within the range of the temperature control width, the compressor ( When the passing air temperature of any one of the passing air temperatures exceeds the temperature control width among the passing air temperatures, the ability of the compressor (1, 2) is maintained. One step up, one step down when the passing air temperature of any one of the indoor units falls below the temperature control width, and one step down when there are both above and below the temperature control width Ability control output device that outputs a command to perform (70) The than it is provided.

(Function) For example, when all computers are operating in a computer room where a plurality of computers are installed, all the passing air temperatures of the indoor units arranged corresponding to the computers are based on the set temperature. When the temperature is within the range of the temperature control width set to, the capacity of the compressor (1, 2) is held in steps, and one of the computers is stopped, so that it is arranged corresponding to this computer. If the passing air temperature of the indoor unit falls below the temperature control range, the capacity of the compressor (1, 2) is reduced by one step, and the stopped computer restarts the operation or the operating computer operates. If the passing air temperature of the indoor unit arranged corresponding to this computer exceeds the temperature control width due to abnormal heat generation, the performance of the compressor (1, 2) will be reduced. Step up your strength by one step
When the passing air temperature of each indoor unit is higher or lower than the temperature control width, the lower temperature is preferentially stepped down by one step, so that each indoor unit has a simple control mechanism. The temperature of the blown air blown out from the units (B) to (F) can be accurately controlled according to the indoor load condition.

In particular, when the temperature control width exceeds the temperature control width and the temperature control width falls below the temperature control width, the lower temperature control width is preferentially stepped down by one step, so that dew condensation due to supercooling of the computer or the like can be prevented. You can do it.

(Embodiment) The one shown in FIG. 1 is for air-conditioning one computer room in which five computers (not shown) are arranged, and two compressors (1) and (2), Two condensers (3) provided corresponding to these compressors (1) and (2)
(4) and the outdoor fan (5) (6) is housed in one casing (7) in the outdoor unit (A), the compressor (1) (2) and the condenser (3) (4) A pair of evaporators (11) corresponding to each independently formed refrigerant circulation system.
(12) and an indoor fan (13) are installed in a casing (10) to form five indoor units (B) to (F), and each of these indoor units (B) to (F) The casing (10) is provided with a suction port (14) on the upper surface thereof and an air outlet (15) on the lower surface thereof, and is fed directly into each computer installed on the floor from an air passage (16) provided under the floor of the computer room. I am doing so.

The air passage (16) may be provided for each computer, but in most cases it is a common air passage, and the air blown out from the indoor units (B) to (F) is Although partly merged in the air passageway (16), the main stream is sent to a computer provided corresponding to each of the indoor units (B) to (F).

Further, as shown in FIG. 3, the outdoor unit (A) is provided with liquid receivers (21) (22) and accumulators (23) (24), and the liquid receivers (14) (15) are interposed therebetween. High-pressure liquid pipe to equip (25)
Connect the liquid side distribution pipes (27) and (28) to (26), and
Gas side merging pipes (31) and (32) are connected to the low-pressure gas pipes (29) and (30) interposing the accumulators (23) and (24), respectively, and are connected to the indoor units (B) to (F). Is equipped with expansion valves (33) (34) corresponding to the respective evaporators (11) (12),
The high pressure liquid pipes (35) (36) connected to the inlet sides of these expansion valves (33) (34) are provided with liquid side communication pipes (37) (38) connected to the distribution pipes (27) (28). A low pressure gas pipe (39) (4) connected to the outlet side of the evaporator (11) (12)
The gas side communication pipes (41) and (42) connected to the merging pipes (31) and (32) are connected to 0), and the respective distribution pipes (27) are connected.
(28), merging pipes (31) (32) and connecting pipes (37) (38)
The indoor units (B) to (F) are connected to the outdoor unit (A) via (41) and (42), respectively.

In addition, (43) and (44) are auxiliary condensers by a natural circulation cycle, (45) is an auxiliary evaporator, (46) is a liquid receiver in the natural circulation cycle, and (47) is a natural circulation cycle. It is an electromagnetic expansion valve.

Thus, in the above configuration, each compressor (1)
(2) uses a 6-cylinder compressor and has an unload valve (51)
By the opening operation of (52), one set of two cylinders is unloaded, 100% of full load capacity is controlled to 67%, three-stage capacity control is performed when the operation is stopped, and
The total capacity is 100%, 83.5%, 67%, 50%, 33%, 0% due to the combination of start and stop of the two compressors (1) and (2).
It is controlled in 6 steps. In this case, the capacity of the entire apparatus is controlled by these capacity controls as shown in FIG. 5, and the temperature of the air blown from the evaporators (11) and (12) is controlled by these capacity controls.

Corresponding to the outlets (15) of the indoor units (B) to (F), a plurality of temperature detectors (61) to individually detect the blown air temperature in the air passage (16). (65) ...
And a temperature setter that sets the room temperature (66)
In addition, each of the temperature detectors (61) to
(65) temperature control width (for example, when the set temperature is 19 ℃, the control range is set to the temperature setter (66).
The temperature difference is usually 2 to 20 ℃.
C.), and when all the blown air temperatures of the indoor units (B) to (F) are within the temperature control range, the capacity of the compressor (1, 2) is held in step. ,
When the passing air temperature of any one indoor unit out of the passing air temperatures exceeds the temperature control width, the capacity of the compressor (1, 2) is increased by one step, and any one of the indoor units A capacity control output device that outputs a command to step down one step when the passing air temperature of the unit falls below the temperature control width, and to output a step down one step when there are both above and below the temperature control width. ) And are provided.

The output device (70) has the temperature setting device (6
6) Other operation switch (71) and stop switch (72)
And an A / D converter (73) for connecting the temperature detectors (61 to 65) provided for each of the indoor units (B) to (F), and the output device ( 70) The electromagnetic relays (52C ₁ ) (52C ₂ ) of the compressors (1) and (2), and the electromagnetic waves of the outdoor fans (5) and (6) that operate according to the commands that are compared and output by the sequence controller built in Relays (52F ₁ ) (52F ₂ ), electromagnetic relays (53F _{1 to} 53F ₅ ) for each indoor fan (13), control relays (20RS ₁ ) 20RS ₂ ) for unload valves (51) (52), and natural circulation The relay (20RN) for controlling the electromagnetic expansion valve (47) in the cycle is connected.

In addition to the unload valves (51) and (52), each of the compressors (1) and (2) is provided with an unload valve (53) 54 that operates only at startup. Valve (53)
It is possible to incorporate (54) into the capacity control, and by doing so, the number of capacity control stages can be further increased.

Next, the operation of the air conditioner configured as described above will be described based on the flowchart shown in FIG.

In the flow chart shown in FIG. 4, the blown air temperatures of the indoor units (B) to (F) are simultaneously detected every fixed time (usually 5 minutes) and compared with the temperature control width. In addition, in this comparison, if there are higher and lower than the temperature control width at the same time, the lower one is prioritized and one step down, and in addition to the temperature control width, If an upper limit and a lower limit guard temperature (for example, ± 2 ° C. with respect to the set temperature) are set and the guard temperature is exceeded, that is, when the above temperatures are compared at regular intervals, if a sudden load change occurs, Although the room temperature rises sharply and the blowout temperature rises, in such a case, the control of one step up or one step down is immediately performed.

Then, after the operation step (71) is turned on to start the operation, sampling is performed at regular time intervals (5 minutes) to simultaneously detect the blown air temperatures of the units (B) to (F), The temperature control width is compared by a comparator built in the output device (70). At this time, if the blowout air temperatures of all the indoor units (B) to (F) are within the control range, the step is maintained without performing capacity control, and even one unit exceeds the temperature control range. If there is one step up, and if even one is below,
One step down is performed, and if there is a higher value and a lower value at the same time, the lower value is prioritized and the step is decreased by one step.

Then, if the lower limit or the upper limit guard temperature is exceeded within a certain period of time, that is, if the sampling time is not reached, the sampling time is canceled and the step control is performed.

In addition, in the embodiment described above, each indoor unit (B)-
Although the blowing air temperature in (F) is detected, the suction air temperature may be detected. Further, although each indoor unit (B) to (F) is installed in one computer room in which a plurality of computers are arranged, it may be installed in each of a plurality of rooms in which one computer is installed. Therefore, even if it is installed in each of a plurality of rooms, there is no problem as long as the temperature condition does not change from the case of one room.

(Advantages of the Invention) The present invention relates to an outdoor unit (A) equipped with a compressor (1, 2) capable of controlling the capacity in multiple steps, and an evaporator (11, 1).
2) and a plurality of indoor units (B) to (F) each having an indoor fan (13) are provided, and a plurality of air temperature units that individually pass through the indoor units (B) to (F) are individually detected. The temperature setter (61 to 65), the temperature detector (66) that sets the indoor temperature, the passing air temperature of all the indoor units detected by the temperature detectors (61 to 65), and the set temperature are set. Comparing with the temperature control width originally determined, when all of the passing air temperature is within the range of the temperature control width,
When the capacity of the compressor (1, 2) is kept stepwise and the passing air temperature of any one of the passing air temperatures exceeds the temperature control width, the compressor (1, 2)
When the capacity of 2) is increased by one step and the passing air temperature of any one indoor unit falls below the temperature control range 1
When there is a step down, and a temperature control width above and below the temperature control width coexist, a capacity control output device (70) for outputting a command to step down one step is provided, and each indoor unit (B) to. Since the capacity control is performed based on the total passing air temperature of (F), even if a plurality of computers are arranged in one room and the computers are individually stopped, the complicated control mechanism is not used. The temperature of the blown air blown out from each of the indoor units (B) to (F) can be accurately controlled according to the indoor load condition.

In particular, when the temperature control width exceeds the temperature control width and the temperature control width falls below the temperature control width, the lower temperature control width is preferentially stepped down by one step, so that dew condensation due to supercooling of the computer or the like can be prevented. You can do it.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view showing an embodiment of an air conditioner of the present invention, FIG. 2 is an electric control block diagram, FIG. 3 is a refrigerant piping system diagram with a part omitted, FIG. 4 is a flow chart diagram, and FIG.
The figure is a capability control characteristic diagram. (1,2) …… Compressor (11,12) …… Evaporator (13) …… Indoor fan (61 to 65) …… Temperature detector (66) …… Temperature setter (70) …… Capacity control Output unit (A) …… Outdoor unit (BF) …… Indoor unit

Claims (1)

[Claims] 1. An outdoor unit (A) equipped with a compressor (1, 2) capable of controlling the capacity in a plurality of steps, and an evaporator (11, 1).
2) and a plurality of indoor units (B) to (F) provided with an indoor fan (13), and a plurality of units that individually detect the temperature of air passing through each of the indoor units (B) to (F) Temperature detectors (61 to 65), temperature setters (66) that set the indoor temperature, and the passing air temperature of all the indoor units detected by the temperature detectors (61 to 65) and the set temperature When the temperature of each passing air is within the range of the temperature control width, the compressor (1,
If the passing air temperature of any one of the passing air temperatures exceeds the temperature control width among the passing air temperatures, the ability of the compressor (1, 2) is set to 1
Step up, one step down when the passing air temperature of any one indoor unit falls below the temperature control width, and step down one step if both above and below the temperature control width coexist. An air conditioner comprising a capacity control output device (70) for outputting a command.