JP3322463B2 - Absorption refrigerator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an absorption refrigerator.

[0002]

2. Description of the Related Art There are a series flow type and a parallel flow type in the flow of cooling water of a conventional single-effect absorption refrigerator.

As shown in FIG. 21, the series flow type is provided with a cooling water line 14 that passes from the cooling water pump 12 to the absorber 2 and the condenser 3 in series. In the drawings, reference numeral 1 denotes an evaporator, 4 denotes a regenerator, 5 denotes a solution heat exchanger, 6 denotes a refrigerant vapor line, 7 denotes a refrigerant liquid line, 8 denotes a dilute solution line, 9 denotes a concentrated solution line, and 10 denotes a refrigerant. Pump, 1
1 is a solution pump, 13 is a cold water line, 15 is a driving hot water or steam line.

In the parallel flow type, as shown in FIG. 22, a cooling water line 14A extending from the cooling water header 16 to the cooling water header 17 via the absorber 2 and a cooling water line extending from the condenser 3 to the cooling water header 17 are provided. A water line 14B is provided in parallel.

[0005] Similarly, a double-effect absorption refrigerator is also shown in FIG.
24 and a parallel flow type shown in FIG. 24. The two-stage absorption cycle absorption refrigerator also has a series flow type as shown in FIG.
There are a series flow type shown in FIG. 5 and a parallel flow type shown in FIG. 23 and 24, 3
1 is an evaporator, 32 is an absorber, 33 is a condenser, 33A is a pressure reducing valve, 34 is a low-temperature regenerator, 35 is a high-temperature regenerator, 36 is a low-temperature solution heat exchanger, 37 is a high-temperature solution heat exchanger, and 38 is Vapor drain heat recovery device, 39 is a refrigerant vapor line, 40 is a refrigerant liquid line, 41 is a dilute solution line, 42 is a concentrated solution line,
43 is an intermediate concentration solution line, 44 is a refrigerant pump, 45 is a solution pump, 46 is a cooling water pump, 47 is a chilled water line,
48 is a cooling water line, 49 is a driving hot water or steam line,
50 and 51 are cooling water headers. 25 and 26, 61 is an evaporator, 62 is a low-stage side absorber, 6
3 is a high-stage absorber, 64 is a low-stage regenerator, 65 is a condenser, 66 is a high-stage regenerator, 67 is a low-stage solution heat exchanger,
68 is a high-stage solution heat exchanger, 69 is a refrigerant vapor line, 7
0 is a refrigerant liquid line, 71 to 74 are solution lines, 75 is a refrigerant pump, 76 and 77 are solution pumps, 78 is a cooling water pump, 79 is a cold water line, 80 is a cooling water line, 81 is a driving hot water or steam line, 82 and 83 are cooling water headers.

[0006]

In the above-mentioned series flow type, when the driving exhaust heat temperature falls below a certain temperature, the performance of the absorption refrigerator decreases rapidly. On the other hand, the parallel flow type is suitable when the exhaust heat temperature is low. But,
Since the amount of cooling water is approximately doubled, the power for pump auxiliary equipment is increased accordingly. In addition, when a high drive exhaust heat temperature is obtained, the parallel flow type has little merit with respect to the performance of the absorption refrigerator as compared with the series flow type.

FIG. 27 is a comparison of absorption cycles of a single-effect absorption refrigerator in which cooling water flows in a series flow and a parallel flow in an absorption refrigerator. The reference numerals in FIG.
1, each device of FIG. It can be seen that the parallel flow type shown by the chain line requires a lower regenerator heating temperature than the series flow type shown by the solid line. In the absorption chiller, the temperature difference has a very large effect on the performance of the absorption chiller under the barely driven exhaust heat temperature condition that can constitute the absorption cycle.

An object of the present invention is to provide an absorption refrigerator that utilizes the advantages of a series flow type and a parallel flow type to effectively use waste heat and saves auxiliary power.

[0009]

According to the present invention, in an absorption refrigerator having a cooling water pump, an absorber and a condenser, the cooling water pump is of a two-stage switching type, and the cooling water pump is connected to the absorber. And a second cooling water line from the cooling water pump to the condenser with an on / off valve and condensing the first cooling water line from the absorber. A cooling water flow path switching valve for switching the second cooling water line to the outlet header, a temperature sensor for the driving hot water or steam line, and the cooling water flow path switching valve and A control unit is provided for switching on / off valves and for switching the cooling water pump, the control unit connecting the first cooling water line from the absorber to the outlet when the temperature of the temperature sensor is lower than a set value. Connected to the condenser to switch the second cooling water line to the condenser, open the on / off valve, and set the cooling water pump to a large flow rate. The first cooling water line is connected to the condenser, the second cooling water line is connected to the outlet header, the on / off valve is closed, and the cooling water pump is set at a small flow rate. Further, according to the present invention, in the absorption refrigerator having the cooling water pump, the absorber, and the condenser, the cooling water pump is a two-stage switching type, and the first cooling water pump passes through the absorber to the outlet header. A cooling water line having an on / off valve and a second cooling water line from the cooling water pump to the condenser, switching the first cooling water line from the absorber to the condenser, and A cooling water flow path switching valve for switching a cooling water line to an outlet header, a temperature sensor for a driving hot water or steam line, and another temperature sensor for detecting a temperature of a cooling water line from a cooling water pump; And a control unit for switching the cooling water flow path switching valve and the on / off valve based on a signal from another temperature sensor, and for switching the cooling water pump,
The control unit calculates a two-variable function for determining a flow from the temperature of the temperature sensor and the temperature of another temperature sensor,
Connecting the first cooling water line from the absorber to the outlet header to switch the second cooling water line to the condenser when the value of the two-variable function is lower than the set value, and opening the on / off valve; The cooling water pump is set to a large flow rate. When the temperature is higher than the set value of the temperature of the two-variable function, the first cooling water line from the absorber is connected to the condenser, and the second cooling water line is connected to the outlet header. In addition, the on / off valve is closed and the cooling water pump has a function of controlling the flow rate to be small. According to the present invention, in an absorption refrigerator having a cooling water pump, an absorber, and a condenser, a first cooling water line extending from the first cooling water pump to the outlet header via the absorber, A second cooling water line from the cooling water pump to the condenser, wherein the first cooling water line from the absorber is switched to the condenser, and the second cooling water line is switched to the outlet header. A control unit for switching the cooling water flow path switching valve based on a signal from the temperature sensor, and for switching the cooling water pump based on a signal from the temperature sensor; If the temperature of the sensor is lower than the set value, connect the first cooling water line from the absorber to the outlet header, switch the second cooling water line to the condenser, and operate the second cooling water pump; When higher than the temperature setting of the serial temperature sensor is connected the first second coolant line of the cooling water line connected to the condenser from the absorber to the outlet header,
It has a function of controlling the second cooling water pump to stop. According to the present invention, in an absorption refrigerator having a cooling water pump, an absorber, and a condenser,
The cooling water pump is of a two-stage switching type, and includes a first cooling water line extending from the first cooling water pump via the absorber to the outlet header, and a second cooling water line extending from the second cooling water pump to the condenser. A cooling water passage switching valve for switching the first cooling water line from the absorber to the condenser, and for switching the second cooling water line to the outlet header, and a temperature sensor for the driving hot water or steam line. A control for providing another temperature sensor for detecting the temperature of the cooling water line, switching the cooling water flow path switching valve based on a signal from the temperature sensor and another temperature sensor, and stopping the operation of the cooling water pump. A control unit that calculates a two-variable function for judging a flow from the temperature of the temperature sensor and the temperature of another temperature sensor, and when the value of the two-variable function is lower than the set value, Connecting the first cooling water line to the outlet header to switch the second cooling water line to the condenser, and activating the second cooling water pump, and when the temperature of the two-variable function is higher than the set value, The first cooling water line from the absorber is connected to the condenser, the second cooling water line is connected to the outlet header, and the second cooling water pump is controlled to stop. I have. According to the present invention, in the absorption refrigerator having the cooling water pump, the absorber, and the condenser, the cooling water pump is a two-stage switching type, and the first cooling system from the cooling water pump to the low stage absorber is provided. A water line, a second cooling water line having an on / off valve and extending from the cooling water pump to the high-stage absorber, and a third cooling water line extending from the downstream side of the on / off valve to the condenser. Switching the first cooling water line from the low stage absorber to the high stage absorber,
And a first cooling water flow switching valve for switching the second cooling water line to the outlet header, switching the second cooling water line from the high-stage absorber to the condenser, and discharging the third cooling water line to the outlet. A second cooling water flow path switching valve for switching to the header is provided,
A temperature sensor is provided in the driving hot water or steam line, and a control unit is provided for switching the first and second cooling water flow path switching valves and on / off valves based on a signal from the temperature sensor, and for switching the cooling water pump. The control unit connects the first cooling water line from the low-stage absorber to the outlet header when the temperature of the temperature sensor is lower than a set value, and switches the second cooling water line to the high-stage absorber; Further, the cooling water line from the high-stage absorber is connected to the outlet header, the third cooling water line is switched to the condenser, and
Open the off valve, and set the cooling water pump to a large flow rate, and connect the first cooling water line from the low-stage absorber to the high-stage absorber when the temperature is higher than the set value of the temperature sensor; , The second and third cooling water lines are connected to the outlet header, the on / off valve is closed, and the cooling water pump is controlled to have a small flow rate. According to the invention, in the absorption refrigerator having the cooling water pump, the absorber, and the condenser, the cooling water pump is a two-stage switching type, and the first cooling water pump to the low-stage absorber is provided. A cooling water line, a second cooling water line having an on / off valve and extending from the cooling water pump to the high-stage absorber, and a third cooling water line extending from the downstream side of the on / off valve to the condenser. A first cooling water flow path switching valve for switching the first cooling water line from the low-stage absorber to the high-stage absorber and for switching the second cooling water line to the outlet header; A second cooling water line switching valve for switching the second cooling water line to a condenser and switching the third cooling water line to an outlet header, a temperature sensor for a driving hot water or steam line, Another temperature sensor to detect the temperature of the cooling water from the pump The provided, said temperature sensor and said first and second on the basis of another signal from the temperature sensor
A control unit for switching between a cooling water flow path switching valve and an on / off valve, and for switching the cooling water pump. The control unit calculates a two-variable function for determining a flow from the temperature sensor and another temperature sensor. If the value of the two-variable function is lower than the set value, the first cooling water line from the low-stage absorber is connected to the outlet header, the second cooling water line is switched to the high-stage absorber, and The cooling water line from the absorber is connected to the outlet header, the third cooling water line is switched to the condenser, and the on / off valve is opened, and the cooling water pump is set to a large flow rate. When higher than the set value, the first cooling water line from the low-stage absorber is connected to the high-stage absorber, and further connected to the condenser, and the second and third cooling water lines are connected to the outlet header, Close the ON / OFF valve and cool water It has to have a function for controlling to a small flow rate up. Further according to the invention,
In an absorption refrigerator having a cooling water pump, an absorber and a condenser, a first cooling water pump to a low stage absorber are provided.
, A second cooling water line from the second cooling water pump to the high-stage absorber, and a third cooling water line from the third cooling water pump to the condenser, A first cooling water flow switching valve is provided for switching the first cooling water line from the absorber to the high-stage absorber and for switching the second cooling water line to the outlet header, and providing the second cooling water line switching valve from the high-stage absorber. A second cooling water flow path switching valve for switching the cooling water line to the condenser and switching the third cooling water line to the outlet header is provided, and a temperature sensor is provided for the driving hot water or steam line, and a signal from the temperature sensor is provided. A control unit for switching the first and second cooling water flow path switching valves and operating the first to third cooling water pumps based on the temperature of the temperature sensor being lower than a set value. Is the first from the low-stage absorber A second coolant line switching to the high stage absorber the 却水 line connected to the outlet header, further cooling water lines from high stage absorber connected to the outlet header, the third
Switch the cooling water line to the condenser, operate the second and third cooling water pumps, and when the temperature is higher than the set value of the temperature sensor, change the first cooling water line from the low stage absorber to the high stage. Connected to an absorber, and further connected to a condenser to connect the second and third cooling water lines to an outlet header, so as to have a function of controlling the second and third cooling water pumps to stop. Has become. And according to the present invention, in an absorption refrigerator having a cooling water pump, an absorber, and a condenser,
A first cooling water line from the first cooling water pump to the low-stage absorber, a second cooling water line from the second cooling water pump to the high-stage absorber, and condensation from the third cooling water pump. A first cooling water line from the low stage absorber to the high stage absorber and a second cooling water line to the outlet header. A second cooling water flow path switching valve for switching the second cooling water line from the high-stage absorber to the condenser, and switching the third cooling water line to the outlet header; A temperature sensor is provided in the steam line, another temperature sensor for detecting the temperature of the cooling water is provided, and the first and second cooling water flow path switching valves are switched based on a signal from the temperature sensor, and A control unit for operating the third cooling water pump is provided. The control unit calculates a two-variable function for determining the flow from the temperature sensor and another temperature sensor, and if the value of the two-variable function is lower than a set value, the first cooling from the low-stage absorber is performed. The water line is connected to the outlet header, the second cooling water line is switched to the high-stage absorber, the cooling water line from the high-stage absorber is connected to the outlet header, and the third cooling water line is connected to the condenser. Switching, second
And operating the third cooling water pump, and when the value of the two-variable function is higher than a set value, connects the first cooling water line from the low-stage absorber to the high-stage absorber and further connects to the condenser. Then, the second and third cooling water lines are connected to the outlet header, and have a function of controlling the second and third cooling water pumps to stop.

[0010]

In the absorption refrigerator configured as described above, when the driving exhaust heat temperature is high, the control unit sets the cooling water pump to the small flow rate side, closes the on / off valve, and sets the cooling water flow path switching valve. Switching The first cooling water line is connected to the second cooling water line to switch to the series flow.

When the driving exhaust heat temperature is low, the cooling water pump is set to the large flow rate side, the on / off valve is opened, and the first cooling water line is connected to the outlet header to switch to the parallel flow.

[0012]

Embodiments of the present invention will be described below with reference to the drawings.

In FIG. 1, in the cooling water header 16 from the two-stage switching type cooling water pump 12A, the flow path of the cooling water is divided into two cooling water lines 14C and 14E. The cooling water line 14C is provided with the absorber 2, and the cooling water line 14E is provided with an on / off valve 19.

On the other hand, a rotary cooling water flow path switching valve 18
At one position, the cooling water line 14C is connected to the cooling water header 1 via the condenser 3A to the cooling water header 17.
4D, and the cooling water line 14E is connected to the cooling water header 17
, The cooling water line 14C is connected to the cooling water line 14F, and the cooling water line 14E is connected to the cooling water line 14D at other positions.

Further, temperature sensors S1 and S2 for detecting the temperature (TH, TM) of the driving hot water or steam line 15A and the cooling water line 14C are provided. The temperature sensors S1 and S2, the cooling water pump 12A, the cooling water flow path switching valve 18, and the on / off valve 19 are connected to the control unit CU, respectively, and are otherwise substantially the same as those in FIG. ing.

Next, the mode of control will be described.

In FIG. 2, the control unit CU detects the temperature TH of the driving hot water or steam line 15A by the temperature sensor S1 (step S1) and determines whether the temperature TH is higher than a set value (step S2). . If no,
That is, when the temperature TH is lower than the set temperature, the cooling water flow path switching valve 18 is switched to the parallel flow (shown by a solid line in FIG. 1), the on / off valve 19 is opened, and the cooling water pump 12 is opened.
A is switched to the large flow side to switch to the parallel flow (step S3). If YES in step S2, that is, if the temperature TH is higher than the set temperature, the cooling water flow switching valve 18 is switched to the series flow (shown by a chain line in FIG. 1), the on / on valve 19 is closed, and the cooling water pump 12A is switched to the small flow side to switch to the series flow (step S4).

On the other hand, in FIG. 3, the control unit CU
The temperature TH of the driving hot water or steam line 15A is detected by the temperature sensor S1, and the cooling water line 14C is detected by the temperature sensor S2.
Is detected (step S9), and F (TH, T
M) is calculated (step S6). Here, F is a two-variable function of TH and TM for determining a flow, and is expressed in a form such as F = a (TM + b) + cTM (a, b, and c are constants determined by experiments). It is.

Next, it is determined whether or not F (TH, TM) is higher than a set value (step S7). In the case of NO, the flow is switched to the parallel flow as in step S3 (step S8), and in the case of YES, the flow is switched to the series flow as in step S4 (step S9).

FIG. 4 shows another embodiment of the present invention, in which cooling water pumps 12B and 12B are provided in cooling water circuits 14C and 14E, respectively.
This is an example in which 2C is provided and connected to the control unit CU, and the other components are configured substantially as in FIG.

In this embodiment, in FIG. 5, the control unit CU detects the temperature TH (step S10) and determines whether or not the temperature TH is higher than a set value (step S10).
11). In the case of NO, the cooling water passage switching valve 18 is switched to the parallel flow side indicated by the solid line, and the cooling water pump 12C is operated to switch to the parallel flow (step S1).
2). If the answer is YES, the cooling water flow switching valve 18 is switched to the series flow side indicated by the chain line, and the cooling water pump 1
Stop 2C and switch to series flow (step S
13).

On the other hand, in FIG. 6, the control unit CU
The temperatures TH and TM are detected (step S14), and F (T
H, TM) (step S15), and F (TH,
(TM) is higher than a set value (step S)
16). If NO, the process is switched to the parallel flow as in step S12 (step S17), and if YES, the process is switched to the series flow as in step S13 (step S18).

With the above control, as shown in the During diagram shown in FIG. 27, when the driving exhaust heat temperature is high, the series flow is switched to the series flow indicated by the solid line. Switching and saving of auxiliary pump power.

FIG. 7 shows another embodiment (embodiment of the double effect absorption cycle) of the present invention. In the cooling water header 50 from the cooling water pump 46A of the two-stage switching type, the cooling water line 48C Cooling water line 48E with off valve 53
Of the cooling water line 48D, 4
8F or cooling water lines 48F and 48D are selectively switched, and temperature sensors S1 and S2 are provided and connected to a control unit CU together with a switching valve 52 and an on / off valve 53. This is an example of a similar configuration.

In this embodiment, in FIG. 8, the control unit CU detects the temperature TH (step S20) and determines whether the temperature TH is higher than a set value (step S20).
21). In the case of NO, the cooling water passage switching valve 52 is switched to the parallel flow side indicated by the solid line, the on / off valve 53 is opened, and the cooling water pump 46A is switched to the large flow side to switch to the parallel flow (step S22). If the answer is YES, the cooling water flow path switching valve 52 is switched to the series flow side indicated by the chain line, the on / off valve is closed, and the cooling water pump 4
6A is switched to the small flow side to switch to the series flow (step S23).

On the other hand, in FIG. 9, the control unit CU
The temperatures TH and TM are detected (step S24), and F (T
H, TM) (step S25), and F (TH,
(TM) is higher than a set value (step S)
26). If NO, the process is switched to the parallel flow as in step S22 (step S27), and if YES, the process is switched to the series flow as in step S23 (step S28).

FIG. 10 shows another embodiment of the present invention, in which cooling water pumps 46B,
This is an example in which 6C is provided and connected to the control unit CU, and the other components are configured substantially as in FIG.

In this embodiment, in FIG. 11, the control unit CU detects the temperature TH (step S30),
It is determined whether the temperature TH is higher than a set value (step S31). In the case of NO, the cooling water passage switching valve 52 is switched to the parallel flow side indicated by the solid line, and the cooling water pump 46C
To switch to the parallel flow (step S3
2) In the case of YES, the cooling water flow path switching valve 52 is switched to the series flow side indicated by the chain line, and the cooling water pump 46C is stopped to switch to the series flow (step S3).
3).

On the other hand, in FIG.
Detects the temperatures TH and TM (step S34), and
(TH, TM) is calculated (step S35), and F (T
(H, TM) is higher than the set value (step S36). If NO, the flow is switched to the parallel flow as in step S32 (step S37). If YES, the process is switched to the series flow as in step S33 (step S38).

FIG. 13 is a During diagram showing the effect of the present invention with respect to the double effect absorption refrigerator of FIGS. 7 and 10. That is, when the driving exhaust heat temperature is high, the flow is switched to the series flow indicated by the solid line, and when the driving exhaust heat temperature is low, the operation is switched to the parallel flow indicated by the dashed line, thereby saving the power of the cooling water pump.

FIG. 14 shows another embodiment (two-stage absorption cycle embodiment) of the present invention, in which a two-stage switching type cooling water pump 7 is used.
In the cooling water header 82 from 8A, the cooling water line 8
0D and a cooling water line 80E through an on / off valve 86,
80F, a cooling water passage switching valve 84 for selectively switching the cooling water passages 80D, 80E to the cooling water lines 80G, 80H or 80H, 80G, and a cooling water line 80G,
80F to cooling water line 80J, 80K or 80K, 80
J, a cooling water flow path switching valve 85 to be selected is provided, and temperature sensors S1, S2 are provided in the driving hot water or steam line 81 and the cooling water line 80D, respectively, and both temperature sensors S1, S2,
This is an example in which a cooling water pump 78A, an on / off valve 86, and cooling water flow path switching valves 84, 85 are connected to a control unit CU, respectively, and the other parts are configured substantially as in FIG.

In this embodiment, as shown in FIG. 15, the control unit CU detects the temperature TH (step S4).
0), it is determined whether the temperature TH is higher than a set value (step S41). If NO, the cooling water flow path switching valve 8
4 and 85 are switched to the parallel flow side indicated by the solid line.
The off valve 86 is opened, and the cooling water pump 78A is switched to the large flow rate side to switch to the parallel flow (step S42). Y
If it is ES, the cooling water flow switching valves 84 and 85 are switched to the series flow side indicated by the chain line, the on / off valve 86 is closed, and the cooling water pump 78A is switched to the small flow to switch to the series flow (step S43).

On the other hand, in FIG.
Detects the temperatures TH and TM (step S44), and
(TH, TM) is calculated (step S45), and F (T
(H, TM) is higher than the set value (step S46). If NO, the flow is switched to the parallel flow as in step S42 (step S47), and if YES, the flow is switched to the series flow as in step S43 (step S48).

FIG. 17 shows another embodiment of the present invention, in which cooling water pumps 78B, 78C and 78D are provided in cooling water lines 80D, 80E and 80F, respectively, and connected to the control unit CU. This is an example configured in the same manner as in FIG.

In this embodiment, as shown in FIG. 18, the control unit CU detects the temperature TH (step S5).
0), it is determined whether the temperature TH is higher than a set value (step S51). If NO, the cooling water flow path switching valve 8
4 and 85 are switched to the parallel flow side shown by the solid line, and the cooling water pumps 78C and 78D are operated to switch to the parallel flow (step S52). If YES, the cooling water flow path switching valves 84 and 85 are the series flow shown by the chain line. Side, and the cooling water pumps 78C and 78D are stopped to switch to the series flow (step S53).

On the other hand, in FIG.
Detects the temperatures TH and TM (step S54), and
(TH, TM) is calculated (step S55), and F (T
(H, TM) is higher than the set value (step S56). If NO, the process is switched to the parallel flow as in step S52 (step S57). If YES, the series flow is performed as in step S53. (Step S58).

FIG. 20 is a During diagram showing the effect of the present invention with respect to the two-stage absorption cycle absorption refrigerator of FIGS. 14 and 17. That is, when the driving exhaust heat temperature is high, the flow is switched to the series flow indicated by the solid line, and when the driving exhaust heat temperature is low, the operation is switched to the parallel flow indicated by the dashed line, thereby saving the power of the cooling water pump.

[0038]

Since the present invention is constructed as described above, it is possible to effectively use the exhaust heat and to reduce the power for auxiliary equipment. This can be expected especially in a two-stage absorption cycle absorption refrigerator.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram showing a first embodiment of the present invention.

FIG. 2 is a control flowchart showing one control mode of FIG. 1;

FIG. 3 is a control flowchart showing another control mode of FIG. 1;

FIG. 4 is an overall configuration diagram showing a second embodiment of the present invention.

FIG. 5 is a control flowchart showing one control mode of FIG. 4;

FIG. 6 is a control flowchart showing another control mode of FIG. 4;

FIG. 7 is an overall configuration diagram showing a third embodiment of the present invention.

FIG. 8 is a control flowchart showing one control mode of FIG. 7;

FIG. 9 is a control flowchart showing another control mode of FIG. 7;

FIG. 10 is an overall configuration diagram showing a fourth embodiment of the present invention.

FIG. 11 is a control flowchart showing one control mode of FIG. 10;

FIG. 12 is a control flowchart showing another control mode of FIG. 10;

FIG. 13 is a During diagram showing the effects of FIGS. 7 and 10;

FIG. 14 is an overall configuration diagram showing a fifth embodiment of the present invention.

FIG. 15 is a control flowchart showing one control mode of FIG. 14;

FIG. 16 is a control flowchart showing another control mode of FIG. 14;

FIG. 17 is an overall configuration diagram showing a sixth embodiment of the present invention.

FIG. 18 is a control flowchart showing one control mode of FIG. 17;

FIG. 19 is a control flowchart showing another control mode of FIG. 17;

FIG. 20 is a During diagram showing the effects of FIGS. 14 and 17;

FIG. 21 is an overall configuration diagram showing an example of a conventional single-effect absorption refrigerator.

FIG. 22 is an overall configuration diagram showing another example of a conventional single-effect absorption refrigerator.

FIG. 23 is an overall configuration diagram showing an example of a conventional double effect absorption refrigerator.

FIG. 24 is an overall configuration diagram showing another example of a conventional double effect absorption refrigerator.

FIG. 25 is an overall configuration diagram showing an example of a conventional two-stage absorption cycle absorption refrigerator.

FIG. 26 is an overall configuration diagram showing another example of a conventional two-stage absorption cycle absorption refrigerator.

FIG. 27 is a During diagram showing a comparison of performance between a parallel flow and a series flow.

[Explanation of symbols]

CU: Control unit S1, S2: Temperature sensor 1, 31, 61: Evaporator 2, 32: Absorber 3, 3A, 33, 65: Condenser 4, 4A: Regenerator 5 ... Solution heat exchanger 6, 39, 69 ... Refrigerant vapor line 7, 40, 70 ... Refrigerant liquid line 8, 41 ... Dilute solution line 9, 42 ... Concentrated solution line 10, 44, 75 ... refrigerant pump 11, 45, 76, 77 ... solution pump 12, 12A to 12C, 46, 46A to 46C, 78,
78A to 78D: cooling water pumps 13, 47, 79 ... chilled water lines 14, 14A to 14F, 48, 48A to 48F, 80,
80A to 80K: cooling water line 15, 15A, 49, 81: driving hot water or steam line 16, 17, 50, 51, 82, 83 ... cooling water header 18, 52, 84, 85, ...・ Cooling water flow path switching valve 19, 53, 86 ・ ・ ・ On / off valve 33A ・ ・ ・ Reducing valve 34 ・ ・ ・ Low temperature regenerator 35 ・ ・ ・ High temperature regenerator 36 ・ ・ ・ Low temperature solution heat exchanger 37 ・ ・・ High-temperature solution heat exchanger 38 ・ ・ ・ Steam drain heat recovery device 43 ・ ・ ・ Intermediate concentration solution line 62 ・ ・ ・ Lower stage absorber 63 ・ ・ ・ Higher stage absorber 64 ・ ・ ・ Lower stage regenerator 66 ... high-stage regenerator 67 ... low-stage solution heat exchanger 68 ... high-stage solution heat exchanger 71-74 ... solution line

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. ⁷ , DB name) F25B 15/00 F25B 15/00 306

Claims (8)

(57) [Claims] 1. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, wherein the cooling water pump is of a two-stage switching type, and a first cooling system from the cooling water pump to the outlet header via the absorber. A second cooling water line from the cooling water pump to the condenser having an on / off valve, switching the first cooling water line from the absorber to the condenser, and a second cooling water A cooling water passage switching valve for switching a line to an outlet header; a temperature sensor for a driving hot water or steam line; switching between the cooling water passage switching valve and an on / off valve based on a signal from the temperature sensor; and A control unit for switching the water pump, the control unit connecting the first cooling water line from the absorber to the outlet header when the temperature of the temperature sensor is lower than a set value, To the condenser, and open the on / off valve, and set the cooling water pump to a large flow rate. When the temperature is higher than the set value of the temperature sensor, the first flow from the absorber is performed.
The cooling water line is connected to the condenser, the second cooling water line is connected to the outlet header, the on / off valve is closed, and the cooling water pump is controlled to have a small flow rate. Absorption refrigerator. 2. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, wherein the cooling water pump is of a two-stage switching type, and the first cooling system extends from the cooling water pump to the outlet header through the absorber. A second cooling water line from the cooling water pump to the condenser having an on / off valve, switching the first cooling water line from the absorber to the condenser, and a second cooling water A cooling water flow path switching valve for switching a line to an outlet header, a temperature sensor for a driving hot water or steam line, and another temperature sensor for detecting a temperature of a cooling water line from a cooling water pump; A control unit for switching the cooling water flow path switching valve and the on / off valve based on a signal from the temperature sensor, and for switching the cooling water pump, wherein the control unit is different from the temperature of the temperature sensor. A two-variable function for determining a flow from the temperature of the temperature sensor is calculated. If the value of the two-variable function is lower than a set value, the first cooling water line from the absorber is connected to the outlet header and the second The cooling water line is switched to the condenser, the on / off valve is opened, and the cooling water pump is set to a large flow rate. When the temperature of the two-variable function is higher than the set value, the first cooling water line from the absorber is switched off. An absorption refrigerator having a function of connecting to a condenser, connecting a second cooling water line to an outlet header, closing an on / off valve, and controlling a cooling water pump to have a small flow rate. 3. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, a first cooling water line extending from the first cooling water pump to the outlet header via the absorber, and a second cooling water. A second cooling water line from the pump to the condenser, wherein the first cooling water line from the absorber is switched to the condenser, and the second cooling water line is switched to the outlet header. A driving temperature water or steam line, a temperature sensor, a switching unit for switching the cooling water flow path switching valve based on a signal from the temperature sensor, and a control unit for switching the cooling water pump. If the temperature is lower than the set value, the first cooling water line from the absorber is connected to the outlet header, the second cooling water line is switched to the condenser, and the second cooling water pump is operated to activate the temperature control. When the temperature of the sensor is higher than the set value, the first cooling water line from the absorber is connected to the condenser, the second cooling water line is connected to the outlet header, and the second cooling water pump is stopped. An absorption refrigerator having a function of controlling the temperature. 4. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, wherein the cooling water pump is of a two-stage switching type, and the cooling water pump is connected to an outlet header from the first cooling water pump through the absorber to the outlet header. A second cooling water line from the second cooling water pump to the condenser, switching the first cooling water line from the absorber to the condenser, and a second cooling water line. A cooling water flow path switching valve for switching the line to the outlet header is provided, and a temperature sensor is provided for the driving hot water or steam line,
Provide another temperature sensor to detect the temperature of the cooling water line,
A control unit for switching the cooling water flow path switching valve based on signals from the temperature sensor and another temperature sensor, and for stopping the operation of the cooling water pump, wherein the control unit is different from the temperature of the temperature sensor and another temperature sensor; A two-variable function that determines the flow from the temperature of the second cooling water is connected to the outlet header if the value of the two-variable function is lower than the set value, and the second cooling water is connected to the outlet header. Switch the line to the condenser and activate the second cooling water pump, connect the first cooling water line from the absorber to the condenser when it is higher than the temperature set point of the two-variable function, An absorption refrigerator having a function of connecting the cooling water line to an outlet header and controlling the second cooling water pump to stop. 5. An absorption refrigerator having a cooling water pump, an absorber and a condenser, wherein the cooling water pump is of a two-stage switching type, and a first cooling water line extending from the cooling water pump to the low-stage absorber. A second cooling water line having an on / off valve and extending from the cooling water pump to the high-stage absorber; and a third cooling water line extending from the downstream side of the on / off valve to the condenser. A first cooling water passage switching valve for switching a first cooling water line from the high-stage absorber to a high-stage absorber and switching a second cooling water line to an outlet header; A second cooling water passage switching valve for switching the cooling water line to the condenser and switching the third cooling water line to the outlet header, a temperature sensor for the driving hot water or steam line, and a signal from the temperature sensor. Based on the first and second cooling water flow path switching valves And switch on / off valve,
And a control unit for switching the cooling water pump, the control unit connecting the first cooling water line from the low-stage absorber to the outlet header when the temperature of the temperature sensor is lower than a set value, and Switching the cooling water line to the high-stage absorber, connecting the cooling water line from the high-stage absorber to the outlet header, switching the third cooling water line to the condenser, opening the on / off valve, and cooling When the water pump has a large flow rate, and when the temperature is higher than the set value of the temperature sensor, the first cooling water line from the low-stage absorber is connected to the high-stage absorber, and further connected to the condenser, so that the second and the second cooling water lines are connected. An absorption refrigerator having a function of connecting a third cooling water line to an outlet header, closing an on / off valve, and controlling a cooling water pump to have a small flow rate. 6. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, wherein the cooling water pump is of a two-stage switching type, and a first cooling water line extending from the cooling water pump to the low-stage absorber. A second cooling water line having an on / off valve and extending from the cooling water pump to the high-stage absorber; and a third cooling water line extending from the downstream side of the on / off valve to the condenser. A first cooling water passage switching valve for switching a first cooling water line from the high-stage absorber to a high-stage absorber and switching a second cooling water line to an outlet header; A second cooling water flow path switching valve for switching the cooling water line to a condenser and switching the third cooling water line to an outlet header, a temperature sensor for a driving hot water or steam line, Provide another temperature sensor to detect the temperature of cooling water, A control unit for switching the first and second cooling water flow path switching valves and the on / off valve based on signals from the temperature sensor and another temperature sensor, and for switching the cooling water pump; Calculate a two-variable function that determines the flow from the temperature sensor and another temperature sensor, and connect the first cooling water line from the low-stage absorber to the outlet header if the value of the two-variable function is lower than a set value. To switch the second cooling water line to the high-stage absorber, connect the cooling water line from the high-stage absorber to the outlet header, switch the third cooling water line to the condenser, and turn on / off the valve. And the cooling water pump is set to a large flow rate, and when the value of the two-variable function is higher than a set value, the first cooling water line from the low-stage absorber is connected to the high-stage absorber, and further connected to the condenser. Connect to the second and Absorption refrigerating machine characterized by having a function of a third coolant line connected to the outlet header, and controls the cooling water pump to close the on-off valve to a small flow rate. 7. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, wherein a first cooling water line from the first cooling water pump to the low stage absorber and a second cooling water pump are provided. A second cooling water line leading to the high-stage absorber; and a third cooling water line leading to the condenser from the third cooling water pump. A first cooling water flow path switching valve for switching to the absorber and for switching the second cooling water line to the outlet header, for switching the second cooling water line from the high-stage absorber to the condenser, and A second cooling water flow path switching valve for switching the cooling water line to the outlet header; a temperature sensor for the driving hot water or steam line; and the first and second cooling water flow path switching valves based on a signal from the temperature sensor. And the first to third cooling water pumps Provide a control unit that operates
The control unit connects the first cooling water line from the low-stage absorber to the outlet header when the temperature of the temperature sensor is lower than a set value, and switches the second cooling water line to the high-stage absorber; The cooling water line from the high-stage absorber is connected to the outlet header, the third cooling water line is switched to the condenser, the second and third cooling water pumps are operated, and the temperature of the temperature sensor is set. When high, the first cooling water line from the low stage absorber is connected to the high stage absorber, and further connected to the condenser to connect the second and third cooling water lines to the outlet header, An absorption refrigerator having a function of controlling the third cooling water pump to stop. 8. An absorption refrigerator having a cooling water pump, an absorber, and a condenser, wherein a first cooling water line from the first cooling water pump to the low stage absorber and a second cooling water pump are provided. A second cooling water line leading to the high-stage absorber; and a third cooling water line leading to the condenser from the third cooling water pump. A first cooling water flow path switching valve for switching to the absorber and for switching the second cooling water line to the outlet header, for switching the second cooling water line from the high-stage absorber to the condenser, and A second cooling water passage switching valve for switching the cooling water line to the outlet header; a temperature sensor for the driving hot water or steam line; another temperature sensor for detecting the temperature of the cooling water; and a signal from the temperature sensor. The first and second cooling water flow path switching valves are turned off based on Interchange, and the first to third
A control unit that operates the cooling water pump of the present invention, the control unit calculates a two-variable function for determining the flow from the temperature of the temperature sensor and another temperature sensor, and the value of the two-variable function is lower than a set value. Connects the first cooling water line from the low stage absorber to the outlet header, switches the second cooling water line to the high stage absorber, and connects the cooling water line from the high stage absorber to the outlet header. Switching the third cooling water line to a condenser, operating the second and third cooling water pumps, and when the value of the two-variable function is higher than a set value, the first cooling water from the low-stage absorber. Connect the line to the high-stage absorber,
An absorption refrigerator having a function of connecting to a condenser, connecting the second and third cooling water lines to an outlet header, and controlling to stop the second and third cooling water pumps. .