JP2999773B2 - Abnormality notification device for absorption refrigerator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial application field The present invention relates to an apparatus for notifying an abnormality in the operation of an absorption refrigerator, an absorption heat pump, an absorption chiller / heater, or the like (hereinafter referred to as an absorption refrigerator).

(B) Conventional technology Absorption refrigerators may cause various operational abnormalities, such as overheating of the generator, freezing of cold water or refrigerant, or crystallization of the absorption liquid, for various reasons.

As a conventional technique for preventing these abnormalities, a thermostat is provided in a solution flow path, a refrigerant flow path, a chilled water flow path, and the like of an absorption refrigerator, and a fluid temperature in these flow paths is equal to or higher than an upper limit set value or lower limit set. When the temperature falls below the value, the absorption crystallization, chilled water, and refrigerant can be stopped by interrupting the steady operation of the absorption refrigerator, such as by stopping the heating of the generator or reducing the amount of cooling water supplied to the absorber. Protection device for absorption refrigerators to prevent freezing of water and overheating of the generator (for example,
JP-A-51-27006, JP-B-52-49493, JP-B-58-49493
No. 32111, Japanese Utility Model Publication No. 58-57670, Japanese Utility Model Application Publication No. 58-9375
No. 4 is known.

(C) Problems to be Solved by the Invention In a conventional protection device for an absorption refrigerator, the protection device for the absorption chiller is generated by the function of the thermostat without issuing a warning that there is a possibility of occurrence of the abnormality or notifying the location of the occurrence of the abnormality. The operation of the absorption refrigerator is automatically interrupted, for example, by stopping the heating of the vessel. For this reason, there has been a problem that the operation manager cannot easily know the location where the abnormality has occurred, cannot easily understand the cause of the operation interruption, and it is difficult to take effective measures.

The present invention has been made in view of the above-described problems, and indicates a location where an abnormality has occurred, such as an inspection of an absorption refrigerator after or before an abnormality has occurred, a location where an abnormality may have occurred, and an operation state of a driving device. It is an object of the present invention to provide an operation abnormality notification device for an absorption refrigerator capable of easily knowing the value of a physical quantity at a location and making it easy to take effective measures.

(D) Means for Solving the Problems The present invention provides, as means for solving the above-mentioned problems, a sensor for detecting a physical quantity of each part of the absorption refrigerator, and any one of the physical quantities while receiving a signal from the sensor. When it reaches the limit set value as an abnormal point, issues a command signal to stop the normal operation of the absorption refrigerator by controlling the start and stop of all or a part of the absorption refrigerator drive device, and When reaching the set value for warning before reaching the limit set value, a command signal for issuing a warning is issued, and the time at which any of the physical quantities reaches the set value for warning or the limit set value and the other time of the time. When the serviceman goes to the site and presses the error display key at a later date while the physical quantity value and the operating state such as the on / off state of the driving device at that time are stored as data in the storage element (RAM), (DOC) that issues a command signal to present (eg, print out) the data in a tabular form, and a data display (eg, a printer) that is connected to this controller via an interface and presents the data according to the command signal from the controller. And a display device) and an operation device (for example, a keyboard) that outputs a display signal for displaying data stored in a storage element (RAM) on a data display to a controller (DOC) at the time of operation. This constitutes an operation abnormality notification device.

(E) Operation The device of the present invention is an operating device that connects the sensor and the controller to a warning or data display via an interface, and displays data stored in a storage element on the display by operation. The location where an error occurred, the time when the error occurred, the operating status of the driving device at that time, the location where the abnormality occurred, and the location where no abnormality occurred The function (action) of notifying the operation manager of the value of the physical quantity, the location at which an abnormality may occur, the time at which the abnormality is approaching at the location, and the like as data on the data display unit.

By the above-described function of the device of the present invention, the operation manager can easily know at a glance the operating state of each part of the absorption refrigerator before and after the occurrence of the abnormality by operating the operating device and outputting the data, Further, based on this, the cause of the abnormality can be analyzed before a serious failure of the absorption refrigerator occurs, and appropriate and effective measures against the occurrence of the abnormality can be taken.

(F) Embodiment FIG. 1 is a schematic structural explanatory view showing an embodiment of an apparatus for notifying an abnormal operation of an absorption refrigerator according to the present invention. In FIG. 1, (A) is an absorption chiller / heater (absorption chiller), which comprises a high temperature generator (1), a low temperature generator (2),
Condenser (3), evaporator (4), absorber (5), low temperature solution heat exchanger (6), high temperature solution heat exchanger (7), pump (P _R ) for refrigerant liquid and for absorption liquid The pipes (8) and (9) through which the refrigerant flows through the pump (P _A ) and the pipes (1
0), lines (11) and (12) for reflux of the refrigerant liquid, lines (13), (14), (15) and (16) for the dilute absorption liquid, and a tube through which the absorption liquid of intermediate concentration flows (17), (18), the circulation path of the refrigerant [water] and the absorption liquid [aqueous lithium bromide] connected by the conduits (19), (20) through which the concentrated absorbent flows, and the water heater (2
1) The conventional high-temperature generator (1) is connected to a pipeline (8), (22) through which refrigerant vapor flows, and a refrigerant circulation path connected by a pipeline (23) through which refrigerant drain flows, by a conventional absorption chiller / heater. alike,
Make up.

(24) is the combustion heating chamber of the high temperature generator (1), (25),
(25) is a heating tube through which combustion gas flows, (26) is a flue,
(27) is a heater of the low-temperature generator (2), (28) is a cooler of the condenser (3), (29) is a cooler of the evaporator (4), (3)
0) is a cooler of the absorber (5), (31) is a heat exchanger of the water heater (21), (32) and (33) are a chilled water load side heat exchange unit [not shown] and a chiller (34), (35), and (36) are cooling towers (not shown), and cooling water pipes that connect coolers (30) and (28) in series. Three
7) and (38) are hot water pipes connecting the heat exchanger (30) and a hot water load side heat exchange unit (not shown). Also,
(B) is a burner for the high-temperature generator (1), (F) is a blower for the burner (B), and (39) and (40) are a burner (B) and a fuel source (not shown), respectively. The connected fuel supply path is an air supply path connecting the burner (B) and the blower (F).

(P _B ) is a pump for chilled water provided in the chilled water line (32),
(P _D ) is a hot water pump provided in the hot water line (37),
(P _C ) is a cooling water pump provided in the cooling water line (36),
(P _G ) is a non-condensable gas extraction pump. Also, (V _F )
Fuel control valve provided in the fuel supply passage (39), (V _R),
(V _A ) and (V _H ) are the pipelines (9), (14), and (23), respectively.
(V _G ) is an on-off valve provided in an extraction line (41) connecting an absorber (5) gas phase part and an extraction pump (P _G ), and (V _B ) is a pipe. This is an on-off valve provided on a refrigerant liquid blowing conduit (42) connecting the passage (12) and the liquid reservoir of the absorber (5).

(S ₁ ) and (S ₂ ) are temperature and flow rate detection sensors provided in the cold water pipes (33) and (32), respectively, and (S ₃ ) and (S ₄ ) are cooling water pipes (34) and (S ₄ ), respectively. temperature with 36), flow rate detecting sensor, (S _5), (S ₆₎ are each heated line (3
8), temperature and flow rate detection sensor provided in (37),
_{(S 7), (S 8} ), (S 9) each hot generator (1),
Sensor for detecting pressure provided in low-temperature generator (2) and absorber (5), (S _A ) is provided for temperature detection provided in pipe (9), and (S _B ) is provided in pipe (10) Temperature detection sensor,
(S _C ) and (S _D ) are temperature and flow rate detection sensors provided in pipes (11) and (12), respectively, (S _E ) is a flow rate detection sensor provided in pipe (14), and (S _E ) _F ), (S _G ) and (S _H ) are temperature detection sensors provided in pipes (13), (15) and (16), respectively, (S _I ), (S _J ), (S _K ), (S _L ) is a temperature detection sensor provided in each of the pipes (17), (18), (19), and (20), and (S _M ) and (S _N ) are pipes (18) and (20). Sensors for flow rate detection provided in (1), (S _O ), (S _P ), and (S _Q ) are liquid level detection provided in high temperature generator (1), low temperature generator (2), and absorber (5), respectively. It is a sensor. Also,
(S _R ) and (S _T ) are temperature detection sensors provided in the flue (26) and pipe (23), and (S _U ) and (S _W ) are condenser (3) and evaporator, respectively. This is a liquid level detection sensor provided in (4).

(DOC) is a controller (controller), a keyboard (operating device) (KB) equipped with the controller, an error display key (K) and a print key (P), and a printer (PR) and a lamp (L) as indicators. ) And the various sensors and pumps (P _R ), (P _A ), (P _B ),
_{(P D), (P C} ), (P G) and the valve _{(V A), (V R} ),
(V _H ), (V _F ), (V _G ) and driving equipment such as burner (B) and blower (F)
F _S ), (I / F _KB ), (I / F _OC ), and (I / F _L.PR ) are connected to provide an abnormality notification device for the absorption chiller / heater (absorption chiller) , This device).

FIG. 2 is a block diagram of the present apparatus shown in FIG. In Fig. 2, the controller (DOC)
Has an input interface (I / F _S ) that receives analog signals from various sensors, a CPU (central processing unit),
ROM (read only memory), RAM (random access memory), input interface (I / F _KB ) to receive digital signal from keyboard ( _KB ), clock (CLOC
K), output interface (I / F _L.PR ) for sending digital signals to the lamp (L) as a warning indicator and the printer (PR) as a data presentation indicator, analog to various valves, pumps and burners Alternatively, computer components such as an output interface (I / F _OC ) for transmitting a pulse signal are incorporated.

In the RAM built into the above controller (DOC), the limit set value as an abnormal point of each physical quantity detected by various sensors and the set value for warning before reaching this limit set value are operated by keyboard (KB) operation. It is stored in advance. In addition, the RAM stores the instantaneous values of various physical quantities as data in response to signals from various centers.

When one of the physical quantities detected by the sensor reaches the set value for warning, the signal input from the sensor to the controller (DOC) is accessed between the CPU, ROM, and RAM, and the controller (DOC) uses the ramp ( L) to issue a warning command signal. When one of the physical quantities detected by the sensor reaches the limit set value, the signal input to the controller (DOC) from that sensor is accessed between the CPU, ROM, and RAM, and the pump and burner are sent from the controller (DOC). A command signal for controlling operations such as the above is transmitted. And, when any of the physical quantities detected by the sensor reaches the set value for warning or the limit set value, the controller (DOC) accesses the signal between the CPU, ROM, RAM, and clock (CLOCK), The time when the warning set value or the limited set value is reached and the operating state of the pump, burner and other driving equipment such as the on / off state at that time are stored as data in RAM, and a service person goes to the site at a later date When the abnormal display key (K) is pressed, a display signal is output to the controller (DOC), and the data and the various physical quantities stored in the RAM at the above time are printed out in a table by the printer (PR). Command signals are sent to the printer (PR).

Next, an operation example of the thus configured absorption refrigerator operating abnormality notification device (hereinafter, referred to as the present device) will be described.

FIG. 3 shows the control command operation of the fuel control valve (V _F ) and the flow control valve (V _A ) of the absorption refrigerator drive device by the present device, and the control of the lamp (L) as a warning indicator by the present device. One operation of this device, such as command operation, start / stop command operation of this device for absorption liquid pump (P _A ) and burner (B) of absorption chiller driving device, and command operation of this device for printer (PR) 6 is a flowchart illustrating an example. The programs for these command operations are stored in the ROM of the controller (DOC).

During operation of the absorption refrigerator (A), if the liquid level in the high-temperature generator (1) starts to drop for some reason and the liquid level reaches a set value for warning, it is assumed that the liquid level is left as it is. Drops further, the liquid level falls below the limit set value, and eventually the high temperature generator (1) falls into the empty firing. In such a case, the controller (DOC) of the present apparatus accesses the signal from the sensor (S _O ) between the CPU, ROM, and RAM to store the liquid level of the high-temperature generator (1) in RAM in advance. First, the operation at the stage of determining whether or not the set value for warning on the lower limit side has been reached is performed. In this case, since the liquid level has reached the lower-limit warning set value, the determination of the step is YES. Next, the controller (DOC) performs an operation of issuing a command signal for operating the lamp (L) as a warning indicator, and the red lamp is turned on. On the other hand, if the liquid level has not dropped to the lower-limit warning set value, the determination at the step is NO, and the operation at the step is repeated.

Although not shown in the flowchart of FIG. 3, during operation of the absorption refrigerator (A), the controller (DOC) of the present apparatus receives signals from the sensor (S _O ) and other sensors. By accessing this between the CPU, ROM, RAM, and clock (CLOCK), the instantaneous value of the physical quantity detected by the sensor is stored as data in the backup area of RAM (the part where the power supply at the time of power failure is backed up by the battery). The data is stored and this data is sequentially stored. In addition, during the suspension of operation of the absorption refrigerator (A), the power of the apparatus is usually turned off and the controller (DOC) does not operate, so that no data is stored in the RAM. However, while the absorption chiller (A) is not operating, the power of the apparatus is turned on and the print key (P) and the abnormality display key (K) of the keyboard (KB) are operated to operate the controller (DOC). It is possible to print out the stored data by a printer (PR).

At the same time when the lamp (L) is turned on by performing the step operation, the controller (DOC) of the present apparatus performs the step operation of issuing a control command signal to the fuel control valve (V _F ) and the flow control valve (V _A ). The opening of the flow control valve (V _A ) is increased while the opening of the fuel control valve (V _F ) is reduced. Further, by accessing the control command signal, the transmission time of the control command signal, the fuel control valve (V _F )
The operation of the stage of storing the opening degree of the flow control valve (V _A ), the physical quantity sensed by various sensors, and the like in the RAM as data is performed.

And the controller (DOC) of this device is
, The operations of the steps for determining whether or not the liquid level of the high-temperature generator (A) has become larger than the lower-limit warning set value are performed. When this determination is YES, that is, when the opening of the fuel control valve (V _F ) is reduced and the opening of the flow control valve (V _A ) is increased, the liquid level is warned for the lower limit. When the liquid level rises above the set value, the operation at the stage of canceling the operation command of the lamp (L) is performed, the red light of the lamp (L) is turned off, and the process returns to the determination operation at the stage again. On the other hand, when the determination of the step is NO, that is, when the liquid level of the high temperature generator (1) does not rise even after controlling the opening of the valve,
The operation at the stage of judging whether or not the liquid level has reached the lower limit set value is performed.

When the determination of the step is NO, the controller (DOC) issues a command signal for further reducing the opening of the fuel control valve (V _F ) while further increasing the opening of the flow control valve (V _A ). Is performed, and the process returns to the stage determination operation. When the determination of the step operation is YES, the controller (DOC) controls the burner (B).
Of the stage of issuing the stop command signal of
The transmission time of this stop command signal and the opening and closing states of the fuel control valve (V _F ) and flow control valve (V _A ) and other valves and the burner (B) and other driving devices for the absorption refrigerator at that time. In addition, the operation of the step of storing the operating state of the absorption refrigerator such as the physical quantity sensed by various sensors as data in the RAM is performed. By performing the stepwise operation, the heating of the high-temperature generator (1) is stopped, the refrigeration operation of the absorption refrigerator (A) is stopped, and a so-called absorption liquid dilution operation is started. Further, by performing the stepwise operation, the stop time of the freezing operation, the values of various physical quantities at that time, and the operating state of the absorption refrigerator (A) are stored as operation data on the RAM.

Then, the controller (DOC) of the present apparatus performs the counting (step operation) for a predetermined time (for example, 20 minutes) after the step operation, and after counting 20 minutes, the pump for absorbing liquid other than the burner (B) ( The operation at the stage of issuing a command signal for stopping the driving devices for the absorption refrigerator such as the pump (P _A ) and the pump for cold water (P _B ) is performed. By performing the step operation, the dilution operation for 20 minutes is completed, and the operation of the absorption refrigerator (A) is completely stopped. Then, when the serviceman goes to the site at a later stage and performs the operation of the print key (P) and the error display key (K) of the keyboard (KB), the controller operates based on the display signal from the keyboard (KB). (DOC) performs an operation of issuing a command signal to the printer (PR) for printing out the data stored in the RAM as a table.

As described above, when the liquid level of the high temperature generator (1) drops abnormally, the present apparatus automatically stops the function of leaving it to the operation manager and the operation of the absorption refrigerator (A). It exerts the function of preventing the high-temperature generator (1) from being idled. In addition, the present apparatus has a function of recording the operating state of the absorption refrigerator at the time of abnormal liquid level drop and values of various physical quantities and displaying them, which is useful for analyzing the cause of abnormal liquid level drop. . In addition, the present device has a function of notifying even when the liquid level of the high-temperature generator (1) rises abnormally, and the flow control valve (V _A ) reversely operates when the liquid level drops. And stop the operation of absorption liquid pump (P _A ) to stop absorption chiller (A)
By stopping the refrigeration operation, the function of preventing the absorption liquid from overflowing from the high-temperature generator (1) to the condenser (3) via the pipes (8) and (9) is of course also exerted. And again
Of course, the function of recording the operating state at the time of abnormal liquid level rise and the values of various physical quantities and displaying them is useful for analyzing the cause of abnormal liquid level rise.

In addition, this device is not limited to the liquid level detection sensor (S _O ), but also sends signals from the pressure detection sensor (S ₇ ), temperature detection sensors (S _R ) and (S _I ) to the controller (DOC).
Access between the CPU, ROM, RAM, and clock (CLOCK) of the high temperature generator (1),
Of course, it also has a function to report abnormalities such as temperature rise and temperature drop.

Furthermore, the present apparatus is not limited to the function of notifying the abnormality of the high-temperature generator (1), but also accesses the signals of the temperature detection sensor (S ₁ ) and the flow rate detection sensor (S ₂ ), thereby making the cold water excessive. Function to report abnormalities such as temperature drop or temperature rise (for example, fear of freezing of frozen water or loss of refrigeration capacity),
Temperature detection sensor (S ₅₎ Function for informing abnormality such as hot water heating or insufficient heat by accessing a signal, the absorption refrigerating machine by accessing the signal from the pressure detecting sensor (S ₉₎ (A) Of course, it has a function of notifying various abnormalities, such as a function of notifying an abnormal increase of non-condensable gas in the inside.

The device notifies the various abnormalities, and at the same time, uses the keyboard (data) to indicate the operating state of the absorption refrigerator such as the valve opening at the time of the abnormalities, the ON / OFF states of the driving devices, and the physical quantities detected by various sensors. It has a function to present it to the operation manager by operating KB). In addition, in the event of an abnormality such as the possibility of freezing of cold water or the possibility of empty heating of the generator, this device will stop the cooling water pump and stop the operation of the burner. It has the function of stopping the operation of the absorption chiller before causing a serious failure such as rupture of the pipe for cold water or damage to the generator.

FIG. 4 shows the data printed out when the operation manager operates the keyboard (KB). The data includes the location where the abnormality may have occurred, the time when the abnormality has occurred and the time when the abnormality occurred. 6 is a table showing an example of data of an operating state of a driving device controlled by the above. In the data example of FIG. 4,
Liquid level of the high-temperature generator (1) is reduced to the warning set value 1985 October 30, 14:00 39 min 5 sec, the opening degree of the fuel control valve (V _F)
It is controlled to be 25%, indicating that the opening of the flow control valve (V _A ) for the diluted absorption liquid has been controlled to be 75%. Here, although not shown in FIG. 4, the values of various physical quantities are also printed out and described.

FIG. 5 is a table showing a time when the normal operation (refrigeration operation) of the absorption refrigerator is stopped due to the occurrence of an abnormality and an example of data on the state of the absorption refrigerator at that time. In the data example of Fig. 5, the liquid level of the high-temperature generator (1) dropped excessively at 14:49:32 on October 30, 1985, and the liquid level dropped to the limit set value. As a result, the burner (B) was stopped to stop the heating of the high-temperature generator, and the state of the absorption refrigerator such as the ON / OFF state of the driving equipment, the valve opening, and the values of various physical quantities at this time was displayed. I have.

Then, the operator or serviceman can analyze the data to find out the cause of the liquid level drop of the high-temperature generator.

(G) Effects of the Invention As described above, the device of the present invention can be operated by operating the operating device, the location of the occurrence of the abnormality during the operation of the absorption refrigerator, the time of the occurrence of the abnormality, the operating state of the driving device at that time, and the occurrence of the abnormality. This function is provided to display the values of physical quantities such as temperature, flow rate, pressure, etc. on the display unit as data and notify the operation manager at the location and other locations where abnormalities may occur. Compared to conventional protection devices and safety devices, the administrator operates the operating device after or before the occurrence of an abnormality, so that the operator can know at a glance the location of the abnormality or a place where there is a possibility of an abnormality on the display. This provides the effect that the cause of the abnormality can be more accurately known at the time of inspection after the occurrence of the abnormality.

Therefore, it is possible to take more appropriate and effective measures against the occurrence of abnormalities, to prevent serious failure of the absorption refrigerator properly, and to use the absorption refrigerator safely and economically for a long time. Become.

[Brief description of the drawings]

FIG. 1 is a schematic structural explanatory view showing an embodiment of the apparatus of the present invention, FIG. 2 is a block diagram showing an example of the apparatus of the present invention, FIG. 3 is a flowchart showing an operation example of the apparatus of the present invention, FIG. FIGS. 4 and 5 are tables showing examples of data printed out by the apparatus of the present invention. (A) Absorption refrigerator, (DOC) Controller, (KB) Keyboard (operating device), (PR) Printer (display), (L) Warning lamp, (1)
... High temperature generator, (2) ... Low temperature generator, (3) ... Condenser, (4) ... Evaporator, (5) ... Absorber, (B) ...
… Burners, (P _R ), (P _A ), (P _C ), (P _G ),
(P _B ), (P _D ) ... Pump, (F) ... Blower, (V _F )
…… Fuel control valve, (V _B ) …… On-off valve, (V _A ), (V _R ),
(V _H ) Flow control valve, (KB) Keyboard, (V _G )
…… On-off valve, (S _O ), (S _P ), (S _Q ), (S _U ), (S _W )
…… liquid level detection sensor, (S ₂ ), (S ₄ ), (S ₆ ),
(S _E ), (S _M ), (S _N ), (S _E ) ... flow rate detection sensor, (S ₇ ), (S ₈ ), (S ₉ ) ... pressure detection sensor,
(S ₁ ), (S ₃ ), (S ₅ ), (S _A ), (S _B ), (S _C ),
(S _F ), (S _G ), (S _H ), (S _I ), (S _J ), (S _K ),
(S _L ), (S _R ), (S _T ) ... Temperature detection sensor, (CP
U) Central processing unit, (I / F _S ), (I / F _KB ),
(I / F _L.PR ), (I / F _OC ) …… Interface.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) F25B 15/00 F25B 49/04

Claims (1)

(57) [Claims] When a solution concentration, a vapor pressure, a liquid level, a temperature of a cold / hot water flow path, or a physical quantity such as a flow path in a generator reaches a limit set value set as an abnormal point, the generator A heating device, a pump for absorbing liquid, a pump for refrigerant liquid, and the like, are controlled to start and stop a driving signal and output a command signal for normally stopping the operation of the absorption refrigerator. A command signal for issuing a warning when the set value for warning before reaching the set value is exceeded is issued, the time when at least one of the two command signals is output, the value of the physical quantity at that time, and the time of the time. A control device for storing data including an operation state such as an on / off state of the driving device; and an operation device for outputting a display signal for presenting the data to a data display via an interface to the controller. Operation abnormality notification device of the absorption refrigerator according to claim Rukoto.