JP2001357471A - Warning collecting system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a warning collecting system capable of specifying which device to be monitored a warning has come from by simple constitution and specifying the kind of the warning. SOLUTION: In each of devices to be monitored 1-1-1 to 1-1-n, a device to be monitored ID generation circuit 1-15 generates a device to be monitored ID in response to a warning signal. Further, in accordance with the kind of this warning signal, warning kind ID generation circuits 1-16 to 1-19 generate a warning kind ID. When plural warning signals are generated simultaneously then, a selection part 1-21 selects one warning kind ID in accordance with a priority order fixed in advance by a priority processing part 1-20. Next, an OR gate 1-29 adds this selected warning kind ID to the back of the device to be monitored ID to send it to a centralized monitoring device (a warning collecting processing part 1-25 + a monitoring part 1-28) through a serial warning bus 1-24.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an alarm collection system, and more particularly to an alarm collection system including a plurality of monitored devices and a centralized monitoring device for centrally monitoring the plurality of monitored devices.

[0002]

2. Description of the Related Art As a prior art, Japanese Patent Application Laid-Open No. H11-73583.
Discloses an alarm collection system. FIG. 5 is a block diagram showing the configuration of the alarm collection system disclosed in this publication.
Referring to FIG. 5, a plurality of monitored devices 5-1-1 to 5-5-1.
An alarm signal from 1-n (n is an integer of 2 or more) is collected in an alarm collection processing unit 5-2 and sent to a monitoring unit 5-3. Monitored devices 5-1-1 to 5-1-n
Indicates a packaged configuration for processing data or the like, or a configuration unit of a certain device such as a unit configured by inserting a board into a plurality of slots. A detection unit 5-5 for detecting the occurrence of each abnormality in -1-n and a differentiation circuit 5-6 for differentiating and pulsating the alarm signal from the detection unit 5-5.

The alarm collection processing unit 5-2 latches a pulsed alarm signal input via the alarm bus 5-4 by a latch unit 5-7, and uses the latched output as an alarm signal as a monitoring unit 5--2. 3 and the latch section 5-7 is reset by the reset section 5-8. Monitored device 5-1-1-5
-1-n and the alarm collection processing unit 5-2 are connected via the alarm bus 5-4, so that the additional monitored device 5-1 is connected.
Since (n + m) only needs to be connected to the alarm bus 5-4, expansion of the system scale can be easily dealt with. Further, the alarm collection processing unit 5-2 includes one for connection with the alarm bus 5-4.
The configuration is simplified because only terminals are required.

FIG. 6 is a timing chart for explaining the operation of the alarm collection system shown in FIG. For example, when the detection unit 5-5 of the monitored device 5-1-1 detects an abnormality and sends out the alarm signal 5-, the differentiating circuit 5-5
The alarm signal 5- is differentiated by -6 and pulsed.
Then, the pulsed alarm signal 5- at the time of the rising of the alarm signal 5- is transmitted. When the detection unit 5-5 of the other monitored device 5-1-2 detects the occurrence of an abnormality and sends out the alarm signal 5- while outputting the alarm signal 5-, the differentiating circuit 5-6. , The alarm signal 5- is differentiated, and a pulsed alarm signal 5- is transmitted.

Accordingly, the pulsed alarm signal 5- input to the alarm collection processing unit 5-2 via the alarm bus 5-4 is
This includes a pulsed alarm signal 5- from the monitored device 5-1-1 and a pulsed alarm signal 5- from the monitored device 5-1-2. Then, the signal is latched by the latch unit 5-7 of the alarm collection processing unit 5-2 and sent to the monitoring unit 5-3 as the pulsed alarm signal 5-. This latch section 5-
7 is reset by a reset signal 5 from a reset unit 5-8. The reset unit 5-8 inverts the pulsed alarm signal 5- input to the latch unit 5-7 and resets the reset signal. 5-, and the latch section 5-7 is reset at the rising timing.

FIG. 7 is a block diagram showing another configuration of the conventional alarm collection system. When it is necessary to monitor a plurality of states in each of a plurality of monitored devices, in the configuration of the conventional alarm collection system, as shown in FIG. 1-1 to 7-1-n
Of the states to be monitored in each of the
2-7-4 or the number of differentiating circuits 7-5 to 7-7) and the same number of alarm buses 7-13 to 7-15 are provided. 7-7, respectively, and a latch unit +
Reset unit 7-9 to 7-11 is connected to alarm bus 7-13 to 7-
15 respectively.

[0007]

In the prior art shown in FIG. 5, the pulsed alarm signal 5- sent to the monitoring section 5-3 simply indicates the abnormal state detected by each of the detecting sections 5-5. From this, only the alarm generation timing information can be read. For this reason, a plurality of monitored devices 5-
When an alarm signal is generated in 1-1 to 5-1-n, there is a disadvantage that the monitoring unit 5-3 cannot determine which monitored device is the alarm signal.

When it is necessary to monitor a plurality of states in each of a plurality of monitored devices, the configuration of the alarm collection system shown in FIG. 7 is employed. That is, when the detection units 7-2 to 7-4 of the monitored device 7-1-1 detect the occurrence of an abnormality, pulsed alarm signals are output from the differentiating circuits 7-5 to 7-7, respectively. These pulsed alarm signals are simply differentiated by differentiating circuits 7-5 to 7-7. To determine the type of alarm, the detection units 7-2 to 7-7 are used.
7-4, the same number of alarm buses 7-13 to 7-15 as the alarm bus 7-7, and a latch unit + reset unit 7-9 to 7-
11 has to be prepared, and there is a disadvantage that there is a possibility that restrictions on package mounting may occur. Further, when the number of items to be monitored increases due to a change in the specifications of the apparatus, there is a disadvantage that the influence on the hardware increases.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an alarm collecting system capable of specifying an alarm from which monitored device, and specifying the type of the alarm.

[0010] Another object of the present invention is to provide an alarm collection system that can have a simple configuration as compared with the configuration of the prior art.

[0011]

An alarm collection system according to the present invention is an alarm collection system including a plurality of monitored devices and a centralized monitoring device for centrally monitoring the plurality of monitored devices. Each of the monitored devices includes a plurality of detecting means for detecting occurrence of an abnormality and transmitting an alarm signal, and a monitored device I specific to the monitored device in response to the alarm signal.
A monitored device ID generating unit that generates D; an alarm type ID generating unit that generates a plurality of alarm type IDs unique to each of the plurality of detecting units in response to the alarm signal; Transmitting means for synthesizing the alarm type ID and transmitting it to the centralized monitoring device.

Further, in the alarm collection system, each of the plurality of monitored devices, when a plurality of the alarm signals are generated simultaneously, according to a predetermined priority of the plurality of detection means. Selecting means for selecting the alarm type ID having the highest value of
The selected alarm type ID and the monitored device ID are combined and transmitted to the centralized monitoring device.

Further, in the alarm collection system,
The monitored device ID generation unit, a logical sum circuit that performs a logical sum operation on alarm signals transmitted from the plurality of detection units,
A monitored device ID generation circuit that generates the monitored device ID in response to the OR output; a stretching circuit that extends the OR output by at least the same number of bits as the monitored device ID; A selection unit that passes the monitored device ID only during the existence period of the logical sum output.

Further, in the alarm collecting system, the alarm type ID generating means shifts an alarm signal sent from the plurality of detecting means by at least the same number of bits as the monitored device ID; In response to the outputs of the plurality of shift circuits, the alarm type ID
And a plurality of alarm type ID generating circuits for generating the alarm type IDs.
And serially transmitting them.

Still further, in the alarm collecting system, the centralized monitoring device is connected to the plurality of monitored devices via a serial alarm bus.

The operation of the present invention is as follows. In each of the monitored devices, a serial monitored device ID is generated in response to the generation of the alarm signal, and a serial alarm type ID is generated according to the type of the alarm signal. These two I
D is serially synthesized and sent to the monitoring unit via the serial alarm bus. The monitoring unit can identify the monitored device that has generated the alarm and the type of the alarm by using the two IDs. In this case, when a plurality of alarms are simultaneously generated in one monitored device, only one alarm is selected and output according to a predetermined priority. With this configuration, the alarm generating device and its type can be easily specified with a simple configuration.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the alarm collection system according to the embodiment of the present invention. An alarm detected by the monitored device 1-1-1 to 1-1-n is sent out via the serial alarm bus 1-24, and the alarm collection processing unit 1
This is an alarm collection system that sends the result to the collective monitoring unit 1-28 at -25.

The monitored device 1-1-1 to 1-1-n has a packaged configuration for processing data or the like, or
It shows a structural unit of a certain device such as a unit configured by inserting a board into a plurality of slots. Inside each of the plurality of monitored devices 1-1-1 to 1-1-n, as detecting means, detecting units 1-1 to 1-1 for detecting the occurrence of a plurality of (for example, four) abnormalities are provided. 4 and the same number of differentiating circuits 1-1 as detectors 1-1 to 1-4 to capture a change in the state of the alarm.
5 to 1-8.

The monitored devices 1-1-1 to 1-1-n
, A logical OR (OR) gate 1-13 for performing a logical OR operation on the pulsed alarm signal output from the differentiating circuits 1-5 to 1-8 as a monitored device ID generating means, Monitored device ID generation circuit 1-15 that generates a monitored device ID unique to the monitored device in response to the sum output
In order to create the timing required for inserting the monitored device ID into the alarm bus 1-24, the OR output is extended by 4 bits to extend the same number of bits as the monitored device ID (for example, 4 bits). A circuit 1-14 and a selection (SEL) unit 1-23 for passing the monitored device ID based on the extended OR output are provided.

The number of bits of the monitored device ID only needs to be the number of bits corresponding to the number of monitored devices. In the case of 4 bits, the monitored device ID corresponds to 2 4 (16) monitored devices. You can do it.

Further, the monitored devices 1-1-1 to 1-1-1
Within each of the −1-n, a 4-bit shift unit 1-9 to 1-12 that shifts (delays) the pulsed alarm signal by the same number of bits as the monitored device ID as alarm type ID generation means.
And an alarm type ID generation circuit 1-16 to 1-19 for generating an alarm type ID unique to each of the detection units 1-1 to 1-4 in response to the shifted pulsed alarm signal. I have.

Further, the monitored devices 1-1-1 to 1-1-1
−1-n, as a selection unit, a priority processing unit that preferentially processes the shifted pulsed alarm signal in order to notify the centralized monitoring device of occurrence of a highly urgent abnormality with priority. 20 and the number of bits equal to the number of bits of the alarm type ID (for example, 4 bits) in order to create the timing required for inserting the alarm type ID into the alarm bus 1-24. And a warning type ID according to a selection signal output from the 4-bit stretching circuit 1-22.
And a SEL unit 1-21 for selecting one alarm type ID from among the alarm type IDs from the generation circuits 1-16 to 1-19.

As for the number of bits of the alarm type ID,
Of course, it corresponds to the number of alarm types detected by the detection units 1-1 to 1-4, respectively. Also, the priority processing unit 1-2
Reference numeral 0 denotes a ROM (read-only memory), which is a signal 1- (12) for selecting an alarm type ID corresponding to a predetermined highest priority alarm signal in accordance with the input pulsed alarm signal. ) Is output.

Further, the monitored devices 1-1-1 to 1-1
1-n, the SEL unit 1
An OR gate 1-29 is provided which performs a logical OR operation on the alarm type ID and the monitored device ID, which are outputs of -21 and 1-23, and sends the result to the serial alarm bus 1-24 as a composite ID.

The centralized monitoring device includes an alarm collection processing unit 1-25.
And a monitoring unit 1-28. Alarm collection processing unit 1-2
5 includes a serial alarm bus 1-2 as decoding means.
4 is provided with a decoding unit 1-30 for confirming the normality of the monitored device ID portion of the composite ID sent via the communication unit 4. The decoding unit 1-30 holds a serial-parallel (S / P) conversion circuit 1-26 for converting a composite ID that is a serial signal into a parallel signal, and a monitored device ID. A logic gate unit 1-27 for checking the monitored device ID portion of the combined ID, and a logic gate unit 1-27
An 8-bit stretching circuit 1-31 for extending the same number of bits (for example, 8 bits) of the composite ID as the detection coincidence signal sent from the multiplexing circuit, and ANDs the extended detection coincidence signal and the composite ID Logical product to operate (AND)
A format conversion unit 1-3 for converting the data into an interface required by the monitoring unit 1-28.
3 are provided.

The logic gate section 1-27 holds the monitored device ID, and holds the held ID and the S / P conversion circuit 1-27.
The logic gate 1 compares the parallel ID output from the reference 26 and outputs a detection coincidence signal when they coincide with each other.
27-1 to 1-27-n, and an OR gate 1-50 for performing an OR operation on these outputs.

FIG. 2 is a timing chart for explaining the operation according to the embodiment of the present invention. In FIG. 2, 1- (2) to 1- (16) are the same as those shown in FIG.
-(2) to 1- (16), and 1- (1) indicates the monitored device 1-1-1 to 1-1-n and the alarm collection processing unit 1.
-25 and a monitoring unit 1-28, and is a system clock common to the monitoring units 1-1-1 to 1-1-n to detect a change in the monitoring state (alarm state).
5 to transfer the alarm information to the alarm collection processing unit 1
This is a synchronous clock used for alarm transfer from -25 to the monitoring unit 1-28.

First, the detecting unit 1-1 detects the occurrence of an abnormality,
The operation until the alarm signal is converted into ID information and transmitted to the alarm bus 1-24 will be described. In FIG. 2, 1- (2) shows how the detection unit 1-1 detects occurrence of an abnormality and outputs an alarm state.
Shown in Here, the non-alarm state (without alarm) is indicated as “L (low)”, and the alarm state (with alarm) is indicated as “H (high)”. The differentiating circuit 1-5 outputs the alarm signal 1- (2).
Is differentiated by a common clock 1- (1), and the result is 1- (3)
Shown in The differentiated pulsed alarm signal 1- (3) is 4
The input is input to an input OR gate 1-13. Here, since it is necessary to generate a monitored device ID unique to the monitored device with respect to the pulsed alarm signal from any of the differentiating circuits 1-5 to 1-8, the configuration includes the OR gate 1-13. ing. The signal 1- output from the OR gate 1-13
(4) is a load (L) of the monitored device ID generation circuit 1-15.
OAD) terminal. FIG. 3 is a diagram showing the correspondence between monitored devices and monitored device IDs according to the present embodiment, and shows a case where there are 15 monitored devices. In FIG. 3, "0001" is assigned to the monitored device 1-1-1 as the monitored device ID, and thus the initial value of the monitored device ID generation circuit 1-15 is also set to "0001". . As a result, the monitored device ID generation circuit 1-1
5 outputs the monitored device ID “0001” 1- (5). The generated monitored device ID1- (5) is transmitted to the alarm bus 1
As a timing pulse to be inserted into −24, the 4-bit stretching circuit 1-14 extends the signal 1- (4) by 4 bits and outputs the monitored device ID selection signal 1- (6). During the existence period of the monitored device ID selection signal 1- (6), the SEL unit 1-23 passes the monitored device ID1- (5).

The pulsed alarm signal 1- (3), which is the output of the differentiating circuit 1-5, has a 1- (7) output from the 4-bit shift unit 1-9 because of the position where the alarm type ID is inserted.
As shown in (1), it is output at a position delayed by 4 bits (4 clocks). The alarm type ID generation circuit 1-16 includes an alarm type ID corresponding to the alarm signal detected by the detection unit 1-1.
(For example, composed of 4 bits), and the input signal 1- (7) is LOAD of the alarm type ID generation circuit 1-16.
By being input to the terminal, an alarm type ID1- (11) unique to the alarm signal (unique to the detection unit 1-1) is output.

In the configuration according to the present embodiment, the monitored device 1-
Priority processing is performed on alarm signals generated simultaneously in 1-1 to 1-1-n, and the alarm signal with the highest priority is transferred. FIG. 4 is a diagram for explaining the priority processing operation of the priority processing unit 1-20 according to the present embodiment.
In FIG. 4, the highest priority is given to the detection unit 1-1, and the detection units 1-2, 1-3, and 1-4 are given the following priority. When an alarm is generated only in the detection unit 1-1 (“1” in FIG. 4 indicates an abnormality detection state of the detection unit), as indicated by the input pattern 1, the priority processing unit 1-20 outputs A signal 1- (12) of 1 (h) in hexadecimal notation is output. As a timing pulse for inserting the alarm type ID 1- (11) into the serial alarm bus 1-24,
The 4-bit extending circuit 1-22 extends the signal 1- (12) by 4 bits and outputs the alarm type ID selection signal 1- (1).
3) is output. This alarm type ID selection signal 1- (1
According to 3), the SEL unit 1-21 sets the alarm type ID1-
(11) is selected and transmitted.

If the detection units 1-2 and 1-3 simultaneously detect the occurrence of an abnormality, the input pattern 6 shown in FIG.
(H) is output, and the SEL unit 1-21 selects the alarm type ID from the alarm type ID generation circuit 1-17.

The monitored device ID 1- (14) and the alarm type ID 1- (15) sent from the SEL sections 1-23 and 1-21 are input to the OR gate 1-29, respectively, and the result of the OR operation is performed. , And are serially transmitted to the serial alarm bus 1-24 as a composite ID 1- (16) in which an alarm type ID is added after the monitored device ID.

Next, the composite ID 1- (1) input to the alarm collection processing unit 1-25 via the serial alarm bus 1-24.
The operation until 6) is transferred to the monitoring unit 1-28 will be described. Synthetic I via serial alarm bus 1-24
D1- (16) is input to the alarm collection processing unit 1-25. In the decoding unit 1-30, the monitored device ID is compared with the contents shown in FIG.
The composite ID is sent to -33. Format conversion unit 1
At -33, the composite ID is converted into a signal format required by the monitoring unit 1-28.

The decoding unit 1-30 includes an S / P conversion circuit 1-
The serial composite ID 4- (16) sent from the serial alarm bus 1-24 is always parallel-converted. The logic gate unit 1-27 includes logic gates 1-27-1 to 1-27-n for detecting a monitored device ID. These logic gates 1-27-1 to 1-27-n
Are provided in correspondence with the monitored devices 1-1-1 to 1-1-n, respectively, and the IDs of the corresponding monitored devices are held in advance. The monitoring device ID portion is compared with the held ID to detect a match. When the monitored device ID is detected, the detection coincidence signal 1 is passed through the OR gate 1-50.
-(17) is sent out. 8-bit extension circuit 1-
31 extends the detected coincidence signal 4- (17) by 8 bits and ANDs the extended detected coincidence signal 4- (18).
Send to gate 1-32.

The AND gate 1-32 is connected to the logic gate unit 1
If the monitored device IDs match at -27, the combined ID 4- (16) from the serial alarm bus 1-24 is sent to the format converter 1-33. Conversely, if the monitored device IDs do not match, the serial alarm bus 1-2
The combination ID 4- (16) from No. 4 is masked.

Thereafter, the format conversion section 1-33
The composite ID 4- (1) which is the output of the AND gate 1-32
6) is converted into a signal format required by the monitoring unit 1-28 and sent to the monitoring unit 1-28.

[0037]

The first effect of the present invention is that it is possible to specify which monitored device the alarm is from and the type of the alarm. The reason is that a monitored device ID unique to the monitored device and an alarm type ID unique to the alarm content are added to the alarm signal.

A second effect of the present invention is that when a plurality of alarms are collected in the monitored device, an alarm collection system having a simpler configuration can be realized as compared with the case of the prior art. . The reason is that by adding the alarm type ID to the alarm signal serially, the alarm content can be specified via only one serial alarm bus.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of an alarm collection system according to an embodiment of the present invention.

FIG. 2 is a timing chart for explaining the operation of the alarm collection system according to the embodiment of the present invention.

FIG. 3 shows a monitored device and a monitored device ID according to the embodiment of the present invention.
FIG.

FIG. 4 is a diagram for explaining a priority processing operation of a priority processing unit 1-20 according to the embodiment of the present invention.

FIG. 5 is a block diagram showing a configuration of a conventional alarm collection system.

FIG. 6 is a timing chart for explaining the operation of a conventional alarm collection system.

FIG. 7 is a block diagram showing another configuration of the conventional alarm collection system.

[Explanation of symbols]

 1-1-1 to 1-1-n Monitored device 1-1 to 1-4 Detecting unit 1-5 to 1-8 Differentiating circuit 1-9 to 1-12 4-bit shift circuit 1-13 Logical sum (OR ) Gate 1-14, 1-22 4-bit enlargement circuit 1-15 Monitored device ID generation circuit 1-16 to 1-19 Alarm type ID generation circuit 1-20 Priority processing unit (ROM) 1-21, 1-23 Selection (SEL) section 1-24 Serial alarm bus 1-25 Alarm collection processing section 1-26 Serial-parallel (S / P) conversion circuit 1-27 Logic gate section 1-27-1 to 1-27-n Logic gate 1-28 monitoring unit 1-29 OR gate 1-30 decoding unit 1-31 8-bit stretching circuit 1-32 AND gate 1-33 format converter 1-50 OR gate

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 9/00 311 H04L 11/00 321 F term (Reference) 5C087 AA02 AA03 BB74 EE03 EE05 FF01 FF04 GG09 GG66 GG70 GG83 5K032 AA04 AA09 BA08 BA13 BA18 CB04 CD05 DA01 DB19 DB28 EA07 EC03 5K033 AA04 AA09 BA08 BA12 BA17 CB17 CC04 DA01 DA13 DB12 DB20 EA07 EC03 5K048 AA03 BA21 CA05 DA02 DC04 EA01 EA14 HA01 HA02 HA11

Claims (9)

[Claims] 1. An alarm collection system comprising: a plurality of monitored devices; and a centralized monitoring device for centrally monitoring the plurality of monitored devices, wherein each of the plurality of monitored devices detects an occurrence of an abnormality. A plurality of detecting means for sending an alarm signal by
A monitored device ID generating means for generating a monitored device ID unique to the monitored device in response to the alarm signal; and a plurality of alarm types unique to each of the plurality of detecting means in response to the alarm signal An alarm collection system comprising: an alarm type ID generating unit that generates an ID; and a transmitting unit that combines the monitored device ID and the alarm type ID and transmits the synthesized ID to the centralized monitoring device. 2. When the plurality of alarm signals are simultaneously generated, each of the plurality of monitored devices determines the alarm type having the highest priority according to a predetermined priority of the plurality of detection means. Further comprising a selection means for selecting an ID;
2. The alarm collection system according to claim 1, wherein the transmission unit combines the selected alarm type ID and the monitored device ID and transmits the combined information to the centralized monitoring device. 3. The selection signal generation means for generating a selection signal for selecting the alarm type ID having the highest priority according to a predetermined priority of the plurality of detection means, The alarm collection system according to claim 2, further comprising: a selection unit that selects the alarm type ID according to the selection signal. 4. A method according to claim 1, wherein each of the plurality of detecting means includes a detecting section for detecting an abnormality and outputting an alarm signal, and a differentiating circuit for pulsating and outputting the alarm signal from the detecting section. The alarm collection system according to any one of claims 1 to 3, wherein: 5. The centralized monitoring device includes: an alarm collection processing unit that collects and processes the composite ID transmitted from the transmission unit; and a synthesis I that is collected and processed by the alarm collection processing unit.
The alarm collection system according to any one of claims 1 to 4, further comprising monitoring means for monitoring the plurality of monitored devices in accordance with D. 6. The alarm collection processing means holds the monitored device ID unique to each of the plurality of monitored devices, and monitors the monitored device I included in the held content and the composite ID.
D, and when it is determined that they match, the composite ID
6. The alarm collection system according to claim 5, further comprising a decoding unit that suppresses the combined ID when it is determined that there is a mismatch, as it is. 7. The monitored device ID generating means performs a logical OR operation on alarm signals sent from the plurality of detecting means, and generates the monitored device ID in response to the logical output. A monitored device ID generating circuit, a extending circuit for extending the logical sum output by at least the same number of bits as the monitored device ID, and a selection for passing the monitored device ID only during the existence period of the extended logical sum output The alarm collection system according to any one of claims 1 to 6, further comprising a unit. 8. The plurality of shift circuits for shifting the alarm signal transmitted from the plurality of detection means at least by the same number of bits as the monitored device ID, and the outputs of the plurality of shift circuits. And a plurality of alarm type ID generation circuits for generating the alarm type ID in response to the monitoring device ID. The transmitting means appends the alarm type ID after the monitored device ID and serially transmits the alarm type ID. The alarm collection system according to claim 7, characterized in that: 9. The alarm collection system according to claim 8, wherein said centralized monitoring device is connected to said plurality of monitored devices via a serial alarm bus.