CN105788157A - Packet linkage method - Google Patents
Packet linkage method Download PDFInfo
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- CN105788157A CN105788157A CN201610189569.6A CN201610189569A CN105788157A CN 105788157 A CN105788157 A CN 105788157A CN 201610189569 A CN201610189569 A CN 201610189569A CN 105788157 A CN105788157 A CN 105788157A
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- storage module
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B17/00—Fire alarms; Alarms responsive to explosion
- G08B17/10—Actuation by presence of smoke or gases, e.g. automatic alarm devices for analysing flowing fluid materials by the use of optical means
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/12—Manually actuated calamity alarm transmitting arrangements emergency non-personal manually actuated alarm, activators, e.g. details of alarm push buttons mounted on an infrastructure
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- Emergency Management (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- Alarm Systems (AREA)
- Data Exchanges In Wide-Area Networks (AREA)
Abstract
The invention relates to the fire hazard alarm linkage system technology field, particularly relates to a packet linkage method and can further realize simple and intelligible linkage relationship, save the storage space and reduce later maintenance complexity. The method comprises steps that an alarm condition storage module, a start object storage module and a linkage relationship storage module are set; condition numbers having same start objects are stored in one same alarm condition storage module, and object numbers having same alarm conditions are stored in one same start object storage module; a linkage relationship is established between each alarm condition storage module between the corresponding start object storage module, namely, the linkage relationship between the condition numbers in each alarm condition storage module and the object numbers in the corresponding start object storage module is established, the linkage relationship is stored in the linkage relationship storage module, and the object numbers in the corresponding start object storage module realize start when the condition numbers in the alarm condition storage module alarm and start conditions of the linkage relationship are satisfied.
Description
Technical field
The present invention relates to fire alarm linked system technical field, be specially a kind of packet interlock method.
Background technology
In fire alarm system, it is necessary to automatically starting relevant equipment (as started fire broadcast, acoustooptic alarm, spray pump, fire pump etc.) according to the code of monitored location of fire alarm, this process is linkage.Fire alarm control unit software needs design a kind of method to realize this interaction relation (real data is usually user's according to circumstances on-the-spot input).
The method adopted at present is according to the direct list interaction relation of number, is specifically shown in following a kind of fire alarm field condition:
Number segment | Device type |
1 ~ 10,27 ~ 43,49 ~ 90,119 ~ 128 | Cigarette sense |
11 ~ 12,44 ~ 48,129 ~ 138 | Fire hydrant button |
13 ~ 15,139 ~ 150 | Broadcast |
16 ~ 26,103 ~ 117 | Acoustooptic alarm |
91~102 | Manual pull station |
118 | Fire pump |
According to fire-fighting installation specification requirement, when any 2 cigarette senses or 1 cigarette sense and 1 manual pull station are reported to the police, start acoustooptic alarm and broadcast;Any one fire hydrant button is pressed, and starts fire pump.
So according to the method for direct list interaction relation at present, it is necessary to following relational expression realizes above-mentioned functions:
Sequence number | Relationship type | Condition | Object |
1 | Or 1 | 11~12 | 118~118 |
2 | Or 1 | 44~48 | 118~118 |
3 | Or 1 | 129~138 | 118~118 |
4 | Or 2 | 1~10 | 13~15 |
5 | Or 2 | 27~43 | 13~15 |
6 | Or 2 | 49~90 | 13~15 |
7 | Or 2 | 119~128 | 13~15 |
8 | Or 2 | 1~10 | 139~150 |
9 | Or 2 | 27~43 | 139~150 |
10 | Or 2 | 49~90 | 139~150 |
11 | Or 2 | 119~128 | 139~150 |
12 | With | 1 ~ 10,27 ~ 43 | 13~15 |
13 | With | 1 ~ 10,49 ~ 90 | 13~15 |
14 | With | 1 ~ 10,119 ~ 128 | 13~15 |
15 | With | 27 ~ 43,49 ~ 90 | 13~15 |
16 | With | 27 ~ 43,119 ~ 128 | 13~15 |
17 | With | 49 ~ 90,119 ~ 128 | 13~15 |
18 | With | 1 ~ 10,27 ~ 43 | 139~150 |
19 | With | 1 ~ 10,49 ~ 90 | 139~150 |
20 | With | 1 ~ 10,119 ~ 128 | 139~150 |
21 | With | 27 ~ 43,49 ~ 90 | 139~150 |
22 | With | 27 ~ 43,119 ~ 128 | 139~150 |
23 | With | 49 ~ 90,119 ~ 128 | 139~150 |
24 | Or 2 | 1~10 | 16~26 |
25 | Or 2 | 27~43 | 16~26 |
26 | Or 2 | 49~90 | 16~26 |
27 | Or 2 | 119~128 | 16~26 |
28 | Or 2 | 1~10 | 103~117 |
29 | Or 2 | 27~43 | 103~117 |
30 | Or 2 | 49~90 | 103~117 |
31 | Or 2 | 119~128 | 103~117 |
32 | With | 1 ~ 10,27 ~ 43 | 16~26 |
33 | With | 1 ~ 10,49 ~ 90 | 16~26 |
34 | With | 1 ~ 10,119 ~ 128 | 16~26 |
35 | With | 27 ~ 43,49 ~ 90 | 16~26 |
36 | With | 27 ~ 43,119 ~ 128 | 16~26 |
37 | With | 49 ~ 90,119 ~ 128 | 16~26 |
38 | With | 1 ~ 10,27 ~ 43 | 103~117 |
39 | With | 1 ~ 10,49 ~ 90 | 103~117 |
40 | With | 1 ~ 10,119 ~ 128 | 103~117 |
41 | With | 27 ~ 43,49 ~ 90 | 103~117 |
42 | With | 27 ~ 43,119 ~ 128 | 103~117 |
43 | With | 49 ~ 90,119 ~ 128 | 103~117 |
44 | With | 1 ~ 10,91 ~ 102 | 13~15 |
45 | With | 27 ~ 43,91 ~ 102 | 13~15 |
46 | With | 49 ~ 90,91 ~ 102 | 13~15 |
47 | With | 119 ~ 128,91 ~ 102 | 13~15 |
48 | With | 1 ~ 10,91 ~ 102 | 139~150 |
49 | With | 27 ~ 43,91 ~ 102 | 139~150 |
50 | With | 49 ~ 90,91 ~ 102 | 139~150 |
51 | With | 119 ~ 128,91 ~ 102 | 139~150 |
52 | With | 1 ~ 10,91 ~ 102 | 16~26 |
53 | With | 27 ~ 43,91 ~ 102 | 16~26 |
54 | With | 49 ~ 90,91 ~ 102 | 16~26 |
55 | With | 119 ~ 128,91 ~ 102 | 16~26 |
56 | With | 1 ~ 10,91 ~ 102 | 103~117 |
57 | With | 27 ~ 43,91 ~ 102 | 103~117 |
58 | With | 49 ~ 90,91 ~ 102 | 103~117 |
59 | With | 119 ~ 128,91 ~ 102 | 103~117 |
Relationship type: have or 1 or 2 and three kind, or 1 when referring to any one number call alert in " condition ", start the number in object range, or 2 numbers of starting operation object range when being any two number call alert, with be a kind of special or 2 relations, namely in number one section any one in any one and No. second section with alarm time start the number in object range.
For above-mentioned 1st article of information, any one number call alert in No. 11 to No. 12, just start No. 118;
Above-mentioned 4th article of information represents any two number call alert in No. 1 to No. 10, just starts No. 13 to No. 15 all numbers;
Above-mentioned 12nd article of information represents in No. 1 to No. 10 the same alarm of any one number in any one number call alert and No. 26 to No. 43, just starts No. 13 to No. 15 all numbers.
Can be seen that from table above, when number is discrete time, interaction relation formula bar number is very many, and required memory space is relatively big, when increasing or reduce number, interaction relation formula must be revised, likely cause again new discrete number, it is easy to chaotic, later maintenance is cumbersome, and in practice of construction, but the problem that the discrete right and wrong of number are usually shown in.
Summary of the invention
In order to solve the problems referred to above, the invention provides a kind of packet interlock method, its interaction relation is simply clear, it is possible to save memory space, reduces the complexity of later maintenance.
A kind of packet interlock method, it comprises the following steps:
(1) alert if memory module is set, starts object storage module and interaction relation memory module;
(2) the condition number with identical startup object is stored in same alert if memory module, the object number with identical alert if is stored in same startup object storage module;
(3) each alert if memory module sets up interaction relation with corresponding startup object storage module, namely the condition number in each alert if memory module sets up interaction relation formula with object number in corresponding startup object storage module, interaction relation formula is stored in interaction relation memory module, when the condition number call alert in alert if memory module the entry condition meeting interaction relation formula, the corresponding object number started in object storage module starts realization linkage.
It is further characterized by, interaction relation formula include or a relational expression or N relational expression and with relational expression three kinds, N is greater than being equal to the integer of 2;Or one relational expression be any one condition number call alert in an alert if memory module, the corresponding object number started in object storage module starts and realizes linkage;Or N relational expression is any N number of same alarm of condition number in an alert if memory module, the corresponding object number started in object storage module starts realization linkage;Being be respectively arranged with any one condition number in multiple alert if memory module to start with relational expression, the corresponding object number started in object storage module starts realization linkage simultaneously.
After adopting the method for the present invention, respectively can be grouped together having the identical alert if number with identical startup object, being actually checks numbers has carried out secondary marshalling, interaction relation is set again, simply clearly, saves the memory space of a lot of interaction relation memory module, when increasing or reduce number, interaction relation formula will not change, it is only necessary to changes the number in corresponding memory module, greatly reduces the complexity of later maintenance.
Accompanying drawing explanation
Fig. 1 is the inventive method schematic flow sheet.
Detailed description of the invention
A kind of packet interlock method, it comprises the following steps:
(1) multiple alert if memory module, multiple startup object storage module and an interaction relation memory module are set;
(2) the condition number with identical startup object being stored in same alert if memory module, the object number with identical alert if is stored in same startup object storage module;
(3) each alert if memory module sets up interaction relation with corresponding startup object storage module, namely the condition number in each alert if memory module sets up interaction relation formula with object number in corresponding startup object storage module, interaction relation formula is stored in interaction relation memory module, when the condition number call alert in alert if memory module the entry condition meeting interaction relation formula, the corresponding object number started in object storage module starts realization linkage.
Interaction relation formula above include or a relational expression or N relational expression and with relational expression three kinds, N is greater than being equal to the integer of 2, adopts or 2 relational expressions in embodiment in detail below;Or one relational expression be any one condition number call alert in an alert if memory module, the corresponding object number started in object storage module starts and realizes linkage;Or 2 relational expression be any 2 same alarms of condition number in an alert if memory module, the corresponding object number started in object storage module starts and realizes linkage;Being be respectively arranged with any one condition number in multiple alert if memory module to start with relational expression, the corresponding object number started in object storage module starts realization linkage simultaneously.
That situation mentioned in the middle of background technology, if adopt the solution of the present invention process, it is possible to the defect effectively overcoming the method for direct list interaction relation to bring, be specifically shown in following described in:
First by this table:
Number segment | Device type |
1 ~ 10,27 ~ 43,49 ~ 90,119 ~ 128 | Cigarette sense |
11 ~ 12,44 ~ 48,129 ~ 138 | Fire hydrant button |
13 ~ 15,139 ~ 150 | Broadcast |
16 ~ 26,103 ~ 117 | Acoustooptic alarm |
91~102 | Manual pull station |
118 | Fire pump |
Carry out packet again:
Sequence number | Packet number | Number block |
1 | 1 | 1~10 |
2 | 1 | 27~43 |
3 | 1 | 49~90 |
4 | 1 | 119~128 |
5 | 2 | 11~12 |
6 | 2 | 44~48 |
7 | 2 | 129~138 |
8 | 3 | 13~15 |
9 | 3 | 139~150 |
10 | 3 | 16~26 |
11 | 3 | 103~117 |
12 | 4 | 91~102 |
13 | 5 | 118~118 |
Organizing 1 in above-mentioned packet, organizing 2 with group 4 is exactly three different alert if memory modules, namely cigarette sense memory module, fire hydrant button memory module, manual pull station memory module, it is exactly two different startup object storage module by organizing 3 with group 5, i.e. broadcast and acoustooptic alarm memory module, fire pump memory module, next step sets up interaction relation:
Sequence number | Relationship type | Condition (packet namely reported a fire) | Object (packet started after reporting a fire) |
1 | Or 1 | 2 | 5 |
2 | Or 2 | 1 | 3 |
3 | With | Isosorbide-5-Nitrae | 3 |
Now the interaction relation of sequence number 1 represents: when having any one fire hydrant button to push for emergency in the 2nd group, all of fire pump in starting the 5th group.
The interaction relation of sequence number 2 represents: when there being any two same alarm of cigarette sense in the 1st group, all of acoustooptic alarm and broadcast in starting the 3rd group.
The interaction relation of sequence number 3 represents: when the same alarm of any one manual pull station, all of acoustooptic alarm and broadcast in starting the 3rd group in any one cigarette sense and the 4th group in the 1st group.
Interaction relation now can be seen that compared with background technology interaction relation is simple, and when having number to increase or reducing, packet generally will change, and only need to be undertaken increasing or deleting by number in corresponding group, and interaction relation does not also change.
Claims (2)
1. a packet interlock method, it is characterised in that it comprises the following steps:
(1) alert if memory module is set, starts object storage module and interaction relation memory module;
(2) the condition number with identical startup object is stored in same alert if memory module, the object number with identical alert if is stored in same startup object storage module;
(3) each alert if memory module sets up interaction relation with corresponding startup object storage module, namely the condition number in each alert if memory module sets up interaction relation formula with object number in corresponding startup object storage module, interaction relation formula is stored in interaction relation memory module, when the condition number call alert in alert if memory module the entry condition meeting interaction relation formula, the corresponding object number started in object storage module starts realization linkage.
2. a kind of packet interlock method according to claim 1, it is characterised in that interaction relation formula include or a relational expression or N relational expression and with relational expression three kinds, N is greater than being equal to the integer of 2;Or one relational expression be any one condition number call alert in an alert if memory module, the corresponding object number started in object storage module starts and realizes linkage;Or N relational expression is any N number of same alarm of condition number in an alert if memory module, the corresponding object number started in object storage module starts realization linkage;Being be respectively arranged with any one condition number in multiple alert if memory module to start with relational expression, the corresponding object number started in object storage module starts realization linkage simultaneously.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110363972A (en) * | 2019-06-21 | 2019-10-22 | 秦皇岛尼特智能科技有限公司 | The method and device of region linkage control is carried out according to fire alarm |
CN114554580A (en) * | 2022-02-21 | 2022-05-27 | 营口天成消防设备有限公司 | Quick starting method of wireless fire-fighting linkage equipment |
CN116756461A (en) * | 2023-04-27 | 2023-09-15 | 营口天成消防设备有限公司 | Quick analysis system and analysis method for fire-fighting linkage formula |
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CN110363972A (en) * | 2019-06-21 | 2019-10-22 | 秦皇岛尼特智能科技有限公司 | The method and device of region linkage control is carried out according to fire alarm |
CN114554580A (en) * | 2022-02-21 | 2022-05-27 | 营口天成消防设备有限公司 | Quick starting method of wireless fire-fighting linkage equipment |
CN116756461A (en) * | 2023-04-27 | 2023-09-15 | 营口天成消防设备有限公司 | Quick analysis system and analysis method for fire-fighting linkage formula |
CN116756461B (en) * | 2023-04-27 | 2024-03-12 | 营口天成消防设备有限公司 | Quick analysis system and analysis method for fire-fighting linkage formula |
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Denomination of invention: A Group Linkage Method Effective date of registration: 20221108 Granted publication date: 20181211 Pledgee: Agricultural Bank of China Limited by Share Ltd. Wuxi Huishan branch Pledgor: WUXI BRIGHTSKY ELECTRONIC Co.,Ltd. Registration number: Y2022980021063 |