CN106382958B - A kind of pipe gallery working environment monitoring method - Google Patents
A kind of pipe gallery working environment monitoring method Download PDFInfo
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- CN106382958B CN106382958B CN201610891160.9A CN201610891160A CN106382958B CN 106382958 B CN106382958 B CN 106382958B CN 201610891160 A CN201610891160 A CN 201610891160A CN 106382958 B CN106382958 B CN 106382958B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D21/00—Measuring or testing not otherwise provided for
- G01D21/02—Measuring two or more variables by means not covered by a single other subclass
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
Abstract
The invention belongs to building engineering fields, relate in particular to a kind of pipe gallery working environment monitoring method.A kind of pipe gallery working environment monitoring method proposed by the present invention, including:1)Mounting temperature sensor, humidity sensor, oxygen amount detector, harmful gas detector, data transceiving unit in each fire insulation subregion of pipe gallery;2)Water level detecting equipment is installed in the plash of the pipe gallery;3)Network is communicated ECC engineering control center with the data transceiving unit, the water level monitoring equipment by wireless communication, implementation environment monitoring.A kind of pipe gallery working environment monitoring method provided by the invention, the working environment of pipe gallery is monitored by various types of inductors, cost of labor, quick positioning question can be effectively reduced, and the quality problems occurred in building construction process can be notified in time to maintenance unit.
Description
Technical field
The invention belongs to building engineering fields, relate in particular to a kind of pipe gallery working environment monitoring method.
Background technique
In the construction of pipe gallery, use process, temperature change, humidity variation, pernicious gas content height are frequently encountered
The problems such as, lead to that construction efficiency is low, maintenance cost is high.
To solve these problems, a kind of applicable pipe gallery working environment monitoring method need to be invented.
Summary of the invention
Present invention aim to address in existing pipe gallery use process due to temperature change, humidity variation, You Haiqi
Quality problems caused by body content is high, provide a kind of pipe gallery working environment monitoring method.
A kind of pipe gallery working environment monitoring method proposed by the present invention, including:1)In each fire insulation of pipe gallery
Mounting temperature sensor, humidity sensor, oxygen amount detector, harmful gas detector, data transceiving unit, the number in subregion
Pass through channel radio with the temperature sensor, humidity sensor, oxygen amount detector, harmful gas detector respectively according to Transmit-Receive Unit
Communication network is communicated;2)Water level detecting equipment is installed in the plash of the pipe gallery, the water level monitoring equipment
In the first plane where the height of water level that highest allows, the water level monitoring equipment itself is higher than described first probe placement
First plane, the second probe placement is in the second plane at the 1/5 of the height of water level that highest allows;3)ECC engineering control center is logical
It crosses cordless communication network to be communicated with the data transceiving unit, the water level monitoring equipment, implementation environment monitoring.
Further, the cordless communication network is WLAN or forth generation mobile communications network.
Further, when the temperature value that the temperature sensor measurement obtains is higher than 40 degrees Celsius, the temperature sensing
The temperature value is sent to the data transceiving unit by device, and the data transceiving unit receives the temperature value and the data
The location information in the fire insulation region where bill member is sent to the ECC engineering control center, and the ECC engineering control center receives
The blower that the fire insulation region is opened after the information cools down, until the temperature value that the temperature sensor measurement obtains is low
After being reported to the ECC engineering control center in 26 degrees Celsius and by the data transceiving unit, the ECC engineering control center is closed
The blower in the fire insulation region.
Further, when the not enough power supply of the temperature sensor, the temperature sensor by the identification information of oneself,
Information about power is sent to the data transmit-receive center, and the identification information, information about power are sent to by the data transmit-receive center
After the ECC engineering control center receives the identification information, information about power, it is existing to notify that maintenance personnel goes for the ECC engineering control center
It is safeguarded field.
Further, when the humidity value that the humidity sensor measurement obtains is higher than 80%, the humidity sensor is by institute
It states humidity value and is sent to the data transceiving unit, the data transceiving unit is by the humidity value and the data transceiving unit
The location information in the fire insulation region at place is sent to the ECC engineering control center, and the ECC engineering control center receives the letter
The blower that the fire insulation region is opened after breath carries out dehumidifier, until the humidity value that the humidity sensor measurement obtains is lower than 40%
And after by the data transceiving unit being reported to the ECC engineering control center, the ECC engineering control center closes the fire insulation area
The blower in domain.
Further, when the not enough power supply of the humidity sensor, the humidity sensor by the identification information of oneself,
Information about power is sent to the data transmit-receive center, and the identification information, information about power are sent to by the data transmit-receive center
After the ECC engineering control center receives the identification information, information about power, it is existing to notify that maintenance personnel goes for the ECC engineering control center
It is safeguarded field.
Further, when the oxygen content that the oxygen amount detector measurement obtains is lower than 19.5%, the oxygen amount detector will
The oxygen content is sent to the data transceiving unit, and the data transceiving unit is by the oxygen content and the data transmit-receive list
The location information in the fire insulation region where first is sent to the ECC engineering control center, and the ECC engineering control center receives described
The blower that the fire insulation region is opened after information, until the oxygen content that the oxygen amount detector measurement obtains greater than 20% and passes through
After the data transceiving unit is reported to the ECC engineering control center, the ECC engineering control center closes the wind in the fire insulation region
Machine.
Further, when the not enough power supply of the oxygen amount detector, the oxygen amount detector by the identification information of oneself,
Information about power is sent to the data transmit-receive center, and the identification information, information about power are sent to by the data transmit-receive center
After the ECC engineering control center receives the identification information, information about power, it is existing to notify that maintenance personnel goes for the ECC engineering control center
It is safeguarded field.
Further, described to have when the harmful gas detector that the harmful gas detector measurement obtains is greater than 5%
The harmful gas detector is sent to the data transceiving unit by evil gas detecting instrument, and the data transceiving unit will be described
The location information in the fire insulation region where harmful gas detector and the data transceiving unit is sent to the engineering control
Center processed, the ECC engineering control center receives the blower that the fire insulation region is opened after the information, until the pernicious gas
The harmful gas detector that detector measurement obtains lower than 1% and is reported to the Engineering Control by the data transceiving unit
Behind center, the ECC engineering control center closes the blower in the fire insulation region.
Further, when the not enough power supply of the harmful gas detector, the harmful gas detector by oneself
Identification information, information about power are sent to the data transmit-receive center, and the identification information, electricity are believed in the data transmit-receive center
Breath is sent to the ECC engineering control center, after the ECC engineering control center receives the identification information, information about power, notice maintenance
Personnel go to scene to safeguard.
Further, the water level detecting equipment is by first probe, second probe in the plash
Water level monitored in real time, if first plane where the obtained water level value of measurement is higher than first probe is high
Degree, then the water level detecting equipment sends the first level measuring information to the ECC engineering control center, the ECC engineering control center
After receiving the first level measuring information, start the corresponding draining pump of the plash and drained, if described second visits
The water level that head measurement obtains is lower than second level where second probe, then the water level detecting equipment is sent
Second level measuring information gives the ECC engineering control center, and the ECC engineering control center receives the second level measuring information
Afterwards, the corresponding draining pump of the plash is closed.
Further, when the not enough power supply of the water level detecting equipment, the water level detecting equipment is by the mark of oneself
Information, information about power are sent to the ECC engineering control center, and the ECC engineering control center receives the identification information, information about power
Afterwards, notify maintenance personnel that scene is gone to safeguard.
Further, the ECC engineering control center is periodically sent out to the data transceiving unit or the water level detecting equipment
Handshaking information is sent, if the data transceiving unit or the water level detecting equipment do not respond to, the ECC engineering control center
The location information of the data transceiving unit or the water level detecting equipment is sent to maintenance personnel.
Further, the data transceiving unit is periodically to the temperature sensor or the humidity sensor or described
Oxygen amount detector or the harmful gas detector send handshaking information, if the temperature sensor or the humidity sensor
Device or the oxygen amount detector or the harmful gas detector do not respond to, then the data transceiving unit is by relevant information
It is reported to the ECC engineering control center, the location information of the data transceiving unit is sent to maintenance by the Engineering Service center
Personnel.
A kind of pipe gallery working environment monitoring method provided by the invention is monitored by various types of inductors and is integrated
The working environment of piping lane can effectively reduce cost of labor, quick positioning question, and the quality that can will occur in building construction process
Problem notifies maintenance unit in time.
Other features and advantages of the present invention will be illustrated in the following description, also, partly becomes from specification
It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention can be by written explanation
Specifically noted structure is achieved and obtained in book, claims and attached drawing.
Detailed description of the invention
The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair
Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is a kind of flow chart of pipe gallery working environment monitoring method of the present invention.
Specific embodiment
Functional overview
Present invention aim to address in existing pipe gallery use process due to temperature change, humidity variation, You Haiqi
Quality problems caused by body content is high, provide a kind of pipe gallery working environment monitoring method.
The embodiment of the present invention is illustrated with reference to the accompanying drawing.It should be noted that in the absence of conflict, this
The embodiment of invention and the technical characteristic in embodiment can be combined with each other, within the scope of the present invention.In addition, being
Convenient for description, step number is used below, but this should not be construed as limiting the invention, in addition, in following methods
Although logical order is shown in flow charts for each step described in, in some cases, can be to be different from this
The sequence at place executes shown or described step.
Embodiment of the method
According to an embodiment of the invention, proposing a kind of pipe gallery working environment monitoring method.
Fig. 1 shows a kind of flow chart of pipe gallery working environment monitoring method according to an embodiment of the invention,
Include the following steps:
Step S102, mounting temperature sensor, humidity sensor, oxygen amount detection in each fire insulation subregion of pipe gallery
Instrument, harmful gas detector, data transceiving unit, the data transceiving unit respectively with the temperature sensor, humidity sensor
Network is communicated by wireless communication for device, oxygen amount detector, harmful gas detector;
Step S104 installs water level detecting equipment in the plash of the pipe gallery, the water level monitoring equipment
In the first plane where the height of water level that highest allows, the water level monitoring equipment itself is higher than described first probe placement
First plane, the second probe placement is in the second plane at the 1/5 of the height of water level that highest allows;
Step S106, ECC engineering control center network and the data transceiving unit, the water level monitoring by wireless communication
Equipment is communicated, implementation environment monitoring.
The details of above-mentioned processing is described below in detail.
(One)Step S102
Further, the cordless communication network is WLAN or forth generation mobile communications network.
Further, when the temperature value that the temperature sensor measurement obtains is higher than 40 degrees Celsius, the temperature sensing
The temperature value is sent to the data transceiving unit by device, and the data transceiving unit receives the temperature value and the data
The location information in the fire insulation region where bill member is sent to the ECC engineering control center, and the ECC engineering control center receives
The blower that the fire insulation region is opened after the information cools down, until the temperature value that the temperature sensor measurement obtains is low
After being reported to the ECC engineering control center in 26 degrees Celsius and by the data transceiving unit, the ECC engineering control center is closed
The blower in the fire insulation region.
Further, when the not enough power supply of the temperature sensor, the temperature sensor by the identification information of oneself,
Information about power is sent to the data transmit-receive center, and the identification information, information about power are sent to by the data transmit-receive center
After the ECC engineering control center receives the identification information, information about power, it is existing to notify that maintenance personnel goes for the ECC engineering control center
It is safeguarded field.
Further, when the humidity value that the humidity sensor measurement obtains is higher than 80%, the humidity sensor is by institute
It states humidity value and is sent to the data transceiving unit, the data transceiving unit is by the humidity value and the data transceiving unit
The location information in the fire insulation region at place is sent to the ECC engineering control center, and the ECC engineering control center receives the letter
The blower that the fire insulation region is opened after breath carries out dehumidifier, until the humidity value that the humidity sensor measurement obtains is lower than 40%
And after by the data transceiving unit being reported to the ECC engineering control center, the ECC engineering control center closes the fire insulation area
The blower in domain.
Further, when the not enough power supply of the humidity sensor, the humidity sensor by the identification information of oneself,
Information about power is sent to the data transmit-receive center, and the identification information, information about power are sent to by the data transmit-receive center
After the ECC engineering control center receives the identification information, information about power, it is existing to notify that maintenance personnel goes for the ECC engineering control center
It is safeguarded field.
Further, when the oxygen content that the oxygen amount detector measurement obtains is lower than 19.5%, the oxygen amount detector will
The oxygen content is sent to the data transceiving unit, and the data transceiving unit is by the oxygen content and the data transmit-receive list
The location information in the fire insulation region where first is sent to the ECC engineering control center, and the ECC engineering control center receives described
The blower that the fire insulation region is opened after information, until the oxygen content that the oxygen amount detector measurement obtains greater than 20% and passes through
After the data transceiving unit is reported to the ECC engineering control center, the ECC engineering control center closes the wind in the fire insulation region
Machine.
Further, when the not enough power supply of the oxygen amount detector, the oxygen amount detector by the identification information of oneself,
Information about power is sent to the data transmit-receive center, and the identification information, information about power are sent to by the data transmit-receive center
After the ECC engineering control center receives the identification information, information about power, it is existing to notify that maintenance personnel goes for the ECC engineering control center
It is safeguarded field.
Further, described to have when the harmful gas detector that the harmful gas detector measurement obtains is greater than 5%
The harmful gas detector is sent to the data transceiving unit by evil gas detecting instrument, and the data transceiving unit will be described
The location information in the fire insulation region where harmful gas detector and the data transceiving unit is sent to the engineering control
Center processed, the ECC engineering control center receives the blower that the fire insulation region is opened after the information, until the pernicious gas
The harmful gas detector that detector measurement obtains lower than 1% and is reported to the Engineering Control by the data transceiving unit
Behind center, the ECC engineering control center closes the blower in the fire insulation region.
Further, when the not enough power supply of the harmful gas detector, the harmful gas detector by oneself
Identification information, information about power are sent to the data transmit-receive center, and the identification information, electricity are believed in the data transmit-receive center
Breath is sent to the ECC engineering control center, after the ECC engineering control center receives the identification information, information about power, notice maintenance
Personnel go to scene to safeguard.
(Two)Step S104
Further, the water level detecting equipment is by first probe, second probe in the plash
Water level monitored in real time, if first plane where the obtained water level value of measurement is higher than first probe is high
Degree, then the water level detecting equipment sends the first level measuring information to the ECC engineering control center, the ECC engineering control center
After receiving the first level measuring information, start the corresponding draining pump of the plash and drained, if described second visits
The water level that head measurement obtains is lower than second level where second probe, then the water level detecting equipment is sent
Second level measuring information gives the ECC engineering control center, and the ECC engineering control center receives the second level measuring information
Afterwards, the corresponding draining pump of the plash is closed.
Further, when the not enough power supply of the water level detecting equipment, the water level detecting equipment is by the mark of oneself
Information, information about power are sent to the ECC engineering control center, and the ECC engineering control center receives the identification information, information about power
Afterwards, notify maintenance personnel that scene is gone to carry out battery altering operation.
(Three)Step S106
Further, the ECC engineering control center is periodically sent out to the data transceiving unit or the water level detecting equipment
Handshaking information is sent, if the data transceiving unit or the water level detecting equipment do not respond to, illustrates that relevant device damages
Bad, then the location information of the data transceiving unit or the water level detecting equipment is sent to dimension by the ECC engineering control center
Shield personnel, it is desirable that maintenance personnel goes to scene to repair.
Further, the data transceiving unit is periodically to the temperature sensor or the humidity sensor or described
Oxygen amount detector or the harmful gas detector send handshaking information, if the temperature sensor or the humidity sensor
Device or the oxygen amount detector or the harmful gas detector do not respond to, and illustrate that relevant device is damaged, then described
Relevant information is reported to the ECC engineering control center by data transceiving unit, and the Engineering Service center is by the data transmit-receive list
The location information of member is sent to maintenance personnel, it is desirable that maintenance personnel goes to scene to repair.
A kind of pipe gallery working environment monitoring method provided by the invention is monitored by various types of inductors and is integrated
The working environment of piping lane can effectively reduce cost of labor, quick positioning question, and the quality that can will occur in building construction process
Problem notifies maintenance unit in time.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (13)
1. a kind of pipe gallery working environment monitoring method, which is characterized in that including:1) in each fire insulation subregion of pipe gallery
Middle mounting temperature sensor, humidity sensor, oxygen amount detector, harmful gas detector, data transceiving unit, the data are received
Bill member respectively with the temperature sensor, humidity sensor, oxygen amount detector, harmful gas detector net by wireless communication
Network is communicated;2) the installation water level detecting equipment in the plash of the pipe gallery, the first of the water level monitoring equipment
For probe placement in the first plane where the height of water level that highest allows, the water level monitoring equipment itself is higher than described first
Plane, the second probe placement is in the second plane at the 1/5 of the height of water level that highest allows;3) ECC engineering control center passes through nothing
Line communication network is communicated with the data transceiving unit, the water level monitoring equipment, implementation environment monitoring;When the temperature
When the temperature value that sensor measurement obtains is higher than 40 degrees Celsius, the temperature value is sent to the data by the temperature sensor
Transmit-Receive Unit, the data transceiving unit is by the position in the fire insulation region where the temperature value and the data transceiving unit
Confidence breath is sent to the ECC engineering control center, and the ECC engineering control center opens the fire insulation region after receiving the information
Blower cools down, until the temperature value that the temperature sensor measurement obtains lower than 26 degrees Celsius and passes through the data transmit-receive
After unit is reported to the ECC engineering control center, the ECC engineering control center closes the blower in the fire insulation region.
2. the method according to claim 1, wherein the cordless communication network is WLAN or forth generation
Mobile communications network.
3. the method according to claim 1, wherein when the not enough power supply of the temperature sensor, the temperature
The identification information of oneself, information about power are sent to the data transmit-receive center by degree sensor, and the data transmit-receive center is by institute
State identification information, information about power is sent to the ECC engineering control center, the ECC engineering control center receives the identification information, electricity
After measuring information, notify maintenance personnel that scene is gone to safeguard.
4. the method according to claim 1, wherein when the humidity value that the humidity sensor measurement obtains is higher than
When 80%, the humidity value is sent to the data transceiving unit by the humidity sensor, and the data transceiving unit is by institute
The location information for stating the fire insulation region where humidity value and the data transceiving unit is sent to the ECC engineering control center,
The ECC engineering control center, which receives, opens the blower in the fire insulation region after the information and carries out dehumidifier, until the humidity sensor
The humidity value that device measurement obtains is described lower than 40% and after being reported to the ECC engineering control center by the data transceiving unit
ECC engineering control center closes the blower in the fire insulation region.
5. described wet the method according to claim 1, wherein when the not enough power supply of the humidity sensor
The identification information of oneself, information about power are sent to the data transmit-receive center by degree sensor, and the data transmit-receive center is by institute
State identification information, information about power is sent to the ECC engineering control center, the ECC engineering control center receives the identification information, electricity
After measuring information, notify maintenance personnel that scene is gone to safeguard.
6. the method according to claim 1, wherein when the oxygen content that the oxygen amount detector measurement obtains is lower than
When 19.5%, the oxygen content is sent to the data transceiving unit by the oxygen amount detector, and the data transceiving unit will
The location information in the fire insulation region where the oxygen content and the data transceiving unit is sent in the Engineering Control
The heart, the ECC engineering control center receive the blower that the fire insulation region is opened after the information, until the oxygen amount detector is surveyed
After the oxygen content measured is greater than 20% and is reported to the ECC engineering control center by the data transceiving unit, the engineering
Control centre closes the blower in the fire insulation region.
7. the method according to claim 1, wherein when the not enough power supply of the oxygen amount detector, the oxygen
The identification information of oneself, information about power are sent to the data transmit-receive center by amount detector, and the data transmit-receive center is by institute
State identification information, information about power is sent to the ECC engineering control center, the ECC engineering control center receives the identification information, electricity
After measuring information, notify maintenance personnel that scene is gone to safeguard.
8. the method according to claim 1, wherein working as harmful gas that the harmful gas detector measurement obtains
When body detector is greater than 5%, the harmful gas detector is sent to the data transmit-receive list by the harmful gas detector
Member, the data transceiving unit is by the fire insulation region where the harmful gas detector and the data transceiving unit
Location information is sent to the ECC engineering control center, and the ECC engineering control center opens the fire insulation region after receiving the information
Blower, until harmful gas detector that the harmful gas detector measurement obtains is received lower than 1% and by the data
After bill member is reported to the ECC engineering control center, the ECC engineering control center closes the blower in the fire insulation region.
9. the method according to claim 1, wherein when the not enough power supply of the harmful gas detector, institute
It states harmful gas detector and the identification information of oneself, information about power is sent to the data transmit-receive center, the data transmit-receive
The identification information, information about power are sent to the ECC engineering control center by center, and the ECC engineering control center receives the mark
After knowing information, information about power, notify maintenance personnel that scene is gone to safeguard.
10. the method according to claim 1, wherein the water level detecting equipment passes through first probe, institute
It states the second probe to monitor the water level in the plash in real time, be visited if the water level value that measurement obtains is higher than described first
First level where head, then the water level detecting equipment sends the first level measuring information to the Engineering Control
Center, after the ECC engineering control center receives the first level measuring information, start the corresponding draining pump of the plash into
Row draining, second level at place if the water level that second probe measurement obtains is popped one's head in lower than described second,
Then the water level detecting equipment sends the second level measuring information to the ECC engineering control center, and the ECC engineering control center receives
After the second level measuring information, the corresponding draining pump of the plash is closed.
11. described the method according to claim 1, wherein when the not enough power supply of the water level detecting equipment
The identification information of oneself, information about power are sent to the ECC engineering control center, the ECC engineering control center by water level detecting equipment
After receiving the identification information, information about power, notify maintenance personnel that scene is gone to safeguard.
12. the method according to claim 1, wherein the ECC engineering control center is periodically to the data transmit-receive
Unit or the water level detecting equipment send handshaking information, if the data transceiving unit or the water level detecting equipment do not have
There is response, then the ECC engineering control center sends the data transceiving unit or the location information of the water level detecting equipment
To maintenance personnel.
13. the method according to claim 1, wherein the data transceiving unit is periodically to the temperature sensing
Device or the humidity sensor or the oxygen amount detector or the harmful gas detector send handshaking information, if institute
It states temperature sensor or the humidity sensor or the oxygen amount detector or the harmful gas detector does not respond to,
Then relevant information is reported to the ECC engineering control center by the data transceiving unit, and the Engineering Service center is by the data
The location information of Transmit-Receive Unit is sent to maintenance personnel.
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CN108446760A (en) * | 2018-03-19 | 2018-08-24 | 国通广达(北京)技术有限公司 | A kind of pipe gallery interior humidity LSTM prediction techniques and system |
CN109283903A (en) * | 2018-10-26 | 2019-01-29 | 中交第航务工程局有限公司 | A kind of underground pipe gallery intelligence control system and its control method based on Internet of Things |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104880986A (en) * | 2015-06-03 | 2015-09-02 | 中建地下空间有限公司 | System and method for comprehensive pipe gallery management based on BIM |
CN205126214U (en) * | 2015-11-27 | 2016-04-06 | 松原市中心医院 | Electrothermometer device |
CN105716656A (en) * | 2016-02-20 | 2016-06-29 | 黄书卿 | Urban comprehensive pipe gallery environment intelligent detection system device |
CN106051994A (en) * | 2016-06-03 | 2016-10-26 | 中冶南方工程技术有限公司 | Comprehensive pipe rack fire compartment ventilation system and control method thereof |
CN205842937U (en) * | 2016-04-20 | 2016-12-28 | 青岛市市政工程设计研究院有限责任公司 | The pipe gallery ventilating system that a kind of gravity-flow ventilation and force ventilation combine |
-
2016
- 2016-10-13 CN CN201610891160.9A patent/CN106382958B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104880986A (en) * | 2015-06-03 | 2015-09-02 | 中建地下空间有限公司 | System and method for comprehensive pipe gallery management based on BIM |
CN205126214U (en) * | 2015-11-27 | 2016-04-06 | 松原市中心医院 | Electrothermometer device |
CN105716656A (en) * | 2016-02-20 | 2016-06-29 | 黄书卿 | Urban comprehensive pipe gallery environment intelligent detection system device |
CN205842937U (en) * | 2016-04-20 | 2016-12-28 | 青岛市市政工程设计研究院有限责任公司 | The pipe gallery ventilating system that a kind of gravity-flow ventilation and force ventilation combine |
CN106051994A (en) * | 2016-06-03 | 2016-10-26 | 中冶南方工程技术有限公司 | Comprehensive pipe rack fire compartment ventilation system and control method thereof |
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