CN204902896U - Cave carbon dioxide concentration, continuous automatic monitoring device of temperature and humidity - Google Patents

Cave carbon dioxide concentration, continuous automatic monitoring device of temperature and humidity Download PDF

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Publication number
CN204902896U
CN204902896U CN201520729043.3U CN201520729043U CN204902896U CN 204902896 U CN204902896 U CN 204902896U CN 201520729043 U CN201520729043 U CN 201520729043U CN 204902896 U CN204902896 U CN 204902896U
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China
Prior art keywords
probe
cave
gas concentration
concentration lwevel
data recorder
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Expired - Fee Related
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CN201520729043.3U
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Chinese (zh)
Inventor
汪进良
章程
苗迎
郝玉培
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Institute of Karst Geology of CAGS
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Institute of Karst Geology of CAGS
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Priority to CN201520729043.3U priority Critical patent/CN204902896U/en
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Abstract

The utility model relates to a cave carbon dioxide concentration, continuous automatic monitoring device of temperature and humidity, including humidity sensor, temperature probe and carbon dioxide concentration monitoring probing head, power module and data logger, humidity sensor temperature probe with carbon dioxide concentration monitoring probe number of pass is according to the line connection data logger, the data that will monitor carry for data logger saves, power module passes through cable junction humidity sensor, temperature probe and carbon dioxide concentration monitoring probe with data logger. The beneficial effects of the utility model are that: solved in the routine monitoring the subsidiary battery capacity of instrument itself limited can not not last for a long time among power supply, the cave humid environment battery discharge at the excessive speed, data memory capacity limited can not the storage of long continuous time and the long -term humid environment in cave under the instrument difficult problem that is difficult to normal operating.

Description

A kind of cave gas concentration lwevel, temperature and humidity automatic monitor for continuously device
Technical field
The utility model relates to Cave research field, is specifically related to a kind of cave gas concentration lwevel, temperature and humidity automatic monitor for continuously device.
Background technology
In observation process in the past to cave gas concentration lwevel, temperature and humidity, due to exist the subsidiary limited battery capacity of instrument itself can not for a long time in continued power, cave wet environment too fast, the datarams finite capacity of battery discharge can not long-time continuous to store and under the long-term wet environment in cave, instrument is difficult to the factor restrictions such as normal operations, general employing is manually occasionally surveyed and the method recorded.But due to the susceptibility of temperature, rainfall, vegetation, the soil to external world such as cave environment gas concentration lwevel, temperature and humidity, make the artificial even method surveyed cannot catch Rapid Variable Design process (as storm effect, seasonal effect), the representativeness of data is also not enough.Thus can adapt to cave environment in the urgent need to one, the device of automatic monitor for continuously can be carried out to cave gas concentration lwevel, temperature and humidity, to obtain the Monitoring Data of high resolving power long-term sequence.
Utility model content
In sum, the utility model provides a kind of cave gas concentration lwevel, temperature, humidity automatic monitor for continuously device, solve the subsidiary limited battery capacity of routine monitoring Instrumental itself can not for a long time in continued power, cave wet environment too fast, the datarams finite capacity of battery discharge can not long-time continuous to store and under the long-term wet environment in cave, instrument is difficult to the normal difficult problem run.
The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind of cave gas concentration lwevel, temperature and humidity automatic monitor for continuously device, comprise moisture probe, temp probe and gas concentration lwevel monitoring probing head, supply module, and data recorder, described moisture probe, described temp probe and described gas concentration lwevel monitoring probe are all arranged in cave by fixed support, described data recorder is also in cave, described moisture probe, described temp probe is connected described data recorder with described gas concentration lwevel monitoring probe by data line, the data monitored are flowed to described data recorder store,
Described supply module connects described moisture probe, temp probe and described gas concentration lwevel monitoring probe and described data recorder by cable, provides electric energy to described moisture probe, described temp probe and described gas concentration lwevel monitoring probe and described data recorder.
Further, described supply module comprises solar panels, accumulator and controller for solar, described solar panels are in outside cave, described accumulator and described controller for solar are in cave, described solar panels are connected described controller for solar with the both positive and negative polarity of described accumulator respectively by cable, described controller for solar connects described moisture probe respectively by other cable, temp probe, described gas concentration lwevel monitoring probe and described data recorder, to described moisture probe, described temp probe and described gas concentration lwevel monitoring probe and described data recorder provide electric energy.
Further, the both positive and negative polarity of described accumulator after being connected with cable again by epoxy sealing.
Further, described data recorder is in and is placed with in the seal box I of drying agent, the sidewall of described seal box I is provided with water joint I, and the data line be connected with data recorder and cable are connected described data recorder respectively by described water joint I.
Further, described controller for solar is in and is placed with in the seal box II of drying agent, the sidewall of described seal box II is provided with water joint II, and the cable be connected with controller for solar is each passed through described water joint II and is connected with described controller for solar.
The beneficial effects of the utility model are: the utility model provides a kind of cave gas concentration lwevel, temperature, humidity automatic monitor for continuously device, solve the subsidiary limited battery capacity of routine monitoring Instrumental itself can not for a long time in continued power, cave wet environment too fast, the datarams finite capacity of battery discharge can not long-time continuous to store and under the long-term wet environment in cave, instrument is difficult to the normal difficult problem run, automatic monitor for continuously can be carried out to cave gas concentration lwevel, temperature, humidity etc., obtain high-resolution Monitoring Data.
Accompanying drawing explanation
Fig. 1 is one-piece construction schematic diagram of the present utility model;
Fig. 2 monitors to cave, salt made from earth containing a comparatively high percentage of sodium chloride hole the data plot obtained by the utility model continuously.
In accompanying drawing, the list of parts representated by each label is as follows:
1, moisture probe, 2, temp probe, 3, gas concentration lwevel monitoring probe, 4, solar panels, 5, data recorder, 6, fixed mount, 7, accumulator, 8, controller for solar, 9, water joint I, 10, seal box II, 11, water joint II, 12, seal box I, 13, accumulator, 14, controller for solar.
Embodiment
Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.
As shown in Figure 1, a kind of cave gas concentration lwevel, temperature and humidity automatic monitor for continuously device, comprise moisture probe 1, temp probe 2 and gas concentration lwevel monitoring probing 3, supply module 4 and data recorder 5, described moisture probe 1, described temp probe 2 and described gas concentration lwevel monitoring probe 3 are all arranged in cave by fixed support 6, described data recorder 5 is also in cave, described moisture probe 1, described temp probe 2 is connected described data recorder 5 with described gas concentration lwevel monitoring probe 3 by data line, the data monitored are flowed to described data recorder 5 to store.
Described supply module connects described moisture probe 1, temp probe 2 and described gas concentration lwevel monitoring probe 3 and described data recorder 5 by cable, provides electric energy to described moisture probe 1, described temp probe 2 and described gas concentration lwevel monitoring probe 3 and described data recorder 5.Described supply module comprises solar panels 4, accumulator 7 and controller for solar 8, described solar panels 4 are in outside cave, described accumulator 7 and described controller for solar 8 are in cave, described solar panels 4 are connected described controller for solar 8 with the both positive and negative polarity of described accumulator 7 respectively by cable, again by epoxy sealing after the both positive and negative polarity of described accumulator 7 is connected with cable.By epoxy resin, the steam in the both positive and negative polarity of accumulator 7 and cave is completely cut off, prevent causing accumulator 7 to discharge because cave environment is moist too fast.Described controller for solar 8 connects described moisture probe 1, temp probe 2, described gas concentration lwevel monitoring probe 3 and described data recorder 5 respectively by other cable, provides electric energy to described moisture probe 1, described temp probe 2 and described gas concentration lwevel monitoring probe 3 and described data recorder 5.Controller for solar 14 controls solar panels 4 and inputs the power supply of described accumulator 7, prevents accumulator 7 from overcharging. and the power supply that controller for solar 14 also controls the 7 pairs of loads of described accumulator exports, and prevents accumulator 7 from crossing and puts.
Described data recorder 5 is in and is placed with in the seal box I 12 of drying agent, the sidewall of described seal box I 12 is provided with water joint I 9, and the data line be connected with data recorder 5 and cable are connected described data recorder 5 respectively by described water joint I 9.Described controller for solar 8 is in and is placed with in the seal box II 10 of drying agent, the sidewall of described seal box II 10 is provided with water joint II 11, and the cable be connected with controller for solar 8 is each passed through described water joint II 11 and is connected with described controller for solar 8.The seal box being placed with drying agent can ensure that data recorder 5 and controller for solar 8 are in dry environment, and the cable be connected with data recorder 5 and controller for solar 8 enters in seal box through water joint, effectively avoid environment moist in cave to cause data recorder 5 and controller for solar 8 to damage, affect it and normally work.
In sum, provide electric energy by supply module by sun power, solve the problem that monitoring instrument is powered for a long time; By data acquisition unit, automatic monitor for continuously and mass data storage can be carried out; By sealing and moisture preventive measure, ensure that each components and parts can normally run in long-term wet environment.Thus automatic monitor for continuously can be carried out to cave gas concentration lwevel, temperature and humidity, obtain high-resolution Monitoring Data, catch the change procedure (storm effect, seasonal effect) of cave environment gas concentration lwevel, temperature and humidity environment (temperature, rainfall, vegetation, soil) to external world.
As Fig. 2 to be monitored cave, salt made from earth containing a comparatively high percentage of sodium chloride hole continuously by the utility model shown in the data plot obtained, within every 15 minutes, obtain one group of data, monitoring result shows co in cave 2concentration, temperature and humidity to external world temperature, rainfall have certain response, its Response Mechanism can be analyzed by high-resolution Monitoring Data.
The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. a cave gas concentration lwevel, temperature and humidity automatic monitor for continuously device, it is characterized in that, comprise moisture probe (1), temp probe (2) and gas concentration lwevel monitoring probe (3), supply module (4), with data recorder (5), described moisture probe (1), described temp probe (2) and described gas concentration lwevel monitoring probe (3) are all arranged in cave by fixed mount (6), described data recorder (5) is also in cave, described moisture probe (1), described temp probe (2) is connected described data recorder (5) with described gas concentration lwevel monitoring probe (3) by data line, the data monitored are flowed to described data recorder (5) to store,
Described supply module connects described moisture probe (1), temp probe (2) and described gas concentration lwevel monitoring probe (3) and described data recorder (5) by cable, provides electric energy to described moisture probe (1), described temp probe (2) and described gas concentration lwevel monitoring probe (3) and described data recorder (5).
2. a kind of cave according to claim 1 gas concentration lwevel, temperature and humidity automatic monitor for continuously device, it is characterized in that, described supply module comprises solar panels (4), accumulator (7) and controller for solar (8), described solar panels (4) are in outside cave, described accumulator (7) and described controller for solar (8) are in cave, described solar panels (4) are connected described controller for solar (8) with the both positive and negative polarity of described accumulator (7) respectively by cable, described controller for solar (8) connects described moisture probe (1) respectively by other cable, described temp probe (2), described gas concentration lwevel monitoring probe (3) and described data recorder (5), to described moisture probe (1), described temp probe (2) and described gas concentration lwevel monitoring probe (3) and described data recorder (5) provide electric energy.
3. a kind of cave according to claim 2 gas concentration lwevel, temperature and humidity automatic monitor for continuously device, is characterized in that, again by epoxy sealing after the both positive and negative polarity of described accumulator (7) is connected with cable.
4. a kind of cave according to claim 1 gas concentration lwevel, temperature and humidity automatic monitor for continuously device, it is characterized in that, described data recorder (5) is in and is placed with in the seal box I (12) of drying agent, the sidewall of described seal box I (12) is provided with water joint I (9), and the data line be connected with data recorder (5) and cable are connected described data recorder (5) respectively by described water joint I (9).
5. according to Claims 1-4 arbitrary described a kind of cave gas concentration lwevel, temperature and humidity automatic monitor for continuously device, it is characterized in that, described controller for solar (8) is in and is placed with in the seal box II (10) of drying agent, the sidewall of described seal box II (10) is provided with water joint II (11), and the cable be connected with controller for solar (8) is each passed through described water joint II (11) and is connected with described controller for solar (8).
CN201520729043.3U 2015-09-17 2015-09-17 Cave carbon dioxide concentration, continuous automatic monitoring device of temperature and humidity Expired - Fee Related CN204902896U (en)

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CN201520729043.3U CN204902896U (en) 2015-09-17 2015-09-17 Cave carbon dioxide concentration, continuous automatic monitoring device of temperature and humidity

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108334142A (en) * 2018-05-17 2018-07-27 浙江优勝科技有限公司 Intelligent plant storage environment regulator control system
CN115097077A (en) * 2022-06-30 2022-09-23 中国华能集团清洁能源技术研究院有限公司 Concentration monitoring device for carbon dioxide in karst cave

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108334142A (en) * 2018-05-17 2018-07-27 浙江优勝科技有限公司 Intelligent plant storage environment regulator control system
CN115097077A (en) * 2022-06-30 2022-09-23 中国华能集团清洁能源技术研究院有限公司 Concentration monitoring device for carbon dioxide in karst cave
WO2024001180A1 (en) * 2022-06-30 2024-01-04 中国华能集团清洁能源技术研究院有限公司 Concentration monitoring device for carbon dioxide in karst cave

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CF01 Termination of patent right due to non-payment of annual fee
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Granted publication date: 20151223

Termination date: 20190917