CN104880494A - Environmental monitoring terminal and quick deployment system of environmental emergency monitoring - Google Patents

Abstract

The invention discloses an environmental monitoring terminal and a quick deployment system of environmental emergency monitoring. The environmental monitoring terminal comprises a first shell, a second shell, a signal processing portion, a sensor bearing portion, a first filter, an air pipe, an air pump, a GPS module and a wireless communication module, wherein the first shell and the second shell are mutually fitted, the signal processing portion is used for amplifying, filtering, analog-digitally converting and digitally isolating electric signals output by gas sensors in correspondence to gas concentration, the sensor bearing portion carries at least one gas sensor, the first filter is arranged in the second shell, the air pipe is arranged in the second shell, the air pump is used for guiding filtered gas to be detected into the air pipe, the GPS module is used for positioning the environmental monitoring terminal, and the wireless communication module is used for transmitting the electric signals processed by the signal processing portion corresponding to the gas concentration and position information of the environmental monitoring terminal output by the GPS module. The environmental monitoring terminal is miniaturized, light and convenient, and large-area environmental monitoring, dangerous area monitoring and long-term continuous monitoring are facilitated.

Description

Environmental monitoring terminal and Environmental emergency monitoring rapid deployment system

Technical field

The present invention relates to environmental monitoring technology field, be specially a kind of environmental monitoring terminal and Environmental emergency monitoring rapid deployment system.

Background technology

Along with the fast development of China's economic, the contradiction between development and environment, the frequent appearance of various environment event, causes great environmental impact and property loss especially in recent years, causes the environmentally safe worry of various circles of society.Current country has recognized that environmental enhancement is supervised, the importance of guarantee environment safety.The technical support that emergency monitoring is disposed as environmental emergency, emergency monitoring data are beneficial to and help administrative authority's science reply unexpected environmental accident fast and accurately.The integrated level of existing environment supervision instrument gas circuit and circuit part is low, portability, dirigibility and maintainability are poor, usually pipeline is adopted to realize gas transport in gas circuit, its response time is generally at about 30 seconds, this response time is long, be unfavorable for the application needing quick feedback control, particularly to the FEEDBACK CONTROL of toxic gas.

Summary of the invention

The present invention is directed to the proposition of above problem, and develop a kind of environmental monitoring terminal and Environmental emergency monitoring rapid deployment system.

Technological means of the present invention is as follows:

A kind of environmental monitoring terminal, comprising:

First housing bonded to each other and the second housing; Described first housing offers the first mounting hole and the second mounting hole; Described second housing has the first air intake opening;

Snap onto the first cover plate on the first mounting hole; Described first cover plate and described first mounting hole form the first spatial accommodation;

Snap onto the second cover plate on the second mounting hole; Described second cover plate and described second mounting hole form the second spatial accommodation;

Be contained in described first spatial accommodation, the electric signal for the corresponding gas concentration exported gas sensor amplify, filtering, analog to digital conversion and digital isolation processing signal processing part;

Be contained in the sensor supporting part in described second spatial accommodation; Described sensor supporting part carries at least one gas sensor;

Be arranged in described second housing, and be connected with the first air intake opening, for the first filtrator filtered the particle in the gas to be measured entered by described first air intake opening;

Be arranged in described second housing, and the tracheae be connected with described second spatial accommodation;

Be arranged in described second housing, and be connected with described tracheae with described first filtrator, for the gas to be measured through filtering being guided to the air pump in described tracheae; Gas to be measured enters described second spatial accommodation via tracheae;

Be installed on the 3rd housing of the first housing and the second housing upper end;

Be arranged on the 3rd housing, for the GPS module positioned described environmental monitoring terminal;

Be arranged on the 3rd housing, the wireless communication module that the environmental monitoring terminal positional information for the electric signal of the corresponding gas concentration after described signal processing part process and GPS module being exported sends;

Further,

Described second housing also has the second air intake opening;

Described environmental monitoring terminal also comprises and being arranged in described second housing, and is connected with the second air intake opening, for carrying out the second filtrator that purifying obtains air at zero point to the gas to be measured entered by described second air intake opening;

Described first filtrator, to be connected by T-valve between the second filtrator and air pump; By the control to T-valve, realize gas to be measured that the first filtrator exports by air pump or the air at zero point that the second filtrator exports guides in described tracheae;

Further,

Described first cover plate is provided with operation push-button and can the display screen of gas concentration information that goes out of display measurement;

Described second housing also has and is connected with described second spatial accommodation, for the exhausr port that the gas in the second spatial accommodation is discharged;

Described first housing and described second housing all have first surface and second surface; The first surface of described second housing and the first surface of described first housing fit, and the first surface of described second housing offer the gas port being communicated with described tracheae and described second spatial accommodation; The second surface of described first housing and the second housing all upwards extends to form lug boss, forms the inserting groove suitable with the 3rd housing between two lug bosses;

Described second housing also offers the holding tank for box for placing cell in ether;

Further,

Described sensor supporting part at least offers one for placing the bearing holes of gas sensor, the both sides sidewall of this bearing holes is provided with gas communication hole;

Described environmental monitoring terminal also comprises the web joint be contained in described second spatial accommodation; Described web joint realizes the connection between described gas sensor and described signal processing part.

A kind of Environmental emergency monitoring rapid deployment system, comprising:

Environmental monitoring terminal described in multiple above-mentioned any one; Each environmental monitoring terminal is distributed in different monitoring sub-stations, and the gas concentration information sending environmental monitoring terminal positional information and place monitoring sub-station is to monitor supervision platform;

Connect the monitor supervision platform of described environmental monitoring terminal; Described monitor supervision platform is connected with weather station, and is mounted with GIS map; At least one gas concentration information that described monitor supervision platform sends according to the environmental monitoring terminal of arbitrary monitoring sub-station, set up the relation curve of gas with various concentration information and time, and after receiving the viewing command of this monitoring sub-station, transfer each gas concentration information and the relation curve of time and show; Described monitor supervision platform also according to the circle favored area of user in shown GIS map, transfers the risk source business location information in this circle favored area of storage, and the correspondence position in the GIS map of display marks risk source enterprise;

Further, described monitor supervision platform also according to the gas concentration information of input, the gas flow of leakage, leak position, in conjunction with the weather data obtained by weather station, utilizes slab model to draw the dispersal direction of gas, range of scatter and CONCENTRATION DISTRIBUTION;

Further, described monitor supervision platform, after the viewing command receiving arbitrary gas, is transferred the up-to-date concentration information of this gas of each monitoring sub-station and shows;

Further, described monitor supervision platform is also for carrying out alarm when arbitrary gas concentration information exceedes secure threshold;

Further, described monitor supervision platform is also for transferring the gas concentration information change data of section sometime and showing.

Owing to have employed technique scheme, environmental monitoring terminal provided by the invention and Environmental emergency monitoring rapid deployment system, environmental monitoring terminal Each part part of the present invention precision-matched each other, forms multiple closed independently space.The miniaturization of environmental monitoring terminal, lightweight, portable design and wireless communication, conveniently carry out large regions environmental monitoring, hazardous location monitoring and continuous monitoring, ensured comprehensive, rapidity and the continuity of observation process.Environmental emergency monitoring rapid deployment system of the present invention has increased substantially work efficiency, decrease drain on manpower and material resources, improve emergency response speed, strengthening environment monitor informatization level, be beneficial to the disposing fast effectively of environmental monitoring, simple to operate, detect accurate and easy to maintenance, the need of work of environmental standard and emergency monitoring can be met.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structured flowchart of environmental monitoring terminal of the present invention and Environmental emergency monitoring rapid deployment system;

Fig. 2, Fig. 3 and Fig. 4 are the structural representations of environmental monitoring terminal of the present invention;

Fig. 5 is the structural representation of air path part of the present invention;

Fig. 6 is the structural representation of sensor supporting part of the present invention.

In figure: 1, the first housing, the 2, second housing, the 3, first cover plate, 4, the second cover plate, the 5, the 3rd housing, 6, lug boss, 7, battery case, the 11, first mounting hole, the 12, second mounting hole, 20, gas port, the 21, first air intake opening, 22, sensor supporting part, 23, the first filtrator, 24, tracheae, 25, air pump, the 26, second air intake opening, 27, the second filtrator, 28, T-valve, 29, exhausr port, 30, holding tank, 31, operation push-button, 32, display screen, 220, bearing holes, 221, gas communication hole.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1, Figure 2, a kind of environmental monitoring terminal shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, comprising: the first housing 1 and the second housing 2 bonded to each other; Described first housing 1 offers the first mounting hole 11 and the second mounting hole 12; Described second housing 2 has the first air intake opening 21; Snap onto the first cover plate 3 on the first mounting hole 11; Described first cover plate 3 forms the first spatial accommodation with described first mounting hole 11; Snap onto the second cover plate 4 on the second mounting hole 12; Described second cover plate 4 forms the second spatial accommodation with described second mounting hole 12; Be contained in described first spatial accommodation, the electric signal for the corresponding gas concentration exported gas sensor amplify, filtering, analog to digital conversion and digital isolation processing signal processing part; Be contained in the sensor supporting part 22 in described second spatial accommodation; Described sensor supporting part 22 carries at least one gas sensor; Be arranged in described second housing 2, and be connected with the first air intake opening 21, for the first filtrator 23 filtered the particle in the gas to be measured entered by described first air intake opening 21; Be arranged in described second housing 2, and the tracheae 24 be connected with described second spatial accommodation; Be arranged in described second housing 2, and be connected with described tracheae 24 with described first filtrator 23, for the gas to be measured through filtering being guided to the air pump 25 in described tracheae 24; Gas to be measured enters described second spatial accommodation via tracheae 24; Be installed on the 3rd housing 5 of the first housing 1 and the second housing 2 upper end; Be arranged on the 3rd housing 5, for the GPS module positioned described environmental monitoring terminal; Be arranged on the 3rd housing 5, the wireless communication module that the environmental monitoring terminal positional information for the electric signal of the corresponding gas concentration after described signal processing part process and GPS module being exported sends; Further, described second housing 2 also has the second air intake opening 26; Described environmental monitoring terminal also comprises and being arranged in described second housing 2, and is connected with the second air intake opening 26, for carrying out the second filtrator 27 that purifying obtains air at zero point to the gas to be measured entered by described second air intake opening 26; Connected by T-valve 28 between described first filtrator 23, second filtrator 27 and air pump 25; By the control to T-valve 28, realize gas to be measured that the first filtrator 23 exports by air pump 25 or the air at zero point that the second filtrator 27 exports guides in described tracheae 24; Further, described first cover plate 3 is provided with operation push-button 31 and can the display screen 32 of gas concentration information that goes out of display measurement; Described second housing 2 also has and is connected with described second spatial accommodation, for the exhausr port 29 that the gas in the second spatial accommodation is discharged; Described first housing 1 and described second housing 2 all have first surface and second surface; The first surface of described second housing 2 and the first surface of described first housing 1 fit, and the first surface of described second housing 2 offer the gas port 20 being communicated with described tracheae 24 and described second spatial accommodation; The second surface of described first housing 1 and the second housing 2 all upwards extends to form lug boss 6, forms the inserting groove suitable with the 3rd housing 5 between two lug bosses 6; Described second housing 2 also offers the holding tank 30 for box for placing cell in ether 7; Further, described sensor supporting part 22 at least offers one for placing the bearing holes 220 of gas sensor, the both sides sidewall of this bearing holes 220 is provided with gas communication hole 221; Described environmental monitoring terminal also comprises the web joint be contained in described second spatial accommodation; Described web joint realizes the connection between described gas sensor and described signal processing part; Described 3rd housing 5 bottom is plugged on described inserting groove; Described gas sensor is electrochemical sensor; Described air pump 25 to be contained in the mounting groove offered in described second housing 2 and to be fixed by fixture; Described sensor supporting part 22 can also carry temperature sensor and flow sensor; First filtrator 23 and the second filtrator 27 can symmetric designs back-to-back; Air pump 25 adopts thomas 3003 Series Precision membrane pump, and pump major parameter is voltage 6V, maximum flow 850ml/min, maximum vacuum 38%; Wireless communication module adopts the embedded GPRS module of KS-97, and GPS module adopts VK16U6 module; First housing 1, second housing 2, the 3rd housing 5, first cover plate 3 and the second cover plate 4 adopt the aluminium material through anodized to make; Described wireless communication module can adopt the DTU module being integrated with GPRS module; Be provided with carry hand in the middle of described 3rd housing 5 top, the 3rd housing 5 top is also provided with GPRS antenna.Signal processing part of the present invention is used for amplifying the electric signal of corresponding gas concentration that gas sensor exports, filtering, analog to digital conversion and digital isolation processing, particularly, described signal processing part comprises the amplifying circuit, filtering circuit, analog to digital conversion circuit and the digital buffer circuit that connect successively.

A kind of Environmental emergency monitoring rapid deployment system as shown in Figure 1, comprising: the environmental monitoring terminal described in multiple above-mentioned any one; Each environmental monitoring terminal is distributed in different monitoring sub-stations, and the gas concentration information sending environmental monitoring terminal positional information and place monitoring sub-station is to monitor supervision platform; Connect the monitor supervision platform of described environmental monitoring terminal; Described monitor supervision platform is connected with weather station, and is mounted with GIS map; At least one gas concentration information that described monitor supervision platform sends according to the environmental monitoring terminal of arbitrary monitoring sub-station, set up the relation curve of gas with various concentration information and time, and after receiving the viewing command of this monitoring sub-station, transfer each gas concentration information and the relation curve of time and show; Described monitor supervision platform also according to the circle favored area of user in shown GIS map, transfers the risk source business location information in this circle favored area of storage, and the correspondence position in the GIS map of display marks risk source enterprise; Further, described monitor supervision platform also according to the gas concentration information of input, the gas flow of leakage, leak position, in conjunction with the weather data obtained by weather station, utilizes slab model to draw the dispersal direction of gas, range of scatter and CONCENTRATION DISTRIBUTION; Further, described monitor supervision platform, after the viewing command receiving arbitrary gas, is transferred the up-to-date concentration information of this gas of each monitoring sub-station and shows; Further, described monitor supervision platform is also for carrying out alarm when arbitrary gas concentration information exceedes secure threshold; Further, described monitor supervision platform is also for transferring the gas concentration information change data of section sometime and showing; Further, described monitor supervision platform also for the prompt alarm rank when alarm, and records alarm time; Described monitor supervision platform also stores hazardous gas information bank, and this hazardous gas information bank specifically comprises the physicochemical constant of hazardous gas, environmental impact, monitoring method, environmental standard and emergency processing method; Described monitor supervision platform is also for after the viewing command receiving a certain risk source enterprise, transfer the essential information of this risk source enterprise, local environmental conditions, sensitive spot and the risk source precautionary measures, selected risk source enterprise in the GIS map of display, monitor supervision platform will be transferred enterprise's essential information of storage, local environmental conditions, sensitive spot and the risk source precautionary measures and show; Each monitoring sub-station name information is presented on the left of GIS map with tabular form, to double-click in list monitoring sub-station title to realize checking of each gas concentration information of monitoring sub-station by user.

Slab model of the present invention is the model of atmospheric diffusion for heavy gas source of release in prior art, it is typical shallow-layer model, worldwide be extensively examined at present and the technology model managing as public's environmentally hazardous substance leakage accident and assess accepted, in the U.S., Canada, Mexico, Japan and other countries is identified as the method scale of risk assessment, and as the formulation basis of Contingency Response Plan in multiple nation's security administrative law, the application at home of this model is along with introducing international advanced model and fast-developing in national environmental protection portion, oil, metallurgical, the industry design institutes such as generating progressively bring into use slab model to carry out risk assessment, various places institute of Research of Environmental Sciences also starts the problem attempting using slab model investigation risk related scientific research project, this model can process 4 kinds of different source of releases: pond, ground is evaporated, the horizonally projected jet be above the ground level, one group or the jet that is above the ground level and instantaneous Volume Source, have and use simple and advantage fast.The risk source various information of being correlated with that the present invention stores can derive from the whole city's Environmental security hidden troubles removing and whole city's petroleum refining in 2010 within 2005, carried out according to Environmental Protection Agency of Daliang City and coking industry, industrial chemicals and chemical product manufacturing, the industry survey of pharmaceutical industry three major types.The present invention plays the connection function between the inner each parts of monitoring terminal by web joint, and sensor and signal processing part are undertaken interconnected by web joint, decrease the use of device interior cable, improve device integration.The present invention obtains air at zero point by the second filtrator 27, the zero correction function of environmental monitoring terminal can be realized, by the control of T-valve 28, the switching between zero correction function and the normal monitoring function of each gas can be realized, zero correction refers to when input signal is air at zero point time, the gas concentration display of environmental monitoring terminal also should be zero, if not zero, then need to be adjusted to zero, wherein, first filtrator 23 adopts PP material filter core, and the second filtrator 27 is equipped with rich hole mineral adsorbent filler.

Environmental monitoring terminal Each part part of the present invention precision-matched each other, forms multiple closed independently space.The miniaturization of environmental monitoring terminal, lightweight, portable design and wireless communication, conveniently carry out large regions environmental monitoring, hazardous location monitoring and continuous monitoring, ensured comprehensive, rapidity and the continuity of observation process.The gas sensor that sensor supporting part of the present invention carries is replaceable, expansion is strong, the detection of different desired gas can be realized, each ingredients such as the first housing, the second housing, the 3rd housing and sensor supporting part all adopt the integrated morphology of modular design, can separated from one another and dismounting, be convenient to recycling, greatly reduce the maintenance cost of system.The collection of forward end gas concentration information environmental monitoring data is responsible for by environmental monitoring terminal, accuracy of detection is high, can produce pollutant levels change and respond timely, by modular distinctive between each structure element and the mode that is integrated and connected, rational in infrastructure, volume weight is moderate, has good portability and structural stability, easily can be deployed to assigned address.Monitoring Data uploads to monitor supervision platform in real time by built-in wireless communication module, and GPS module provides equipment locating information.

Environmental emergency monitoring rapid deployment system of the present invention has increased substantially work efficiency, decrease drain on manpower and material resources, improve emergency response speed, strengthening environment monitor informatization level, be beneficial to the disposing fast effectively of environmental monitoring, simple to operate, detect accurate and easy to maintenance, the need of work of environmental standard and emergency monitoring can be met; Utilize model prediction gas range of scatter, be convenient to the laying instructing emergency monitoring point position, increase substantially the science that environmental monitoring is layouted, the blindness that effective reduction is manually layouted, improve the science that monitoring site is selected, ensure the effectively reliable of emergency monitoring result, the Monitoring Data that the terminal of environmental monitoring simultaneously produces, also can verify the accuracy of model prediction.Monitor supervision platform of the present invention can also provide environmental standard query function, standard queries is carried out by the selection of title and file type, and can standard be uploaded, specifically comprise discharge standard of air pollutants, fossil-fuel power plant atmospheric pollutant emission standard, emission standard of air pollutants for boilers, emission standard for odor pollutants.

The above; be only the present invention's preferably embodiment; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, all should be encompassed within protection scope of the present invention.

Claims (9)

1. an environmental monitoring terminal, is characterized in that comprising:

First housing bonded to each other and the second housing; Described first housing offers the first mounting hole and the second mounting hole; Described second housing has the first air intake opening;

Snap onto the first cover plate on the first mounting hole; Described first cover plate and described first mounting hole form the first spatial accommodation;

Snap onto the second cover plate on the second mounting hole; Described second cover plate and described second mounting hole form the second spatial accommodation;

Be contained in described first spatial accommodation, the electric signal for the corresponding gas concentration exported gas sensor amplify, filtering, analog to digital conversion and digital isolation processing signal processing part;

Be contained in the sensor supporting part in described second spatial accommodation; Described sensor supporting part carries at least one gas sensor;

Be arranged in described second housing, and be connected with the first air intake opening, for the first filtrator filtered the particle in the gas to be measured entered by described first air intake opening;

Be arranged in described second housing, and the tracheae be connected with described second spatial accommodation;

Be arranged in described second housing, and be connected with described tracheae with described first filtrator, for the gas to be measured through filtering being guided to the air pump in described tracheae; Gas to be measured enters described second spatial accommodation via tracheae;

Be installed on the 3rd housing of the first housing and the second housing upper end;

Be arranged on the 3rd housing, for the GPS module positioned described environmental monitoring terminal;

Be arranged on the 3rd housing, the wireless communication module that the environmental monitoring terminal positional information for the electric signal of the corresponding gas concentration after described signal processing part process and GPS module being exported sends.

2. environmental monitoring terminal according to claim 1, is characterized in that,

Described second housing also has the second air intake opening;

Described environmental monitoring terminal also comprises and being arranged in described second housing, and is connected with the second air intake opening, for carrying out the second filtrator that purifying obtains air at zero point to the gas to be measured entered by described second air intake opening;

Described first filtrator, to be connected by T-valve between the second filtrator and air pump; By the control to T-valve, realize gas to be measured that the first filtrator exports by air pump or the air at zero point that the second filtrator exports guides in described tracheae.

3. environmental monitoring terminal according to claim 1, is characterized in that,

Described first cover plate is provided with operation push-button and can the display screen of gas concentration information that goes out of display measurement;

Described second housing also has and is connected with described second spatial accommodation, for the exhausr port that the gas in the second spatial accommodation is discharged;

Described first housing and described second housing all have first surface and second surface; The first surface of described second housing and the first surface of described first housing fit, and the first surface of described second housing offer the gas port being communicated with described tracheae and described second spatial accommodation; The second surface of described first housing and the second housing all upwards extends to form lug boss, forms the inserting groove suitable with the 3rd housing between two lug bosses;

Described second housing also offers the holding tank for box for placing cell in ether.

4. environmental monitoring terminal according to claim 1, is characterized in that,

Described sensor supporting part at least offers one for placing the bearing holes of gas sensor, the both sides sidewall of this bearing holes is provided with gas communication hole;

Described environmental monitoring terminal also comprises the web joint be contained in described second spatial accommodation; Described web joint realizes the connection between described gas sensor and described signal processing part.

5. an Environmental emergency monitoring rapid deployment system, is characterized in that, described system comprises:

Environmental monitoring terminal described in multiple any one of Claims 1-4; Each environmental monitoring terminal is distributed in different monitoring sub-stations, and the gas concentration information sending environmental monitoring terminal positional information and place monitoring sub-station is to monitor supervision platform;

Connect the monitor supervision platform of described environmental monitoring terminal; Described monitor supervision platform is connected with weather station, and is mounted with GIS map; At least one gas concentration information that described monitor supervision platform sends according to the environmental monitoring terminal of arbitrary monitoring sub-station, set up the relation curve of gas with various concentration information and time, and after receiving the viewing command of this monitoring sub-station, transfer each gas concentration information and the relation curve of time and show; Described monitor supervision platform also according to the circle favored area of user in shown GIS map, transfers the risk source business location information in this circle favored area of storage, and the correspondence position in the GIS map of display marks risk source enterprise.

6. Environmental emergency monitoring rapid deployment system according to claim 5, it is characterized in that described monitor supervision platform also according to the gas concentration information inputted, the gas flow of leakage, leak position, in conjunction with the weather data obtained by weather station, slab model is utilized to draw the dispersal direction of gas, range of scatter and CONCENTRATION DISTRIBUTION.

7. Environmental emergency monitoring rapid deployment system according to claim 5, is characterized in that described monitor supervision platform is after the viewing command receiving arbitrary gas, transfers the up-to-date concentration information of this gas of each monitoring sub-station and show.

8. Environmental emergency monitoring rapid deployment system according to claim 5, is characterized in that described monitor supervision platform also for carrying out alarm when arbitrary gas concentration information exceedes secure threshold.

9. Environmental emergency monitoring rapid deployment system according to claim 5, is characterized in that described monitor supervision platform also for transferring the gas concentration information change data of section sometime and showing.