CN204694281U - Industrial park carbon intensity monitoring sensor stationary installation - Google Patents

Abstract

The utility model discloses industrial park carbon intensity monitoring sensor stationary installation to comprise: shell, Greenhouse sensor is installed in described shell, described shell is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood, the surrounded surface of described shell is connected with a support respectively, one end of described support is connected with described shell, the other end of described support by sucker suction on the gas outlet inwall of workshop, the center line of described cone-shaped hood overlaps with the center line of described workshop gas outlet, described device also comprises bracing frame, support frame as described above one end is connected with described cone-shaped hood, the other end of support frame as described above is connected with described workshop gas outlet inwall, achieve apparatus design reasonable, Greenhouse sensor is fixing firm, install rationally, be not easy to be destroyed, and Monitoring Data technique effect accurately.

Description

Industrial park carbon intensity monitoring sensor stationary installation

Technical field

The utility model relates to Greenhouse research field, particularly relates to a kind of industrial park carbon intensity monitoring sensor stationary installation.

Background technology

Greenhouse gases refer to the solar radiation that can absorb ground return in air, and some gases of emitted radiation again, as water vapor, carbon dioxide, most of cold-producing medium etc.Their effect makes earth surface become warmer, is similar to greenhouse and retains solar radiation, and the effect of air in heating greenhouse.The impact that this greenhouse gases make the earth become warmer is called " greenhouse effect ".Steam (H O), carbon dioxide (CO), nitrous oxide (N O), methane (CH) etc. are greenhouse gases main in earth atmosphere.Carbon emission is a general name about greenhouse gas emission or abbreviation, and in greenhouse gases, topmost gas is carbon dioxide, therefore uses carbon (Carbon) one word representatively.

In the prior art, easily more carbon emission is produced in commercial production, and the carbon emission how controlled in industry becomes the problem of primary study, in the prior art, usual employing Greenhouse sensor gathers the greenhouse gas emission data in monitored place, then transfer data to processing enter to process, the greenhouse gases of result to plant emissions according to analyzing and processing are monitored, and then require that enterprise rectifies and improves when exceeding standard.

In the prior art, be arranged on the Greenhouse sensor in enterprise, be usually simply fixed in workshop, easy like this causing is fixed built on the sand, is easily destroyed, and the data of monitoring are inaccurate.

In sum, present inventor, in the process realizing utility model technical scheme in the embodiment of the present application, finds that above-mentioned technology at least exists following technical matters:

In the prior art, it is unreasonable to there is mounting means in existing Greenhouse sensor, and fix built on the sand, device is easily destroyed, the inaccurate technical matters of Monitoring Data.

Utility model content

The utility model provides a kind of industrial park carbon intensity monitoring sensor stationary installation, solving existing Greenhouse sensor, to there is mounting means unreasonable, fix built on the sand, device is easily destroyed, and the inaccurate technical matters of Monitoring Data, achieves apparatus design reasonable, Greenhouse sensor is fixing firm, install rationally, be not easy to be destroyed, and Monitoring Data technique effect accurately.

For solving the problems of the technologies described above, the embodiment of the present application provides industrial park carbon intensity monitoring sensor stationary installation, and described device comprises:

Shell, Greenhouse sensor is installed in described shell, described shell is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood, the surrounded surface of described shell is connected with a support respectively, one end of described support is connected with described shell, the other end of described support by sucker suction on the gas outlet inwall of workshop, the center line of described cone-shaped hood overlaps with the center line of described workshop gas outlet, described device also comprises bracing frame, support frame as described above one end is connected with described cone-shaped hood, the other end of support frame as described above is connected with described workshop gas outlet inwall.

Wherein, described shell is reticulate texture, and described shell adopts angle steel to make, and described shell is rectangular-shaped, and described case surface scribbles rust protection paint.

Wherein, described cone-shaped hood and described fresh air inlet junction are provided with packing washer.

Wherein, consistent with the discharge directions of described workshop gas outlet towards the direction on described cone-shaped hood top from described cone-shaped hood bottom.

Wherein, described cone-shaped hood bottom diameter is less than or equal to described workshop air slit diameter.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

Owing to have employed, industrial park carbon intensity monitoring sensor stationary installation is designed to comprise: shell, Greenhouse sensor is installed in described shell, described shell is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood, the surrounded surface of described shell is connected with a support respectively, one end of described support is connected with described shell, the other end of described support by sucker suction on the gas outlet inwall of workshop, the center line of described cone-shaped hood overlaps with the center line of described workshop gas outlet, described device also comprises bracing frame, support frame as described above one end is connected with described cone-shaped hood, the technical scheme that the other end of support frame as described above is connected with described workshop gas outlet inwall, be fixed in the gas outlet of workshop by Greenhouse sensor by support, avoid directly according in workshop, avoid the contact of shop personnel, be not easy to be destroyed, and be provided with cone-shaped hood and fully will monitor for Greenhouse sensor in the gas collection discharged in gas outlet to shell, Monitoring Data is accurate, fully the gas that whole workshop is discharged is monitored, workshop gas enters cone-shaped hood from workshop gas outlet, then by entering shell in fresh air inlet, discharge from air outlet opening for after Greenhouse Sensor monitoring, and be provided with support and be fixed, utilize sucker suction on the gas outlet inwall of workshop, fixing firm, so, efficiently solving existing Greenhouse sensor, to there is mounting means unreasonable, fix built on the sand, device is easily destroyed, the inaccurate technical matters of Monitoring Data, and then it is reasonable to achieve apparatus design, Greenhouse sensor is fixing firm, install rationally, be not easy to be destroyed, and Monitoring Data technique effect accurately.

Accompanying drawing explanation

Fig. 1 is the schematic rear view of industrial park carbon intensity monitoring sensor stationary installation in the embodiment of the present application one;

Fig. 2 is the schematic side view of industrial park carbon intensity monitoring sensor stationary installation in the embodiment of the present application one;

Wherein, 1-workshop gas outlet, 2-shell, 3-Greenhouse sensor, 4-support, 5-sucker, 6-cone-shaped hood, 7-bracing frame.

Embodiment

The utility model provides a kind of industrial park carbon intensity monitoring sensor stationary installation, solving existing Greenhouse sensor, to there is mounting means unreasonable, fix built on the sand, device is easily destroyed, and the inaccurate technical matters of Monitoring Data, achieves apparatus design reasonable, Greenhouse sensor is fixing firm, install rationally, be not easy to be destroyed, and Monitoring Data technique effect accurately.

Technical scheme during the application implements is for solving the problems of the technologies described above.General thought is as follows:

Have employed and industrial park carbon intensity monitoring sensor stationary installation is designed to comprise: shell, Greenhouse sensor is installed in described shell, described shell is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood, the surrounded surface of described shell is connected with a support respectively, one end of described support is connected with described shell, the other end of described support by sucker suction on the gas outlet inwall of workshop, the center line of described cone-shaped hood overlaps with the center line of described workshop gas outlet, described device also comprises bracing frame, support frame as described above one end is connected with described cone-shaped hood, the technical scheme that the other end of support frame as described above is connected with described workshop gas outlet inwall, be fixed in the gas outlet of workshop by Greenhouse sensor by support, avoid directly according in workshop, avoid the contact of shop personnel, be not easy to be destroyed, and be provided with cone-shaped hood and fully will monitor for Greenhouse sensor in the gas collection discharged in gas outlet to shell, Monitoring Data is accurate, fully the gas that whole workshop is discharged is monitored, workshop gas enters cone-shaped hood from workshop gas outlet, then by entering shell in fresh air inlet, discharge from air outlet opening for after Greenhouse Sensor monitoring, and be provided with support and be fixed, utilize sucker suction on the gas outlet inwall of workshop, fixing firm, so, efficiently solving existing Greenhouse sensor, to there is mounting means unreasonable, fix built on the sand, device is easily destroyed, the inaccurate technical matters of Monitoring Data, and then it is reasonable to achieve apparatus design, Greenhouse sensor is fixing firm, install rationally, be not easy to be destroyed, and Monitoring Data technique effect accurately.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

Embodiment one:

In embodiment one, provide industrial park carbon intensity monitoring sensor stationary installation, please refer to Fig. 1-Fig. 2, described device comprises:

Shell 2, in described shell 2, Greenhouse sensor 3 is installed, described shell 2 is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood 6, the surrounded surface of described shell 2 is connected with a support 4 respectively, one end of described support 4 is connected with described shell 2, the other end of described support 4 is adsorbed on workshop gas outlet 1 inwall by sucker 5, the center line of described cone-shaped hood 6 overlaps with the center line of described workshop gas outlet 1, described device also comprises bracing frame 7, support frame as described above 7 one end is connected with described cone-shaped hood 6, the other end of support frame as described above 7 is connected with described workshop gas outlet 1 inwall.

Wherein, in the embodiment of the present application, described shell is reticulate texture, and described shell adopts angle steel to make, and described shell is rectangular-shaped, and described case surface scribbles rust protection paint.

Wherein, in the embodiment of the present application, be set to netted can so that the gas in the gas outlet of workshop enters, adopt angle steel can the intensity of ensuring equipment, Tu rust protection paint can prevent from getting rusty.

Wherein, in the embodiment of the present application, described cone-shaped hood and described fresh air inlet junction are provided with packing washer.

Wherein, in the embodiment of the present application, consistent with the discharge directions of described workshop gas outlet towards the direction on described cone-shaped hood top from described cone-shaped hood bottom.

Wherein, in the embodiment of the present application, described cone-shaped hood bottom diameter is less than or equal to described workshop air slit diameter.

Wherein, in the embodiment of the present application, Greenhouse sensor is Greenhouse device conventional in prior art, the data collected are transferred to service end and carry out analyzing and processing by Greenhouse sensor, the greenhouse gas emission data of corresponding monitoring point can be drawn, and then greenhouse gas emission is monitored, as carbon dioxide sensor etc.

Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:

Owing to have employed, industrial park carbon intensity monitoring sensor stationary installation is designed to comprise: shell, Greenhouse sensor is installed in described shell, described shell is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood, the surrounded surface of described shell is connected with a support respectively, one end of described support is connected with described shell, the other end of described support by sucker suction on the gas outlet inwall of workshop, the center line of described cone-shaped hood overlaps with the center line of described workshop gas outlet, described device also comprises bracing frame, support frame as described above one end is connected with described cone-shaped hood, the technical scheme that the other end of support frame as described above is connected with described workshop gas outlet inwall, be fixed in the gas outlet of workshop by Greenhouse sensor by support, avoid directly according in workshop, avoid the contact of shop personnel, be not easy to be destroyed, and be provided with cone-shaped hood and fully will monitor for Greenhouse sensor in the gas collection discharged in gas outlet to shell, Monitoring Data is accurate, fully the gas that whole workshop is discharged is monitored, workshop gas enters cone-shaped hood from workshop gas outlet, then by entering shell in fresh air inlet, discharge from air outlet opening for after Greenhouse Sensor monitoring, and be provided with support and be fixed, utilize sucker suction on the gas outlet inwall of workshop, fixing firm, so, efficiently solving existing Greenhouse sensor, to there is mounting means unreasonable, fix built on the sand, device is easily destroyed, the inaccurate technical matters of Monitoring Data, and then it is reasonable to achieve apparatus design, Greenhouse sensor is fixing firm, install rationally, be not easy to be destroyed, and Monitoring Data technique effect accurately.

Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the utility model scope.

Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (5)

1. industrial park carbon intensity monitoring sensor stationary installation, is characterized in that, described device comprises:

Shell, Greenhouse sensor is installed in described shell, described shell is provided with a fresh air inlet and an air outlet opening, described fresh air inlet is connected with the top of cone-shaped hood, the surrounded surface of described shell is connected with a support respectively, one end of described support is connected with described shell, the other end of described support by sucker suction on the gas outlet inwall of workshop, the center line of described cone-shaped hood overlaps with the center line of described workshop gas outlet, described device also comprises bracing frame, support frame as described above one end is connected with described cone-shaped hood, the other end of support frame as described above is connected with described workshop gas outlet inwall.

2. device according to claim 1, is characterized in that, described shell is reticulate texture, and described shell adopts angle steel to make, and described shell is rectangular-shaped, and described case surface scribbles rust protection paint.

3. device according to claim 1, is characterized in that, described cone-shaped hood and described fresh air inlet junction are provided with packing washer.

4. device according to claim 1, is characterized in that, consistent with the discharge directions of described workshop gas outlet towards the direction on described cone-shaped hood top from described cone-shaped hood bottom.

5. device according to claim 1, is characterized in that, described cone-shaped hood bottom diameter is less than or equal to described workshop air slit diameter.