CN220752076U - Carbon emission monitoring device - Google Patents

Abstract

The utility model relates to the technical field of carbon emission monitoring, in particular to a carbon emission monitoring device which comprises a monitoring pipeline, a filter screen, a hole dredging mechanism, a sampling tube, a fan, a sensor and a valve I, wherein the valve II is arranged at one end of the sampling tube, which is far away from the monitoring pipeline, and the air inlet end of the fan is opposite to the filter screen; when the gas sampling device is used, the valve I and the valve II are opened, the fan pumps the gas to be detected into the sampling pipe and the monitoring pipeline through the mesh holes of the filter screen, the gas is monitored through the sensor, and the sampling gas is stored in the sampling pipe through closing the valve I and the valve II; the meshes of the filter screen are dredged through the hole dredging mechanism, so that the meshes of the filter screen are prevented from being blocked, and the monitoring result of the sensor is ensured; the utility model can prevent the mesh of the filter screen from being blocked, ensure that the gas to be detected can smoothly enter the monitoring pipeline, ensure the monitoring result of the sensor, and sample the monitored gas so as to detect the further components in the later stage, and the detection result is more accurate.

Description

Carbon emission monitoring device

Technical Field

The utility model relates to the technical field of carbon emission monitoring, in particular to a carbon emission monitoring device.

Background

The carbon emission refers to the average greenhouse gas emission generated during production, transportation, use and recovery of the product, and the dynamic carbon emission refers to the greenhouse gas emission accumulated and discharged per unit of goods, different dynamic carbon emissions exist among various batches of the same product, and the carbon emission is usually detected by a gas monitor, which is an instrument tool for monitoring the concentration of gas leakage, and the gas sensor is mainly used for monitoring the types and the contents of the gases in the environment.

The prior Chinese patent with the publication number of CN219266220U discloses a carbon emission monitoring device, which comprises a monitoring pipeline, wherein a fan and a sensor are fixedly arranged in the monitoring pipeline, a filtering mechanism is arranged in the monitoring pipeline, two exhaust pipes are symmetrically and fixedly arranged on the outer side of the monitoring pipeline, a mounting mechanism is arranged on the outer side of the monitoring pipeline, and the mounting mechanism comprises a mounting rack fixed on the outer side of the monitoring pipeline; according to the utility model, through the cooperation between the sliding plate and the inner rod and between the springs, the sliding plate can be enabled to move upwards, meanwhile, the two springs are compressed, and through the cooperation between the rotating rod and the clamping plates and between the rotating rod and the side rods, the two clamping plates are enabled to be far away from each other, and when the two springs are reset, the two clamping plates are enabled to be close to each other to clamp and fix the fixing piece, so that the whole monitoring device is convenient to install.

However, in practical applications, the device has the following problems: firstly, dust is accumulated on a first filter screen and a second filter screen in the long-time use process, and accumulated dust not only can block meshes on the first filter screen and the second filter screen, but also can influence the gas to be detected to enter the monitoring pipeline and influence the monitoring result of a sensor; secondly, the device is not provided with a sampling device for further component detection in the whole monitoring process, so that the phenomenon that the data detected by the sensor is only approximate data can be caused, and the detection result is inaccurate.

Disclosure of Invention

The utility model aims to overcome the defects, and provides the carbon emission monitoring device which can prevent the mesh of the filter screen from being blocked, ensure that the gas to be detected can smoothly enter the monitoring pipeline, ensure the monitoring result of the sensor, and sample the monitored gas so as to detect the further components in the later stage, and the detection result is more accurate.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a carbon emission monitoring devices, includes the monitoring pipeline, set up in the filter screen of monitoring pipeline front end for dredge the hole mechanism of filter screen mesh, connect monitoring pipeline rear end's sampling tube, and set up in fan and sensor in the monitoring pipeline, be provided with valve one between sampling tube and the monitoring pipeline, the sampling tube is kept away from monitoring pipeline's one end is provided with valve two, the air inlet end of fan is just right the filter screen sets up.

Further, a chute is arranged on the inner side wall of the monitoring pipeline; the hole dredging mechanism comprises a sliding block which is connected in the sliding groove in a sliding way, and a hole dredging plate which is opposite to the filter screen and used for driving the hole dredging plate to be close to or far away from an electric push rod adopted by the filter screen, and a connecting frame which is used for fixing the electric push rod in the monitoring pipeline, wherein the hole dredging plate is fixedly connected with the sliding block, a hole dredging needle is arranged on the hole dredging plate and opposite to a mesh of the filter screen, and a plurality of air holes are formed in the hole dredging plate.

Further, the one end that is kept away from to dredge the hole needle is provided with sharp thorn portion.

Further, the air holes are staggered with the hole dredging needles.

Further, the device also comprises a controller arranged on the outer side of the monitoring pipeline, and the hole dredging mechanism, the fan, the sensor, the valve I and the valve II are electrically connected with the controller.

The beneficial effects of the utility model are as follows:

in practical application, when in use, the valve I and the valve II are opened, the fan pumps the gas to be detected into the sampling tube and the monitoring pipeline through the mesh of the filter screen, the gas is monitored through the sensor, and the sampling gas is stored in the sampling tube through closing the valve I and the valve II; the meshes of the filter screen are dredged through the hole dredging mechanism, so that the meshes of the filter screen are prevented from being blocked, and the monitoring result of the sensor is ensured; the utility model can prevent the mesh of the filter screen from being blocked, ensure that the gas to be detected can smoothly enter the monitoring pipeline, ensure the monitoring result of the sensor, and sample the monitored gas so as to detect the further components in the later stage, and the detection result is more accurate.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a bottom view of the present utility model;

FIG. 3 is a partial cross-sectional view at A-A in FIG. 2;

reference numerals: monitoring the pipeline 1; a chute 11; a filter screen 2; a sampling tube 3; a fan 4; a sensor 5; valve one 61; valve two 62; a slider 71; a porous plate 72; an electric push rod 73; a connecting frame 74; a hole dredging needle 75; an air hole 76; and a controller 8.

Detailed Description

As shown in fig. 1, fig. 2 and fig. 3, a carbon emission monitoring device comprises a monitoring pipeline 1, a filter screen 2 arranged at the front end of the monitoring pipeline 1, a hole dredging mechanism for dredging meshes of the filter screen 2, a sampling pipe 3 connected to the rear end of the monitoring pipeline 1, a fan 4 and a sensor 5 arranged in the monitoring pipeline 1, a valve I61 arranged between the sampling pipe 3 and the monitoring pipeline 1, and a valve II 62 arranged at one end of the sampling pipe 3, far away from the monitoring pipeline 1, wherein an air inlet end of the fan 4 is opposite to the filter screen 2.

When the gas sampling device is used, the first valve 61 and the second valve 62 are opened, the fan 4 pumps gas to be detected into the sampling tube 3 and the monitoring pipeline 1 through meshes of the filter screen 2, the gas is monitored through the sensor 5, and the first valve 61 and the second valve 62 are closed to store the sampled gas in the sampling tube 3; the meshes of the filter screen 2 are dredged through the hole dredging mechanism, the meshes of the filter screen 2 are prevented from being blocked, and the monitoring result of the sensor 5 is ensured; the utility model can prevent the mesh of the filter screen 2 from being blocked, ensure that the gas to be detected can smoothly enter the monitoring pipeline 1, ensure the monitoring result of the sensor 5, and sample the monitored gas so as to detect the further components at the later stage, and the detection result is more accurate.

As shown in fig. 1, 2 and 3, a chute 11 is arranged on the inner side wall of the monitoring pipeline 1; the hole dredging mechanism comprises a sliding block 71 which is slidably connected in the sliding groove 11, a hole dredging plate 72 which is arranged opposite to the filter screen 2, an electric push rod 73 which is used for driving the hole dredging plate 72 to be close to or far away from the filter screen 2, and a connecting frame 74 which is used for fixing the electric push rod 73 in the monitoring pipeline 1, wherein the hole dredging plate 72 is fixedly connected with the sliding block 71, a hole dredging needle 75 is arranged on the hole dredging plate 72 opposite to the filter screen 2, and a plurality of air holes 76 are arranged on the hole dredging plate 72; in this embodiment, when the filter screen 2 needs to be dredged, the electric push rod 73 drives the slide block 71 to slide along the chute 11, the porous plate 72 approaches the filter screen 2, and the porous needles 75 on the porous plate 72 are inserted into the meshes of the filter screen 2 to dredge the meshes of the filter screen 2.

As shown in fig. 1, 2 and 3, the end of the hole-dredging needle 75 away from the hole-dredging plate 72 is provided with a spike; in this embodiment, the hole dredging needle 75 is more easily inserted into the mesh of the filter screen 2 by the spike.

As shown in fig. 1, 2 and 3, the air holes 76 are arranged offset from the hole dredging needles 75; in this embodiment, when the air holes 76 are staggered from the hole dredging needles 75, the air to be tested passes through the meshes of the filter screen 2 and then passes through the air holes 76 to enter the monitoring pipeline 1.

As shown in fig. 1, 2 and 3, the device further comprises a controller 8 arranged outside the monitoring pipeline 1, and the hole dredging mechanism, the fan 4, the sensor 5, the first valve 61 and the second valve 62 are all electrically connected with the controller 8; in this embodiment, the controller 8 can energize and control the hole dredging mechanism, the fan 4, the sensor 5, the first valve 61 and the second valve 62.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the scope of the utility model as defined in the accompanying claims.

Claims (5)

1. A carbon emission monitoring device, characterized in that: including monitoring pipeline (1), set up in filter screen (2) of monitoring pipeline (1) front end for dredge the hole mechanism of filter screen (2) mesh, connect sampling tube (3) of monitoring pipeline (1) rear end, and set up in fan (4) and sensor (5) in monitoring pipeline (1), be provided with valve one (61) between sampling tube (3) and monitoring pipeline (1), sampling tube (3) are kept away from the one end of monitoring pipeline (1) is provided with valve two (62), the air inlet end of fan (4) is just right filter screen (2) set up.

2. A carbon emission monitoring device as defined in claim 1, wherein: a chute (11) is arranged on the inner side wall of the monitoring pipeline (1); the hole dredging mechanism comprises a sliding block (71) which is connected in the sliding groove (11) in a sliding manner, a hole dredging plate (72) which is opposite to the filter screen (2) is used for driving the hole dredging plate (72) to be close to or far away from an electric push rod (73) adopted by the filter screen (2), and a connecting frame (74) which is used for fixing the electric push rod (73) in the monitoring pipeline (1), the hole dredging plate (72) is fixedly connected with the sliding block (71), hole dredging needles (75) are arranged on holes of the hole dredging plate (72) which are opposite to the filter screen (2), and a plurality of air holes (76) are formed in the hole dredging plate (72).

3. A carbon emission monitoring device as defined in claim 2, wherein: and a spike part is arranged at one end of the hole dredging needle (75) far away from the hole dredging plate (72).

4. A carbon emission monitoring device as defined in claim 2, wherein: the air holes (76) are staggered with the hole dredging needles (75).

5. A carbon emission monitoring device as defined in claim 1, wherein: the device is characterized by further comprising a controller (8) arranged on the outer side of the monitoring pipeline (1), wherein the hole dredging mechanism, the fan (4), the sensor (5), the first valve (61) and the second valve (62) are electrically connected with the controller (8).