CN220872433U - Atmospheric sampling detection device - Google Patents

Abstract

The utility model relates to the technical field of detection devices, in particular to an atmospheric sampling detection device, which comprises a device body, a detection box and a support assembly, wherein the support assembly comprises four groups of cylinders, a triangular cone, a level meter, two mounting grooves, a handle and a protective shell; the device body is through starting the air pump, inhale the air in the atmosphere from the exhaust tube, then loop through filter screen and gas analysis case and carry out the analysis, through setting up the detection case, set up detection device inside the detection case, be convenient for detect the atmospheric components at any time according to the place difference that detects, when the outdoor use device, rotate the inside handle of mounting groove, hold the handle and mention the device, then start the output that the cylinder stretched out the cylinder, after the output and the ground contact of cylinder, loosen the handle and observe the spirit level, adjust four cylinders through observing the spirit level, guarantee the device level, the triangular pyramid on the output of cylinder can guarantee that the device is easier at the support of some hard topography.

Description

Atmospheric sampling detection device

Technical Field

The utility model relates to the field of sampling valves, in particular to an atmosphere sampling detection device.

Background

Atmospheric sampling refers to a method for collecting a sample of pollutants or polluted air in the atmosphere, and the collecting method is to make a large amount of air pass through a liquid absorbent or a solid absorbent to enrich the pollutants with lower concentration in the atmosphere, such as an air extraction method and a filter membrane method. The other type is to collect air containing pollutants by using a container (glass bottle, plastic bag and the like), and most of the sampled air needs to be brought back to a laboratory for inspection in the process of atmospheric sampling at present, so that the efficiency of atmospheric sampling analysis is often reduced

The existing atmospheric detection device (CN 213398401U) comprises a detection box, wherein both sides of a shell of the detection box are respectively provided with a heat radiation plate, the top of the heat radiation plate is provided with a lifting rod, one side of the lifting rod, which is close to the detection box, is provided with a first rotating shaft which is fixedly connected with the shell of the detection box, one side of the interior of the detection box is provided with an air pump, one side of the air pump is provided with a U-shaped pipe, one side of the U-shaped pipe, which is far away from the air pump, is provided with a gas analysis box, the top of the gas analysis box is provided with a storage battery, and the storage battery is fixed on one side of an inner cavity of the detection box; the top cap, the top cap setting is at the top of detecting the case. According to the utility model, the air pump is started to suck the air in the atmosphere from the exhaust pipe, then the air is sequentially analyzed through the filter screen and the gas analysis box, and the detection device is arranged in the detection box by arranging the detection box, so that the atmospheric components can be conveniently detected at any time according to different detection places, the atmospheric detection time is greatly reduced, and the atmospheric detection efficiency is improved.

However, when the device is used outdoors, the device is inconvenient to install due to irregularities of the terrain, and an auxiliary mounting bracket is needed to influence the detection efficiency.

Disclosure of utility model

The utility model aims to provide an atmosphere sampling detection device, which aims to solve the problems that the device is inconvenient to install and needs an auxiliary mounting bracket to influence the detection efficiency due to the irregularity of the terrain when the device is used outdoors.

In order to achieve the above purpose, the utility model provides an atmosphere sampling and detecting device, which comprises a device body, a detecting box and a supporting component, wherein the supporting component comprises four groups of cylinders, a triangular cone, a level meter, two mounting grooves, a handle and a protective shell;

The two mounting grooves are fixedly connected with the detection box and are positioned on two sides of the detection box, the handles are rotationally connected with the mounting grooves and are positioned on the inner sides of the mounting grooves, the level meter is fixedly connected with the detection box and is positioned on one side of the detection box, the four groups of cylinders are fixedly connected with the detection box and are positioned on two sides of the detection box, the triangular cone is fixedly connected with the output end of the cylinders and is positioned on one side of the cylinders, and the protective shell is fixedly connected with the detection box and is positioned on the outer side of the cylinders.

The support assembly further comprises a cover plate and a magnet, the cover plate is rotationally connected with the protective shell and located on one side of the protective shell, and the magnet is arranged on the cover plate.

The supporting assembly further comprises a roller, a sleeve and a push rod, wherein the roller is rotationally connected with the detection box and located at the bottom of the detection box, the sleeve is fixedly connected with the detection box and located at one side of the detection box, and the push rod is slidably connected with the sleeve and located at one side of the sleeve.

The support assembly further comprises a fixing bolt and a handle, wherein the fixing bolt is in threaded connection with the sleeve and is located on one side of the sleeve, and the handle is fixedly connected with the fixing bolt and is located on one side of the fixing bolt.

The support assembly further comprises a groove, a support rod and a solar panel, wherein the solar panel is rotationally connected with the detection box and located at the top of the detection box, the support rod is rotationally connected with the solar panel and located on one side of the solar panel, and the groove is formed in the top of the detection box.

According to the atmospheric sampling detection device, the device body is started to suck air in the atmosphere from the exhaust pipe, then the air is sequentially analyzed through the filter screen and the gas analysis box, the detection box is arranged, the detection device is arranged in the detection box, so that atmospheric components can be detected at any time according to different detection places, when the device is used outdoors, the handle in the installation groove can be rotated, a user lifts the device through the handle, then the air cylinder is started to extend out of the output end of the air cylinder, after the output end of the air cylinder is contacted with the ground, the handle is loosened to observe the level meter, the four air cylinders can be adjusted through observing the level meter, the device level is ensured, the triangular pyramid on the output end of the air cylinder can ensure that the device is easier to support in some hard terrains, and the problems that the device is inconvenient to install due to the irregularity of terrains, the auxiliary installation support is needed, and the detection efficiency is affected are solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a block diagram of an atmospheric sampling detection device according to a first embodiment of the present utility model.

Fig. 2 is a schematic cross-sectional view of an atmospheric sampling detection device according to a first embodiment of the present utility model.

Fig. 3 is a schematic cross-sectional view of an atmospheric sampling detection device according to a second embodiment of the present utility model.

101-Device body, 102-detection box, 103-supporting component, 104-cylinder, 105-triangular cone, 106-level meter, 107-mounting groove, 108-handle, 109-protective shell, 110-cover plate, 111-magnet, 112-roller, 113-sleeve, 114-push rod, 115-fixing bolt, 116-handle, 201-groove, 202-supporting rod and 203-solar panel.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

First embodiment

Referring to fig. 1 to 2, fig. 1 is a block diagram of an atmospheric sampling detection device according to a first embodiment of the present utility model. Fig. 2 is a schematic cross-sectional view of an atmospheric sampling detection device according to a first embodiment of the present utility model.

The utility model provides an atmosphere sampling detection device, which comprises: the device comprises a device body 101, a detection box 102 and a support assembly 103, wherein the support assembly 103 comprises four groups of cylinders 104, a triangular cone 105, a level gauge 106, two mounting grooves 107, a handle 108, a protective shell 109, a cover plate 110, a magnet 111, rollers 112, sleeves 113, push rods 114, fixing bolts 115 and a grip 116. The problem that the device is inconvenient to install due to irregularities of the terrain during outdoor use and needs an auxiliary mounting bracket to influence the detection efficiency is solved through the scheme, and it can be understood that the scheme can be used in a device moving scene and can also be used for moving the device through the roller 112 flatly, and the push rod 114 slides in the sleeve 113 to adjust the position so as to provide a stress point when pushing the device.

In this embodiment, the device body 101 is configured to draw in air in the atmosphere from the exhaust pipe by starting the air pump, and then analyze the air sequentially through the filter screen and the gas analysis box, and by providing the detection box 102, the detection device is provided inside the detection box 102, so that it is convenient to detect the atmospheric components at any time according to the detected location difference.

The device is used outdoors, the handle 108 inside the mounting groove 107 can be rotated, a user lifts the device through the handle 108, then the air cylinder 104 stretches out of the output end of the air cylinder 104 and contacts with the ground, after the output end of the air cylinder 104 contacts with the ground, the handle 108 is loosened to observe the level meter 106, the level of the device is guaranteed through observing the level meter 106 can be adjusted for the four air cylinders 104, the triangular pyramid 105 on the output end of the air cylinder 104 can ensure that the device is easier to support on some hard terrains, the device is inconvenient to install due to the irregularity of the terrains when the device is used outdoors, an auxiliary mounting bracket is needed, the problem of influencing the detection efficiency is solved, when the device is used outdoors, the user can rotate the handle 108 inside the mounting groove 107, the user lifts the device through the handle 108, then starts the air cylinder 104 to stretch out of the output end of the air cylinder 104, after the output end of the air cylinder 104 contacts with the ground, the handle 108 is loosened, the level meter 106 is guaranteed, the level meter 106 can be observed through observing the level meter 106, the level meter is more easily, the device is prevented from being convenient to install due to the irregularity of the topography when the device is not guaranteed to be mounted on the four air cylinders 104, the device is easier to detect the irregularity of the topography, the device is easier to influence on the topography when the device is required to be more convenient to install on the three-dimensional mounting device.

Secondly, the cover plate 110 is rotatably connected with the protective housing 109 and is located at one side of the protective housing 109, the magnet 111 is disposed on the cover plate 110, and the cover plate 110 is used for preventing the triangular cone 105 in the protective housing 109 from being pricked carelessly when the device is not used.

Again, the roller 112 is rotatably connected with the detection box 102 and is located at the bottom of the detection box 102, the sleeve 113 is fixedly connected with the detection box 102 and is located at one side of the detection box 102, the push rod 114 is slidably connected with the sleeve 113 and is located at one side of the sleeve 113, the roller 112 is used for moving the device on the flat ground, and the push rod 114 is slidably adjusted in the sleeve 113 to provide a stress point when pushing the device.

Finally, the fixing bolt 115 is in threaded connection with the sleeve 113, and is located at one side of the sleeve 113, the grip 116 is fixedly connected with the fixing bolt 115, and is located at one side of the fixing bolt 115, the fixing bolt 115 is used for fixing the sliding position of the push rod 114, and the grip 116 facilitates rotation of the fixing bolt 115.

When the atmospheric sampling detection device is used, the device body 101 sucks air in the atmosphere from the exhaust pipe by starting the air pump, then sequentially analyzes the air through the filter screen and the gas analysis box, the detection box 102 is arranged, the detection device is arranged inside the detection box 102, so that atmospheric components can be detected at any time according to different detection places, when the device is used outdoors, the handle 108 in the mounting groove 107 can be rotated, a user lifts the device by the handle 108, then the air cylinder 104 is started to extend out of the output end of the air cylinder 104, after the output end of the air cylinder 104 is contacted with the ground, the handle 108 is loosened to observe the level gauge 106, the level gauge 106 can be adjusted by observing the level gauge 106, the triangular pyramid 105 on the output end of the air cylinder 104 can ensure that the device is easier to support in a plurality of hard terrains, and the problems that the device is inconvenient to mount due to the irregularities of terrains and the auxiliary mounting bracket is needed during outdoor use and the efficiency of detection are solved.

Second embodiment

Referring to fig. 3, fig. 3 is a schematic cross-sectional view of an atmospheric sampling detection device according to a second embodiment of the present utility model. The support assembly 103 of the atmospheric sampling detection device of the present utility model further comprises a groove 201, a support bar 202 and a solar panel 203 on the basis of the first embodiment.

The solar panel 203 is rotatably connected with the detection box 102 and is located at the top of the detection box 102, the support rod 202 is rotatably connected with the solar panel 203 and is located at one side of the solar panel 203, the groove 201 is formed at the top of the detection box 102, the solar panel 203 is used for saving energy and converting light energy, a support is formed by rotating the support rod 202 and one side of the groove 201, when the device is not used, the support rod 202 can be rotated to be attached to the solar panel 203, and then the support rod 202 is just clamped into the groove 201.

The above disclosure is merely illustrative of a preferred embodiment of the present utility model, and it is not intended to limit the scope of the utility model, and those skilled in the art will understand that all or part of the procedures of the above embodiments are implemented, and equivalent changes according to the claims of the present utility model still fall within the scope of the utility model.

Claims (5)

1. An atmosphere sampling detection device comprises a device body and a detection box, and is characterized in that,

The device also comprises a supporting component, wherein the supporting component comprises four groups of air cylinders, a triangular cone, a level meter, two mounting grooves, a handle and a protective shell;

The two mounting grooves are fixedly connected with the detection box and are positioned on two sides of the detection box, the handles are rotationally connected with the mounting grooves and are positioned on the inner sides of the mounting grooves, the level meter is fixedly connected with the detection box and is positioned on one side of the detection box, the four groups of cylinders are fixedly connected with the detection box and are positioned on two sides of the detection box, the triangular cone is fixedly connected with the output end of the cylinders and is positioned on one side of the cylinders, and the protective shell is fixedly connected with the detection box and is positioned on the outer side of the cylinders.

2. An atmospheric sampling test device according to claim 1 wherein,

The support assembly further comprises a cover plate and a magnet, the cover plate is rotationally connected with the protective shell and located on one side of the protective shell, and the magnet is arranged on the cover plate.

3. An atmospheric sampling test device according to claim 2 wherein,

The supporting component further comprises a roller, a sleeve and a push rod, wherein the roller is rotationally connected with the detection box and is positioned at the bottom of the detection box, the sleeve is fixedly connected with the detection box and is positioned at one side of the detection box, and the push rod is slidably connected with the sleeve and is positioned at one side of the sleeve.

4. An atmospheric sampling test device according to claim 3 wherein,

The support assembly further comprises a fixing bolt and a handle, wherein the fixing bolt is in threaded connection with the sleeve and is located on one side of the sleeve, and the handle is fixedly connected with the fixing bolt and is located on one side of the fixing bolt.

5. An atmospheric sampling test device according to claim 4 wherein,

The support assembly further comprises a groove, a support rod and a solar panel, wherein the solar panel is rotationally connected with the detection box and located at the top of the detection box, the support rod is rotationally connected with the solar panel and located on one side of the solar panel, and the groove is formed in the top of the detection box.