An intelligent environmental monitoring instrument for air pollution control.

By designing a pull rod device and a chassis device, combined with an electric push rod and traveling wheels, the problem of convenient movement and rapid deployment of intelligent environmental monitoring instruments is solved, enabling efficient monitoring of the equipment in complex terrain.

CN224434064UActive Publication Date: 2026-06-30ZHEJIANG ZHONGPU DETECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG ZHONGPU DETECTION TECH CO LTD
Filing Date
2025-08-29
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing intelligent environmental monitoring instruments cannot be easily moved for rapid temporary deployment, affecting their ease of use.

Method used

An intelligent environmental monitoring device was designed, comprising a pull rod device and a housing device. The pull rod device is used for telescopic deployment for easy movement, while the housing device is used for storing electrical energy and folding the device into place. Combined with an electric push rod and traveling wheels, the device can be quickly deployed and stored.

Benefits of technology

It combines convenient mobility, deployment stability, and operational efficiency, making it suitable for frequent changes of monitoring points, especially for complex terrain, reducing manpower consumption, shortening deployment time, and lowering the risk of equipment damage.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model belongs to the field of air pollution control and environmental protection, and discloses an intelligent environmental monitoring instrument for air pollution control. It includes a telescopic rod device for easy extension and retraction, and a housing for storing electrical energy and accommodating movement. The telescopic rod device is fixedly installed at the rear of the housing. The housing contains an extension device for lifting, suspending, deployment, and environmental monitoring. The housing includes a chassis body with two symmetrically mounted support legs on one end of the chassis bottom and two symmetrically mounted walking components on the end of the chassis away from the support legs. This intelligent environmental monitoring instrument for air pollution control, through structural innovation, organically combines mobility, deployment stability, and operational efficiency, solving the pain points of traditional environmental monitoring equipment such as laborious handling, time-consuming installation, and poor terrain adaptability. It is particularly suitable for scenarios requiring frequent changes of monitoring points in air pollution control, and has high practical value and promotion potential.
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Description

Technical Field

[0001] The utility model belongs to the field of environmental protection treatment of air pollution, and particularly relates to an intelligent environmental monitor for environmental protection treatment of air pollution. Background Art

[0002] With the acceleration of the industrialization process, the prevention and control of air pollution has become a global issue. As an important technical equipment for environmental protection treatment, the intelligent environmental monitor realizes the real-time collection, intelligent analysis and early warning management of environmental data through the integrated application of cutting-edge technologies such as the Internet of Things and artificial intelligence. In terms of core functions, the device is equipped with a high-precision sensor array, which can synchronously monitor 12 atmospheric parameters such as PM2.5, PM10, sulfur dioxide, and nitrogen oxides, and the detection accuracy reaches the ppb level. The built-in edge computing module can immediately trigger a three-level early warning mechanism for abnormal data and upload the data to the environmental protection supervision platform in real time through the 5G network. Different from traditional devices, it has a self-calibration function and can maintain a measurement error of ±2% in an environment of -30°C to 60°C. It shows three major advantages in practical applications: one is the grid layout ability, and a single device can cover a monitoring range of 3 square kilometers; the second is the intelligent diagnosis system that can automatically identify equipment failures and human interference; the third is the support for multi-source data fusion, which can be linked with meteorological, traffic and other systems to analyze the causes of pollution. The future development trend will be to establish a monitoring data storage and evidence system based on blockchain to further strengthen the credibility and traceability of the device. As a new type of infrastructure for environmental governance, the intelligent monitor is promoting the transformation of air pollution prevention and control from passive response to active prediction.

[0003] Comparing with the Chinese patent with the publication number of CN220586537U, it discloses an intelligent environmental monitor for environmental protection treatment of air pollution, including the intelligent environmental monitor body. The bottom of the intelligent environmental monitor body is fixedly connected with a support plate, and a bottom plate is arranged below the support plate. Through the set electric push rod, lifting plate, rotary drive component and expanding protection plate, it is convenient to synchronously drive the four expanding protection plates to rotate upwards and tilt to解除包围 and expand the upper protection during use, ensuring an effective protection state during use, improving the comprehensiveness of protection, and being able to drive the four expanding protection plates to rotate back for surrounding protection when not in use and during transportation. Through the set buffer and protection and guiding component, it is convenient to buffer and unload the force when there is an object falling from a height and automatically guide the falling object outwards, preventing the falling object from accumulating on the top and affecting the protection effect, and improving the protection effect and protection stability. Through the set lifting and guiding component, it is convenient to adjust the use height of the intelligent environmental monitor body.

[0004] However, the above patent cannot be conveniently moved for rapid temporary deployment, which greatly affects the convenience of use. Therefore, a new device needs to be designed. Summary of the Utility Model

[0005] The purpose of this invention is to provide an intelligent environmental monitoring instrument for air pollution control, in order to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] An intelligent environmental monitoring instrument for air pollution control includes a telescopic rod device for easy extension and retraction, and a housing for storing electrical energy and accommodating movement. The telescopic rod device is fixedly mounted at the rear of the housing. An extension device for lifting, suspending, deployment, and environmental monitoring is installed inside the housing. The housing includes a chassis with a switch button, a battery at the bottom, two symmetrically mounted support legs at one end of the chassis, and two symmetrically mounted walking components at the end of the chassis away from the support legs. The extension device includes two symmetrically arranged electric push rods, with a suspension component between the telescopic ends of the top of the electric push rods, and the intelligent environmental monitoring instrument body mounted in the middle of the suspension component. The telescopic rod device includes two symmetrically arranged pull-out components, with a handle between the top ends of the pull-out components.

[0008] Furthermore: the walking assembly includes two support shafts symmetrically arranged on both sides of the bottom of the chassis, a tripod is rotatably mounted on the support shaft, and three walking rollers are evenly distributed on the tripod.

[0009] Furthermore, the support leg is inverted conical and is threadedly connected to the chassis.

[0010] Furthermore: the suspension assembly includes a chassis cover, a handle is installed on the top surface of the chassis cover, four suspension rods are evenly distributed on the bottom surface of the chassis cover, and a support plate is installed between the bottom ends of the suspension rods.

[0011] Furthermore, the boom is cylindrical and made of 204 stainless steel, and is riveted together with the chassis cover and the support plate respectively.

[0012] Furthermore: the pull-out assembly includes a storage tube, a pull-out rod is slidably installed inside the storage tube, and a positioning bead is installed on one side of the bottom of the pull-out rod.

[0013] Furthermore, the grip bar is provided with an anti-slip sleeve on its outer periphery, and the surface of the anti-slip sleeve is provided with anti-slip texture.

[0014] Compared with existing technologies, the beneficial effects are:

[0015] 1. Through mechanical structure innovation, it organically combines mobility, deployment stability and operational efficiency, solving the pain points of traditional environmental monitoring equipment such as laborious handling, time-consuming installation and poor terrain adaptability. It is particularly suitable for scenarios in air pollution control that require frequent changes of monitoring points, and has high practical value and promotion potential.

[0016] 2. It adopts a tripod-type rotating walking roller design. When climbing steps, the three rollers automatically switch contact surfaces, which significantly reduces manpower consumption and solves the problem of difficult handling of traditional monitoring equipment. It can be moved by rollers or lifted by handle, meeting the needs of various terrains such as urban roads and outdoor steps.

[0017] 3. The pull rod, in conjunction with the positioning bead, enables rapid extension and retraction. The anti-slip grip design enhances stability when applying force. Combined with the tilting movement mode, the device can be easily dragged like a suitcase, making it especially suitable for transportation in complex terrains. The pull rod can be fully retracted, minimizing the overall size of the monitor after it is landed, facilitating vehicle transportation or warehousing, and meeting the rapid response requirements of temporary monitoring scenarios.

[0018] 4. After being erected, the two support legs and the traveling rollers together form a stable support surface, avoiding data errors caused by shaking during the monitoring process. It is especially suitable for uneven ground in the field. The electric push rod drives the suspension component to lift and lower smoothly. The monitor is fixed by the stainless steel rod and the support plate, which not only ensures the flexibility of height adjustment, but also ensures the mechanical stability of the monitor when it is suspended in the air.

[0019] 5. The chassis integrates switches and batteries for rapid power supply; the electric push rod automated deployment / retrieval monitoring device reduces manual assembly steps and significantly shortens deployment time; it eliminates the limitation of external power supply, supports continuous operation in remote areas, and the chassis also has protection and storage functions, reducing the risk of equipment damage. Attached Figure Description

[0020] Figure 1 This is a schematic diagram of the structure of an intelligent environmental monitoring instrument for air pollution control according to the present invention;

[0021] Figure 2 This is a schematic diagram of the chassis of an intelligent environmental monitoring instrument for air pollution control according to the present invention;

[0022] Figure 3 This is a right perspective view of the chassis of the intelligent environmental monitoring instrument for air pollution control described in this utility model.

[0023] Figure 4 This is a schematic diagram of the unfolding device of an intelligent environmental monitoring instrument for air pollution control according to the present invention;

[0024] Figure 5This is a left view of the unfolded device of the intelligent environmental monitoring instrument for air pollution control described in this utility model;

[0025] Figure 6 This is a schematic diagram of the lever device of an intelligent environmental monitoring instrument for air pollution control described in this utility model.

[0026] In the attached diagram, the following are the reference numerals: 101, chassis; 102, support shaft; 103, tripod; 104, traveling roller; 105, support leg; 106, battery; 107, switch button; 201, electric push rod; 202, chassis cover; 203, handle; 204, lifting rod; 205, support plate; 206, intelligent environmental monitoring instrument body; 301, storage tube; 302, pull rod; 303, positioning bead; 304, grip rod; 305, anti-slip sleeve; 306, anti-slip texture. Detailed Implementation

[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0028] Please see Figures 1-6 An intelligent environmental monitoring instrument for air pollution control includes a telescopic rod device for easy extension and retraction, and a housing device for storing electrical energy and accommodating movement. The telescopic rod device is fixedly installed at the rear of the housing device, and an extension device for lifting, suspending, deployment, and environmental monitoring is installed inside the housing device.

[0029] In this embodiment: the chassis device includes a chassis body 101, a switch 107 is provided on the chassis body 101, a battery 106 is installed at the bottom of the chassis body 101, two support legs 105 are symmetrically installed at one end of the bottom surface of the chassis body 101, and two walking components are symmetrically installed at the end of the chassis body 101 away from the support legs 105; the walking components include two support shafts 102 symmetrically arranged on both sides of the bottom of the chassis body 101, a tripod 103 is rotatably mounted on the support shafts 102, and three walking rollers are evenly distributed on the tripod 103. 104; The support leg 105 is inverted conical and threadedly connected to the housing 101; The whole body is pulled and tilted under the support of the walking rollers 104. When encountering a step, the tripod 103 rotates under the support of the support shaft 102, so that the three walking rollers 104 switch contact with the ground, saving the effort of climbing the steps. After reaching the monitoring position, the whole body is erected. The walking rollers 104 and the support leg 105 form a four-point support to ensure stability and reliability. Press the switch button 107 on the housing 101, and the battery 106 starts to supply power.

[0030] In this embodiment: the deployment device includes two symmetrically arranged electric push rods 201, a suspension assembly is installed between the top telescopic ends of the electric push rods 201, and an intelligent environmental monitoring instrument body 206 is installed in the middle of the suspension assembly; the suspension assembly includes a housing cover 202, a handle 203 is installed on the top surface of the housing cover 202, and four hanging rods 204 are evenly distributed on the bottom surface of the housing cover 202, with a support plate 205 installed between the bottom ends of the hanging rods 204; the hanging rods 204 are cylindrical, made of 204 stainless steel, and are riveted together with the housing cover 202 and the support plate 205 respectively; when the electric push rods 201 extend, they push the housing cover 202 to rise, and through the hanging rods 204, they drive the support plate 205 to support the intelligent environmental monitoring instrument body 206 to rise, and the intelligent environmental monitoring instrument body 206 then begins to monitor the ambient gas, completing the temporary deployment. When retrieving, the above steps are reversed to complete the storage; the handle 203 is used for lifting when the wheels 104 are inconvenient to move.

[0031] In this embodiment: the pull rod device includes two symmetrically arranged pull-out components, with a handle 304 between the top ends of the pull-out components; the pull-out components include a storage tube 301, with a pull-out rod 302 slidably installed inside the storage tube 301, and a positioning bead 303 installed on one side of the bottom of the pull-out rod 302; an anti-slip sleeve 305 is provided on the outer periphery of the handle 304, and an anti-slip texture 306 is provided on the surface of the anti-slip sleeve 305; first, the handle 304 is gripped by the anti-slip sleeve 305, and with the support of the storage tube 301, the pull-out rod 302 is pulled up by the handle 304 until the positioning bead 303 passes through the storage tube 301 and is positioned, and then the pull-out rod 302 is pulled by the handle 304 to move it, and after reaching the monitoring position, the pull-out rod 302 is inserted back into the storage tube 301.

[0032] Working principle: First, grip the handle bar 304 with the anti-slip sleeve 305. Supported by the storage tube 301, pull the pull rod 302 upwards with the handle bar 304 until the positioning bead 303 passes through the storage tube 301 and is positioned. Then, pull the pull rod 302 with the handle bar 304 to apply force. Supported by the walking rollers 104, the entire unit tilts and moves. When encountering steps, the tripod 103 rotates under the support of the support shaft 102, causing the three walking rollers 104 to alternately contact the ground, saving energy when climbing steps. After reaching the monitoring position, the entire unit is erected. The rollers 104 and support legs 105 form a four-point support to ensure stability and reliability. Insert the pull rod 302 into the storage tube 301, and then press the switch button 107 on the motor housing 101. The battery 106 starts to supply power, the electric push rod 201 extends, pushes the housing cover 202 to rise, and drives the support plate 205 to support the intelligent environmental monitoring instrument body 206 to rise through the lifting rod 204. The intelligent environmental monitoring instrument body 206 then begins to monitor the ambient gas, completing the temporary deployment. When retrieving, simply reverse the above steps to complete the storage.

[0033] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. An intelligent environmental monitoring instrument for air pollution control, comprising a telescopic rod device for easy extension and retraction, characterized in that: It also includes a chassis for storing electrical energy and accommodating movement, the pull rod device being fixedly installed at the rear of the chassis, and an unfolding device for lifting, suspending deployment and environmental monitoring installed inside the chassis; The chassis device includes a chassis body (101), a switch button (107) is provided on the chassis body (101), a battery (106) is installed at the bottom of the chassis body (101), two support legs (105) are symmetrically installed at one end of the bottom surface of the chassis body (101), and two walking components are symmetrically installed at the end of the chassis body (101) away from the support legs (105). The deployment device includes two symmetrically arranged electric push rods (201), a suspension assembly is installed between the top telescopic ends of the electric push rods (201), and an intelligent environmental monitoring instrument body (206) is installed in the middle of the suspension assembly; The pull rod device includes two symmetrically arranged pull-out components, and a handle (304) is provided between the top ends of the pull-out components.

2. The intelligent environmental monitoring instrument for atmospheric pollution environmental management according to claim 1, characterized in that: The walking assembly includes two support shafts (102) symmetrically arranged on both sides of the bottom of the chassis (101), a tripod (103) is rotatably mounted on the support shafts (102), and three walking rollers (104) are evenly distributed on the tripod (103).

3. The intelligent environmental monitoring instrument for atmospheric pollution environmental management according to claim 2, characterized in that: The support leg (105) is inverted conical and is threadedly connected to the chassis (101).

4. The intelligent environmental monitoring instrument for air pollution control according to claim 1, characterized in that: The suspension assembly includes a housing cover (202), a handle (203) is installed on the top surface of the housing cover (202), and four suspension rods (204) are evenly distributed on the bottom surface of the housing cover (202). A support plate (205) is installed between the bottom ends of the suspension rods (204).

5. The intelligent environmental monitoring instrument for atmospheric pollution environmental management according to claim 4, characterized in that: The boom (204) is cylindrical and made of 204 stainless steel. It is riveted to the chassis cover (202) and the support plate (205) respectively.

6. The intelligent environmental monitoring instrument for atmospheric pollution environmental management according to claim 1, characterized in that: The pull-out assembly includes a storage tube (301), a pull rod (302) is slidably installed inside the storage tube (301), and a positioning bead (303) is installed on one side of the bottom of the pull rod (302).

7. The intelligent environmental monitoring instrument for air pollution control according to claim 6, characterized in that: The grip (304) is provided with an anti-slip sleeve (305) on its outer periphery, and the surface of the anti-slip sleeve (305) is provided with anti-slip texture (306).