CN215635867U - Air mist monitoring and analyzing instrument for environmental monitoring - Google Patents

Abstract

The utility model discloses an aerosol monitoring and analyzing instrument for environmental monitoring, and relates to the field of aerosol monitoring and analyzing instruments. The aerosol monitoring and analyzing instrument for environmental monitoring provided by the utility model can adjust the monitoring and analyzing equipment to any angle for omnibearing monitoring by utilizing the characteristics of omnibearing rotation of the ball and universal adjustment, and is convenient and rapid to operate.

Description

Air mist monitoring and analyzing instrument for environmental monitoring

Technical Field

The utility model relates to the field of aerosol monitoring and analyzing instruments, in particular to an aerosol monitoring and analyzing instrument for environmental monitoring.

Background

Haze, be the compound word of fog and haze, haze is common in the city, many areas in china merge the fog into the haze and carry out the early warning forecast as calamity weather phenomenon together, refer to as "haze weather", haze is the result of specific climatic conditions and human activity interact, the economy of high density population and social activity must discharge a large amount of fine particles thing (PM 2.5), in case discharge and exceed atmospheric circulation ability and bearing capacity, fine particles thing concentration will continuously gather, if influenced by steady weather etc. this moment, very easily appear haze on a large scale.

Present for environmental monitoring fog monitoring analysis instrument can monitor haze aerial fog, nevertheless can only carry out aerial fog monitoring to specific place, and operating personnel need extract aerial fog in advance moreover, and the operation is too loaded down with trivial details, and the constructional device limitation is great, for this reason, we provide an for environmental monitoring fog monitoring analysis instrument.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an air fog monitoring and analyzing instrument for environmental monitoring, which can effectively solve the problems that materials need to be prepared in advance and a structural device has large monitoring limitation in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that: an air fog monitoring and analyzing instrument for environmental monitoring comprises a moving device, a shell device, an opening and closing device, a push-pull structure, a control device and a main body device, wherein the moving device comprises a vertical cylinder, a damping spring, a round shaft cylinder and a steering rod, the lower surface of the vertical cylinder is provided with a first round hole, the damping spring is installed on the outer surface of the round shaft cylinder, one end of the damping spring penetrates through the first round hole to be connected with the upper surface inside the vertical cylinder, the lower surface of the round shaft cylinder is provided with a second round hole, the upper surface of the steering rod penetrates through the second round hole to be in rotating fit with the round shaft cylinder, the shell device comprises a box body and a holding rod, the lower surface of the box body is connected with the upper surface of the vertical cylinder, one side surface of the holding rod is connected with one side surface of the box body, the opening and closing device comprises a vertical rod, a round ring, a butt rod and a box door, one side surface of the box body is provided with an installation notch, the vertical rod is connected with an installation notch, the circular ring is installed on the outer surface of the vertical rod, one end of the butt joint rod is connected with the outer surface of the circular ring, the other end of the butt joint rod is connected with one side surface of the box door, the push-pull structure comprises an adaptive square plate and a push-pull block plate, the lower surface of the adaptive square plate is connected with the upper surface of the box body, one side surface of the adaptive square plate is provided with a square notch, one side surface of the push-pull block plate passes through the square notch to be matched with the adaptive square plate in a telescopic mode, the control device comprises a control box and a display screen, the lower surface of the control box is connected with the upper surface of the adaptive square plate, the upper surface of the control box is provided with an installation bayonet, the display screen is connected with the installation bayonet, the main device comprises a bearing plate, a disc bracket, a bearing bolt, a telescopic cylinder, a lifting rod, a round ball and universal adjustment, the lower surface of the bearing plate is connected with the lower surface of the inner part of the box body, the utility model discloses a telescopic cylinder, including disc bracket, loading board, bearing bolt, telescopic cylinder, ball surface and lifter upper surface, disc bracket lower surface and loading board upper surface are connected, disc bracket upper surface is equipped with first rotatory notch, the loading board upper surface is equipped with the rotatory notch of second, bearing bolt one end is passed first rotatory notch and the rotatory notch of second and is connected with the inside lower surface of loading board, bearing bolt and the rotatory notch of first rotatory notch and the rotatory cooperation of second, telescopic cylinder lower surface and disc bracket upper surface, the telescopic cylinder upper surface is equipped with the through-hole, lifter one end is passed through-hole and telescopic cylinder flexible cooperation, ball surface and lifter upper surface connection, universal regulation internal surface and ball surface connection, universal regulation and ball rotation cooperation.

Preferably, the mobile device further comprises side bars, a cross shaft and round wheels, wherein the upper surfaces of the side bars are connected with the lower surface of the steering rod, one side surface of the cross shaft is connected with one side surface of the side bars, the round wheels are arranged on the outer surface of the cross shaft, and the round wheels are in rotating fit with the cross shaft, two side bars are arranged, and the side bars play a role in fixing the cross shaft.

Preferably, the shell device also comprises a plurality of sponge rings which are all arranged on the outer surface of the holding rod, wherein twelve sponge rings play a role in buffering.

Preferably, the opening and closing device further comprises a handle, one side surface of the handle is connected with one side surface of the box door, and the handle plays a role in opening and closing the box door.

Preferably, the push-pull structure further comprises a lifting buckle, wherein the lower surface of the lifting buckle is connected with the upper surface of the push-pull block plate, and the lifting buckle plays a role in facilitating movement of the push-pull block plate.

Preferably, controlling means still includes the control button, control button lower surface and control box upper surface connection, wherein control button plays the effect of adjusting monitoring analytical equipment vertical displacement.

Preferably, the main body device further comprises monitoring and analyzing equipment, wherein the lower surface of the monitoring and analyzing equipment is connected with the universal adjusting upper surface, and the monitoring and analyzing equipment plays a role in monitoring aerial fog.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the damping spring and the steering rod are arranged, the damping spring can effectively reduce vibration, so that the monitoring result is more accurate, the steering rod can adjust the direction of the round wheel, the all-dimensional aerosol monitoring can be realized, and the monitoring result is more convincing.

The adaptive square plate and the push-pull plate are arranged and matched in a telescopic mode, so that the device is convenient to store in structure and humanized in structural design.

According to the utility model, by arranging the telescopic cylinder and the lifting rod, the displacement of the monitoring device in the vertical direction can be adjusted through the controller, so that the gas mist with different heights can be monitored in real time, and the monitoring data is more convincing.

According to the utility model, by arranging the ball and the universal adjustment, the monitoring and analyzing equipment can be adjusted to any angle for omnibearing monitoring by utilizing the characteristics of omnibearing rotation of the ball and the universal adjustment, and the operation is convenient and rapid.

Drawings

FIG. 1 is a schematic view of an overall external structure of an environmental monitoring aerosol analyzer according to the present invention;

FIG. 2 is a schematic diagram of an overall external structure of an environmental monitoring aerosol analyzer according to the present invention;

FIG. 3 is a schematic diagram of an overall external structure of an environmental monitoring aerosol analyzer according to the present invention;

FIG. 4 is a schematic diagram of an overall external structure of an environmental monitoring aerosol analyzer according to the present invention;

FIG. 5 is an enlarged view of a portion A of the environmental monitoring aerosol analyzer of the present invention shown in FIG. 2;

FIG. 6 is an enlarged view of a portion B of the environmental monitoring aerosol analyzer shown in FIG. 4.

In the figure: 100. a mobile device; 110. a vertical cylinder; 120. a damping spring; 130. a cylindrical shaft; 140. a steering lever; 150. a side lever; 160. a horizontal axis; 170. a round wheel; 200. housing means; 210. a box body; 220. a holding rod; 230. a sponge ring; 300. an opening and closing device; 310. a vertical rod; 320. a circular ring; 330. a docking rod; 340. a box door; 350. a grip; 400. a push-pull structure; 410. adapting the square plate; 420. pushing and pulling the block plate; 430. lifting and buckling; 500. a control device; 510. a control box; 520. a display screen; 530. a control button; 600. a main body device; 610. a carrier plate; 620. a disc holder; 630. a bearing bolt; 640. a telescopic cylinder; 650. a lifting rod; 660. a ball; 670. universal adjustment; 680. the analytical device is monitored.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, the present invention is an aerosol monitoring and analyzing apparatus for environmental monitoring, including a mobile device 100, a housing device 200, an opening and closing device 300, a push-pull structure 400, a control device 500 and a main body device 600, wherein the mobile device 100 includes a vertical cylinder 110, a damping spring 120, a circular cylinder 130 and a steering rod 140, the lower surface of the vertical cylinder 110 is provided with a first circular hole, the damping spring 120 is mounted on the outer surface of the circular cylinder 130, one end of the damping spring 120 passes through the first circular hole to be connected with the upper surface of the interior of the vertical cylinder 110, the lower surface of the circular cylinder 130 is provided with a second circular hole, the upper surface of the steering rod 140 passes through the second circular hole to be rotatably matched with the circular cylinder 130, the housing device 200 includes a housing 210 and a grip 220, the lower surface of the housing 210 is connected with the upper surface of the vertical cylinder 110, one side surface of the grip 220 is connected with one side surface of the housing 210, the opening and closing device 300 includes a vertical rod 310, a circular ring 320, a ring, The butt joint rod 330 and the door 340, one side surface of the box body 210 is provided with an installation notch, the vertical rod 310 is connected with the installation notch, the circular ring 320 is installed on the outer surface of the vertical rod 310, one end of the butt joint rod 330 is connected with the outer surface of the circular ring 320, the other end of the butt joint rod 330 is connected with one side surface of the door 340, the push-pull structure 400 comprises a square adaptive plate 410 and a push-pull plate 420, the lower surface of the square adaptive plate 410 is connected with the upper surface of the box body 210, one side surface of the square adaptive plate 410 is provided with a square notch, one side surface of the push-pull plate 420 penetrates through the square notch to be in telescopic fit with the square adaptive plate 410, the control device 500 comprises a control box 510 and a display screen 520, the lower surface of the control box 510 is connected with the upper surface of the square adaptive plate 410, the upper surface of the control box 510 is provided with an installation bayonet, the display screen 520 is connected with the installation bayonet, the main device 600 comprises a bearing plate 610, a disc bracket 620, a bearing bolt 630, a telescopic cylinder 640, Lifter 650, ball 660 and universal regulation 670, loading board 610 lower surface is connected with the inside lower surface of box 210, disc bracket 620 lower surface and loading board 610 upper surface are connected, disc bracket 620 upper surface is equipped with first rotatory notch, loading board 610 upper surface is equipped with the rotatory notch of second, first rotatory notch and the rotatory notch of second are passed to loading bolt 630 one end and the inside lower surface of loading board 610 is connected, loading bolt 630 and first rotatory notch and the rotatory notch normal running fit of second, telescopic cylinder 640 lower surface and disc bracket 620 upper surface are connected, telescopic cylinder 640 upper surface is equipped with the through-hole, lifter 650 one end is passed through the through-hole and telescopic cylinder 640 telescopic fit, ball 660 surface and lifter 650 upper surface are connected, universal regulation 670 internal surface and ball 660 external surface are connected, universal regulation 670 and ball 660 normal running fit.

Further, the moving device 100 further includes side bars 150, a cross shaft 160, and a circular wheel 170, wherein the upper surfaces of the side bars 150 are connected to the lower surface of the steering rod 140, one side surface of the cross shaft 160 is connected to one side surface of the side bars 150, the circular wheel 170 is mounted on the outer surface of the cross shaft 160, and the circular wheel 170 is rotatably engaged with the cross shaft 160, wherein there are two side bars 150, and the side bars 150 serve to fix the cross shaft 160.

Further, the housing means 200 further comprises a plurality of sponge rings 230, the plurality of sponge rings 230 are all mounted on the outer surface of the holding rod 220, wherein there are twelve sponge rings 230, and the sponge rings 230 play a role of buffering.

Further, the opening and closing device 300 further includes a handle 350, and a side surface of the handle 350 is connected to a side surface of the door 340, wherein the handle 350 plays a role of opening and closing the door 340.

Further, the push-pull structure 400 further includes a catch 430, and a lower surface of the catch 430 is connected to an upper surface of the push-pull block plate 420, wherein the catch 430 functions to facilitate movement of the push-pull block plate 420.

Further, the control device 500 further comprises a control button 530, a lower surface of the control button 530 is connected with an upper surface of the control box 510, wherein the control button 530 plays a role in adjusting the vertical displacement of the monitoring and analyzing device 680.

Further, the main body device 600 further comprises a monitoring and analyzing device 680, wherein the lower surface of the monitoring and analyzing device 680 is connected with the upper surface of the universal adjustment 670, and the monitoring and analyzing device 680 plays a role in monitoring the aerosol.

The working principle of the utility model is as follows:

referring to fig. 1-6, the present invention is an aerosol monitoring and analyzing apparatus for environmental monitoring, wherein a control box 510 is electrically connected to a telescopic cylinder 640 through an electric wire, the control box 510 controls the displacement of a monitoring and analyzing device 680 in the vertical direction, an operator transports the apparatus to an aerosol monitoring place for on-site monitoring by using a mobile device 100, wherein a damping spring 120 can effectively reduce vibration, so that the monitoring result is more accurate, a steering rod 140 can adjust the orientation of a circular wheel 170, so that the aerosol can be monitored in all directions, the monitoring result is more convincing, the operator can adjust the displacement of the monitoring device in the vertical direction through the control box 510, so that the aerosol with different heights can be monitored in real time, the monitoring data is more accurate, and the monitoring and analyzing device 680 can be adjusted to any angle for all-directional monitoring by using the characteristics of the spherical ball 660 and the universal adjustment 670 in all-directional rotation, convenient operation is swift, and when the monitoring was accomplished, the usable square board 410 of adaptation of operating personnel and the flexible complex characteristic of push-and-pull board 420 can be accomodate the device structure in box 210, and structural design is humanized.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an environmental monitoring is with vapour monitoring analysis instrument, includes mobile device (100), shell device (200), opens and shuts device (300), push-and-pull structure (400), controlling means (500) and main part device (600), its characterized in that: the mobile device (100) comprises a vertical cylinder (110), a damping spring (120), a circular shaft cylinder (130) and a steering rod (140), wherein a first round hole is formed in the lower surface of the vertical cylinder (110), the damping spring (120) is installed on the outer surface of the circular shaft cylinder (130), one end of the damping spring (120) penetrates through the first round hole to be connected with the inner upper surface of the vertical cylinder (110), a second round hole is formed in the lower surface of the circular shaft cylinder (130), the upper surface of the steering rod (140) penetrates through the second round hole to be in rotating fit with the circular shaft cylinder (130), the shell device (200) comprises a box body (210) and a holding rod (220), the lower surface of the box body (210) is connected with the upper surface of the vertical cylinder (110), one side surface of the holding rod (220) is connected with one side surface of the box body (210), the opening and closing device (300) comprises a vertical rod (310), a circular ring (320), a butt-joint rod (330) and a box door (340), the box body (210) is provided with a mounting notch on one side surface, the vertical rod (310) is connected with the mounting notch, the circular ring (320) is mounted on the outer surface of the vertical rod (310), one end of the butt joint rod (330) is connected with the outer surface of the circular ring (320), the other end of the butt joint rod (330) is connected with one side surface of the box door (340), the push-pull structure (400) comprises a square adaptive plate (410) and a push-pull block plate (420), the lower surface of the square adaptive plate (410) is connected with the upper surface of the box body (210), one side surface of the square adaptive plate (410) is provided with a square notch, one side surface of the push-pull block plate (420) passes through the square notch to be matched with the square adaptive plate (410) in a telescopic manner, the control device (500) comprises a control box (510) and a display screen (520), the lower surface of the control box (510) is connected with the upper surface of the square adaptive plate (410), the upper surface of the control box (510) is provided with an installation bayonet, the display screen (520) is connected with the installation bayonet, the main body device (600) comprises a bearing plate (610), a disc bracket (620), a bearing bolt (630), a telescopic cylinder (640), a lifting rod (650), a round ball (660) and a universal adjustment device (670), the lower surface of the bearing plate (610) is connected with the inner lower surface of the box body (210), the lower surface of the disc bracket (620) is connected with the upper surface of the bearing plate (610), the upper surface of the disc bracket (620) is provided with a first rotary notch, the upper surface of the bearing plate (610) is provided with a second rotary notch, one end of the bearing bolt (630) passes through the first rotary notch and the second rotary notch to be connected with the inner lower surface of the bearing plate (610), and the bearing bolt (630) is matched with the first rotary notch and the second rotary notch in a rotating mode, telescopic cylinder (640) lower surface and disc bracket (620) upper surface connection, telescopic cylinder (640) upper surface is equipped with the through-hole, telescopic cooperation of through-hole and telescopic cylinder (640) is passed to lifter (650) one end, ball (660) surface and lifter (650) upper surface connection, universal regulation (670) internal surface and ball (660) surface connection, universal regulation (670) and ball (660) normal running fit.

2. The aerosol monitoring analyzer for environmental monitoring as set forth in claim 1, wherein: the mobile device (100) further comprises side rods (150), a transverse shaft (160) and a round wheel (170), wherein the upper surfaces of the side rods (150) are connected with the lower surface of the steering rod (140), one side surface of the transverse shaft (160) is connected with one side surface of the side rods (150), the round wheel (170) is arranged on the outer surface of the transverse shaft (160), and the round wheel (170) is in rotating fit with the transverse shaft (160).

3. The aerosol monitoring analyzer for environmental monitoring as set forth in claim 1, wherein: the shell device (200) further comprises sponge rings (230), and the sponge rings (230) are all arranged on the outer surface of the holding rod (220).

4. The aerosol monitoring analyzer for environmental monitoring as set forth in claim 1, wherein: the opening and closing device (300) further comprises a handle (350), and one side surface of the handle (350) is connected with one side surface of the box door (340).

5. The aerosol monitoring analyzer for environmental monitoring as set forth in claim 1, wherein: the push-pull structure (400) further comprises a lifting buckle (430), and the lower surface of the lifting buckle (430) is connected with the upper surface of the push-pull block plate (420).

6. The aerosol monitoring analyzer for environmental monitoring as set forth in claim 1, wherein: the control device (500) further comprises a control button (530), and the lower surface of the control button (530) is connected with the upper surface of the control box (510).

7. The aerosol monitoring analyzer for environmental monitoring as set forth in claim 1, wherein: the main body device (600) further comprises a monitoring and analyzing device (680), and the lower surface of the monitoring and analyzing device (680) is connected with the upper surface of the universal adjustment device (670).

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