CN209784310U - atmospheric monitoring device of natural resource asset component - Google Patents

Abstract

the utility model discloses a natural resource asset component atmospheric monitoring device, which comprises a monitoring device body, wherein a protective shell is arranged at the bottom middle part of the monitoring device body, limiting grooves are respectively arranged at the two sides of the front bottom of the protective shell, a limiting cylinder is arranged at the middle part of the inner wall of the limiting groove, a front baffle is arranged at the top middle part of the limiting cylinder, a rear baffle is welded at the bottom back of the protective shell, a screw hole is arranged at the bottom end of the inner wall of the limiting groove, a screw rod is arranged at the middle part of the inner wall of the screw hole, a silica gel plate is arranged at the outer surface edge part of the monitoring device body, the utility model has scientific and reasonable structure, is safe and convenient to use, can absorb shock for the monitoring device body through a shock absorption spring, a spring placing groove, a protective shell, thereby increasing the safety of the monitoring device body.

Description

atmospheric monitoring device of natural resource asset component

Technical Field

the utility model relates to a natural resource monitoring devices technical field specifically is an atmospheric monitoring devices of natural resource assets component.

background

The natural resources are endowed to the nature or reserved by foreigners, can be directly or indirectly used for meeting all tangible objects and intangible objects required by human beings, can be divided into natural resources and economic resources, can meet the requirements of the human beings, and are all natural resources including air water land, forests, grasslands, wild organisms, various minerals, energy sources and the like, are dynamic, can provide living, developing and enjoying substances and spaces for the human beings, and need to develop and utilize more and more natural resources due to social development and scientific technological progress;

However, the existing natural resource atmosphere monitoring device is not provided with a heat dissipation device, and after the natural resource atmosphere monitoring device is used for a long time, because the internal temperature of the natural resource atmosphere monitoring device is not easy to discharge, elements in the natural resource atmosphere monitoring device cannot be used, and the natural resource atmosphere monitoring device cannot be normally used.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical scheme can effectively solve and provide but current natural resource atmosphere monitoring devices among the above-mentioned background art, does not have heat abstractor, and when natural resource atmosphere monitoring devices after long-time the use, because of the difficult discharge of natural resource atmosphere monitoring devices inside temperature, and then lead to the unable use of the inside component of natural resource atmosphere monitoring devices, further lead to the unable normal use problem of natural resource atmosphere monitoring devices.

In order to achieve the above object, the utility model provides a following technical scheme: a monitoring device for natural resource asset component atmosphere comprises a monitoring device body, wherein a protective shell is arranged in the middle of the bottom end of the monitoring device body, limiting grooves are formed in two sides of the bottom of the front surface of the protective shell, a limiting cylinder is arranged in the middle of the inner wall of each limiting groove, a front baffle is arranged in the middle of the top end of each limiting cylinder, a rear baffle is welded at the bottom end of the back surface of the protective shell, a screw hole is formed in the bottom end of the inner wall of each limiting groove, and a screw rod is arranged;

The monitoring device body surface edge portion installs the silica gel board, silica gel board both ends limit portion all bonds and has had the shock attenuation board, the spring standing groove has all been seted up to protective housing inner wall limit portion and shock attenuation board surface edge portion, spring standing groove inner wall mid-mounting has damping spring.

preferably, the damping plate is connected with the protective shell through a damping spring, and the damping plate is connected with the damping spring through welding.

Preferably, the sponge is bonded in the middle of the inner wall of the front baffle, and the front baffle and the sponge are bonded and connected through a flexible bonding agent.

Preferably, the middle part of the inner wall of the screw hole is provided with an internal thread, the edge part of the outer surface of the screw rod is provided with an external thread, and the screw hole is connected with the screw rod through the internal thread and the external thread.

The monitoring devices body top middle part has been seted up the square hole, square hole inner wall mid-mounting has the heat conduction post, heat conduction post top mid-mounting has high-temperature resistant insulating heating panel of high accuracy, the cylinder is all installed to high-temperature resistant insulating heating panel top both sides, cylindrical inner wall middle part has been seted up and has been accomodate the cavity, accomodate cavity inner wall top and seted up spacing hole, spacing downthehole wall mid-mounting has spacing post, spacing post bottom mid-mounting has the removal dish, removal dish bottom mid-mounting has reset spring.

Preferably, the edge part of the outer surface of the return spring is coated with antirust paint, and the return spring is connected with the movable plate through welding.

Preferably, the inner diameter of the limiting hole is equal to the outer diameter of the limiting column, and the limiting column is connected with the protective shell through instant adhesive bonding.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. through preceding baffle, the backplate, high accuracy high temperature resistant insulating heating panel, reset spring, accomodate the cavity, spacing post and removal dish, preceding baffle and backplate, the position of monitoring devices body front and back can be made fix, and the shock attenuation board can be fixed the position of monitoring devices body left and right sides, high accuracy high temperature resistant insulating heating panel is through reset spring's tension, the laminating is at monitoring devices body top, and then make monitoring devices body bottom fix on the protective housing, further fix the position about the monitoring devices body, make the fixed more firm of monitoring devices body, prevent that the phenomenon that the monitoring devices body takes place to remove inside the protective housing.

2. Through damping spring, spring standing groove, protective housing and shock attenuation board, can carry out the shock attenuation to the monitoring devices body, reduce the impact force when the protective housing is heavily hit, prevent that the impact force from causing the influence to the monitoring devices body, and then increased the security of monitoring devices body.

3. Through heat conduction post, the high temperature resistant insulating heat sink of high accuracy, square hole, reset spring, accomodate cavity and spacing post, heat when the heat conduction post moves the monitoring devices body adsorbs to the high temperature resistant insulating heat sink surface of high accuracy, and the temperature on high temperature resistant insulating heat sink surface of high accuracy is taken away to external air current, and then can carry out rapid cooling to the monitoring devices body, reduces the temperature when the monitoring devices body moves.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a front view of the monitoring device body of the present invention;

FIG. 3 is a schematic view of the internal structure of the cylinder of the present invention;

FIG. 4 is a schematic view of the installation structure of the screw rod of the present invention;

FIG. 5 is a schematic view of the installation structure of the heat-conducting post of the present invention;

FIG. 6 is a schematic view of the area A in FIG. 2 according to the present invention;

reference numbers in the figures: 1. a monitoring device body; 2. a silica gel plate; 3. a damper plate; 4. a front baffle; 5. a limiting cylinder; 6. a spring placing groove; 7. a damping spring; 8. a protective shell; 9. a cylinder; 10. a limiting hole; 11. a movable tray; 12. a receiving chamber; 13. a return spring; 14. a limiting column; 15. a tailgate; 16. a limiting groove; 17. a screw hole; 18. a heat-conducting column; 19. a square hole; 20. a screw; 21. high-precision high-temperature-resistant insulating heat dissipation plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in figures 1-6, the utility model provides a technical scheme, a natural resource asset component atmosphere monitoring device, which comprises a monitoring device body 1, a protective shell 8 is arranged at the middle part of the bottom end of the monitoring device body 1, both sides of the front bottom of the protective shell 8 are provided with limit grooves 16, a limit cylinder 5 is arranged at the middle part of the inner wall of the limit groove 16, a front baffle 4 is arranged at the middle part of the top end of the limit cylinder 5, sponge is adhered at the middle part of the inner wall of the front baffle 4, the front baffle 4 is connected with the sponge through flexible adhesive, the monitoring device body 1 is protected, when the front baffle 4 is prevented from being overlapped with the monitoring device body 1, the front baffle 4 causes the phenomenon that the monitoring device body 1 is worn, a rear baffle 15 is welded at the bottom end of the back of the protective shell 8, a screw hole 17 is arranged at the bottom end of the, screw 17 and screw rod 20 are connected through internal thread and external screw thread, and the removal of the screw rod 20 of being convenient for, and can carry on spacingly to screw rod 20, prevent the phenomenon of taking place to separate between screw rod 20 and the screw 17, screw rod 20 is installed to screw 17 inner wall mid-mounting.

Silica gel plate 2 is installed to 1 surface edge portion of monitoring devices body, 2 both ends edge portions of silica gel plate all bond and have damping plate 3, connect through damping spring 7 between damping plate 3 and the protective housing 8, can carry on spacingly to damping plate 3, prevent that damping plate 3's position from taking place the phenomenon of removal, through welded connection between damping plate 3 and the damping spring 7, can make the fastening more of connecting between damping plate 3 and the damping spring 7, prevent to take place the phenomenon that drops between damping plate 3 and the damping spring 7, spring standing groove 6 has all been seted up to 8 inner wall edge portions of protective housing and 3 surface edge portions of damping plate, 6 inner wall mid-mounting of spring standing groove have damping spring 7.

The monitoring device comprises a monitoring device body 1, a square hole 19 is formed in the middle of the top end of the monitoring device body 1, a heat conduction column 18 is arranged in the middle of the inner wall of the square hole 19, a high-precision high-temperature-resistant insulating heat dissipation plate 21 is arranged in the middle of the top end of the heat conduction column 18, cylinders 9 are arranged on two sides of the top end of the high-precision high-temperature-resistant insulating heat dissipation plate 21, a containing cavity 12 is formed in the middle of the inner wall of each cylinder 9, a limiting hole 10 is formed in the top end of the inner wall of each containing cavity 12, the inner diameter of each limiting hole 10 is equal to the outer diameter of each limiting column 14, the limiting columns 14 can be limited, the limiting columns 14 are prevented from shaking inside the limiting holes 10, the limiting columns 14 and a protective shell 8 are connected through instant dry adhesive glue, the connection between the limiting columns 14 and the protective, remove 11 bottom mid-mounting of dish and have reset spring 13, reset spring 13 surface limit portion coating has anti-rust paint, protects reset spring 13, increases reset spring 13's life, 13 and remove through welded connection between the dish 11 of reset spring.

The utility model discloses a theory of operation and use flow: in the actual installation process of the natural resource asset component atmosphere monitoring device, the high-precision high-temperature-resistant insulating heat dissipation plate 21 is pushed upwards, so that the limiting column 14 enters the cylinder 9, the limiting column 14 drives the movable plate 11 to move in the moving process, the movable plate 11 extrudes the reset spring 13 and then enters the containing cavity 12, the high-precision high-temperature-resistant insulating heat dissipation plate 21 can be driven to move, the monitoring device body 1 is further conveniently placed into the protective shell 8, and the installation difficulty of the monitoring device body 1 is reduced;

Then the monitoring device body 1 is pushed to enable the bottom end of the back side of the monitoring device body 1 to be tightly attached to the rear baffle 15, then the limiting cylinder 5 is placed into the limiting groove 16, then the screw rod 20 is placed along the inside of the limiting cylinder 5 to enable the screw rod 20 to enter the screw hole 17, then the screw rod 20 is screwed, the screw rod 20 moves towards the inside of the protective shell 8 along the screw hole 17 to drive the limiting cylinder 5 to enter the limiting groove 16, at the moment, the limiting cylinder 5 drives the front baffle 4 to enter the bottom end of the front side of the monitoring device body 1 to further limit the front and back positions of the monitoring device body 1, the damping plate 3 and the silica gel plate 2 can fix the left and right positions of the monitoring device body 1 due to the tension of the damping spring 7, the damping plate 3 and the silica gel plate 2 can perform preliminary damping on the monitoring device body 1, and further perform damping on the monitoring device body 1 through, the impact force of the protective shell 8 when being impacted is reduced, the impact force is prevented from influencing the monitoring device body 1, the safety of the monitoring device body 1 is further improved, the high-precision high-temperature-resistant insulating heat dissipation plate 21 enables the high-precision high-temperature-resistant insulating heat dissipation plate 21 to be tightly attached to the top end of the monitoring device body 1 due to the tension of the reset spring 13, the heat conduction columns 18 at the bottom end of the high-precision high-temperature-resistant insulating heat dissipation plate 21 enter the square holes 19, the top end of the monitoring device body 1 is further fixed, the upper position and the lower position of the monitoring device body 1 are further fixed, the monitoring device body 1 is fixed more stably, and the phenomenon that the monitoring device body 1 moves inside the protective shell 8 is prevented;

And when natural resources assets atmosphere monitoring devices is at the in-process of operation, come the smog concentration in the ambient air through the inside monitoring element of monitoring devices body 1, the temperature, carbon dioxide concentration and sulfur dioxide concentration monitor, and monitoring devices body 1 is at the actual monitoring in-process, heat when can moving monitoring devices body 1 through heat conduction post 18 adsorbs high accuracy high temperature resistant insulating and heat dissipating board 21 surface, the temperature of recycling external air current with high accuracy high temperature resistant insulating and heat dissipating board 21 surface is taken away, and then can carry out rapid cooling to monitoring devices body 1, reduce the temperature when monitoring devices body 1 moves.

finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an atmospheric monitoring devices of natural resources asset component, includes monitoring devices body (1), its characterized in that: the monitoring device is characterized in that a protective shell (8) is mounted in the middle of the bottom end of the monitoring device body (1), limiting grooves (16) are formed in two sides of the bottom of the front face of the protective shell (8), a limiting cylinder (5) is mounted in the middle of the inner wall of each limiting groove (16), a front baffle (4) is mounted in the middle of the top end of each limiting cylinder (5), a rear baffle (15) is welded at the bottom end of the back face of the protective shell (8), a screw hole (17) is formed in the bottom end of the inner wall of each limiting groove (16), and a screw;

Silica gel board (2) are installed to monitoring devices body (1) surface edge portion, silica gel board (2) both ends limit portion all bonds and has had shock attenuation board (3), spring standing groove (6) have all been seted up to protective housing (8) inner wall limit portion and shock attenuation board (3) surface edge portion, spring standing groove (6) inner wall mid-mounting has damping spring (7).

2. A natural resource asset component atmosphere monitoring device according to claim 1, characterized in that the damping plate (3) and the protective shell (8) are connected by means of damping springs (7), and the damping plate (3) and the damping springs (7) are connected by means of welding.

3. the natural resource asset component atmosphere monitoring device as claimed in claim 1, wherein sponge is adhered to the middle of the inner wall of the front baffle (4), and the front baffle (4) and the sponge are adhered and connected through flexible adhesive.

4. The natural resource asset component atmosphere monitoring device according to claim 1, wherein the middle part of the inner wall of the screw hole (17) is provided with internal threads, the edge part of the outer surface of the screw rod (20) is provided with external threads, and the screw hole (17) and the screw rod (20) are connected through the internal threads and the external threads.

5. the natural resource asset component atmosphere monitoring device according to claim 1, wherein a square hole (19) is formed in the middle of the top end of the monitoring device body (1), a heat conduction column (18) is installed in the middle of the inner wall of the square hole (19), a high-precision high-temperature-resistant insulating heat dissipation plate (21) is installed in the middle of the top end of the heat conduction column (18), cylinders (9) are installed on both sides of the top end of the high-precision high-temperature-resistant insulating heat dissipation plate (21), a containing cavity (12) is formed in the middle of the inner wall of each cylinder (9), a limiting hole (10) is formed in the top end of the inner wall of each containing cavity (12), a limiting column (14) is installed in the middle of the inner wall of each limiting hole (10), a moving plate (11) is installed in the middle of the bottom end of each.

6. A natural resource asset component atmosphere monitoring device according to claim 5, characterized in that the return spring (13) is coated with rust preventive paint on the outer surface side, and the return spring (13) and the movable plate (11) are connected by welding.

7. A natural resource asset component atmosphere monitoring device according to claim 5, characterized in that the inner diameter of the limiting hole (10) is equal to the outer diameter of the limiting column (14), and the limiting column (14) and the protective shell (8) are connected by instant adhesive.