CN112649029A

CN112649029A - Ecological environment monitoring facilities

Info

Publication number: CN112649029A
Application number: CN202010964796.8A
Authority: CN
Inventors: 马秀叶
Original assignee: Individual
Current assignee: Shanghai Kaibo Environmental Energy Measurement And Testing Center LP
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2021-04-13
Anticipated expiration: 2040-09-15
Also published as: CN112649029B

Abstract

The invention discloses an ecological environment monitoring device in the field of unattended environment monitoring, which comprises a supporting rod, wherein a mounting plate is fixedly arranged in the middle of the supporting rod, a first sealing cylinder and a second sealing cylinder are fixedly arranged on the upper end surface of the mounting plate, pistons are respectively connected in the first sealing cylinder and the second sealing cylinder in a sliding way, a slide bar is fixedly arranged on the upper end surface of each piston, a disc is fixedly arranged on the upper end surface of each slide bar, a spring is fixedly arranged between each disc and each first sealing cylinder and each second sealing cylinder, a solar cell panel is connected with each pulley in a sliding way, a sliding groove is formed in the lower end surface of each solar cell panel, each pulley is connected with each solar cell panel in a sliding way through each sliding connection with each sliding groove, second connecting blocks are fixedly arranged on the left end surface and the right end surface of the mounting plate, a first heating plate and a second, the solar panel always faces the sun to be larger.

Description

Ecological environment monitoring facilities

Technical Field

The invention relates to the field of unattended environment monitoring, in particular to ecological environment monitoring equipment.

Background

Environmental monitoring refers to the activities of environmental monitoring mechanisms to monitor and measure environmental quality conditions. The environmental monitoring is to monitor and measure the index reflecting the environmental quality to determine the environmental pollution condition and the environmental quality.

When installation environment monitoring equipment, generally all can be with a solar energy of installation deposit pond board and come to provide electric power for equipment, can use solar energy as the resource of equipment operation when having the sun, the consumption of the energy that can greatly reduced, but solar cell panel in the past when the installation, all directly fix solar panel at a high point, solar cell panel can only receive the solar energy of a direction in the use, the installation polylith solar panel has increased installation cost again, it is very inconvenient.

Accordingly, the present invention is directed to an ecological environment monitoring apparatus to solve the problems set forth in the background art.

Disclosure of Invention

The present invention is directed to an ecological environment monitoring device to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme:

an ecological environment monitoring device comprises a supporting rod, wherein a mounting plate is fixedly mounted in the middle of the supporting rod, a first sealing cylinder and a second sealing cylinder are fixedly mounted on the upper end surface of the mounting plate, pistons are respectively and slidably connected in the first sealing cylinder and the second sealing cylinder, a slide rod is fixedly mounted on the upper end surface of each piston, a disc is fixedly mounted on the upper end surface of each slide rod, a spring is fixedly mounted between each disc and each sealing cylinder, a first connecting block is fixedly mounted on the upper end surface of each disc, round holes are formed in the top ends of the front end surface and the rear end surface of each first connecting block, pulleys are rotatably mounted in the round holes and are slidably connected with a solar cell panel, a sliding groove is formed in the lower end surface of each solar cell panel, each pulley is slidably connected with the corresponding sliding groove, second connecting blocks are, and a first heated plate and a second heated plate are fixedly arranged at the outer end of the second connecting block.

As a further scheme of the invention: the first heated plate and the second heated plate are inclined at forty-five degrees, the lower ends of the first heated plate and the second heated plate are fixedly provided with heat conduction pipes, the heat conduction pipes on the lower end face of the first heated plate are wound on the outer wall of a first sealing cylinder, the heat conduction pipes on the lower end face of the second heated plate are wound on the outer wall of a second sealing cylinder, heated and easily expandable gas is filled in the first sealing cylinder and the second sealing cylinder, when the sun irradiates on the first heated plate or the second heated plate, the heated plates can absorb heat and then transfer the heat to the heat conduction pipes wound on the outer walls of the first sealing cylinder and the second sealing cylinder through the heat conduction pipes on the lower ends, and then the gas in the first sealing cylinder and the second sealing cylinder is heated so as to expand to provide upward thrust for the piston.

As a still further scheme of the invention: first heated board and the left second connecting block fixed connection of mounting panel, the second heated board and the second connecting block fixed connection on mounting panel right side, the right side at the mounting panel up end is installed to first sealed cylinder, the left side at the mounting panel up end is installed to the sealed cylinder of second, and when first heated board was heated, the piston in the first sealed cylinder can the rebound, makes solar cell panel's right-hand member rise, makes solar cell panel face the left side, and when the second heated board was heated, the piston in the sealed cylinder of second can the rebound, and solar cell panel's left end was raised in the time, and solar cell panel face was to the right side in the time.

As a still further scheme of the invention: the spout cross section is the T shape, the pulley slides in the both sides of spout, and when solar cell panel inclined, solar cell panel can change with the angle of first connecting block, and the pulley still can slide in the spout, and the spout can prevent for the T shape that the pulley from droing.

As a still further scheme of the invention: the spring is compression spring, and under the effect of not having the external force, solar cell panel can transmit pressure to the disc through first connecting block, then transmits for the spring through the disc, and the spring can be compressed, and the spring can provide partly power of lifting up solar cell panel, and required power when reducing and lifting up solar cell panel.

As a still further scheme of the invention: the top end of the supporting rod is fixedly provided with a mounting disc, a rotating hole is formed in the middle of the upper end face of the mounting disc, a rotating shaft is connected in the rotating hole in a rotating mode, a first gear is fixedly mounted on the upper end face of the rotating shaft, a containing hole is formed beside the rotating hole in the upper end face of the mounting disc, a motor is fixedly mounted in the containing hole, a second gear is fixedly mounted on an output shaft of the motor, the first gear is meshed with the second gear, a lug is fixedly mounted on the upper end face of the first gear, communicated round holes are formed in the front end face and the rear end face of the lug, a mounting rod is rotatably mounted in the round holes, a monitor is fixedly mounted on the lower side of the left end of the mounting rod, when the motor is started, the motor can drive the second gear on the output shaft to rotate, the second gear is meshed with the first, the lug drives the installation rod to rotate, so that the monitor rotates to monitor the surrounding environment.

As a still further scheme of the invention: the upper end surface of the mounting disc is provided with a rotating groove, the rotating groove is rotationally connected with a rotating ring, the upper end surface of the rotating ring is fixedly provided with a third gear, the upper end surface of the third gear is fixedly provided with a circular boss, the right side of the circular boss is provided with a recess, the lower end surface of the mounting rod is provided with a mounting groove, the mounting groove is arranged at the upper side of the circular boss, the mounting rod is rotatably provided with a rolling ball in a concave shape, when the mounting rod rotates, the rolling ball can roll on the circular boss, when the rolling ball rolls to the recess of the circular boss, the rolling ball can roll to the lower end of the recess along the edge of the recess to drive the mounting rod to be inclined downwards, so that the visual angle of the monitoring instrument is inclined downwards, then the rolling ball can roll to the upper end surface of the circular boss along the edge of the recess, the mounting rod can return to a horizontal state, and, the monitoring range of the monitoring instrument is increased.

As a still further scheme of the invention: the teeth of a cogwheel of third gear are installed at the inner circle, the second gear meshes with first gear and third gear, drives the ring boss through the third gear and rotates, makes the roll ball all in the different directions with the sunk part of ring boss contact at every turn, and the monitoring range of omnidirectional increase monitor.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. the first heated plate and the second heated plate are arranged on two sides of the mounting plate, when the first heated plate on the left side faces the sun, heat can be transferred into the first sealing cylinder on the right side, then gas in the first sealing cylinder can expand, the piston is jacked upwards, the right end of the solar cell panel is lifted, the solar cell panel faces the left side, the orientation of the solar cell panel is controlled, the solar cell panel faces the side with the sun all the time, and the problem that the conventional solar cell panel cannot rotate due to fixed installation is solved.

2. The motor drives the second gear to rotate, the second gear is meshed with the first gear and the third gear simultaneously to drive the first gear and the third gear to rotate, the first gear drives the monitor at the left end of the installation rod and the installation rod to rotate together, the rolling ball can roll on the circular boss in the installation groove, when the rolling ball rolls to the concave part of the circular boss, the installation rod can incline downwards to drive the monitor to incline downwards together, and the monitoring range of the monitor is increased.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic front sectional view of a second sealing cylinder according to the present invention;

FIG. 3 is an enlarged view of part A of FIG. 2;

FIG. 4 is an enlarged view of the portion B of FIG. 2;

FIG. 5 is a schematic top view of the present invention;

FIG. 6 is an enlarged view of the portion C of FIG. 5;

FIG. 7 is a schematic structural view of a mounting plate according to the present invention;

fig. 8 is a schematic bottom sectional view of the mounting plate of the present invention.

In the figure: 1-supporting rod, 2-mounting plate, 3-first sealing cylinder, 4-second sealing cylinder, 5-piston, 6-sliding rod, 7-disc, 8-spring, 9-first connecting block, 10-pulley, 11-solar panel, 12-chute, 13-second connecting block, 14-first heated plate, 15-second heated plate, 16-heat pipe, 17-mounting plate, 18-rotating hole, 19-rotating shaft, 20-first gear, 21-receiving hole, 22-motor, 23-second gear, 24-lug, 25-mounting rod, 26-monitor, 27-rotating groove, 28-rotating ring, 29-third gear, 30-circular boss, 31-mounting groove, 32-rolling ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, in an embodiment of the present invention, an ecological environment monitoring apparatus includes a support rod 1, a mounting plate 2 is fixedly installed in the middle of the support rod 1, a first sealing cylinder 3 and a second sealing cylinder 4 are fixedly installed on an upper end surface of the mounting plate 2, a piston 5 is slidably connected in each of the first sealing cylinder 3 and the second sealing cylinder 4, a slide bar 6 is fixedly installed on an upper end surface of the piston 5, a disc 7 is fixedly installed on an upper end surface of the slide bar 6, a spring 8 is fixedly installed between the disc 7 and the sealing cylinder, a first connecting block 9 is fixedly installed on an upper end surface of the disc 7, a circular hole is formed at a top end of a front end surface and a rear end surface of the first connecting block 9, a pulley 10 is rotatably installed in the circular hole, the pulley 10 is slidably connected with a solar cell panel 11, a chute 12 is formed on a lower end, the left end face and the right end face of the mounting plate 2 are fixedly provided with a second connecting block 13, and the outer end of the second connecting block 13 is fixedly provided with a first heated plate 14 and a second heated plate 15.

In this embodiment, the first heated plate 14 and the second heated plate 15 are both inclined at forty-five degrees, the lower ends of the first heated plate 14 and the second heated plate 15 are both fixedly mounted with a heat pipe 16, the heat pipe 16 on the lower end surface of the first heated plate 14 is wound around the outer wall of the first sealing cylinder 3, the heat pipe 16 on the lower end surface of the second heated plate 15 is wound around the outer wall of the second sealing cylinder 4, and the first sealing cylinder 3 and the second sealing cylinder 4 are both filled with a gas that is easily expanded by heat, when the sun irradiates on the first heated plate 14 or the second heated plate 15, the heated plates can absorb heat, then transfer the heat to the heat pipe 16 wound around the outer walls of the first sealing cylinder 3 and the second sealing cylinder 4 through the heat pipe 16 on the lower ends, and then heat the gas in the first sealing cylinder 3 and the second sealing cylinder 4, so that the gas expands to provide an upward thrust to the piston 5.

In this embodiment, the first heated plate 14 is fixedly connected to the second connecting block 13 on the left side of the mounting plate 2, the second heated plate 15 is fixedly connected to the second connecting block 13 on the right side of the mounting plate 2, the first sealing cylinder 3 is mounted on the right side of the upper end surface of the mounting plate 2, and the second sealing cylinder 4 is mounted on the left side of the upper end surface of the mounting plate 2, when the first heated plate 14 is heated, the piston 5 in the first sealing cylinder 3 moves upward, so that the right end of the solar cell panel 11 rises, so that the solar cell panel 11 faces the left side, and when the second heated plate 15 is heated, the piston 5 in the second sealing cylinder 4 moves upward, so that the left end of the solar cell panel 11 rises, and the solar cell panel 11 faces the right side.

In this embodiment, 12 cross sections of spout are the T shape, and pulley 10 slides in the both sides of spout 12, and when solar cell panel 11 inclined, solar cell panel 11 can change with the angle of first connecting block 9, and pulley 10 still can slide in spout 12, and spout 12 can prevent for the T shape that pulley 10 from droing.

In this embodiment, spring 8 is compression spring 8, and under the effect of not having the external force, solar cell panel 11 can transmit pressure to disc 7 through first connecting block 9, then transmits for spring 8 through disc 7, and spring 8 can be compressed, and spring 8 can provide the partly power of lifting solar cell panel 11, reduces the required power when lifting solar cell panel 11.

In this embodiment, a mounting plate 17 is fixedly mounted at the top end of the support rod 1, a rotation hole 18 is formed in the middle of the upper end face of the mounting plate 17, a rotation shaft 19 is rotatably connected in the rotation hole 18, a first gear 20 is fixedly mounted on the upper end face of the rotation shaft 19, a containing hole 21 is formed beside the rotation hole 18 on the upper end face of the mounting plate 17, a motor 22 is fixedly mounted in the containing hole 21, a second gear 23 is fixedly mounted on an output shaft of the motor 22, the first gear 20 is meshed with the second gear 23, a projection 24 is fixedly mounted on the upper end face of the first gear 20, communicated circular holes are formed in the front end face and the rear end face of the projection 24, a mounting rod 25 is rotatably mounted in the circular hole, a monitor 26 is fixedly mounted on the lower side of the left end of the mounting rod 25, when the motor 22 is started, the motor 22 can drive the second gear 23 on the output, the first gear 20 rotates the top projection 24, and the projection 24 rotates the mounting rod 25, so that the monitor 26 rotates to monitor the surrounding environment.

In this embodiment, the upper end surface of the mounting plate 17 is provided with a rotating groove 27, the rotating groove 27 is rotatably connected with a rotating ring 28, the upper end surface of the rotating ring 28 is fixedly provided with a third gear 29, the upper end surface of the third gear 29 is fixedly provided with a circular boss 30, the right side of the circular boss 30 is provided with a recess, the lower end surface of the mounting rod 25 is provided with a mounting groove 31, the mounting groove 31 is arranged at the upper side of the circular boss 30, a rolling ball 32 is rotatably mounted in a concave shape, when the mounting rod 25 rotates, the rolling ball 32 rolls on the circular boss 30, when the rolling ball 32 rolls to the recess of the circular boss 30, the rolling ball 32 rolls to the lower end of the recess along the edge of the recess to drive the mounting rod 25 to tilt downward, so that the visual angle of the monitor 26 is tilted downward, then the rolling ball 32 rolls to the upper end surface of the circular boss 30 along the edge of the recess, and the mounting rod 25, the view angle of the monitor 26 also returns to the horizontal state, and the monitoring range of the monitor 26 is increased.

In this embodiment, the gear teeth of the third gear 29 are installed on the inner ring, the second gear 23 is meshed with the first gear 20 and the third gear 29, and the third gear 29 drives the circular boss 30 to rotate, so that the rolling ball 32 is in contact with the concave part of the circular boss 30 in different directions every time, and the monitoring range of the monitor 26 is increased in an all-round manner.

The working principle of the invention is as follows:

the device is firstly installed at a place to be monitored, the left and right directions of the installation plate 2 are aligned with the east and west directions of the installation place, then the support rod 1 is stably fixed on the ground, then the motor 22 is started, the motor 22 can drive the second gear 23 to rotate, the second gear 23 is meshed with the first gear 20 and the third gear 29 simultaneously to drive the first gear 20 and the third gear 29 to rotate simultaneously, but the rotating directions are opposite, the first gear 20 can drive the lug 24 on the upper end surface and the installation rod 25 rotationally connected with the lug 24 to rotate together, the rolling ball 32 can roll on the upper end surface of the circular boss 30, when the rolling ball 32 rolls to the concave part of the circular boss 30, the rolling ball 32 can roll downwards along the concave edge, the installation rod 25 can slowly incline downwards, the visual angle of the monitor 26 at the left end of the installation rod 25 can also incline downwards, and then the rolling ball 32 can roll to the upper end surface of the circular boss 30 along the concave edge, the mounting rod 25 returns to the horizontal state, and the visual angle of the monitor 26 on the left side of the mounting rod 25 also returns to the horizontal state, so that the surrounding environment is monitored in a reciprocating mode; when the sun rises, if the first heated plate 14 is installed in the east, the first heated plate 14 can receive heat transferred by the sun when the sun rises, then the heat is transferred to the heat conduction pipe 16 wound on the outer wall of the first sealing cylinder 3 through the heat conduction pipe 16 on the lower end surface, then the heat conduction pipe 16 can heat the gas in the first sealing cylinder 3, the gas in the first sealing cylinder 3 can expand, the expanded gas can provide upward thrust for the piston 5 in the first sealing cylinder 3, then the upward thrust of the spring 8 is added, the piston 5 can move upward to drive the sliding rod 6 to move upward together, the right side of the solar panel 11 can lift upward, the pulley 10 can slide in the sliding groove 12 in the lifting process, finally the piston 5 slides to the top end of the sealing cylinder, the right end of the solar panel 11 is completely lifted, so that the solar panel 11 faces the sun, next, when the sun rises almost right above, the sun irradiates on the second heated plate 15, next, the piston 5 in the second sealing cylinder 4 also moves upwards to jack up the left side of the solar cell panel 11, so that the solar cell panel 11 is kept in a horizontal state, next, the sun rotates to the west, namely, the right side of the support rod 1, at the moment, the first heated plate 14 is not irradiated by the sun, the temperature of the first sealing cylinder 3 slowly drops, the piston 5 in the first sealing cylinder 3 slowly moves downwards, the right end of the solar cell panel 11 slowly drops, the solar cell panel 11 faces to the right side, and finally, when the sun completely disappears, the piston 5 in the second sealing cylinder also slowly drops, and the solar cell panel 11 returns to the initial state.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an ecological environment monitoring facilities, includes bracing piece (1), its characterized in that: the solar cell panel comprises a supporting rod (1), a mounting plate (2) is fixedly mounted in the middle of the supporting rod (1), a first sealing cylinder (3) and a second sealing cylinder (4) are fixedly mounted on the upper end face of the mounting plate (2), a piston (5) is connected with the first sealing cylinder (3) and the second sealing cylinder (4) in a sliding mode, a sliding rod (6) is fixedly mounted on the upper end face of the piston (5), a disc (7) is fixedly mounted on the upper end face of the sliding rod (6), a spring (8) is fixedly mounted between the disc (7) and the first sealing cylinder (3) and the second sealing cylinder (4), a first connecting block (9) is fixedly mounted on the upper end face of the disc (7), round holes are formed in the top end face of the front portion and the back portion of the first connecting block (9), a pulley (10) is installed in the round holes in a rotating mode, the pulley (10) is connected with a solar cell panel (, pulley (10) come with solar cell panel (11) sliding connection through with spout (12) sliding connection, terminal surface fixed mounting has second connecting block (13) about mounting panel (2), second connecting block (13) outer end fixed mounting has first heated board (14) and second heated board (15).

2. The ecological environment monitoring device of claim 1, characterized in that: the first heated plate (14) and the second heated plate (15) are inclined at forty-five degrees, heat conduction pipes (16) are fixedly mounted at the lower ends of the first heated plate (14) and the second heated plate (15), the heat conduction pipes (16) at the lower end face of the first heated plate (14) are wound on the outer wall of the first sealing cylinder (3), the heat conduction pipes (16) at the lower end face of the second heated plate (15) are wound on the outer wall of the second sealing cylinder (4), and the first sealing cylinder (3) and the second sealing cylinder (4) are filled with heated expansive gas.

3. The ecological environment monitoring device of claim 1, characterized in that: first heated plate (14) and the left second connecting block (13) fixed connection of mounting panel (2), the second heated plate (15) and the second connecting block (13) fixed connection on mounting panel (2) right side, the right side at mounting panel (2) up end is installed in first sealed section of thick bamboo (3), the left side at mounting panel (2) up end is installed in second sealed section of thick bamboo (4).

4. The ecological environment monitoring device of claim 1, characterized in that: the cross section of the sliding groove (12) is T-shaped, and the pulleys (10) slide on two sides of the sliding groove (12).

5. The ecological environment monitoring device of claim 1, characterized in that: spring (8) are compression spring (8), and under the effect that does not have the external force, solar cell panel (11) can transmit pressure to disc (7) through first connecting block (9), then transmits spring (8) through disc (7), and spring (8) can be compressed.

6. The ecological environment monitoring device of claim 1, characterized in that: a mounting disc (17) is fixedly mounted at the top end of the supporting rod (1), a rotating hole (18) is formed in the middle of the upper end face of the mounting disc (17), a rotating shaft (19) is rotatably connected in the rotating hole (18), a first gear (20) is fixedly arranged on the upper end surface of the rotating shaft (19), a containing hole (21) is arranged beside the rotating hole (18) on the upper end surface of the mounting disc (17), a motor (22) is fixedly arranged in the accommodating hole (21), a second gear (23) is fixedly arranged on an output shaft of the motor (22), the first gear (20) is meshed with the second gear (23), a lug (24) is fixedly arranged on the upper end surface of the first gear (20), the front end surface and the rear end surface of the convex block (24) are provided with communicated round holes, the round holes are internally and rotatably provided with mounting rods (25), and a monitor (26) is fixedly mounted on the lower side of the left end of the mounting rod (25).

7. The ecological environment monitoring device of claim 6, characterized in that: rotation groove (27) have been seted up to mounting disc (17) up end, rotation groove (27) internal rotation is connected with swivel becket (28), swivel becket (28) up end fixed mounting has third gear (29), third gear (29) up end fixed mounting has ring boss (30), there is a department on ring boss (30) right side sunken, mounting groove (31) have been seted up to the lower terminal surface of installation pole (25), the upside at ring boss (30) is seted up in mounting groove (31), rolling ball (32) are installed to the internal rotation is operated to the concavity.

8. The ecological environment monitoring device of claim 6, characterized in that: the gear teeth of the third gear (29) are arranged on the inner ring, and the second gear (23) is meshed with the first gear (20) and the third gear (29).