CN112033460A

CN112033460A - Multifunctional environment monitoring sensor

Info

Publication number: CN112033460A
Application number: CN202010844065.XA
Authority: CN
Inventors: 王松; 程良
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-20
Filing date: 2020-08-20
Publication date: 2020-12-04

Abstract

The invention belongs to the technical field of environmental monitoring, and particularly relates to a multifunctional environmental monitoring sensor which comprises a sensor main body, wherein a top plate is arranged on the upper surface of the sensor main body, connecting plates are arranged on two sides of the top plate, an embedded block is fixedly connected to one side surface of each connecting plate, embedded rods are fixedly connected to the outer surfaces of the front end and the rear end of each embedded block, embedded grooves are formed in two sides of the top plate, an embedded opening is formed in the front end of each embedded groove, a clamping block is fixedly connected to the outer surface of one side of each connecting plate, which is close to the lower part of each embedded block, and a clamping groove is formed in the outer surface of one side; the sensor main body and the top plate are convenient to separate, the sensor main body and the top plate are convenient to overhaul, a better use prospect is brought, the sensor main body can be effectively prevented from being damaged by wind force in the use process, and the service life is long.

Description

Multifunctional environment monitoring sensor

Technical Field

The invention belongs to the technical field of environment monitoring, and particularly relates to a multifunctional environment monitoring sensor.

Background

The multifunctional environment monitoring sensor can automatically sense and detect wind, light and rain in natural weather, and transmits detected signals to the host, so that the functions of the wind-sensing sensor, the light-sensing sensor and the rain-sensing sensor are integrated, the installation is reduced, and the environment elements are monitored to a large extent.

There is certain drawback in current multi-functional environmental monitoring sensor when using, at first, need squeeze into a plurality of groups screw in the mounting hole and fix, the installation is comparatively inconvenient, secondly, it is comparatively inconvenient to the maintenance of sensor main part, it can overhaul the sensor to need pull down the rear with whole sensor from the installation face usually, it is not convenient enough, simultaneously because the sensor is arranged outdoor use all the time in, can take place the swing under the influence of wind-force, through the snap-on, can lead to the long time atress of fixed department to lead to the fracture, unset sensor can swing under the wind-force effect, it is not accurate to cause the detected data, still can lead to the sensor to strike other objects, cause the sensor to damage, influence life, for this reason, we propose a multi-functional environmental monitoring sensor.

Disclosure of Invention

In order to make up for the defects of the prior art, solve the problems that the installation, the disassembly and the maintenance of a sensor are inconvenient, time and labor are wasted, the sensor is placed outdoors for a long time, a fixed point is stressed for a long time to cause fracture, the sensor swings under the action of wind power if not fixed, the detection data is not accurate, the sensor can be collided with other objects to cause damage to the sensor, and the service life is influenced, the invention provides the multifunctional environment monitoring sensor.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a multifunctional environment monitoring sensor which comprises a sensor main body, wherein a top plate is arranged on the upper surface of the sensor main body, connecting plates are arranged on two sides of the top plate, an embedded block is fixedly connected to one side surface of each connecting plate, embedded rods are fixedly connected to the outer surfaces of the front end and the rear end of each embedded block, embedded grooves are formed in two sides of the top plate, an embedded inlet is formed in the front end of each embedded groove, a clamping block is fixedly connected to the position, close to the lower part of each embedded block, of the outer surface of one side of each connecting plate, and a clamping groove is formed in the position, close to the clamping block; the embedding block is matched with the embedding groove, the embedding rod is matched with the embedding port, and the clamping block is matched with the clamping groove; the outer surface of the upper end of the top plate, close to the two sides of the support frame, is fixedly connected with a limiting block, a connecting shaft is arranged between the support frame and the limiting block, the connecting shaft penetrates through the limiting block, and the support frame is rotatably sleeved on the surface of the connecting shaft; the lower end of the support frame is fixedly connected with a mounting plate, a reinforcing plate is arranged above the mounting plate, the reinforcing plate is provided with an opening, and the support frame is fixedly connected to the upper surface of the mounting plate through the opening; the lower surface of the reinforcing plate is fixedly connected with reinforcing nails which are uniformly distributed, the reinforcing nails penetrate through the mounting plate, the outer surface of the reinforcing nails below the mounting plate is fixedly connected with a limiting sharp block, and the reinforcing nails are movably connected with the mounting plate; when the sensor is in work, after a user attaches the mounting plate to the mounting surface, the user knocks the reinforcing plate by means of a tool to enable the reinforcing nail to be driven into the mounting surface, so that the mounting plate is kept stable, meanwhile, the connecting shaft and the limiting block are matched, when the sensor is mounted on mounting surfaces with different inclination degrees, the outer surface of the front end of the sensor main body can be always kept in a vertical state, normal monitoring is ensured, the mounting process of the whole sensor is completed, the mounting process is convenient and stable, when the user needs to independently lift off the sensor main body for maintenance, the user pulls the two groups of embedding rods to enable the embedding rods to move out from the inner sides of the embedding openings, simultaneously the embedding blocks move out from the inner sides of the embedding grooves and the clamping blocks move out from the inner sides of the clamping grooves, similar operation is carried out on the two groups of connecting plates, the operation is simple and convenient, and manpower and material resources are saved.

Preferably, a display screen is arranged on the outer surface of the front end of the sensor main body, and an input port of the display screen is electrically connected with an output port of the sensor main body; during operation, the data of the sensor main body on the environmental monitoring can be visually seen by a user through the display screen, and the user can conveniently record the data.

Preferably, the inner walls of the embedded groove and the embedded port are covered with a first rubber layer; the first rubber layer is made of soft elastic rubber material; a first cavity is formed in the first rubber layer; the surface of one side, opposite to the limiting block, of the limiting block is fixedly connected with a second rubber layer; a second cavity is formed in the second rubber layer; the first cavity is communicated with the second cavity through an air groove formed in the top plate; the first rubber layer extends to the surfaces of the left side and the right side of the top plate, the embedding block is inserted into the embedding groove, the connecting plate is tightly attached to the surface of the first rubber layer after the embedding rod is inserted into the embedding opening, and a protrusion is formed on the first rubber layer at the connecting part between the connecting plate and the top plate; when the sensor is in work, the embedding block is inserted into the embedding groove, the first rubber layer is extruded when the embedding rod is inserted into the embedding port, so that the first cavity is extruded, gas in the first cavity enters the second cavity, the second rubber layer expands, the second rubber layer is tightly attached to the surface of the support frame, friction force is generated by extrusion between the second rubber layer and the support frame, the sensor body is fixed with the support frame, the situation that the sensor body swings under wind power when the sensor body is arranged outdoors in the use process, so that the detected data is deviated is avoided, meanwhile, the situation that the sensor body is damaged due to the fact that the swing amplitude of the sensor body is large and the surface of the support frame is impacted due to the large wind power is avoided, the service life of the sensor body is prolonged, manpower and material resources are saved, the monitoring accuracy is improved, and after the first rubber layer at the connecting part between, can prevent effectively that outdoor moisture from getting into the junction between connecting plate and the roof, cause the corrosion, be unfavorable for the dismantlement in later stage to overhaul, further improve sensor life simultaneously.

Preferably, the surfaces of the opposite sides of the second rubber layers are fixedly connected with rubber blocks which are uniformly arranged; the rubber block is designed in a hemispherical shape and is made of hard wear-resistant rubber materials; during operation, through the setting of block rubber, when second rubber layer inflation, improve and the support frame between the frictional force, further improve the fixed effect of sensor main part, further prevent that sensor main part from taking place the swing under the influence of wind-force, improve the monitoring precision, prevent that sensor main part from striking the support frame, improve sensor life, and through the block rubber of evenly arranging, when the wind-force that sensor main part receives is greater than the frictional force between second rubber layer and the support frame, intermittent type nature's friction between accessible block rubber and the support frame, reduce the swing range and the frequency of sensor main part, reduce the probability that sensor main part strikes the support frame, improve the life of sensor.

Preferably, a buffer pad is fixedly connected to the surface of one side of the support frame, which is close to the sensor main body; the support frame is connected with the mounting plate, and a sealing pad is fixedly connected to the periphery of the support frame; the sealing gasket extends to the lower surface of the reinforcing plate; the during operation, when the wind-force that receives at the sensor main part is greater than frictional force between second rubber layer and the support frame, the sensor main part striking is behind the support frame surface, can effectively cushion the sensor main part through the blotter, reduce the impact that the sensor main part receives, thereby further improve the life of sensor main part, simultaneously in mounting panel and gusset plate installation, gusset plate extrusion seal pad, thereby realize sealed between gusset plate and the mounting panel through sealed the pad, prevent the installation back, moisture gets into between mounting panel and the gusset plate, cause the corrosion, be unfavorable for the dismantlement in later stage.

Preferably, a third cavity is formed in the buffer pad; a fourth cavity is formed in the sealing gasket; the third cavity and the fourth cavity are communicated through an air groove in the support frame, and the surface of one side, close to the sensor main body, of the cushion pad is fixedly connected with rubber belts which are uniformly arranged; the rubber belt is made of soft elastic rubber material; the surface of the sealing gasket is provided with uniformly distributed air holes which are communicated with the fourth cavity; the during operation, in the sensor use, wind-force blows the rubber tape swing, thereby at rubber tape swing in-process intermittent type nature tensile with relax the third cavity, thereby make gaseous intermittent type nature entering fourth cavity in the third cavity, when gaseous atmospheric pressure rises in the fourth cavity, gaseous through the gas pocket blowout, blow to the space between support frame and the gusset plate, thereby blow off the dust between support frame and the gusset plate, guarantee the cleanliness between support frame and the gusset plate, further make things convenient for the dismantlement in later stage, prevent that the dust accumulation is more, corrode sealed the pad, influence the leakproofness between mounting panel and the gusset plate, simultaneously, through the rubber tape, when sensor main part striking support frame, further provide the buffering, improve the buffering effect, thereby further prevent that the sensor main part from damaging, improve sensor life.

The invention has the following beneficial effects:

1. according to the multifunctional environment monitoring sensor, the mounting plate, the reinforcing plate and the reinforcing nail are arranged, after the mounting plate is attached to the mounting surface, the reinforcing nail is driven into the mounting surface by knocking the reinforcing plate, so that the mounting plate is kept stable, and meanwhile, the outer surface of the front end of the sensor main body can be always kept in a vertical state by matching with the connecting shaft and the limiting block when the sensor main body is mounted on mounting surfaces with different inclination degrees. .

2. According to the multifunctional environment monitoring sensor, the connecting plate embedded groove and the bayonet are arranged, when the sensor main body needs to be detached independently for maintenance, the two groups of embedded rods are pulled, so that the embedded rods are moved out from the inner side of the embedded opening, the embedded blocks are moved out from the inner side of the embedded groove and the clamping blocks are moved out from the inner side of the clamping groove, the two groups of connecting plates are operated similarly, and then the sensor main body and the top plate can be separated from each other, so that the sensor main body can be maintained.

3. According to the multifunctional environment monitoring sensor, the friction force is generated by extrusion between the second rubber layer and the support frame, so that the sensor main body is fixed with the support frame, the situation that the sensor main body swings under wind power blowing when being placed outdoors in the use process of the sensor main body, so that the detected data is deviated is avoided, the situation that the sensor main body is damaged due to the fact that the sensor main body is large in swing amplitude and collides with the surface of the support frame due to large wind power is avoided, the service life of the sensor main body is prolonged, and meanwhile, manpower and material resources are saved.

Drawings

The invention will be further explained with reference to the drawings.

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

FIG. 2 is a front view of the connection of the top plate and the connecting plate of the present invention;

FIG. 3 is a partial cross-sectional view of the mounting plate and reinforcing plate of the present invention;

FIG. 4 is a top view of the reinforcement nail of the present invention;

in the figure: the sensor comprises a sensor body 1, a display screen 2, a top plate 3, a limiting block 4, a supporting frame 5, a connecting shaft 6, a mounting plate 7, a reinforcing plate 8, a reinforcing nail 9, a limiting sharp block 10, a connecting plate 11, an embedding block 12, an embedding rod 13, an embedding groove 14, an embedding opening 15, a clamping block 16, a clamping groove 17, a first rubber layer 18, a second rubber layer 19, a rubber block 20, a cushion pad 21, a sealing pad 22, a third cavity 23, a fourth cavity 24, a rubber belt 25 and an air hole 26.

Detailed Description

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

As shown in fig. 1 to 4, the multifunctional environment monitoring sensor comprises a sensor main body 1, wherein a top plate 3 is arranged on the upper surface of the sensor main body 1, connecting plates 11 are arranged on both sides of the top plate 3, an embedded block 12 is fixedly connected to one side surface of each connecting plate 11, embedded rods 13 are fixedly connected to the outer surfaces of the front end and the rear end of each embedded block 12, embedded grooves 14 are formed in both sides of the top plate 3, an embedded opening 15 is formed in the front end of each embedded groove 14, a clamping block 16 is fixedly connected to the outer surface of one side of each connecting plate 11, which is close to the lower part of each embedded block 12, and a clamping groove 17 is formed in the outer surface of one side of the sensor main body 1, which is close to; the embedding block 12 is matched with the embedding groove 14 for use, the embedding rod 13 is matched with the embedding opening 15 for use, and the clamping block 16 is matched with the clamping groove 17 for use; the outer surface of the upper end of the top plate 3 is fixedly connected with limiting blocks 4 at two sides close to the supporting frame 5, a connecting shaft 6 is arranged between the supporting frame 5 and the limiting blocks 4, the connecting shaft 6 penetrates through the limiting blocks 4, and the supporting frame 5 is rotatably sleeved on the surface of the connecting shaft 6; the lower end of the support frame 5 is fixedly connected with an installation plate 7, a reinforcing plate 8 is arranged above the installation plate 7, the reinforcing plate 8 is provided with an opening, and the support frame 5 is fixedly connected to the upper surface of the installation plate 7 through the opening; the lower surface of the reinforcing plate 8 is fixedly connected with reinforcing nails 9 which are uniformly distributed, the reinforcing nails 9 penetrate through the mounting plate 7, the outer surface of the reinforcing nails 9 below the mounting plate 7 is fixedly connected with limiting sharp blocks 10, and the reinforcing nails 9 are movably connected with the mounting plate 7; when the sensor is in work, after the mounting plate 7 is attached to the mounting surface by a user, the user knocks the reinforcing plate 8 by means of a tool to enable the reinforcing nail 9 to be driven into the mounting surface, so that the mounting plate 7 is kept stable, meanwhile, the connecting shaft 6 and the limiting block 4 are matched, when the sensor is mounted on mounting surfaces with different inclination degrees, the outer surface of the front end of the sensor body 1 can always keep a vertical state, normal monitoring is ensured, the mounting process of the whole sensor is completed, the mounting process is convenient and stable, when the user needs to independently lift the sensor body 1 down for maintenance, the user pulls the two groups of embedding rods 13 to enable the embedding rods 13 to move out from the inner side of the embedding openings 15, simultaneously the embedding blocks 12 move out from the inner side of the embedding grooves 14 and the clamping blocks 16 move out from the inner sides of the clamping grooves 17, similar operation is carried out on the two groups of, so as to overhaul the sensor main body 1, the operation is simple and convenient, and manpower and material resources are saved.

As an embodiment of the present invention, a display screen 2 is disposed on an outer surface of a front end of the sensor body 1, and an input port of the display screen 2 is electrically connected to an output port of the sensor body 1; during operation, the data of the sensor main body 1 on the environmental monitoring can be visually seen by a user through the display screen 2, and the recording of the user is facilitated.

As an embodiment of the present invention, the inner walls of the embedding groove 14 and the embedding opening 15 are covered with a first rubber layer 18; the first rubber layer 18 is made of soft elastic rubber material; a first cavity is formed in the first rubber layer 18; the surface of one side, opposite to the limiting block 4, of the limiting block is fixedly connected with a second rubber layer 19; a second cavity is formed in the second rubber layer 19; the first cavity is communicated with the second cavity through an air groove formed in the top plate 3; the first rubber layer 18 extends to the left side surface and the right side surface of the top plate 3, so that the embedded block 12 is inserted into the embedded groove 14, the embedded rod 13 is inserted into the embedded opening 15, the connecting plate 11 is tightly attached to the surface of the first rubber layer 18, and the first rubber layer 18 at the connecting part between the connecting plate 11 and the top plate 3 forms a bulge; when the sensor is in operation, when the embedded block 12 is inserted into the embedded groove 14, the embedded rod 13 is inserted into the embedded opening 15 to extrude the first rubber layer 18, so that the first cavity is extruded, gas in the first cavity enters the second cavity to expand the second rubber layer 19, so that the second rubber layer 19 is tightly attached to the surface of the support frame 5, friction is generated by extrusion between the second rubber layer 19 and the support frame 5, the sensor body 1 and the support frame 5 are fixed, the situation that the sensor body 1 swings outdoors under wind power during the use process of the sensor body 1 to cause deviation of detected data is avoided, meanwhile, the situation that the sensor body 1 swings with large amplitude due to large wind power to impact the surface of the support frame 5 is avoided, the sensor body 1 is damaged, the service life of the sensor body 1 is prolonged, manpower and material resources are saved, the monitoring accuracy is improved, and after the first rubber layer 18 at the joint between the connecting plate 11 and the top plate 3 forms a bulge, can prevent effectively that outdoor moisture from getting into junction between 11 and the roof 3 of connecting plate, cause the corrosion, be unfavorable for the dismantlement in later stage to overhaul, further improve sensor life simultaneously.

As an embodiment of the invention, the opposite side surfaces of the second rubber layer 19 are fixedly connected with uniformly arranged rubber blocks 20; the rubber block 20 is designed in a hemispherical shape, and the rubber block 20 is made of hard wear-resistant rubber materials; during operation, through the setting of block rubber 20, when second rubber layer 19 expands, improve and support frame 5 between the frictional force, further improve sensor body 1's fixed effect, further prevent that sensor body 1 from taking place the swing under the influence of wind-force, improve the monitoring precision, prevent that sensor body 1 from striking support frame 5, improve sensor life, and through the block rubber 20 of evenly arranging, when sensor body 1 receives wind-force and is greater than the frictional force between second rubber layer 19 and the support frame 5, intermittent type nature friction between accessible block rubber 20 and the support frame 5, reduce the amplitude of oscillation and the frequency of sensor body 1, reduce the probability that sensor body 1 strikes support frame 5, improve the life of sensor.

As an embodiment of the invention, a buffer pad 21 is fixedly connected to one side surface of the support frame 5 close to the sensor body 1; the support frame 5 is connected with the mounting plate 7, and a sealing gasket 22 is fixedly connected to the periphery of the support frame 5; the sealing gasket 22 extends to the lower surface of the reinforcing plate 8; during operation, when wind-force that receives at sensor main part 1 is greater than frictional force between second rubber layer 19 and the

support frame

5, 1 striking of sensor main part is behind support frame 5 surface, can effectively cushion sensor main part 1 through blotter 21, reduce the impact that sensor main part 1 receives, thereby further improve sensor main part 1's life, simultaneously in mounting panel 7 and gusset plate 8 installation, 8 extrusion sealing gaskets 22 of gusset plate, thereby realize sealed between gusset plate 8 and the mounting panel 7 through sealed gasket 22, prevent the installation back, moisture gets into between mounting panel 7 and the gusset plate 8, cause the corrosion, the corrosion is unfavorable for the dismantlement in later stage.

As an embodiment of the present invention, a third cavity 23 is formed in the cushion pad 21; a fourth cavity 24 is formed in the sealing gasket 22; the third cavity 23 and the fourth cavity 24 are communicated through an air groove in the support frame 5, and the surface of one side, close to the sensor body 1, of the cushion pad 21 is fixedly connected with rubber belts 25 which are uniformly arranged; the rubber belt 25 is made of soft elastic rubber material; the surface of the sealing gasket 22 is provided with air holes 26 which are uniformly distributed, and the air holes 26 are communicated with the fourth cavity 24; in operation, during the use of the sensor, the wind blows the rubber belt 25 to swing, thereby intermittently stretching and loosening the third cavity 23 during the swinging of the rubber belt 25, so that the gas in the third cavity 23 intermittently enters the fourth cavity 24, when the gas pressure in the fourth cavity 24 rises, the gas is ejected through the gas holes 26, the gap between the support frame 5 and the reinforcing plate 8 is blown, so that dust between the support frame 5 and the reinforcing plate 8 is blown out, the cleanness between the support frame 5 and the reinforcing plate 8 is ensured, the later-stage disassembly is further facilitated, the dust accumulation is prevented from being more, the sealing gasket 22 is corroded, affecting the tightness between the mounting plate 7 and the reinforcing plate 8, while by means of the rubber strip 25, when sensor body 1 striking support frame 5, further provide the buffering, improve buffering effect to further prevent that sensor body 1 from damaging, improve sensor life.

The specific working process is as follows:

in operation, after the mounting plate 7 is attached to the mounting surface by a user, the user strikes the reinforcing plate 8 by means of a tool, so that the reinforcing nail 9 is driven into the mounting surface, the mounting plate 7 is kept stable, and meanwhile, the connecting shaft 6 and the limiting block 4 are matched, when the sensor is arranged on the mounting surfaces with different inclination degrees, the outer surface of the front end of the sensor main body 1 can always keep a vertical state, the normal monitoring is ensured, thereby completing the installation process of the whole sensor, when a user needs to separately dismount the sensor body 1 for maintenance, pulling the two groups of embedded rods 13 to enable the embedded rods 13 to be moved out of the inner side of the embedded opening 15, while the insert 12 is moved out of the inside of the insertion groove 14 and the latch 16 is moved out of the inside of the latch groove 17, the two groups of connecting plates 11 are similarly operated, and then the sensor body 1 can be separated from the top plate 3 so as to overhaul the sensor body 1;

when the embedded block 12 is inserted into the embedded groove 14, the embedded rod 13 extrudes the first rubber layer 18 in the process of being inserted into the embedded opening 15, so that the first cavity is extruded, gas in the first cavity enters the second cavity, the second rubber layer 19 expands, so that the second rubber layer 19 is tightly attached to the surface of the support frame 5, friction force is generated by extrusion between the second rubber layer 19 and the support frame 5, the sensor body 1 and the support frame 5 are fixed, and after the first rubber layer 18 at the joint between the connecting plate 11 and the top plate 3 forms a bulge, outdoor moisture can be effectively prevented from entering the joint between the connecting plate 11 and the top plate 3, through the arrangement of the rubber block 20, when the second rubber layer 19 expands, when wind force borne by the sensor body 1 is greater than the friction force between the second rubber layer 19 and the support frame 5, intermittent friction between the rubber block 20 and the support frame 5 can be utilized, and the swing amplitude and frequency of the sensor body 1 are reduced, the probability that the sensor body 1 impacts the support frame 5 is reduced, when the wind power borne by the sensor body 1 is larger than the friction force between the second rubber layer 19 and the support frame 5, after the sensor body 1 impacts the surface of the support frame 5, the sensor body 1 can be effectively buffered through the buffer cushion 21, the impact force borne by the sensor body 1 is reduced, meanwhile, in the installation process of the mounting plate 7 and the reinforcing plate 8, the reinforcing plate 8 extrudes the sealing gasket 22, so that the sealing between the reinforcing plate 8 and the mounting plate 7 is realized through the sealing gasket 22, after the installation, moisture enters between the mounting plate 7 and the reinforcing plate 8, in the use process of the sensor, the rubber belt 25 is blown by the wind power to swing, so that the third cavity 23 is intermittently stretched and loosened in the swinging process of the rubber belt 25, so that the gas in the third cavity 23 intermittently enters the fourth cavity 24, when the gas pressure in the fourth cavity 24 rises, the air is sprayed out through the air holes 26 to blow air into the gap between the support frame 5 and the reinforcing plate 8, so that dust between the support frame 5 and the reinforcing plate 8 is blown out, and the cleanliness between the support frame 5 and the reinforcing plate 8 is ensured

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. 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 invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A multi-functional environmental monitoring sensor, includes sensor main part (1), its characterized in that: the sensor comprises a sensor body (1) and is characterized in that a top plate (3) is arranged on the upper surface of the sensor body (1), connecting plates (11) are arranged on two sides of each top plate (3), an embedded block (12) is fixedly connected to one side surface of each connecting plate (11), embedded rods (13) are fixedly connected to the outer surfaces of the front end and the rear end of each embedded block (12), embedded grooves (14) are formed in two sides of each top plate (3), an embedded opening (15) is formed in the front end of each embedded groove (14), a clamping block (16) is fixedly connected to the outer surface of one side of each connecting plate (11) close to the lower portion of each embedded block (12), and a clamping groove (17) is formed in the outer surface of one side of the; the embedding block (12) is matched with the embedding groove (14) for use, the embedding rod (13) is matched with the embedding opening (15) for use, and the clamping block (16) is matched with the clamping groove (17) for use; the outer surface of the upper end of the top plate (3) close to two sides of the support frame (5) is fixedly connected with a limiting block (4), a connecting shaft (6) is arranged between the support frame (5) and the limiting block (4), the connecting shaft (6) penetrates through the limiting block (4), and the support frame (5) is rotatably sleeved on the surface of the connecting shaft (6); the lower end of the support frame (5) is fixedly connected with a mounting plate (7), a reinforcing plate (8) is arranged above the mounting plate (7), the reinforcing plate (8) is provided with an opening, and the support frame (5) is fixedly connected to the upper surface of the mounting plate (7) through the opening; the lower surface of gusset plate (8) has linked firmly reinforcement nail (9) of evenly arranging, consolidates nail (9) and passes mounting panel (7) setting, and consolidates nail (9) and has linked firmly spacing sharp piece (10) in mounting panel (7) below surface, consolidates nail (9) and mounting panel (7) swing joint.

2. The multifunctional environmental monitoring sensor of claim 1, wherein: the sensor is characterized in that a display screen (2) is arranged on the outer surface of the front end of the sensor main body (1), and an input port of the display screen (2) is electrically connected with an output port of the sensor main body (1).

3. The multifunctional environmental monitoring sensor of claim 1, wherein: the inner walls of the embedded groove (14) and the embedded opening (15) are covered with a first rubber layer (18); the first rubber layer (18) is made of soft elastic rubber material; a first cavity is formed in the first rubber layer (18); the surface of one side, opposite to the limiting block (4), of the limiting block is fixedly connected with a second rubber layer (19); a second cavity is formed in the second rubber layer (19); the first cavity is communicated with the second cavity through an air groove formed in the top plate (3); the first rubber layer (18) extends to the left side surface and the right side surface of the top plate (3), the embedded block (12) is inserted into the embedded groove (14), the embedded rod (13) is inserted into the embedded opening (15), the connecting plate (11) is tightly attached to the surface of the first rubber layer (18), and the first rubber layer (18) at the connecting part between the connecting plate (11) and the top plate (3) forms a protrusion.

4. A multi-functional environmental monitoring sensor according to claim 3, wherein: the surface of one side, opposite to the second rubber layer (19), of the second rubber layer is fixedly connected with rubber blocks (20) which are uniformly distributed; the rubber block (20) is designed in a hemispherical shape, and the rubber block (20) is made of hard wear-resistant rubber materials.

5. The multifunctional environmental monitoring sensor of claim 1, wherein: a buffer pad (21) is fixedly connected to the surface of one side of the support frame (5) close to the sensor main body (1); the support frame (5) and the mounting plate (7) are connected in a way that a sealing gasket (22) is fixedly connected to the periphery of the support frame (5); the sealing gasket (22) extends to the lower surface of the reinforcing plate (8).

6. The multifunctional environmental monitoring sensor of claim 5, wherein: a third cavity (23) is formed in the buffer pad (21); a fourth cavity (24) is formed in the sealing gasket (22); the third cavity (23) is communicated with the fourth cavity (24) through an air groove in the support frame (5), and rubber belts (25) which are uniformly arranged are fixedly connected to the surface of one side, close to the sensor main body (1), of the cushion pad (21); the rubber belt (25) is made of soft elastic rubber material; the surface of the sealing gasket (22) is provided with air holes (26) which are uniformly distributed, and the air holes (26) are communicated with the fourth cavity (24).