CN216647501U - Forest fire prevention bayonet monitoring alarm device - Google Patents

Abstract

The utility model discloses a forest fire prevention bayonet monitoring alarm device which comprises a supporting pipe and a monitoring alarm device body, wherein an annular plate is connected to the supporting pipe through a lifting mechanism, the annular plate is connected to the outside of the supporting pipe in a sliding mode, the annular plate is connected to a first mounting plate through a rotating mechanism, and the monitoring alarm device body is connected to a second mounting plate through a cushioning mechanism. According to the monitoring alarm device for the forest fire prevention bayonet, disclosed by the utility model, when the monitoring alarm device body is used, the annular plate and the circular plate move upwards on the supporting tube through transmission by the lifting mechanism without manually operating the monitoring alarm device body, so that the use height of the monitoring alarm device body is increased, the solar panel on the monitoring alarm device body is prevented from being shielded by sundries around the supporting tube, and the monitoring alarm device body is further convenient to generate electricity for use.

Description

Forest fire prevention bayonet monitoring alarm device

Technical Field

The utility model relates to the technical field of forest fire prevention, in particular to a monitoring and alarming device for a forest fire prevention bayonet.

Background

Compared with the patent No. CN210466634U, the monitoring and alarming device for the forest fire prevention bayonet comprises a power supply module, an infrared sensing module, a monitoring camera and an alarming module; the infrared sensing module is connected with the monitoring camera and used for sending a shooting instruction to the monitoring camera when sensing an infrared wave signal sent by a human body; the alarm module comprises a communication device, a GPS positioning device and a control screen. The utility model discloses a when realizing monitoring function through the surveillance camera head, still be provided with alarm module, the pedestrian through the bayonet socket can in time report to the police and call to send locating information to fire control command center through the control panel, make the fire fighter pass through locating information and in time arrive the conflagration place, effectively avoid the loss of forest fire, improved the security of device.

Foretell forest fire prevention bayonet socket monitoring alarm device direct mount is on the installation pole, for the artificial monitoring alarm device that operates, consequently monitoring alarm device mounted position on the installation pole is lower relatively, because monitoring alarm device's position is lower relatively easily causes the barrier to take place to shelter from to the solar energy electroplax on the monitoring alarm device, and the solar panel's of being inconvenient for electricity generation is used.

Therefore, a monitoring alarm device for a forest fire prevention gate is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a monitoring alarm device for a forest fire prevention bayonet, which aims to solve the problem that a solar panel on the monitoring alarm device is inconvenient to generate electricity and use due to the fact that a barrier is easy to block the solar panel because the monitoring alarm device is relatively low in position in the comparison document provided by the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a forest fire prevention bayonet monitoring alarm device comprises a supporting tube and a monitoring alarm device body, wherein an annular plate is connected to the supporting tube through a lifting mechanism, the annular plate is connected to the outside of the supporting tube in a sliding mode, a first mounting plate is connected to the annular plate through a rotating mechanism, a second mounting plate is connected to the monitoring alarm device body through a cushioning mechanism, and the first mounting plate and the second mounting plate are connected through a mounting assembly;

elevating system includes the plectane, the plectane passes through the inside that sliding assembly connects at the stay tube, the inside rotation of stay tube is connected with the threaded rod, intermeshing sets up between threaded rod and the plectane, first motor is installed to the upper end of stay tube, the output of first motor runs through the upper end of stay tube and is fixed mutually with the one end of threaded rod, be connected through coupling assembling between plectane and the annular plate.

The sliding assembly comprises a plurality of T-shaped sliding grooves formed in the inner wall of the supporting pipe, each T-shaped sliding groove is connected with a T-shaped sliding block matched with the T-shaped sliding groove in a sliding mode, and each T-shaped sliding block is fixed with the side wall of the circular plate.

Coupling assembling is including seting up the square groove on the stay tube, sliding connection has square board on the square groove, the both ends of square board are connected with the inner wall of plectane and annular slab respectively.

The slewing mechanism includes the connecting plate, the connecting plate passes through rotating assembly and rotates the connection on the lateral wall of annular slab, be fixed with the L template on the connecting plate, install the second motor on the L template, the output of second motor is fixed with the gear, annular rack is installed to the upper end of annular slab, intermeshing sets up between gear and the annular rack.

The rotating assembly comprises an annular groove formed in the side wall of the annular plate, a sliding plate is connected to the annular groove in a sliding mode, and the sliding plate is fixed with the connecting plate.

The mounting assembly comprises a plurality of mounting holes formed in the first mounting plate and the second mounting plate, and the mounting holes are connected through bolts.

Bradyseism mechanism is including fixing the fixed pipe on the monitoring alarm device body, sliding connection has the driving plate on the fixed pipe, be fixed with the transfer line on the driving plate, the other end of transfer line runs through fixed pipe and is fixed mutually with the second mounting panel, the cover is equipped with the spring on the lateral wall of transfer line, be provided with the bradyseism subassembly on the driving plate.

The bradyseism subassembly is including seting up a plurality of damping holes on the driving plate, the inside packing of fixed pipe has damping liquid.

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

1. according to the monitoring alarm device for the forest fire prevention bayonet, disclosed by the utility model, when the monitoring alarm device body is used, the annular plate and the circular plate move upwards on the supporting tube through transmission by the lifting mechanism without manually operating the monitoring alarm device body, so that the use height of the monitoring alarm device body is increased, the solar panel on the monitoring alarm device body is prevented from being shielded by sundries around the supporting tube, and the monitoring alarm device body is further convenient to generate electricity for use.

2. According to the monitoring alarm device for the forest fire prevention bayonet, disclosed by the utility model, in the use process of the monitoring alarm device body, the monitoring alarm device body is rotated on the annular plate after being stressed through the rotating mechanism, and the solar panel on the monitoring alarm device body can conveniently meet the sun for irradiation through the rotation of the monitoring alarm device body, so that the power generation use operation of the monitoring alarm device body is further facilitated.

3. According to the monitoring alarm device for the forest fire prevention bayonet, disclosed by the utility model, in the process that the monitoring alarm device body is used on the supporting pipe, the shaking amplitude of the monitoring alarm device body under the action of external force and wind power after being installed is reduced through multilayer shock absorption protection, the parts in the monitoring alarm device body are prevented from being damaged due to stress, and the monitoring and the use of the monitoring device are further facilitated.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the cushioning mechanism and the lifting mechanism of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 2.

In the figure: 1. supporting a tube; 201. a circular plate; 202. a threaded rod; 203. a first motor; 3. an annular plate; 401. a T-shaped chute; 402. a T-shaped chute; 5. a square groove; 6. a square plate; 7. a first mounting plate; 801. a connecting plate; 802. an L-shaped plate; 803. a second motor; 804. a gear; 805. an annular rack; 9. an annular groove; 10. a monitoring alarm device body; 11. a second mounting plate; 1201. mounting holes; 1202. a bolt; 1301. a fixed tube; 1302. a drive plate; 1303. a transmission rod; 1304. a spring; 1305. a damping hole.

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. 1-3, the monitoring and alarming device for the forest fire prevention bayonet comprises a supporting tube 1 and a monitoring and alarming device body 10, wherein the supporting tube 1 is connected with an annular plate 3 through a lifting mechanism, the annular plate 3 is connected to the outside of the supporting tube 1 in a sliding manner, the annular plate 3 is connected with a first mounting plate 7 through a rotating mechanism, the monitoring and alarming device body 10 is connected with a second mounting plate 11 through a cushioning mechanism, and the first mounting plate 7 and the second mounting plate 11 are connected through a mounting assembly;

the lifting mechanism comprises a circular plate 201, the circular plate 201 is connected inside the support tube 1 through a sliding assembly, a threaded rod 202 is rotatably connected inside the support tube 1, the threaded rod 202 and the circular plate 201 are meshed with each other, a first motor 203 is mounted at the upper end of the support tube 1, the output end of the first motor 203 penetrates through the upper end of the support tube 1 and is fixed with one end of the threaded rod 202, the circular plate 201 is connected with the annular plate 3 through a connecting assembly, and through the lifting mechanism, when the monitoring alarm device body 10 is not required to be operated manually, the annular plate 3 and the circular plate 201 move upwards on the supporting tube 1 through transmission, so that the use height of the monitoring alarm device body 10 is increased, the situation that sundries existing around the supporting tube 1 shield a solar panel on the monitoring alarm device body 10 is avoided, and the monitoring alarm device body 10 is further convenient to generate electricity for use.

The sliding assembly comprises a plurality of T-shaped sliding grooves 401 arranged on the inner wall of the supporting tube 1, T-shaped sliding blocks 402 matched with the T-shaped sliding grooves are connected on the T-shaped sliding grooves 401 in a sliding mode, the T-shaped sliding blocks 402 are fixed with the side wall of the circular plate 201, and the movement of the circular plate 201 is guided through the sliding assembly.

Coupling assembling is including seting up square groove 5 on stay tube 1, and sliding connection has square board 6 on square groove 5, and the both ends of square board 6 are connected with the inner wall of plectane 201 and annular slab 3 respectively, through coupling assembling, are convenient for drive plectane 201 and annular slab 3 synchronous motion.

The rotating mechanism comprises a connecting plate 801, the connecting plate 801 is rotatably connected to the side wall of the annular plate 3 through a rotating assembly, an L-shaped plate 802 is fixed on the connecting plate 801, a second motor 803 is installed on the L-shaped plate 802, a gear 804 is fixed at the output end of the second motor 803, an annular rack 805 is installed at the upper end of the annular plate 3, the gear 804 and the annular rack 805 are arranged in a meshed mode, the monitoring alarm device body 10 rotates on the annular plate 3 after being stressed through the rotating mechanism, through the rotation of the monitoring alarm device body 10, a solar panel on the monitoring alarm device body 10 can conveniently meet the sun for irradiation, and the power generation using operation of the monitoring alarm device body 10 is further facilitated.

The rotating assembly comprises an annular groove 9 formed in the side wall of the annular plate 3, a sliding plate is connected to the annular groove 9 in a sliding mode, the sliding plate is fixed to the connecting plate 801, and the rotating assembly guides movement of the connecting plate 801.

The mounting assembly comprises a plurality of mounting holes 1201 formed in the first mounting plate 7 and the second mounting plate 11, the mounting holes 1201 are connected through bolts 1202, and the monitoring alarm device body 10 is convenient to connect and mount through the mounting assembly.

Bradyseism mechanism is including fixing the fixed pipe 1301 on monitoring alarm device body 10, sliding connection has drive plate 1302 on fixed pipe 1301, be fixed with transfer line 1303 on the drive plate 1302, the other end of transfer line 1303 runs through fixed pipe 1301 and is fixed mutually with second mounting panel 11, the cover is equipped with spring 1304 on the lateral wall of transfer line 1303, be provided with the bradyseism subassembly on the drive plate 1302, through multilayer bradyseism protection reduced the range that rocks under the effect of external force wind-force after the installation of monitoring alarm device body 10, avoid the inside part atress of monitoring alarm device body 10 to damage, further monitoring device monitoring of being convenient for is used.

The cushioning component comprises a plurality of damping holes 1305 formed in the transmission plate 1302, damping liquid is filled in the fixed pipe 1301, and in the process that the transmission plate 1302 is stressed to slide, the damping liquid in the fixed pipe 1301 passes through the damping holes 1305 in the transmission plate 1302 to generate a damping mechanism, so that the stress shaking amplitude of the monitoring alarm device body 10 is reduced, and a second layer of cushioning protection on the monitoring alarm device body 10 is formed.

The working principle is as follows: when the monitoring alarm device body 10 is used, firstly, the mounting holes 1201 on the first mounting plate 7 and the second mounting plate 11 are fixedly connected through the bolts 1202, the mounting of the monitoring alarm device body 10 on the annular plate 3 is completed, when the monitoring alarm device body 10 needs to be manually operated after the mounting of the monitoring alarm device body 10 is completed, the first motor 203 is started to drive the threaded rod 202 to rotate, the engagement transmission between the threaded rod 202 and the circular plate 201 and the guiding action between the T-shaped sliding groove 402 and the T-shaped sliding block 401 enable the circular plate 201 and the annular plate 3 to move downwards from the upper end of the supporting tube 1 after being stressed, the use height of the monitoring alarm device body 10 is reduced, the monitoring alarm device body 10 can be conveniently and manually operated, after the operation is completed, the first motor 203 is started again to drive the threaded rod 202 to reversely rotate, the annular plate 3 and the circular plate 201 move upwards on the supporting tube 1 through transmission, so that the use height of the monitoring and alarming device body 10 is improved, the solar panel on the monitoring and alarming device body 10 is prevented from being shielded by sundries existing around the supporting tube 1, and the monitoring and alarming device body 10 is further convenient to use in power generation;

then, in the using process of the monitoring alarm device body 10, the position of the monitoring alarm device body 10 on the support tube 1 is adjusted according to the actual sun irradiation angle, in the adjusting process, the second motor 803 on the L-shaped plate 802 is started to drive the gear 804 to rotate, in the rotating process of the gear 804, under the meshing transmission between the gear 804 and the annular rack 805 and the guiding action between the annular groove 9 and the sliding plate, the monitoring alarm device body 10 rotates on the annular plate 3 after being stressed, through the rotation of the monitoring alarm device body 10, the solar panel on the monitoring alarm device body 10 can conveniently irradiate towards the sun, and the power generation using operation of the monitoring alarm device body 10 is further facilitated;

finally, when the monitoring alarm device body 10 is used on the support tube 1, and when wind blows outside to blow the monitoring alarm device body 10 and the monitoring alarm device body 10 is stressed to shake, the shaking of the monitoring alarm device body 10 drives the transmission rod 1303 and the transmission plate 1302 to slide in the fixed tube 1301, and in the sliding process of the transmission rod 1303, a first layer of cushioning protection on the monitoring alarm device body 10 is formed through the buffering and damping of the spring 1304, and in the stressed and sliding process of the transmission plate 1302, damping liquid in the fixed tube 1301 passes through the damping hole 1305 on the transmission plate 1302 to generate a damping mechanism, so that the amplitude of stress shaking of the monitoring alarm device body 10 is reduced, a second layer of cushioning protection on the monitoring alarm device body 10 is formed, and the shaking amplitude of the monitoring alarm device body 10 under the action of external force wind after the monitoring alarm device body 10 is installed is reduced through the multi-layer cushioning protection, the parts inside the monitoring alarm device body 10 are prevented from being damaged by stress, and the monitoring device is further convenient to monitor and use.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a forest fire prevention bayonet socket monitoring alarm device, includes stay tube (1) and monitoring alarm device body (10), its characterized in that: the monitoring alarm device is characterized in that the supporting tube (1) is connected with an annular plate (3) through a lifting mechanism, the annular plate (3) is connected to the outside of the supporting tube (1) in a sliding mode, the annular plate (3) is connected with a first mounting plate (7) through a rotating mechanism, the monitoring alarm device body (10) is connected with a second mounting plate (11) through a cushioning mechanism, and the first mounting plate (7) and the second mounting plate (11) are connected through a mounting assembly;

elevating system includes plectane (201), plectane (201) are connected in the inside of stay tube (1) through sliding assembly, the inside rotation of stay tube (1) is connected with threaded rod (202), intermeshing setting between threaded rod (202) and plectane (201), first motor (203) are installed to the upper end of stay tube (1), the output of first motor (203) runs through the upper end of stay tube (1) and is fixed mutually with the one end of threaded rod (202), be connected through coupling assembling between plectane (201) and annular plate (3).

2. A forest fire prevention bayonet monitoring alarm device as defined in claim 1, wherein: the slip subassembly is including seting up a plurality of T type spout (401) on stay tube (1) inner wall, each sliding connection has rather than assorted T type slider (402) on T type spout (401), each T type slider (402) are fixed mutually with the lateral wall of plectane (201).

3. A forest fire prevention bayonet monitoring alarm device as defined in claim 2, wherein: coupling assembling is including seting up square groove (5) on stay tube (1), sliding connection has square board (6) on square groove (5), the both ends of square board (6) are connected with the inner wall of plectane (201) and annular plate (3) respectively.

4. A forest fire prevention bayonet monitoring alarm device as defined in claim 1, wherein: the rotating mechanism comprises a connecting plate (801), the connecting plate (801) is rotatably connected to the side wall of the annular plate (3) through a rotating assembly, an L-shaped plate (802) is fixed to the connecting plate (801), a second motor (803) is installed on the L-shaped plate (802), a gear (804) is fixed to the output end of the second motor (803), an annular rack (805) is installed at the upper end of the annular plate (3), and the gear (804) and the annular rack (805) are arranged in a meshed mode.

5. A forest fire prevention bayonet monitoring alarm device as defined in claim 4, wherein: the rotating assembly comprises an annular groove (9) formed in the side wall of the annular plate (3), a sliding plate is connected to the annular groove (9) in a sliding mode, and the sliding plate is fixed with the connecting plate (801).

6. A forest fire prevention bayonet monitoring alarm device as defined in claim 1, wherein: the mounting assembly comprises a plurality of mounting holes (1201) formed in a first mounting plate (7) and a second mounting plate (11), and the mounting holes (1201) are connected through bolts (1202).

7. A forest fire prevention bayonet monitoring alarm device as defined in claim 1, wherein: bradyseism mechanism is including fixing fixed pipe (1301) on monitoring alarm device body (10), sliding connection has driving plate (1302) on fixed pipe (1301), be fixed with transfer line (1303) on driving plate (1302), the other end of transfer line (1303) runs through fixed pipe (1301) and is fixed mutually with second mounting panel (11), the cover is equipped with spring (1304) on the lateral wall of transfer line (1303), be provided with the bradyseism subassembly on driving plate (1302).

8. A forest fire prevention bayonet monitoring alarm device as defined in claim 7, wherein: the shock absorption assembly comprises a plurality of damping holes (1305) formed in a transmission plate (1302), and damping liquid is filled in the fixed pipe (1301).

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