CN216596465U - Airport enclosure security alarm device - Google Patents

Abstract

The utility model discloses an airport enclosure security protection alarm equipment relates to security protection control technical field, including infrared detector, information processor, be provided with the drive group on the rectangular plate, the drive group is connected with infrared detector, infrared detector rotates and installs on the vertical board of rectangular plate, the drive group drives infrared detector and rotates, the rotation plane of infrared detector is parallel with enclosure net place plane, information processor fixed mounting is on the rectangular plate, infrared detector is connected with the information processor electricity, rectangular plate top symmetry is provided with two solar panel, every solar panel below symmetry is provided with a hollow shell, two sets of cooling subassemblies are installed to the symmetry on every hollow shell, four cooling subassemblies of group rotate, reduce the temperature of solar panel below. The solar panel provides electric energy for the equipment, plays a role of rain sheltering, and prolongs the service life; the driving set enlarges the detection range of the infrared detector, and ensures the safety of the airport; the cooling assembly cools to prevent the high temperature state from destroying the mechanism.

Description

Airport enclosure security alarm device

Technical Field

The utility model relates to a security protection control technology field, in particular to airport enclosure security alarm equipment.

Background

The management of enclosure, especially airport enclosure, has long troubled security manufacturers, integrators and airport users. The enclosure is a line of defense that encloses a particular area, and is also commonly referred to as an enclosure. The method for enclosing an area is multiple, ancient people protect cities and rivers, today's roll nets and wire nets are the most common physical enclosures, the basic enclosure protection means can not meet the security protection requirements of some special places, how to apply new technological means leads the traditional physical enclosure to be developed into the capacity of active defense and alarm, and the alarm is accurate and effective.

Publication No.: CN212433899U discloses airport flight area enclosure security protection control alarm device, involves the security protection control field, including the circular riser of two adjacent settings, all seted up two holes on the inner wall of one side of two circular risers, equal fixed mounting has the elastic rubber pad in every hole. The utility model has the advantages of reasonable structure, the operation is thus simple, try to turn over when someone, under the linkage of square pipe and horizontal pole, can drive push rod and push down the pole and take place the displacement, make square pipe and horizontal pole have the displacement of any direction to make the inner wall of metal ball and U type drum contact, put through wire one and two wires, thereby trigger warning and monitoring device, because interconnect between the every adjacent horizontal pole that is in same height, can produce UNICOM between the horizontal pole, then also can produce the linkage between two devices, improve the precision of reporting to the police, under the condition of triggering warning and monitoring device, if still want to turn over the fence by force, square pipe has increased the degree of difficulty that turns over with the top arc characteristic of circular riser.

In the prior art, only when suspicious personnel cross an enclosure, an alarm device is started, but if the suspicious personnel cross the enclosure again after damaging the enclosure, potential safety hazards still exist, most of the existing alarm devices can not protect the equipment, such as the equipment is prevented from being damaged by cooling in high-temperature weather, the equipment is prevented from being corroded by rainwater in rainy days, and the like, so that the airport enclosure alarm device is invented.

Disclosure of Invention

To the above technical problem, the utility model discloses a technical scheme does: the utility model provides an airport enclosure security protection alarm device, including infrared detector, information processor, still include four cooling assemblies of group, the rectangular plate, be provided with the drive group on the rectangular plate, the drive group is connected with infrared detector, infrared detector rotates and installs on the vertical board of rectangular plate, the drive group drives infrared detector and rotates, the rotation plane of infrared detector is parallel with enclosure net place plane, information processor fixed mounting is on the rectangular plate, infrared detector is connected with information processor electricity, rectangular plate top symmetry is provided with two solar panel, every solar panel below symmetry is provided with a hollow shell, two sets of cooling assemblies are installed to the symmetry on every hollow shell, four cooling assemblies of group rotate, reduce the temperature of solar panel below.

Further, be provided with energy storage mechanism between two solar panel, energy storage mechanism includes battery, lightning rod, and battery fixed mounting is between two solar panel, and lightning rod fixed mounting has the hollow shaft in the battery top, battery below fixed mounting. The storage battery stores the electric energy converted by the solar panel.

Furthermore, a motor is arranged below the hollow shaft, the motor is fixedly installed on the rectangular plate, an output shaft of the motor and the hollow shaft are coaxial, a driving bevel gear is fixedly installed on the output shaft of the motor, and two groups of rotating groups are symmetrically arranged on the hollow shaft in the radial direction. The motor drives the driving bevel gear to rotate in the hollow shaft.

Furthermore, the rotating group comprises a first bevel gear and a driven bevel gear, the first bevel gear is rotatably installed on the hollow shaft and is meshed with the driving bevel gear, a second bevel gear is fixedly installed on the first bevel gear and is rotatably installed on the hollow shell, the driven bevel gear is rotatably installed at the bottom of the hollow shell and is meshed with the second bevel gear. When the driving bevel gear rotates, the first bevel gear is driven to rotate, the first bevel gear drives the second bevel gear to rotate, and the second bevel gear drives the driven bevel gear to rotate.

Furthermore, the cooling assembly comprises transmission bevel gears and fan blades, wherein the driven bevel gears are arranged between the two transmission bevel gears, the transmission bevel gears are rotatably installed at the bottom of the hollow shell, the fan blades are rotatably installed outside the hollow shell, the transmission bevel gears are fixedly installed with the fan blades, and the transmission bevel gears are meshed with the driven bevel gears. The driven bevel gears drive the two groups of cooling assemblies on the hollow shell to rotate, the driven bevel gears rotate to drive the two transmission bevel gears to rotate, and the transmission bevel gears drive the blades to rotate when rotating.

Further, the drive group comprises an air cylinder and a gear, the air cylinder is fixedly installed on a shell of the motor, a rack is fixedly installed at the output end of the air cylinder, a sliding groove is formed in the rectangular plate, the rack is slidably installed on the sliding groove, the gear rotates and is installed on the rectangular plate, and the rack is meshed with the gear. The cylinder drives the rack to slide on the sliding groove, and the rack drives the gear to rotate when sliding.

Furthermore, the driving group further comprises a driving master gear and a driving slave gear, the driving master gear is rotatably installed at the bottom of the rectangular plate, the driving master gear and the driving slave gear are fixedly installed, the driving slave gear is rotatably installed on the vertical plate, the driving slave gear is fixedly installed with the infrared detector, and the driving master gear is meshed with the driving slave gear. The gear drives the driving main gear to rotate when rotating, the driving main gear drives the driving driven gear to rotate when rotating, the driving driven gear drives the infrared detector to swing on the vertical plate when rotating, and the detection range of the infrared detector is expanded.

Further, the both ends of rectangular plate are provided with an alarm respectively, and the alarm setting is in the information processor below, and first alarm below is provided with the light, and light fixed mounting is in the rectangular plate below, alarm and information processor, infrared detector electric connection. When the infrared detector detects that the relative position of the personnel and the surrounding net is too close, the information is transmitted to the information processor, the information processor gives an alarm to the terminal, and meanwhile, the alarm gives an alarm.

Compared with the prior art, the utility model beneficial effect be: (1) the supporting mechanism provided by the utility model can arrange the detecting mechanism and the alarming mechanism at higher positions to prevent artificial damage; (2) the solar panel provided by the utility model can provide electric energy for the cooling mechanism, the detection mechanism and the alarm mechanism, and simultaneously can also have the function of rain sheltering for the cooling mechanism, the detection mechanism and the alarm mechanism, thereby preventing corrosion and prolonging the service life; (3) the driving set arranged in the utility model enlarges the detection range of the infrared detector, and ensures the safety of the airport; (4) the utility model is provided with a cooling mechanism; the rotating group drives the cooling assembly to rotate, and the mechanism is prevented from being damaged under a high-temperature state.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the supporting mechanism and the energy storing mechanism of the present invention.

Fig. 3 is a schematic view of the cooling mechanism of the present invention.

Fig. 4 is a schematic diagram of the drive bevel gear and the rotating group according to the present invention.

Fig. 5 is a schematic view of the detection mechanism of the present invention.

Fig. 6 is a schematic diagram of the alarm mechanism of the present invention.

Reference numerals: 1-a support mechanism; 101-a support column; 102-a rectangular plate; 103-hollow shaft; 104-hollow shell; 10201-chute; 10202-vertical board; 2-an energy storage mechanism; 201-a storage battery; 202-a lightning rod; 3-a solar panel; 4-a cooling mechanism; 401-an electric machine; 402-a drive bevel gear; 403-rotating group; 404-a temperature reduction assembly; 40301-first bevel gear; 40302-second bevel gear; 40303-driven bevel gear; 40401-drive bevel gear; 40402-fan blades; 5-a detection mechanism; 501-an infrared detector; 502-drive group; 50201-air cylinder; 50202-rack; 50203-gear; 50204-driving the main gear; 50205-drive the driven gear; 6-an alarm mechanism; 601-lighting lamp; 602-an alarm; 603-information processor.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in figures 1, 2, 3 and 4, fig. 5 and 6 show an airport enclosure security alarm device, which comprises an infrared detector 501 and an information processor 603, and further comprises four sets of cooling components 404 and a rectangular plate 102, wherein the rectangular plate 102 is provided with a driving set 502, the driving set 502 is connected with the infrared detector 501, the infrared detector 501 is rotatably installed on a vertical plate 10202 of the rectangular plate 102, the driving set 502 drives the infrared detector 501 to rotate, a rotating plane of the infrared detector 501 is parallel to a plane of an enclosure network, the information processor 603 is fixedly installed on the rectangular plate 102, the infrared detector 501 is electrically connected with the information processor 603, two solar panels 3 are symmetrically arranged above the rectangular plate 102, one hollow shell 104 is symmetrically arranged below each solar panel 3, two sets of cooling components 404 are symmetrically installed on each hollow shell 104, and the four sets of cooling components 404 rotate to reduce the temperature below the solar panels 3.

As shown in fig. 2 and 3, in the supporting mechanism 1, the supporting column 101 is arranged near the enclosure network, the supporting column 101 is fixedly installed on the ground, the rectangular plate 102 is fixedly installed at the top of the supporting column 101, the motor 401 is fixedly installed on the rectangular plate 102, the hollow shaft 103 is fixedly installed on the housing of the motor 401, the output shaft of the motor 401 is coaxial with the hollow shaft 103, there are two groups of solar panels 3, the two groups of solar panels 3 are symmetrically installed on the rectangular plate 102, the storage battery 201 is arranged between the two groups of solar panels 3, and the storage battery 201 stores the electric energy converted by the solar panels 3; storage battery 201 fixed mounting is at hollow shaft 103 top, and lightning rod 202 fixed mounting is in storage battery 201 top, and protection storage battery 201, solar panel 3, cooling mechanism 4, detection mechanism 5, alarm mechanism 6 avoid the thunderbolt. The hollow shells 104 are divided into two groups, the hollow shells 104 are symmetrically arranged at two ends below the storage battery 201, and the storage battery 201 provides electric energy for the illuminating lamp 601, the alarm 602, the information processor 603 and the infrared detector 501.

As shown in fig. 3 and 4, the drive bevel gear 402 is fixedly mounted on an output shaft of the motor 401, and the motor 401 drives the drive bevel gear 402 to rotate inside the hollow shaft 103; the two groups of rotating groups 403 are provided, the two groups of rotating groups 403 are symmetrically arranged on the hollow shaft 103, each rotating group 403 comprises a first bevel gear 40301, a second bevel gear 40302 and a driven bevel gear 40303, the first bevel gear 40301 is rotatably mounted on the hollow shaft 103, the first bevel gear 40301 is meshed with the driving bevel gear 402, the driving bevel gear 402 drives the first bevel gear 40301 to rotate when rotating, the second bevel gear 40302 is fixedly mounted on the first bevel gear 40301, the second bevel gear 40302 is rotatably mounted on the hollow shell 104, the first bevel gear 40301 drives the second bevel gear 40302 to rotate, the driven bevel gear 40303 is rotatably mounted at the bottom of the hollow shell 104, the driven bevel gear 40303 is meshed with the second bevel gear 40302, and the second bevel gear 40302 drives the driven bevel gear 40303 to rotate.

Two groups of cooling components 404 are symmetrically installed on each group of hollow shell 104, each cooling component 404 comprises a transmission bevel gear 40401 and a fan blade 40402, a driven bevel gear 40303 is arranged between the two transmission bevel gears 40401, the transmission bevel gear 40401 is rotatably installed at the bottom of the hollow shell 104, the transmission bevel gear 40401 is meshed with the driven bevel gear 40303, the driven bevel gear 40303 rotates to drive the two transmission bevel gears 40401 to rotate, the fan blade 40402 is rotatably installed outside the hollow shell 104, the transmission bevel gear 40401 and the fan blade 40402 are fixedly installed, the transmission bevel gear 40401 drives the fan blade 40402 to rotate when rotating, and then the driven bevel gear 40303 drives the two groups of cooling components 404 on the hollow shell 104 to rotate.

As shown in fig. 3 and 5, in the detection mechanism 5, a sliding slot 10201 and a vertical plate 10202 are arranged on a rectangular plate 102, a driving group 502 includes a cylinder 50201, a rack 50202, a gear 50203, a driving main gear 50204 and a driving driven gear 50205, the cylinder 50201 is fixedly mounted on a housing of a motor 401, the rack 50202 is fixedly mounted at an output end of the cylinder 50201, the rack 50202 is slidably mounted on the sliding slot 10201, the cylinder 50201 extends and retracts to drive the rack 50202 to slide on the sliding slot 10201, the gear 50203 is rotatably mounted on the rectangular plate 102, the rack 50202 is engaged with the gear 50203, and the gear 50203 is driven to rotate when the rack 50202 slides; the driving main gear 50204 is rotatably installed at the bottom of the rectangular plate 102, the driving main gear 50204 is fixedly installed with the gear 50203, the gear 50203 rotates to drive the driving main gear 50204 to rotate, the driving slave gear 50205 is rotatably installed on the vertical plate 10202, the driving main gear 50204 is meshed with the driving slave gear 50205, the driving master gear 50204 rotates to drive the driving slave gear 50205 to rotate, the infrared detector 501 is rotatably installed on the vertical plate 10202, the driving slave gear 50205 is fixedly installed with the infrared detector 501, the driving slave gear 50205 rotates to drive the infrared detector 501 to rotate on the vertical plate 10202, a rotating plane of the infrared detector 501 is parallel to a plane where a surrounding network is located, and the detection range of the infrared detector 501 is expanded.

As shown in fig. 6, there are two alarm mechanisms 6 and two alarm devices 602, the alarm devices 602 are disposed below the information processor 603, the illumination lamp 601 is disposed below the first alarm device 602, the illumination lamp 601 is fixedly mounted below the rectangular plate 102, and the alarm devices 602 are electrically connected to the information processor 603 and the infrared detector 501. When the infrared detector 501 detects that the relative position of the personnel and the surrounding network is too close, the information is transmitted to the information processor 603, the information processor 603 gives an alarm to the terminal, and meanwhile, the alarm 602 gives an alarm.

The working principle is as follows: the supporting column 101 is arranged near the surrounding net, the solar panel 3 converts absorbed light energy into electric energy, the electric energy is stored in the storage battery 201, the storage battery 201 provides electric energy for the motor 401, the illuminating lamp 601, the alarm 602, the information processor 603 and the infrared detector 501, and the lightning rod 202 protects the storage battery 201, the solar panel 3, the cooling mechanism 4, the detection mechanism 5 and the alarm mechanism 6 from lightning stroke.

The cylinder 50201 stretches and retracts to drive the rack 50202 to slide on the chute 10201, and the rack 50202 drives the gear 50203 to rotate when sliding; the gear 50203 rotates to drive the driving main gear 50204 to rotate, the driving main gear 50204 rotates to drive the driving driven gear 50205 to rotate, the driving driven gear 50205 rotates to drive the infrared detector 501 to swing on the vertical plate 10202, the rotating plane of the infrared detector 501 is parallel to the plane of the surrounding net, and the detection range of the infrared detector 501 is expanded. When the infrared detector 501 detects that the relative position of the personnel and the surrounding net is too close, the information is transmitted to the information processor 603, the information processor 603 gives an alarm to the terminal, meanwhile, the alarm 602 gives an alarm, and the illuminating lamp 601 provides illumination for the vicinity of the surrounding net.

When the temperature below the solar panel 3 is too high, the motor 401 drives the driving bevel gear 402 to rotate inside the hollow shaft 103, the driving bevel gear 402 drives the two first bevel gears 40301 to rotate when rotating, the first bevel gear 40301 drives the second bevel gear 40302 to rotate, the second bevel gear 40302 drives the driven bevel gear 40303 to rotate, the driven bevel gear 40303 rotates to drive the two transmission bevel gears 40401 to rotate, the transmission bevel gears 40401 drive the fan blades 40402 to rotate when rotating, the group of rotating groups 403 drive the two groups of cooling assemblies 404 on the hollow shell 104 to rotate, the cooling assemblies 404 rotate to adjust the air flow around the cooling assemblies 404, and the purpose of cooling the lower part of the solar panel 3 is achieved.

The present invention is not limited to the above embodiments, and the skilled in the art can make various changes without creative labor, and all the changes fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides an airport enclosure security alarm device, includes infrared detector (501), information processor (603), its characterized in that: also comprises four groups of cooling components (404), rectangular plate (102), be provided with drive group (502) on rectangular plate (102), drive group (502) are connected with infrared detector (501), infrared detector (501) rotate and install on vertical board (10202) of rectangular plate (102), drive group (502) drive infrared detector (501) rotate, the rotation plane and the bounding network place plane of infrared detector (501) are parallel, information processor (603) fixed mounting is on rectangular plate (102), infrared detector (501) are connected with information processor (603) electricity, rectangular plate (102) top symmetry is provided with two solar panel (3), every solar panel (3) below symmetry is provided with one hollow shell (104), two sets of cooling module (404) are installed to the symmetry on every hollow shell (104), four sets of cooling module (404) rotate, reduce the temperature of solar panel (3) below.

2. The airport enclosure security alarm device of claim 1, wherein: be provided with energy storage mechanism (2) between two solar panel (3), energy storage mechanism (2) include battery (201), lightning rod (202), and battery (201) fixed mounting is between two solar panel (3), and lightning rod (202) fixed mounting has hollow shaft (103) in battery (201) top, battery (201) below fixed mounting.

3. The airport enclosure security alarm device of claim 2, wherein: a motor (401) is arranged below the hollow shaft (103), the motor (401) is fixedly installed on the rectangular plate (102), an output shaft of the motor (401) and the hollow shaft (103) are coaxial, a driving bevel gear (402) is fixedly installed on the output shaft of the motor (401), and two groups of rotating groups (403) are symmetrically arranged in the radial direction of the hollow shaft (103).

4. The airport enclosure security alarm device of claim 3, wherein: the rotating group (403) comprises a first bevel gear (40301) and a driven bevel gear (40303), the first bevel gear (40301) is rotatably mounted on the hollow shaft (103), the first bevel gear (40301) is meshed with the driving bevel gear (402), a second bevel gear (40302) is fixedly mounted on the first bevel gear (40301), the second bevel gear (40302) is rotatably mounted on the hollow shell (104), the driven bevel gear (40303) is rotatably mounted at the bottom of the hollow shell (104), and the driven bevel gear (40303) is meshed with the second bevel gear (40302).

5. The airport enclosure security alarm device of claim 1, wherein: the cooling assembly (404) comprises transmission bevel gears (40401) and fan blades (40402), wherein a driven bevel gear (40303) is arranged between the two transmission bevel gears (40401), the transmission bevel gears (40401) are rotatably installed at the bottom of the hollow shell (104), the fan blades (40402) are rotatably installed outside the hollow shell (104), the transmission bevel gears (40401) and the fan blades (40402) are fixedly installed, and the transmission bevel gears (40401) are meshed with the driven bevel gears (40303).

6. The airport enclosure security alarm device of claim 1, wherein: the driving group (502) comprises a cylinder (50201) and a gear (50203), the cylinder (50201) is fixedly installed on a shell of the motor (401), a rack (50202) is fixedly installed at the output end of the cylinder (50201), a sliding groove (10201) is formed in the rectangular plate (102), the rack (50202) is slidably installed on the sliding groove (10201), the gear (50203) is rotatably installed on the rectangular plate (102), and the rack (50202) is meshed with the gear (50203).

7. The airport enclosure security alarm device of claim 6, wherein: the driving group (502) further comprises a driving main gear (50204) and a driving slave gear (50205), the driving main gear (50204) is rotatably installed at the bottom of the rectangular plate (102), the driving main gear (50204) is fixedly installed with the gear (50203), the driving slave gear (50205) is rotatably installed on the vertical plate (10202), the driving slave gear (50205) is fixedly installed with the infrared detector (501), and the driving main gear (50204) is meshed with the driving slave gear (50205).

8. The airport enclosure security alarm device of claim 1, wherein: the both ends of rectangular plate (102) are provided with one alarm (602) respectively, and alarm (602) set up in information processor (603) below, and first alarm (602) below is provided with light (601), and light (601) fixed mounting is in rectangular plate (102) below, alarm (602) and information processor (603), infrared detector (501) electric connection.

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