CN212319249U - Remote monitoring equipment applied to high-altitude operation - Google Patents

Remote monitoring equipment applied to high-altitude operation Download PDF

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Publication number
CN212319249U
CN212319249U CN202021440721.1U CN202021440721U CN212319249U CN 212319249 U CN212319249 U CN 212319249U CN 202021440721 U CN202021440721 U CN 202021440721U CN 212319249 U CN212319249 U CN 212319249U
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China
Prior art keywords
servo motor
monitoring device
type frame
top cover
plate
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CN202021440721.1U
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Chinese (zh)
Inventor
单丹
陈雪圣
张超
王梦龙
孙道源
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Anhui Chenze Intellectual Property Service Co ltd
Chongqing Wanzhou Mao'er Technology Co ltd
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Yangzhou Polytechnic Institute
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/47Mountings or tracking
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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Abstract

The utility model relates to the technical field of remote monitoring, and a remote monitoring device applied to high altitude construction is disclosed, including the monitoring device body, the monitoring device body is connected on the mounting panel through rotating device, rotating device includes the second top cap, second top cap coaxial coupling is at the mounting panel top, the outside coaxial first top cap that is equipped with of second top cap, the bottom coaxial of first top cap is equipped with first pivot, and the bottom of first pivot is rotated and is connected at the mounting panel top, is located the coaxial first gear that is equipped with in the first pivot of second top cap inside, top fixedly connected with third servo motor in the second top cap, the coaxial second gear that is equipped with of third servo motor's output, the top symmetry of first top cap is equipped with the curb plate; the utility model discloses a remote monitoring has saved a large amount of electric energy, has not only improved the practicality of device and has guaranteed the safety of construction.

Description

Remote monitoring equipment applied to high-altitude operation
Technical Field
The utility model relates to a remote monitoring technical field specifically is a be applied to high altitude construction's remote monitering equipment.
Background
When traditional high altitude construction equipment's detection, the inspection personnel often want the actual inspection point that reachs to carry out the investigation of potential safety hazard to equipment, especially when carrying out the potential safety hazard investigation like tower crane large-scale high altitude construction equipment, often climb to the tower crane top or even reach near the terminal moving part of tower crane and carry out the investigation of potential safety hazard to equipment, because high altitude construction danger coefficient is big and detect at every turn and all need consume a large amount of manpower and materials, can cause property loss slightly, then life safety of crisis people seriously. Therefore, the remote monitoring equipment applied to the high-altitude operation is provided.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a be applied to high altitude construction's remote monitering equipment possesses simple structure and the real time monitoring's of being convenient for advantage, has solved the big problem of the potential safety hazard investigation degree of difficulty among the prior art.
In order to achieve the above object, the utility model provides a following technical scheme: a remote monitoring device applied to high-altitude operation comprises a monitoring device body, wherein the monitoring device body is connected to a mounting plate through a rotating device, the rotating device comprises a second top cover, the second top cover is coaxially connected to the top of the mounting plate, a first top cover is coaxially arranged outside the second top cover, a first rotating shaft is coaxially arranged at the bottom of the first top cover, the first rotating shaft penetrates through the second top cover, the bottom of the first rotating shaft is rotatably connected to the top of the mounting plate, a first gear is coaxially arranged on the first rotating shaft inside the second top cover, a third servo motor is fixedly connected to the inner top of the second top cover, a second gear is coaxially arranged at the output end of the third servo motor, the second gear is meshed with the first gear, side plates are symmetrically arranged at the top of the first top cover, and the monitoring device body is rotatably connected between the side plates, the top of mounting panel is connected with first U type frame, the top of first U type frame is rotated through second servo motor and is connected with solar cell panel, the top of first top cap is equipped with the battery, solar cell panel, third servo motor, second servo motor all carry out electric connection through wire and battery.
Preferably, the bottom of the first U-shaped frame is symmetrically provided with a bottom plate, and the bottom plate is connected to the top of the mounting plate through bolts.
Preferably, second servo motor fixed connection is on first U type frame, the output of second servo motor rotates the bottom of connecting at second U type frame, just second U type frame is located first U type frame directly over, solar cell panel rotates the upper end of connecting at second U type frame through the second pivot, the one end of second pivot is rotated and is connected on first servo motor, fixedly connected with backup pad on the second U type frame, first servo motor connects in the backup pad.
Preferably, both sides of the monitoring device body are connected with threaded rods, the other ends of the threaded rods penetrate through the side plates at the corresponding positions, threaded pipes are connected to the other ends of the threaded rods in a threaded mode, and connecting seats are coaxially connected to the other ends of the threaded pipes.
Preferably, be located fixedly connected with limiting plate on the threaded rod between curb plate, the monitoring device body, be located coaxial annular plate that is equipped with on the threaded rod between screwed pipe, the curb plate, be equipped with a plurality of antislip strips along axial equidistance on the outer wall of connecting seat.
Preferably, the mounting plate is provided with a plurality of mounting holes.
Compared with the prior art, the beneficial effects of the utility model are as follows:
the utility model discloses a set up third servo motor, first top cap, the screwed pipe, the threaded rod, the problem that the potential safety hazard troubleshooting degree of difficulty is big among the prior art has been solved, possess simple structure and the advantage of the installation of being convenient for, third servo motor's rotation can drive the monitoring device body and carry out reciprocal rotation regulation, and the screwed pipe of setting, the threaded rod can be adjusted the angle that the monitoring device body was placed, and then guaranteed that the monitoring device body can carry out real-time monitoring around the control point, the solar cell panel of setting can supply power to the device, a large amount of electric energy has been saved.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a connection diagram of a second rotating shaft and a second U-shaped frame according to the present invention;
fig. 3 is a connection diagram of the first top cover and the second top cover of the present invention;
fig. 4 is a connection diagram of the threaded pipe and the threaded rod of the present invention.
In the figure: 1. a first U-shaped frame; 2. a connecting seat; 3. a monitoring device body; 4. a solar panel; 5. a first servo motor; 6. a support plate; 7. a second U-shaped frame; 8. an annular plate; 9. a threaded pipe; 10. a side plate; 11. a first top cover; 12. a base plate; 13. mounting a plate; 14. a storage battery; 15. a bolt; 16. mounting holes; 17. a second servo motor; 18. a second rotating shaft; 19. a first gear; 20. a first rotating shaft; 21. a third servo motor; 22. a second gear; 23. anti-slip strips; 24. a threaded rod; 25. a limiting plate; 26. a second top cover.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, a remote monitoring device for high-altitude operation includes a monitoring device body 3, the monitoring device body 3 is connected to a mounting plate 13 through a rotating device, the rotating device includes a second top cover 26, the second top cover 26 is coaxially connected to the top of the mounting plate 13, a first top cover 11 is coaxially disposed outside the second top cover 26, a first rotating shaft 20 is coaxially disposed at the bottom of the first top cover 11, the first rotating shaft 20 penetrates the second top cover 26, the bottom of the first rotating shaft 20 is rotatably connected to the top of the mounting plate 13, a first gear 19 is coaxially disposed on the first rotating shaft 20 inside the second top cover 26, a third servo motor 21 is fixedly connected to the top inside the second top cover 26, a second gear 22 is coaxially disposed at the output end of the third servo motor 21, the second gear 22 is engaged with the first gear 19, the rotation of the third servo motor 21 can drive the second gear 22 to rotate, the second gear 22 can drive the first gear 19 to rotate under the action of the meshing connection, and further can drive the first top cover 11 to rotate, thereby realizing the rotation of the monitoring device body 3.
The top symmetry of first top cap 11 is equipped with curb plate 10, 3 rotation connections of monitoring device body are between curb plate 10, the top of mounting panel 13 is connected with first U type frame 1, the top of first U type frame 1 rotates through second servo motor 17 and is connected with solar cell panel 4, the top of first top cap 11 is equipped with battery 14, solar cell panel 4, third servo motor 21, second servo motor 17 all carries out electric connection through wire and battery 14, second servo motor 17's rotation can drive solar cell panel 4 and rotate at first U type frame 1's top, and then can improve solar cell panel 4 and receive irradiant time, and then can improve the conversion rate, the supply of electric quantity has been guaranteed.
Further, the bottom symmetry of first U type frame 1 is equipped with bottom plate 12, and bottom plate 12 passes through bolt 15 to be connected at mounting panel 13 top, connects through the cooperation between bottom plate 12, the bolt 15 that sets up, can realize dismantling at mounting panel 13 top of first U type frame 1, and then has satisfied the use of different installation faces, has greatly improved the practicality of device.
Further, second servo motor 17 fixed connection is on first U type frame 1, the output of second servo motor 17 rotates the bottom of connecting at second U type frame 7, and second U type frame 7 is located first U type frame 1 directly over, solar cell panel 4 rotates the upper end of connecting at second U type frame 7 through second pivot 18, the one end of second pivot 18 is rotated and is connected on first servo motor 5, fixedly connected with backup pad 6 on the second U type frame 7, first servo motor 5 connects in backup pad 6, the rotation through the second servo motor 17 that sets up can be adjusted the direction that solar cell panel 4 placed, and the first servo motor 5 that sets up can be adjusted the angle that solar cell panel 4 placed, and then the time that solar cell panel 4 accepted illumination has been improved.
Further, the both sides of monitoring device body 3 all are connected with threaded rod 24, threaded rod 24's the other end runs through the curb plate 10 setting of corresponding position department, and threaded connection has screwed pipe 9 on the other end of threaded rod 24, coaxial connection has connecting seat 2 on the other end of screwed pipe 9, through screwed pipe 9 that sets up, threaded rod 24's connection, can adjust the angle that monitoring device body 3 placed, the stability of 3 installations of monitoring device body has also been improved simultaneously, and the connecting seat 2 that sets up has made things convenient for the staff to the rotation of threaded rod 24.
Further, be located curb plate 10, fixedly connected with limiting plate 25 on the threaded rod 24 between the monitoring device body 3, be located screwed pipe 9, the threaded rod 24 between the curb plate 10 goes up the coaxial annular slab 8 that is equipped with, be equipped with a plurality of antislip strips 23 along axial equidistance on the outer wall of connecting seat 2, through the limiting plate 25 that sets up, spacing and the effect of centre gripping between the annular slab 8, guaranteed that the stability after the monitoring device body 3 rotates is placed, and the antislip strip 23 that sets up has improved the frictional force on connecting seat 2 surfaces, further the rotation of threaded rod 24 has been made things convenient for.
Furthermore, a plurality of mounting holes 16 are formed in the mounting plate 13, and the mounting connection of the mounting plate 13 is facilitated through the arranged mounting holes 16.
When the device is used, the device is electrically connected with a power supply device through a lead, the monitoring device body 3 is electrically connected with a terminal device, monitoring can be carried out through the terminal device, when the device is installed, the installation plate 13 is installed on the placing plane, the installation of the device can be facilitated through the installation hole 16 arranged on the installation plate 13, the threaded pipe 9 can be driven to move on the threaded rod 24 by rotating the connecting seat 2 after the installation, the monitoring device body 3 can be stably connected between the side plates 10, the installation of the first U-shaped frame 1 is selected according to the installation surface, when the installation plate 13 is installed at the top of the tower crane support, the first U-shaped frame 1 can be installed at the top of the installation plate 13, when the installation plate 13 is installed at the bottom of the tower crane support, the first U-shaped frame 1 can be installed at the top of the tower crane support, under the rotation of the second servo motor 17, the second U-shaped frame 7 can be driven to rotate at the top of the first U-shaped frame 1, the placing angle of the solar cell panel 4 can be adjusted through rotation of the first servo motor 5, electric quantity supply is guaranteed, light receiving time can be prolonged through rotation of the solar cell panel 4, and therefore electric quantity conversion efficiency is improved;
the third servo motor 21 that sets up in second top cap 26 can drive second gear 22 and rotate, and pivoted second gear 22 can drive first gear 19 and rotate, and then has driven the monitoring device body 3 at first top cap 11 top and rotate, and then can carry out real-time supervision around the check point that needs, the utility model discloses not only realized remote monitoring, also made things convenient for the installation when the device uses simultaneously, and utilized the solar energy power supply, saved a large amount of electric energy, not only improved the practicality of device and guaranteed the safety of construction.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a be applied to high altitude construction's remote monitering equipment, includes monitoring device body (3), its characterized in that: the monitoring device body (3) is connected to the mounting plate (13) through a rotating device, the rotating device comprises a second top cover (26), the second top cover (26) is coaxially connected to the top of the mounting plate (13), a first top cover (11) is coaxially arranged outside the second top cover (26), a first rotating shaft (20) is coaxially arranged at the bottom of the first top cover (11), the first rotating shaft (20) penetrates through the second top cover (26) to be arranged, the bottom of the first rotating shaft (20) is rotatably connected to the top of the mounting plate (13), a first gear (19) is coaxially arranged on the first rotating shaft (20) inside the second top cover (26), a third servo motor (21) is fixedly connected to the inner top of the second top cover (26), a second gear (22) is coaxially arranged at the output end of the third servo motor (21), and the second gear (22) is meshed with the first gear (19), the top symmetry of first top cap (11) is equipped with curb plate (10), monitoring device body (3) rotate to be connected between curb plate (10), the top of mounting panel (13) is connected with first U type frame (1), the top of first U type frame (1) rotates through second servo motor (17) and is connected with solar cell panel (4), the top of first top cap (11) is equipped with battery (14), solar cell panel (4), third servo motor (21), second servo motor (17) all carry out electric connection through wire and battery (14).
2. The remote monitoring device for high altitude construction according to claim 1, wherein: the bottom of the first U-shaped frame (1) is symmetrically provided with a bottom plate (12), and the bottom plate (12) is connected to the top of the mounting plate (13) through a bolt (15).
3. The remote monitoring device for high altitude construction according to claim 1, wherein: second servo motor (17) fixed connection is on first U type frame (1), the output of second servo motor (17) rotates the bottom of connecting at second U type frame (7), just second U type frame (7) are located first U type frame (1) directly over, solar cell panel (4) rotate the upper end of connecting at second U type frame (7) through second pivot (18), the one end of second pivot (18) is rotated and is connected on first servo motor (5), fixedly connected with backup pad (6) on second U type frame (7), first servo motor (5) are connected on backup pad (6).
4. The remote monitoring device for high altitude construction according to claim 1, wherein: the both sides of monitoring device body (3) all are connected with threaded rod (24), the other end of threaded rod (24) runs through curb plate (10) setting of corresponding position department, just threaded connection has screwed pipe (9) on the other end of threaded rod (24), coaxial connection has connecting seat (2) on the other end of screwed pipe (9).
5. The remote monitoring device applied to the high-altitude operation is characterized in that: lie in fixedly connected with limiting plate (25) is gone up on threaded rod (24) between curb plate (10), monitoring device body (3), is located coaxial annular slab (8) that is equipped with on threaded rod (24) between screwed pipe (9), curb plate (10), be equipped with a plurality of antislip strips (23) along axial equidistance on the outer wall of connecting seat (2).
6. The remote monitoring device for high altitude construction according to claim 1, wherein: the mounting plate (13) is provided with a plurality of mounting holes (16).
CN202021440721.1U 2020-07-21 2020-07-21 Remote monitoring equipment applied to high-altitude operation Active CN212319249U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021440721.1U CN212319249U (en) 2020-07-21 2020-07-21 Remote monitoring equipment applied to high-altitude operation

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021440721.1U CN212319249U (en) 2020-07-21 2020-07-21 Remote monitoring equipment applied to high-altitude operation

Publications (1)

Publication Number Publication Date
CN212319249U true CN212319249U (en) 2021-01-08

Family

ID=74035622

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021440721.1U Active CN212319249U (en) 2020-07-21 2020-07-21 Remote monitoring equipment applied to high-altitude operation

Country Status (1)

Country Link
CN (1) CN212319249U (en)

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GR01 Patent grant
GR01 Patent grant
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TR01 Transfer of patent right

Effective date of registration: 20231128

Address after: Shop 241, 2nd Floor, Taixing Wanzhou Communication Computer City, No. 420 Baiyan Road, Wanzhou District, Chongqing, 400000

Patentee after: Chongqing Wanzhou Mao'er Technology Co.,Ltd.

Address before: No. 43886, 4th Floor, GF District, Building 3, Phase 3, E-commerce Park, Wenshui Road, Shushan District, Hefei City, Anhui Province, 230000

Patentee before: Anhui Chenze Intellectual Property Service Co.,Ltd.

Effective date of registration: 20231128

Address after: No. 43886, 4th Floor, GF District, Building 3, Phase 3, E-commerce Park, Wenshui Road, Shushan District, Hefei City, Anhui Province, 230000

Patentee after: Anhui Chenze Intellectual Property Service Co.,Ltd.

Address before: 225127 No. 199, Yang Hua Xi Road, Yangzhou, Jiangsu

Patentee before: YANGZHOU POLYTECHNIC INSTITUTE