CN216202050U - Cultural relic building deformation monitoring equipment easy and simple to handle - Google Patents

Abstract

The utility model relates to the technical field of monitoring equipment and discloses cultural relic building deformation monitoring equipment which is simple and convenient to operate and comprises a shell, wherein a moving rod is movably connected to the inner wall of the shell, the bottom of the moving rod is fixedly connected with a protective shell, a telescopic mechanism is arranged inside the shell, an angle adjusting mechanism is arranged inside the protective shell, the telescopic mechanism comprises a first motor arranged on the inner bottom wall of the shell, one side of the first motor is fixedly connected with a first lifting rod, the first lifting rod penetrates through a supporting block, the supporting block is in threaded connection with a threaded seat, the top of the threaded seat is fixedly connected with a supporting sheet, the inner side of the supporting sheet is movably connected with a first connecting plate, and the inner side of the first connecting plate is movably connected with a second lifting rod. This simple and convenient historical relic building deformation monitoring facilities of operation, the monitoring range of surveillance camera head body can be enlarged through telescopic machanism to the historical relic building control time to the surveillance camera head body, guarantees the better detection of surveillance camera head body to the historical relic building.

Description

Cultural relic building deformation monitoring equipment easy and simple to handle

Technical Field

The utility model relates to the technical field of monitoring equipment, in particular to cultural relic building deformation monitoring equipment which is simple and convenient to operate.

Background

The historical architecture refers to the architecture which is left over from generations and has certain value on the development history of the architecture and is worth protecting.

The monitoring camera is a device for converting the light image of the scenery into an electric signal, and the structure of the monitoring camera can be roughly divided into three parts, namely an optical system (mainly referring to a lens), a photoelectric conversion system (mainly referring to a camera tube or a solid-state imaging device) and a circuit system (mainly referring to a video processing circuit).

After the cultural relic building is used for a long time, the cultural relic building stored at present often generates a deformation phenomenon to accelerate the damage of the cultural relic building, the cultural relic building stored at present is usually observed by workers, and the maintenance cost of the cultural relic building is increased by the manual supervision mode.

Therefore, a cultural relic building deformation monitoring device which is simple and convenient to operate is needed to solve the problem that the cultural relic building is inconvenient to maintain.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the cultural relic building deformation monitoring equipment which is simple and convenient to operate, has the advantage of being convenient to monitor the cultural relic building, and solves the problem of inconvenient maintenance of the cultural relic building.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a cultural relic building deformation monitoring facilities easy and simple to handle, includes the shell, shell inner wall swing joint has the carriage release lever, carriage release lever bottom fixedly connected with protective housing, the inside telescopic machanism that is provided with of shell, the inside angle adjusting mechanism that is provided with of protective housing.

The shell mainly is the protection inner structure, and the carriage release lever mainly drives the first body of surveillance camera and carries out the removal from top to bottom, and the protective housing mainly carries out the adjustment of angle to the first body of surveillance camera through inside structure for the first body of surveillance camera can be more careful monitor the historical relic building.

The telescopic mechanism comprises a first motor arranged on the inner bottom wall of the shell, a first lifting rod is fixedly connected to one side of the first motor, a supporting block penetrates through the first lifting rod, the supporting block is in threaded connection with a threaded seat, a supporting sheet is fixedly connected to the top of the threaded seat, a first connecting plate is movably connected to the inner side of the supporting sheet, and a second lifting rod is movably connected to the inner side of the first connecting plate.

The staff is through starting first motor, first motor is opposite in the screw thread direction of second lifter both sides, first lifter drives the screw thread seat that is located on first lifter and removes when rotating, the supporting shoe mainly is the rotation that supports first lifter, when first lifter rotates and drives two sets of screw thread seats and be close to each other, the backing sheet mainly supports first connecting plate and rotates, first connecting plate drives the second lifter and upwards raises for the second lifter passes through the backup pad and drives protective housing and carriage release lever rebound.

Preferably, the top of the second lifting rod is fixedly connected with a supporting plate, and the top of the supporting plate is fixedly connected with the bottom of the protective shell.

Preferably, the outer surface of the moving rod is fixedly connected with a fixing plate, the inner side of the fixing plate is movably connected with a connecting block, and the bottom of the connecting block is fixedly connected with a monitoring camera body.

The carriage release lever drives and drives the first body of surveillance camera through fixed plate and connecting block and removes for the first body of surveillance camera can enlarge the monitoring range of the first body of surveillance camera through telescopic machanism when monitoring the historical relic building, guarantees the first body of surveillance camera to the better detection of historical relic building.

Preferably, the angle adjusting mechanism comprises a second motor arranged on the inner surface of the protective shell, a first helical gear is fixedly connected to one side of the second motor, and a second helical gear is connected to the first helical gear in a meshed manner.

Preferably, the inner surface of the second bevel gear is fixedly connected with a threaded rod, and the threaded rod is in threaded connection with a threaded sleeve.

Preferably, the outer surface of the threaded sleeve is fixedly connected with a telescopic sleeve, the inner surface of the telescopic sleeve is movably connected with a telescopic plate, and one side of the telescopic plate is fixedly connected with a support frame.

Preferably, the inner side of the support frame is movably connected with a sliding rod, the outer surface of the sliding rod is movably connected with a second connecting plate, and the top of the second connecting plate is fixedly connected with the bottom of the monitoring camera body.

Compared with the prior art, the utility model provides the cultural relic building deformation monitoring equipment which is simple and convenient to operate, and has the following beneficial effects:

1. this simple and convenient historical relic building deformation monitoring facilities of operation, through telescopic machanism, it is specific that the staff is after installing this device, the staff is through starting first motor, first motor is opposite in the screw thread direction of second lifter both sides, it removes to drive the screw thread seat that is located on first lifter when first lifter rotates, when first lifter rotates and drives two sets of screw thread seats and be close to each other, first connecting plate drives the second lifter and upwards rises, make the second lifter pass through backup pad drive protective housing and carriage release lever rebound, the carriage release lever drives and drives the surveillance camera body through fixed plate and connecting block and remove, make the surveillance camera body can enlarge the monitoring range of surveillance camera body through telescopic machanism when monitoring historical relic building, guarantee the better detection of surveillance camera body to historical relic building.

2. The cultural relic building deformation monitoring device easy and convenient to operate drives the monitoring camera body to change the angle through the angle adjusting mechanism, particularly, when a worker starts a second motor, the output end of the second motor drives a first bevel gear to rotate, the first bevel gear drives a threaded rod to rotate through a second bevel gear, as the threaded rod is in threaded connection with a threaded sleeve, the threaded sleeve moves up and down when the threaded rod rotates, the threaded sleeve drives a telescopic sleeve to move up and down when moving up and down, the telescopic sleeve blocks the threaded sleeve to prevent the threaded sleeve from rotating, the telescopic plate can slide in the telescopic sleeve to enable the telescopic plate to move telescopically, the telescopic plate drives a second connecting plate to move up and down through a support frame and a sliding rod, the bottom of the monitoring camera body is fixed with the second connecting plate, when the second connecting plate moves up and down, the monitoring camera body is driven to change the angle, so that the monitoring camera body can monitor the cultural relic front building, the careful inspection of staff to the historical relic building is convenient for, and the staff of being convenient for protects the historical relic building.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the monitoring device of the present invention;

FIG. 2 is a front view of the monitoring device of the present invention;

FIG. 3 is a schematic view of the overall structure of the support block of the present invention;

fig. 4 is an enlarged view of a portion a in fig. 1.

Wherein: 1. a housing; 111. a first motor; 112. a first lifting rod; 113. a support block; 114. a threaded seat; 115. a support sheet; 116. a first connecting plate; 117. a second lifting rod; 118. a support plate; 2. a travel bar; 211. a fixing plate; 212. connecting blocks; 213. a surveillance camera body; 3. a protective shell; 311. a second motor; 312. a first helical gear; 313. a second helical gear; 314. a threaded rod; 315. a threaded sleeve; 316. a telescopic sleeve; 317. a retractable plate; 318. a support frame; 319. a slide bar; 320. a second connecting plate.

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. 1-4, a cultural relic building deformation monitoring device which is simple and convenient to operate comprises a shell 1, wherein a movable rod 2 is movably connected to the inner wall of the shell 1, a protective shell 3 is fixedly connected to the bottom of the movable rod 2, a telescopic mechanism is arranged inside the shell 1, and an angle adjusting mechanism is arranged inside the protective shell 3.

Through above-mentioned technical scheme, shell 1 mainly is the protection inner structure, and the carriage release lever 2 mainly drives the first body 213 of surveillance camera and carries out the removal from top to bottom, and the protective housing 3 mainly carries out the adjustment of angle to the first body 213 of surveillance camera through inside structure for the first body 213 of surveillance camera can be more careful monitor the historical relic building.

Specifically, telescopic machanism includes first motor 111 that the diapire set up in shell 1, first motor 111 one side fixedly connected with first lifter 112, first lifter 112 runs through there is supporting shoe 113, supporting shoe 113 threaded connection has screw thread seat 114, screw thread seat 114 top fixedly connected with backing sheet 115, the inboard swing joint of backing sheet 115 has first connecting plate 116, the inboard swing joint of first connecting plate 116 has second lifter 117, second lifter 117 top fixedly connected with backup pad 118, backup pad 118 top and 3 bottom fixed connections of protective housing, 2 outer fixed surface fixedly connected with fixed plates 211 of carriage release lever, the inboard swing joint of fixed plates 211 has connecting block 212, connecting block 212 bottom fixedly connected with surveillance camera body 213.

Through the technical scheme, a worker starts the first motor 111, the thread directions of the first motor 111 at two sides of the second lifting rod 117 are opposite, the first lifting rod 112 drives the thread seats 114 on the first lifting rod 112 to move when rotating, the supporting block 113 mainly supports the rotation of the first lifting rod 112, when the first lifting rod 112 rotates to drive the two groups of thread seats 114 to approach each other, the supporting sheet 115 mainly supports the first connecting plate 116 to rotate, the first connecting plate 116 drives the second lifting rod 117 to lift upwards, so that the second lifting rod 117 drives the protective shell 3 and the movable rod 2 to move upwards through the supporting plate 118, the movable rod 2 drives the monitoring camera body 213 to move through the fixed plate 211 and the connecting block 212, so that the monitoring range of the monitoring camera body 213 can be expanded through the telescopic mechanism when the monitoring camera body 213 monitors a cultural building, and the monitoring camera body 213 can better monitor the cultural building, the first motor 111 and the monitoring camera body 213 have the internal circuit structure in the prior art, and the monitoring camera body 213 is mainly used for monitoring the cultural relic building.

Specifically, angle adjustment mechanism includes the second motor 311 of 3 internal surface settings of protective housing, the first helical gear 312 of second motor 311 one side fixedly connected with, first helical gear 312 meshing is connected with second helical gear 313, the internal surface fixedly connected with threaded rod 314 of second helical gear 313, threaded rod 314 threaded connection has thread bush 315, thread bush 315 external surface fixedly connected with telescope tube 316, telescope tube 316 internal surface swing joint has expansion plate 317, expansion plate 317 one side fixedly connected with support frame 318, the inboard swing joint of support frame 318 has slide bar 319, slide bar 319 external surface swing joint has second connecting plate 320, second connecting plate 320 top and surveillance camera body 213 bottom fixed connection.

Through the technical scheme, when a worker starts the second motor 311, the output end of the second motor 311 drives the first bevel gear 312 to rotate, the first bevel gear 312 drives the threaded rod 314 to rotate through the second bevel gear 313, because the threaded rod 314 is in threaded connection with the threaded sleeve 315, the threaded sleeve 315 moves up and down when the threaded rod 314 rotates, the threaded sleeve 315 drives the telescopic sleeve 316 to move up and down when moving up and down, the telescopic sleeve 316 blocks the threaded sleeve 315 to prevent the threaded sleeve 315 from rotating, the telescopic plate 317 can slide inside the telescopic sleeve 316, so that the telescopic plate 317 can move telescopically, the telescopic plate 317 drives the second connecting plate 320 to move up and down through the support frame 318 and the rod 319, the bottom of the monitoring camera body 213 is fixed with the second connecting plate 320, when the second connecting plate 320 moves up and down, the monitoring camera body 213 is driven to change the angle, so that the monitoring camera body 213 can monitor the front of a cultural relic building, the staff is convenient for carefully inspect the cultural relic building.

When the monitoring camera is used, a worker starts the first motor 111, the directions of the threads of the first motor 111 on the two sides of the second lifting rod 117 are opposite, the first lifting rod 112 drives the threaded seats 114 on the first lifting rod 112 to move when rotating, the first lifting rod 112 drives the two groups of threaded seats 114 to approach each other, the first connecting plate 116 drives the second lifting rod 117 to ascend, the second lifting rod 117 drives the protective shell 3 and the movable rod 2 to move upwards through the supporting plate 118, the movable rod 2 drives the monitoring camera body 213 to move through the fixed plate 211 and the connecting block 212, the monitoring range of the monitoring camera body 213 can be expanded through the telescopic mechanism when the monitoring camera body 213 monitors a cultural relic building, and the monitoring camera body 213 can better detect the cultural relic building.

When the worker starts the second motor 311, the output end of the second motor 311 drives the first bevel gear 312 to rotate, the first bevel gear 312 drives the threaded rod 314 to rotate through the second bevel gear 313, because the threaded rod 314 is in threaded connection with the threaded sleeve 315, the threaded sleeve 315 moves up and down when the threaded rod 314 rotates, the threaded sleeve 315 moves up and down when moving up and down, the telescopic sleeve 316 is driven to move up and down, the telescopic sleeve 316 blocks the threaded sleeve 315 to prevent the threaded sleeve 315 from rotating, the telescopic plate 317 can slide inside the telescopic sleeve 316, so that the telescopic plate 317 can move telescopically, the telescopic plate 317 drives the second connecting plate 320 to move up and down through the support frame 318 and the sliding rod 319, the bottom of the monitoring camera body 213 is fixed with the second connecting plate 320, when the second connecting plate 320 moves up and down, the monitoring camera body 213 is driven to change the angle, so that the monitoring camera body 213 can monitor the front of the cultural relic building, be convenient for the staff to the careful inspection of historical relic building, the staff of being convenient for protects historical relic building, and support frame 318 makes support frame 318 can drive slide bar 319 for the U-shaped structure slides inside second connecting plate 320 for surveillance camera body 213 can carry out the adjustment of angle.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a historical relic building deformation monitoring facilities easy and simple to handle, includes shell (1), its characterized in that: the inner wall of the shell (1) is movably connected with a moving rod (2), the bottom of the moving rod (2) is fixedly connected with a protective shell (3), a telescopic mechanism is arranged inside the shell (1), and an angle adjusting mechanism is arranged inside the protective shell (3);

the telescopic mechanism comprises a first motor (111) arranged on the inner bottom wall of the shell (1), a first lifting rod (112) is fixedly connected to one side of the first motor (111), a supporting block (113) penetrates through the first lifting rod (112), a threaded seat (114) is in threaded connection with the supporting block (113), a supporting sheet (115) is fixedly connected to the top of the threaded seat (114), a first connecting plate (116) is movably connected to the inner side of the supporting sheet (115), and a second lifting rod (117) is movably connected to the inner side of the first connecting plate (116).

2. The cultural relic building deformation monitoring device easy and convenient to operate according to the claim 1, wherein: the top of the second lifting rod (117) is fixedly connected with a support plate (118), and the top of the support plate (118) is fixedly connected with the bottom of the protective shell (3).

3. The cultural relic building deformation monitoring device easy and convenient to operate according to the claim 1, wherein: the outer fixed surface of carriage release lever (2) is connected with fixed plate (211), fixed plate (211) inboard swing joint has connecting block (212), connecting block (212) bottom fixedly connected with surveillance camera body (213).

4. The cultural relic building deformation monitoring device easy and convenient to operate according to the claim 1, wherein: the angle adjusting mechanism comprises a second motor (311) arranged on the inner surface of the protective shell (3), a first bevel gear (312) is fixedly connected to one side of the second motor (311), and a second bevel gear (313) is connected to the first bevel gear (312) in a meshed mode.

5. The cultural relic building deformation monitoring device easy and convenient to operate according to the claim 4, wherein: the inner surface of the second bevel gear (313) is fixedly connected with a threaded rod (314), and the threaded rod (314) is in threaded connection with a threaded sleeve (315).

6. The cultural relic building deformation monitoring device easy and convenient to operate according to the claim 5, wherein: the outer fixed surface of the threaded sleeve (315) is fixedly connected with a telescopic sleeve (316), the inner surface of the telescopic sleeve (316) is movably connected with a telescopic plate (317), and one side of the telescopic plate (317) is fixedly connected with a support frame (318).

7. The cultural relic building deformation monitoring device easy and convenient to operate according to the claim 6, wherein: the inner side of the support frame (318) is movably connected with a sliding rod (319), the outer surface of the sliding rod (319) is movably connected with a second connecting plate (320), and the top of the second connecting plate (320) is fixedly connected with the bottom of the monitoring camera body (213).

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