CN218584001U - Assembled structure beam column deformation monitoring devices - Google Patents

Abstract

The utility model discloses an assembled structure beam column deformation monitoring devices relates to monitoring devices technical field. The utility model provides an assembled structure beam column warp monitoring devices, including removing the seat, it has the obliquely convex seat to extend on the removal seat, it rotates the seat to articulate on the top end of convex seat, it has the camera to rotate on the seat, the guide mouth has been seted up to the below of removing the seat, it rotates on the guide rail through the guide mouth to remove the seat, it is the arc to remove the seat, the guide mouth and the guide rail of removal seat below are laminated each other, the guide rail is respectively on the top that corresponds first annular seat and second annular seat, whole when first annular seat and second annular seat tip coincide is circular, there is the regulation seat respectively on the below terminal surface of first annular seat and second annular seat, it is the L type to adjust the seat, the below end of adjusting the seat is on first hoop frame and the second hoop frame that correspond. The utility model discloses a with the camera on removing the seat to just not need personnel to put, thereby make monitoring labour saving and time saving.

Description

Assembled structure beam column deformation monitoring devices

Technical Field

The utility model belongs to the technical field of monitoring devices, concretely relates to assembled structure beam column warp monitoring devices.

Background

The assembled integral frame structure is a concrete structure formed by connecting precast concrete components in various reliable modes and forming an integral body with on-site post-cast concrete and cement-based grouting materials, and is commonly used for multi-layer public buildings (schools, hospitals, commercial buildings and the like). When the deformation monitoring method is used for monitoring, the positions of the structural beams and columns need to be photographed, and then judgment is carried out through comparison, so that the deformation monitoring of the structural beams and columns is realized.

However, such a monitoring device has the following problems in practical use:

when monitoring is carried out through a photography and dragging method, the positions of the structural beam columns need to be photographed and monitored through a camera, but the traditional method is that the camera is directly erected to monitor the structure, different positions are monitored through a mobile monitoring device, and the replacement mode is troublesome and time-consuming and labor-consuming.

Therefore, it is necessary to provide a fabricated structural beam-column deformation monitoring device to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to prior art's above-mentioned defect, a fabricated construction beam column warp monitoring devices is provided.

The utility model provides a technical scheme that its technical problem adopted is: the beam column deformation monitoring device comprises a moving seat and a convex seat, wherein the inclined convex seat extends outwards from the moving seat, a rotating seat is hinged to the end head above the convex seat, a camera is arranged on the rotating seat, a guide opening is formed in the lower portion of the moving seat, and the moving seat is rotatably arranged on a guide rail through the guide opening;

the movable seat is arranged in an arc shape, a guide opening below the movable seat is mutually attached to a guide rail, the guide rail is respectively arranged at the top end of the corresponding first annular seat and the top end of the corresponding second annular seat, and the first annular seat and the second annular seat are integrally arranged in a circular shape when the ends of the first annular seat and the second annular seat are overlapped;

the adjusting seat is arranged on the lower end face of the first annular seat and the lower end face of the second annular seat respectively, the adjusting seat is arranged in an L shape, the lower end of the adjusting seat is arranged on the corresponding first hoop frame and the corresponding second hoop frame, the first hoop frame is arranged on the same side of the first annular seat, and the second hoop frame is arranged on the same side of the second annular seat.

The utility model provides a pair of assembled structure beam column warp monitoring devices, wholly be the rectangle setting when first hoop frame and the coincidence of second hoop frame end, all be provided with the curb plate on the end that first hoop frame and second hoop frame correspond, all be provided with the screw socket on the curb plate on the first hoop frame, all be provided with the screw rod on the curb plate on the second hoop frame, screw rod threaded connection is in the screw socket that corresponds.

The utility model provides a pair of among assembled structure beam column deformation monitoring devices, the end below that first annular seat and second annular seat correspond all is provided with stretches the board, stretch all seted up the connector on the position that the board corresponds, the shape of stretching the board of first annular seat and second annular seat below is the same.

The utility model provides a pair of assembled structure beam column warp monitoring devices, be provided with annular rack on the outside terminal surface of first annular seat and second annular seat respectively, the annular rack of first annular seat and second annular seat is the semicircle shape setting.

The utility model provides a pair of among assembled structure beam column deformation monitoring devices, be provided with the back plate on a side end face of removal seat, be provided with the motor on the below terminal surface of back plate, the output of motor is provided with the pinion, the pinion toothing is connected on the annular rack that corresponds.

The utility model provides a pair of assembled structure beam column warp monitoring devices, all be provided with the bull stick on the regulating plate that first annular seat and second annular seat below set up, the draw-in groove has all been seted up on first hoop frame and the second hoop frame that the regulating plate of first annular seat and second annular seat corresponds, the regulating plate of first annular seat and second annular seat all articulates in the draw-in groove.

The utility model provides a pair of among assembled structure beam column deformation monitoring devices, the guide rail end of first annular seat and second annular seat all is equipped with the slope profile, the guide rail is the same with the shape of slope profile and lead a mouthful shape.

The utility model provides a pair of among assembled structure beam column deformation monitoring devices, the spout has been seted up between first annular seat and the second annular seat of guide rail end and correspondence, the guide rail is the T type setting.

Compared with the prior art, the utility model provides a pair of assembled structure beam column warp monitoring devices has following beneficial effect:

the utility model provides an assembly type structure beam column deformation monitoring device, through setting up parts such as removal seat and guide rail for an assembly type structure beam column deformation monitoring device, traditional measurement shooting mode is wasted time and energy, and this scheme is through setting up the camera on removing the seat, removes the seat and can remove along the guide rail to it is more convenient when just can making different positions monitor and shoot; the camera is arranged on the movable seat, the movable seat is rotatably arranged on the guide rail, and the movable seat can move on the guide rails on the first annular seat and the second annular seat; first annular seat and second annular seat can wrap up the structure roof beam of vertical direction, and the camera just can encircle the monitoring to the contained angle position of structure roof beam to make monitoring labour saving and time saving more.

The utility model provides an assembly type structure beam column deformation monitoring device, which is provided with parts such as an annular rack, a pinion and the like, wherein the pinion is connected with a motor, the motor is fixed on a movable seat, and the movable seat can be driven to automatically surround by the rotation of the motor, so that the position of a camera can be changed by controlling, and the assembly type structure beam column deformation monitoring device is more convenient and labor-saving; the pinion is arranged on the motor, and the motor is fixed on the movable seat; the annular racks are respectively arranged on the first annular seat and the second annular seat, and the pinion can be meshed with the annular racks so as to move.

Drawings

Fig. 1 is a first schematic structural diagram of an assembled structural beam-column deformation monitoring device provided by the present invention;

fig. 2 is a schematic structural diagram ii of the assembled structural beam-column deformation monitoring device provided by the present invention;

fig. 3 is a schematic structural diagram three of an assembled structural beam-column deformation monitoring device provided by the present invention;

fig. 4 is a schematic structural diagram of a beam-column deformation monitoring device of an assembly type structure provided by the present invention;

fig. 5 is a schematic structural view of a guide rail in the assembled structural beam-column deformation monitoring device provided by the present invention;

fig. 6 is the utility model provides a pair of connection schematic diagram of regulating plate among assembled structure beam column deformation monitoring devices.

The reference numbers in the figures: 1. a boss; 2. a camera; 3. a rotating seat; 4. a movable seat; 5. a guide port; 6. a first annular seat; 7. an annular rack; 8. extending the plate; 9. a connecting port; 10. a first hoop frame; 11. screwing; 12. a screw; 13. a back plate; 14. a motor; 15. a pinion gear; 16. an adjusting plate; 17. a card slot; 18. a guide rail; 19. a chute; 20. a rotating rod; 21. a slope profile; 22. a second annular seat; 23. a second yoke; 24. side plates.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Exemplary embodiments of the present invention are shown in the drawings.

The first embodiment is as follows:

as shown in fig. 1, the utility model discloses an assembly type structure beam column deformation monitoring device, including removal seat 4 and convex seat 1, the oblique convex seat 1 has been stretched on removal seat 4, is articulating on the top end of convex seat 1 and is rotating seat 3, is provided with camera 2 on rotating seat 3, and the guide mouth 5 has been seted up to the below of removal seat 4, and removal seat 4 rotates through guide mouth 5 and sets up on guide rail 18;

the movable seat 4 is arranged in an arc shape, the guide opening 5 below the movable seat 4 is mutually attached to the guide rail 18, the guide rail 18 is respectively arranged at the top end of the corresponding first annular seat 6 and the top end of the corresponding second annular seat 22, and the whole movable seat is arranged in a circular shape when the ends of the first annular seat 6 and the second annular seat 22 are overlapped;

be provided with the regulation seat on the below terminal surface of first annular seat 6 and second annular seat 22 respectively, it is the setting of L type to adjust the seat, the below tip setting of adjusting the seat is on first hoop frame 10 and the second hoop frame 23 that corresponds, first hoop frame 10 and 6 homonymies of first annular seat, second hoop frame 23 sets up with second annular seat 22 homonymy, through setting up camera 2 on removing seat 4, just can make camera 2 rotate around structure beam column when shooing, thereby make the arbitrary department of connection of structure beam shoot the monitoring, thereby just do not need personnel to put, thereby make monitoring labour saving and time saving.

As shown in fig. 2, when the ends of the first hoop frame 10 and the second hoop frame 23 are overlapped, the whole hoop frame is rectangular, the ends corresponding to the first hoop frame 10 and the second hoop frame 23 are provided with side plates 24, the side plates 24 on the first hoop frame 10 are provided with screw openings 11, the side plates 24 on the second hoop frame 23 are provided with screw rods 12, the screw rods 12 are in threaded connection with the corresponding screw openings 11 and are connected with the screw openings 11 through the screw rods 12 on one side, so that the hoop frames can be tightened, and the hoop frames can be fixed on a structural beam column.

Further, in an embodiment of the present invention, as shown in fig. 1, the extension plates 8 are disposed below the corresponding ends of the first annular seat 6 and the second annular seat 22, the connection ports 9 are disposed at the positions corresponding to the extension plates 8, the extension plates 8 below the first annular seat 6 and the second annular seat 22 have the same shape, and the annular seats can form a circular ring by fixing the extension plates 8 through the arrangement of the extension plates 8, so as to facilitate the movement of the movable seat 4; according to the scheme, the camera 2 is arranged on the movable seat 4, and the movable seat 4 can move along the guide rail 18, so that monitoring and shooting at different positions are more convenient; the camera 2 is arranged on the movable seat 4, the movable seat 4 is rotatably arranged on the guide rail 18, and the movable seat 4 can move on the guide rail 18 on the first annular seat 6 and the second annular seat 22; first annular seat 6 and second annular seat 22 can wrap up the structure roof beam of vertical direction, and camera 2 just can encircle the monitoring to the contained angle position of structure roof beam to make the more labour saving and time saving of monitoring.

Example two:

as shown in fig. 4, 5 and 6, on the basis of the first embodiment, the utility model provides a technical solution: the outer side end faces of the first annular seat 6 and the second annular seat 22 are respectively provided with an annular rack 7, the annular racks 7 of the first annular seat 6 and the second annular seat 22 are both arranged in a semicircular shape, the annular racks 7 can be integrated after the annular seats are combined, and the pinion 15 can move on the two annular racks 7; a rear plate 13 is arranged on the end face of one side of the movable seat 4, a motor 14 is arranged on the end face below the rear plate 13, a pinion 15 is arranged at the output end of the motor 14, the pinion 15 is meshed and connected to the corresponding annular rack 7, and the pinion 15 can move on the rack after being meshed with the annular rack 7, so that the movable seat 4 can be driven to move; the adjusting plates 16 arranged below the first annular seat 6 and the second annular seat 22 are respectively provided with a rotating rod 20, the first hoop frame 10 and the second hoop frame 23 corresponding to the adjusting plates 16 of the first annular seat 6 and the second annular seat 22 are respectively provided with a clamping groove 17, the adjusting plates 16 of the first annular seat 6 and the second annular seat 22 are respectively hinged in the clamping grooves 17, and the annular seats can be combined into a whole when being installed through the arrangement of the adjusting plates 16; the ends of the guide rails 18 of the first annular seat 6 and the second annular seat 22 are respectively provided with a slope surface 21, and the shapes of the guide rails 18 and the slope surfaces 21 are the same as that of the guide opening 5, so that the friction force is reduced when the guide opening 5 and the guide rails 18 are connected and move.

Further, in this embodiment, as shown in fig. 5, a sliding groove 19 is formed between the end of the guide rail 18 and the corresponding first annular seat 6 and the second annular seat 22, the guide rail 18 is arranged in a T shape, and the friction force between the moving seat 4 and the guide rail 18 is reduced by the arrangement; the pinion 15 of the scheme is connected with the motor 14, the motor 14 is fixed on the movable seat 4, and the movable seat 4 can be driven to automatically surround by the rotation of the motor 14, so that the position of the camera 2 can be changed by controlling, and the convenience and labor saving are realized; the pinion 15 is arranged on the motor 14, and the motor 14 is fixed on the movable seat 4; the annular rack 7 is arranged on the first annular seat 6 and on the second annular seat 22, respectively, and the pinion 15 can engage with the annular rack 7 and can thus be moved.

The utility model provides a pair of assembled structure beam column deformation monitoring devices's theory of operation as follows:

the first innovation point implementation step:

the first step is as follows: according to the scheme, the camera 2 is arranged on the movable seat 4, and the movable seat 4 can move along the guide rail 18, so that monitoring and shooting at different positions are more convenient;

the second step is that: the camera 2 is arranged on the movable seat 4, the movable seat 4 is rotatably arranged on the guide rail 18, and the movable seat 4 can move on the guide rail 18 on the first annular seat 6 and the second annular seat 22;

the third step: first annular seat 6 and second annular seat 22 can wrap up the structure roof beam of vertical direction, and camera 2 just can encircle the monitoring to the contained angle position of structure roof beam to make the more labour saving and time saving of monitoring.

The implementation step of the second innovation point:

the first step is as follows: the pinion 15 of the scheme is connected with the motor 14, the motor 14 is fixed on the movable seat 4, and the movable seat 4 can be driven to automatically surround by the rotation of the motor 14, so that the position of the camera 2 can be changed by controlling, and the convenience and labor saving are realized;

the second step is that: the pinion 15 is arranged on the motor 14, and the motor 14 is fixed on the movable seat 4;

the third step: the annular rack 7 is arranged on the first annular seat 6 and on the second annular seat 22, respectively, and the pinion 15 can engage with the annular rack 7 and can thus be moved.

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 (8)

1. The utility model provides an assembled structure beam column deformation monitoring devices which characterized in that: the device comprises a moving seat (4) and a convex seat (1), wherein the inclined convex seat (1) extends outwards from the moving seat (4), a rotating seat (3) is hinged to the end head above the convex seat (1), a camera (2) is arranged on the rotating seat (3), a guide opening (5) is formed below the moving seat (4), and the moving seat (4) is rotatably arranged on a guide rail (18) through the guide opening (5);

the movable seat (4) is arranged in an arc shape, a guide opening (5) below the movable seat (4) is attached to a guide rail (18), the guide rail (18) is arranged at the top end of the corresponding first annular seat (6) and the top end of the corresponding second annular seat (22), and the first annular seat (6) and the second annular seat (22) are integrally arranged in a circular shape when the ends are overlapped;

be provided with respectively on the below terminal surface of first annular seat (6) and second annular seat (22) and adjust the seat, it is the setting of L type to adjust the seat, the below end setting of adjusting the seat is on first hoop frame (10) and second hoop frame (23) that correspond, first hoop frame (10) and first annular seat (6) homonymy, second hoop frame (23) and second annular seat (22) homonymy setting.

2. The assembled structural beam column deformation monitoring device according to claim 1, wherein the first hoop frame (10) and the second hoop frame (23) are arranged in a rectangular shape when the ends thereof coincide, the corresponding ends of the first hoop frame (10) and the second hoop frame (23) are provided with side plates (24), the side plates (24) on the first hoop frame (10) are provided with screw openings (11), the side plates (24) on the second hoop frame (23) are provided with screw rods (12), and the screw rods (12) are in threaded connection with the corresponding screw openings (11).

3. The assembled structure beam column deformation monitoring device according to claim 1, wherein extension plates (8) are arranged below the ends corresponding to the first annular seat (6) and the second annular seat (22), connection ports (9) are formed in the positions corresponding to the extension plates (8), and the extension plates (8) below the first annular seat (6) and the second annular seat (22) are identical in shape.

4. The assembled structural beam column deformation monitoring device according to claim 1, wherein the first annular seat (6) and the second annular seat (22) are respectively provided with an annular rack (7) on the outer side end face, and the annular racks (7) of the first annular seat (6) and the second annular seat (22) are respectively arranged in a semicircular shape.

5. The assembled structural beam column deformation monitoring device according to claim 1, wherein a rear plate (13) is arranged on one side end face of the movable seat (4), a motor (14) is arranged on the lower end face of the rear plate (13), a pinion (15) is arranged at the output end of the motor (14), and the pinion (15) is connected to the corresponding annular rack (7) in a meshed manner.

6. The assembled structure beam column deformation monitoring device according to claim 1, wherein rotation rods (20) are arranged on adjusting plates (16) arranged below the first annular seat (6) and the second annular seat (22), clamping grooves (17) are formed in first hoop frames (10) and second hoop frames (23) corresponding to the adjusting plates (16) of the first annular seat (6) and the second annular seat (22), and the adjusting plates (16) of the first annular seat (6) and the second annular seat (22) are hinged in the clamping grooves (17).

7. The assembled structural beam column deformation monitoring device according to claim 1, wherein the ends of the guide rails (18) of the first annular seat (6) and the second annular seat (22) are provided with slope profiles (21), and the shapes of the guide rails (18) and the slope profiles (21) are the same as the shape of the guide opening (5).

8. The assembled structure beam column deformation monitoring device according to claim 1, characterized in that a sliding groove (19) is formed between the end of the guide rail (18) and the corresponding first annular seat (6) and second annular seat (22), and the guide rail (18) is arranged in a T shape.

Images