CN217104740U - Real-time monitoring device of intercommunicating T-beam erection bridge girder erection machine - Google Patents

Abstract

The embodiment of the utility model provides a real-time supervision device that intercommunication T roof beam erected bridge girder erection machine, include: the device comprises a monitoring assembly, a guide rail, a sliding assembly and a driving assembly; the monitoring assembly is arranged on the sliding assembly; the guide rail is arranged on the intercommunicated T beam bridging machine; the sliding assembly is connected with the guide rail in a sliding manner; the driving assembly is used for driving the sliding assembly to move along the guide rail. The embodiment of the utility model provides a real-time supervision device of frame bridge crane is established to intercommunication T roof beam is provided with monitoring subassembly, guide rail, slip subassembly and drive assembly, and the monitoring subassembly sets up on the slip subassembly, and slip subassembly and guide rail sliding connection move along the guide rail through drive assembly drive slip subassembly to adjust the position of monitoring subassembly, reached the advantage that can increase monitoring range.

Description

Real-time monitoring device of intercommunicating T-beam erection bridge girder erection machine

Technical Field

The utility model relates to a T roof beam erects bridging machine technical field, especially relates to a real-time supervision device that intercommunication T roof beam erected bridging machine.

Background

When the bridge girder erection machine works, a real-time monitoring device is often needed, the existing real-time monitoring device is generally simple in structure, and the installation position is often fixed, so that the large-range monitoring is not easy to carry out.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a real-time supervision device of frame bridge crane is established to intercommunication T roof beam aims at solving among the prior art real-time supervision device mounted position and fixes the problem that is difficult for going on monitoring on a large scale.

In order to achieve the purpose, the utility model adopts the following technical scheme.

The utility model provides a following scheme:

the utility model provides a real-time supervision device that intercommunication T beam erected bridge girder erection machine, includes: the device comprises a monitoring assembly, a guide rail, a sliding assembly and a driving assembly; the monitoring assembly is arranged on the sliding assembly; the guide rail is arranged on the intercommunicated T beam bridging machine; the sliding assembly is connected with the guide rail in a sliding manner; the driving assembly is used for driving the sliding assembly to move along the guide rail.

Preferably, the drive assembly comprises: the driving wheel is connected with the driven wheel through the transmission belt, and the driving part is connected with the driving wheel; the sliding component is fixedly connected with the transmission belt.

Preferably, the sliding assembly comprises: the pulley is installed on the sliding seat, the sliding seat is fixedly connected with the transmission belt, the pulley is slidably connected with the guide rail, and the monitoring assembly is fixedly connected with the sliding seat.

Preferably, the sliding seat comprises: the monitoring assembly is fixed on the bottom plate; the bottom plate is provided with a front surface and a back surface, the front surface of the bottom plate is fixedly provided with a bearing seat, the bearing seat is provided with a fixed groove, and the transmission belt is fixedly connected in the fixed groove; the back of the bottom plate is provided with four pulleys which are divided into two pulley blocks, each pulley block comprises two pulleys, and the two pulley blocks are oppositely arranged to enable the guide rail to be clamped between the two pulley blocks.

Preferably, the fixing groove extends along the moving direction of the bottom plate, and the transmission belt is arranged through the fixing groove.

Preferably, the inner side of the fixing groove is in a tooth angle shape.

Preferably, the pulley is made of polyurethane.

Preferably, the driving wheel and the driven wheel are the same size.

Preferably, the driving member is a motor, and an output shaft of the motor is connected with the driving wheel.

By the above-mentioned the technical scheme of the embodiment of the utility model provides a can see out, the embodiment of the utility model provides a real-time supervision device of intercommunication T roof beam erection bridge crane is provided with monitoring subassembly, guide rail, slip subassembly and drive assembly, and the monitoring subassembly sets up on the slip subassembly, and slip subassembly and guide rail sliding connection move along the guide rail through drive assembly drive slip subassembly to adjust the position of monitoring subassembly, reached the advantage that can increase monitoring range.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of a real-time monitoring device of an intercommunicating T-beam erecting bridge girder erection machine according to an embodiment of the present invention;

fig. 2 is a schematic partial structural view of a real-time monitoring device of an intercommunicating T-beam erecting bridge girder erection machine according to an embodiment of the present invention;

fig. 3 is a front view of a partial structure of a real-time monitoring device of an intercommunicating T-beam erecting bridge girder erection machine according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a sliding seat according to an embodiment of the present invention;

fig. 5 is a front view of a structure of a sliding seat according to an embodiment of the present invention.

Reference numerals:

10. a guide rail;

20. a drive member; 21. a driving wheel; 22. a transmission belt; 23. a driven wheel;

30. a sliding seat; 301. a base plate; 302. a bearing seat; 303. fixing grooves; 304. a rotating shaft; 305. a fixing plate; 31. a pulley;

40. a monitoring head;

50. a fixed mount;

60. a swing seat;

70. a fixed seat;

80. a swing lever.

Detailed Description

For the convenience of understanding the embodiments of the present invention, the following description will be given by way of example only with reference to the accompanying drawings, and the embodiments are not limited thereto.

Referring to fig. 1, the embodiment of the utility model provides an intercommunication T beam erects real-time supervision device of bridging machine, include: the monitoring assembly, the guide rail 10, the sliding assembly and the driving assembly; the monitoring assembly is arranged on the sliding assembly; the guide rail 10 is arranged on the intercommunicated T-beam bridge girder erection machine; the sliding component is connected with the guide rail 10 in a sliding way; the drive assembly is used to drive the slide assembly along the rail 10.

Compared with the prior art, this application is provided with monitoring subassembly, guide rail 10, slip subassembly and drive assembly, and the monitoring subassembly sets up on the slip subassembly, and slip subassembly and guide rail 10 sliding connection move along guide rail 10 through drive assembly drive slip subassembly to adjust monitoring subassembly's position, reached the advantage that can increase monitoring range.

It should be noted that the guide rail 10 may be a linear guide rail, an arc guide rail, or the like. In the present embodiment, the guide rail 10 is a linear guide rail. In addition, the guide rail 10 may be disposed horizontally or vertically. The guide rail 10 in this embodiment is horizontally disposed.

Referring to fig. 1 to 3, the driving assembly in the present embodiment includes: the device comprises a driving part 20, a driving wheel 21, a transmission belt 22 and a driven wheel 23, wherein the driving wheel 21 and the driven wheel 23 are arranged on the guide rail 10 at intervals, the driving wheel 21 is connected with the driven wheel 23 through the transmission belt 22, and the driving part 20 is connected with the driving wheel 21; the slide assembly is fixedly connected to the drive belt 22. Specifically, a driving member 20 is embedded into one end of the guide rail 10, the driving member 20 is connected with the driving wheel 21, a fixing plate 305 is fixed to the other end of the guide rail 10, the driven wheel 23 is fixedly connected with the fixing plate 305, and a transmission belt 22 is sleeved on the driving wheel 21 and the driven wheel 23, so that the driving wheel 21 and the driven wheel 23 are in transmission connection. The driving member 20 provides power for the driving wheel 21, drives the driving wheel 21 to rotate, enables the driving wheel 21, the driven wheel 23 and the transmission belt 22 to be matched with each other, enables the transmission belt 22 to drive the sliding assembly to move along the guide rail 10, and is provided with the monitoring assembly, thereby realizing large-scale monitoring. The driving pulley 21 and the driven pulley 23 may be pulleys, and the transmission belt 22 may be a belt.

Referring to fig. 1 to 2, the driving member 20 in this embodiment is a motor, and an output shaft of the motor is connected to the driving wheel 21. The motor can rotate under the on-state to can change pivoted direction according to the direction of electric current, thereby can drive action wheel 21 forward rotation or reverse rotation, and then drive slip subassembly reciprocating motion. In addition, the motor can also determine the rotating speed according to the magnitude of the current, and then the driving assembly drives the sliding assembly to move at different speeds.

Referring to fig. 1 to 3, the driving pulley 21 and the driven pulley 23 in the present embodiment are the same size. It should be noted that the driving pulley 21 and the driven pulley 23 may adopt pulleys with different sizes; also can choose for use the same action wheel 21 of size of a dimension and follow driving wheel 23, set up action wheel 21 and follow driving wheel 23 in same water flat line simultaneously, can do benefit to and play the effect that makes the steady transmission of drive belt 22 to the image that guarantees the monitoring subassembly and gathers is clear.

Referring to fig. 4 to 5, the sliding assembly in the present embodiment includes: the monitoring device comprises a sliding seat 30 and a pulley 31, wherein the pulley 31 is installed on the sliding seat 30, the sliding seat 30 is fixedly connected with the transmission belt 22, the pulley 31 is slidably connected with the guide rail 10, and the monitoring assembly is fixedly connected with the sliding seat 30. The number of the pulleys 31 is at least one, and a plurality of pulleys 31 may be provided. The pulley 31 can be arranged between the sliding seat 30 and the guide rail 10, a sliding groove is arranged on the guide rail 10, and the pulley 31 is positioned in the sliding groove and can move in the sliding groove, so that the sliding connection between the pulley 31 and the sliding groove is realized; or a plurality of pulleys 31 can be adopted, and the pulleys 31 are divided into two groups, so that two pulley blocks are respectively positioned at two sides of the guide rail 10 to clamp the guide rail 10, and the pulley blocks and the guide rail 10 form sliding fit. It should be understood by those skilled in the art that the above-mentioned arrangement of the pulley 31 and the guide rail 10 is only an example, and other existing or future arrangements of the pulley 31 and the guide rail 10, such as those applicable to the embodiments of the present invention, are also included in the scope of the present invention and are herein incorporated by reference.

Referring to fig. 4 to 5, in a preferred mode provided by the present embodiment, the sliding seat 30 includes: a bottom plate 301 and a bearing seat 302, wherein the monitoring assembly is fixed on the bottom plate 301; the bottom plate 301 has a front surface and a back surface, the socket base 302 is fixed on the front surface of the bottom plate 301, the fixing groove 303 is arranged on the socket base 302, and the transmission belt 22 is fixedly connected in the fixing groove 303; the back of the bottom plate 301 is provided with four pulleys 31, the four pulleys 31 are divided into two pulley blocks, each pulley block comprises two pulleys 31, and the two pulley blocks are oppositely arranged to enable the guide rail 10 to be clamped between the two pulley blocks. The bottom plate 301 may have any shape. In this embodiment, the bottom plate 301 is a rectangular plate, the rotating shafts 304 are respectively fixed at four diagonal points of the bottom plate 301, each rotating shaft 304 is rotatably connected with one pulley 31, wherein the rotating shafts 304 are made of carbon steel and have high hardness; the surface of the pulley 31 is smooth, and is made of polyurethane, so that the wear resistance is high, and the service life is long.

Referring to fig. 4 to 5, the fixing groove 303 of the present embodiment extends along the moving direction of the base plate 301, and the driving belt 22 is inserted into the fixing groove 303. Specifically, in the present embodiment, the fixing groove 303 penetrates through two ends of the socket 302 in a horizontal direction, an opening direction of the fixing groove is toward the transmission belt 22, the transmission belt 22 is located inside the opening, and the two ends extend out of two ends of the fixing groove 303.

Referring to fig. 4 to 5, in a preferred mode provided in this embodiment, the inside of the fixing groove 303 is formed in a tooth-like shape to increase friction force to ensure that the driving belt 22 can be fixed in the fixing groove 303, thereby preventing the driving belt 22 from moving in the fixing groove 303.

Monitoring subassembly in this embodiment is including being used for gathering video and image information monitoring head 40, mount 50, swing seat 60, fixing base 70 and swinging arms 80, wherein, mount 50 and swing seat 60 fixed connection, mount 50 sets up between fixing base 70 and sliding component, as shown in fig. 1, in this application mount 50 respectively with sliding seat 30, fixing base 70 fixed connection, the one end and the fixing base 70 of swinging arms 80 rotate to be connected, the other end and the monitoring head 40 of swinging arms 80 rotate to be connected, and monitoring head 40 installs in swing seat 60 inboard through the pivot.

The embodiment of the utility model provides a real-time supervision device of intercommunication T roof beam erection bridge crane's theory of operation as follows:

before use, horizontally placing a real-time monitoring device of the intercommunicated T-beam erection bridge girder erection machine, selecting a fixed position according to a monitoring range, and fixing the guide rail 10 at a proper position at the upper end of the intercommunicated T-beam erection bridge girder erection machine; when using, can erect bridge girder erection machine in service behavior to intercommunication T beam through monitoring head 40 and carry out real-time monitoring, and simultaneously, the motor circular telegram is worked, drive action wheel 21 rotates, make action wheel 21 drive belt 22 carry out the transmission from driving wheel 23, drive belt 22 drives bottom plate 301 through accepting seat 302 and carries out horizontal migration and pulley 31 can rotate on guide rail 10 simultaneously, lead to bottom plate 301, reached and to have made bottom plate 301 steady movement, thereby adjust the horizontal position of monitoring subassembly, reached and to have increased monitoring range.

To sum up, the embodiment of the present invention provides a real-time monitoring device for an intercommunicating T-beam bridging machine, which works by powering on a motor to drive a driving wheel 21 to rotate, so that the driving wheel 21 drives a driving belt 22 to transmit on a driven wheel 23, and the driving belt 22 pulls a bottom plate 301 to move horizontally, thereby adjusting the horizontal position of a monitoring assembly, and achieving the advantage of increasing the monitoring range; in addition, by providing the sliding seat 30, the transmission belt 22 drives the bottom plate 301 to move horizontally through the receiving seat 302, and at the same time, the pulley 31 rotates on the guide rail 10 to guide the bottom plate 301, thereby achieving the advantage of enabling the bottom plate 301 to move smoothly.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a real-time supervision device that intercommunication T roof beam erected bridge girder erection machine which characterized in that includes: the device comprises a monitoring assembly, a guide rail (10), a sliding assembly and a driving assembly;

the monitoring assembly is arranged on the sliding assembly;

the guide rail (10) is arranged on the intercommunicated T-beam erection bridge girder erection machine;

the sliding assembly is in sliding connection with the guide rail (10);

the driving assembly is used for driving the sliding assembly to move along the guide rail (10).

2. The real-time monitoring device of an intercommunicating T-beam erecting bridge girder erection machine according to claim 1, wherein said drive assembly comprises: the guide rail device comprises a driving part (20), a driving wheel (21), a transmission belt (22) and a driven wheel (23), wherein the driving wheel (21) and the driven wheel (23) are arranged on the guide rail (10) at intervals, the driving wheel (21) is connected with the driven wheel (23) through the transmission belt (22), and the driving part (20) is connected with the driving wheel (21);

the sliding component is fixedly connected with the transmission belt (22).

3. The real-time monitoring device of an intercommunicating T-beam erecting bridge girder erection machine according to claim 2, wherein said sliding assembly comprises: sliding seat (30) and pulley (31), pulley (31) install in on sliding seat (30), sliding seat (30) with drive belt (22) fixed connection, pulley (31) with guide rail (10) sliding connection, the monitoring subassembly with sliding seat (30) fixed connection.

4. The real-time monitoring device of the intercommunicating T-beam erecting bridge girder erection machine according to claim 3, wherein said sliding seat (30) comprises: the monitoring assembly is fixed on the bottom plate (301);

the bottom plate (301) is provided with a front surface and a back surface, the bearing seat (302) is fixed on the front surface of the bottom plate (301), a fixing groove (303) is arranged on the bearing seat (302), and the transmission belt (22) is fixedly connected in the fixing groove (303); the back of the bottom plate (301) is provided with four pulleys (31), the four pulleys (31) are divided into two pulley blocks, each pulley block comprises two pulleys (31), and the two pulley blocks are oppositely arranged to enable the guide rail (10) to be clamped between the two pulley blocks.

5. The real-time monitoring device of the intercommunicating T-beam bridge girder erection machine according to claim 4, wherein the fixing groove (303) extends along the moving direction of the bottom plate (301), and the transmission belt (22) is inserted into the fixing groove (303).

6. The real-time monitoring device of the intercommunicating T-beam bridge girder erection machine according to claim 5, wherein the inside of the fixing groove (303) is in a tooth angle shape.

7. Real-time monitoring device of an intercommunicating T-beam erecting bridge girder erection machine according to any one of claims 3 to 6, wherein said pulley (31) is made of polyurethane.

8. The real-time monitoring device of the intercommunicating T-beam bridge girder erection machine according to claim 2, wherein the driving wheel (21) and the driven wheel (23) are the same size.

9. The real-time monitoring device of the intercommunicating T-beam erecting bridge girder erection machine according to claim 2, wherein the driving member (20) is a motor, and an output shaft of the motor is connected with the driving wheel (21).

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