CN216712584U - Transverse moving device for I-shaped steel - Google Patents

Abstract

The utility model provides a transverse moving device for I-shaped steel, which belongs to the technical field of moving devices and comprises a supporting bracket, a plurality of first rollers and two roller groups. A plurality of first gyro wheels are arranged in proper order along the moving direction of I-steel, and first gyro wheel is rotatable to be located on the support bracket, and the rotation axis level of first gyro wheel sets up and is perpendicular with the moving direction of I-steel. Two roller sets are respectively arranged on two sides of a web plate of the I-steel, each roller set comprises a plurality of second rollers abutted against the web plate, and the second rollers are rotatably arranged on the bearing bracket and are vertically arranged in a rotating axis. According to the transverse moving device for the I-shaped steel, one wing plate of the I-shaped steel is horizontally placed on the plurality of first rollers, the second rollers in the two roller groups are abutted to the web plate of the I-shaped steel from two sides, and then the I-shaped steel is pushed along the arrangement direction of the plurality of first rollers, so that the problem that the I-shaped steel is difficult to move transversely when being supported by a plurality of operators is solved.

Description

Transverse moving device for I-shaped steel

Technical Field

The utility model belongs to the technical field of moving devices, and particularly relates to a transverse moving device for I-shaped steel.

Background

The rail on the bridge deck needs to be reinforced before jacking in the bridge jacking project, at present, I-shaped steel is basically adopted for reinforcement, so that the I-shaped steel needs to be lifted, is horizontal and vertical to the rail, and then moves transversely along the direction vertical to the rail. Because no special tool is provided, the I-steel can be lifted and transversely moved only by a plurality of operators, and the I-steel is relatively labor-consuming because of the heavy weight of the I-steel.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transverse moving device for I-beams, and aims to solve the problem that the I-beams are difficult to support by multiple operators to move transversely.

In order to achieve the purpose, the utility model adopts the technical scheme that: the utility model provides a I-steel lateral shifting device, includes support bracket, a plurality of first gyro wheel and two roller groups. A plurality of first gyro wheels are used for one of them pterygoid lamina of bearing I-steel, and are a plurality of first gyro wheel is arranged in proper order along the moving direction of I-steel, first gyro wheel is rotatable to be located on the support bracket, the axis of rotation level of first gyro wheel set up and with the moving direction of I-steel is perpendicular. Two roller groups are respectively arranged on two sides of a web plate of the I-shaped steel, each roller group comprises a plurality of second rollers abutted to the web plate, and the second rollers are rotatably arranged on the bearing bracket and are vertically arranged in rotation axes.

In one possible implementation, the support bracket includes a support plate, a first connecting portion, and a second connecting portion. The bearing plate is horizontally arranged, and the first roller is rotatably arranged on the bearing plate; the first connecting part and the second connecting part are respectively positioned on the opposite outer sides of the two roller groups and are connected with the bearing plate, and the second roller can be rotatably arranged on the first connecting part or the second connecting part at the same side.

In a possible implementation manner, the first connecting portion is fixedly connected with the bearing plate, the bottom end of the second connecting portion is rotatably connected with the bearing plate, the rotation axis of the second connecting portion is horizontally arranged and perpendicular to the rotation axis of the first roller, when the second connecting portion rotates, the second roller connected with the second connecting portion can be far away from the web or abutted against the web, and the transverse moving device for the i-steel further comprises a locking assembly. The locking assembly is used for detachably connecting the first connecting part and the second connecting part, so that a second roller connected with the second connecting part can be kept in a state of abutting against the web.

In one possible implementation, the locking assembly includes a stop bar. The limiting rod is horizontally arranged and is perpendicular to the rotating axis of the second connecting portion, and the limiting rod penetrates through the first connecting portion and the second connecting portion in a sliding mode.

In a possible implementation manner, the number of the limiting rods is two, and the two limiting rods are arranged at intervals along the direction of the rotation axis of the second connecting portion.

In one possible implementation, the locking assembly further includes a positioning plate. The locating plate is located one side of gag lever post length direction, with two equal fixed connection of gag lever post.

In a possible implementation manner, the second connecting portion is provided with a threaded hole, the positioning plate is attached to the side face, away from the second connecting portion, of the first connecting portion, and the locking assembly further comprises a driving shaft. The drive shaft with the gag lever post is parallel, first end wear to locate in the screw hole and be equipped with screw hole threaded connection's external screw thread, the drive shaft slides and pierces through first connecting portion, the lateral wall of drive shaft be equipped with the coaxial annular groove of external screw thread, the drive shaft passes through the rotatable card of annular groove is located in the locating plate.

In a possible realization, the outer side wall of the second end of the drive shaft is provided with knurling.

In one possible implementation, the support bracket further includes a moving portion, a guide bar, and a telescoping assembly. The moving part is positioned below the bearing plate and is provided with four moving wheels which are arranged in a rectangular shape. The guide rod is vertically arranged, is fixedly connected with the moving part and penetrates through the bearing plate in a sliding mode. The telescopic assembly is fixedly arranged on the bearing plate and provided with a telescopic end which can stretch along the vertical direction, and the telescopic end is abutted to the moving part.

In a possible implementation manner, the number of the second rollers in the roller group is four, and a connection line between the four second rollers in the same roller group is arranged in a rectangular shape.

In the embodiment of the application, the device is placed on one side of a rail, the arrangement direction of the first rollers is perpendicular to the rail, one wing plate of the I-shaped steel is horizontally placed on the first rollers, the second rollers in the two roller groups are abutted to the web plates of the I-shaped steel from two sides, so that the transverse movement of the I-shaped steel can be realized by pushing the I-shaped steel along the arrangement direction of the first rollers, and the problem that the I-shaped steel is supported by multiple operators to move transversely difficultly is avoided.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic axial structure diagram of an i-steel lateral movement device provided in an embodiment of the present invention in use;

fig. 2 is a schematic axial structure diagram of an i-steel lateral movement device provided in an embodiment of the present invention;

fig. 3 is a schematic axial structure diagram of a driving shaft in an i-steel transverse moving device according to an embodiment of the present invention.

In the figure: 1. a support bracket; 11. a support plate; 12. a first connection portion; 13. a second connecting portion; 14. a moving part; 141. a moving wheel; 15. a guide bar; 16. a telescoping assembly; 161. a telescopic end; 2. a first roller; 3. a second roller; 4. a locking assembly; 41. a limiting rod; 42. positioning a plate; 43. a drive shaft; 431. an annular groove; 51. a wing plate; 52. a web.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 to 2 together, the transverse moving device for i-steel according to the present invention will now be described. The transverse moving device for the I-shaped steel comprises a supporting bracket 1, a plurality of first rollers 2 and two roller groups. The plurality of first rollers 2 are used for supporting one wing plate 51 of the I-shaped steel, the plurality of first rollers 2 are sequentially arranged along the moving direction of the I-shaped steel, the first rollers 2 are rotatably arranged on the supporting bracket 1, and the rotating axis of the first rollers 2 is horizontally arranged and is vertical to the moving direction of the I-shaped steel. Two roller groups are respectively arranged on two sides of a web plate 52 of the I-steel, each roller group comprises a plurality of second rollers 3 abutted against the web plate 52, and the second rollers 3 are rotatably arranged on the support bracket 1 and are vertically arranged in a rotating axis.

Compared with the prior art, the transverse moving device for the I-steel is placed on one side of a rail, so that the arrangement direction of the first rollers 2 is perpendicular to the rail, one wing plate 51 of the I-steel is horizontally placed on the first rollers 2, and the second rollers 3 in the two roller groups are abutted to the web plate 52 of the I-steel from two sides, so that the transverse moving of the I-steel can be realized by pushing the I-steel along the arrangement direction of the first rollers 2, and the problem that the I-steel is difficult to move transversely by being supported by a plurality of operators is solved.

In some embodiments, referring to fig. 2, to enable the connection of the first and second rollers 2, 3 to the support bracket 1, the support bracket 1 comprises a support plate 11, a first connecting portion 12 and a second connecting portion 13. The bearing plate 11 is horizontally arranged, and the first roller 2 can be rotatably arranged on the bearing plate 11; the first connecting portion 12 and the second connecting portion 13 are respectively located on the opposite outer sides of the two roller groups and are connected with the supporting plate 11, and the second roller 3 is rotatably arranged on the first connecting portion 12 or the second connecting portion 13 on the same side.

In some embodiments, referring to fig. 1 and 2, the first connecting portion 12 is fixedly connected to the supporting plate 11, the bottom end of the second connecting portion 13 is rotatably connected to the supporting plate 11, the rotation axis of the second connecting portion 13 is horizontally disposed and perpendicular to the rotation axis of the first roller 2, when the second connecting portion 13 rotates, the second roller 3 connected to the second connecting portion 13 can be away from the web 52 or abut against the web 52, and the i-steel lateral moving device further includes a locking assembly 4. The locking assembly 4 is used to detachably connect the first connecting portion 12 and the second connecting portion 13 so that the second roller 3 connected to the second connecting portion 13 can maintain a state of abutting against the web 52. Before the I-steel is placed on the first rollers 2, the first connecting portions 12 are disconnected from the second connecting portions 13, the second connecting portions 13 are rotated to a preset angle in the direction away from the web 52, then the I-steel is placed on the first rollers 2, one sides of the web 52 are abutted to the second rollers 3 connected with the first connecting portions 12, and finally the second connecting portions 13 are rotated, so that the second rollers 3 connected with the second connecting portions 13 are also abutted to the web 52, and the first connecting portions 12 are connected with the second connecting portions 13 through the locking assemblies 4. This makes it easier to place the i-section steel on the first plurality of rollers 2.

As a modified embodiment of this embodiment, both the first connecting portion 12 and the second connecting portion 13 may be fixedly connected to the support plate 11.

In some embodiments, referring to fig. 2, the locking assembly 4 includes a stop bar 41. The limiting rod 41 is horizontally arranged and perpendicular to the rotation axis of the second connecting portion 13, the limiting rod 41 penetrates through the first connecting portion 12 and the second connecting portion 13 in a sliding mode, and therefore the limiting rod 41 can limit the second connecting portion 13 to rotate. When the stopper rod 41 is pulled out from the first connecting portion 12 and the second connecting portion 13, the second connecting portion 13 can be rotated.

In some embodiments, referring to fig. 2, the number of the limiting rods 41 is two, and the two limiting rods 41 are arranged at intervals along the rotation axis direction of the second connecting portion 13. Thereby preventing the deformation of the single stopper rod 41.

In some embodiments, referring to fig. 1, the locking assembly 4 further includes a positioning plate 42. The positioning plate 42 is located at one side of the length direction of the two limiting rods 41 and is fixedly connected with the two limiting rods 41. The two limiting rods 41 can be driven to slide simultaneously through the positioning plate 42.

In some embodiments, referring to fig. 1 and 3, the second connecting portion 13 is provided with a threaded hole, the positioning plate 42 is attached to the side of the first connecting portion 12 away from the second connecting portion 13, and the locking assembly 4 further includes a driving shaft 43. The driving shaft 43 is parallel to the limiting rod 41, the first end of the driving shaft is arranged in the threaded hole in a penetrating mode and is provided with an external thread connected with the threaded hole in a threaded mode, the driving shaft 43 penetrates through the first connecting portion 12 in a sliding mode, the outer side wall of the driving shaft 43 is provided with an annular groove 431 coaxial with the external thread, and the driving shaft 43 is rotatably clamped in the positioning plate 42 through the annular groove 431. The connection between the first connection portion 12 and the second connection portion 13 can be made reliable by the threaded connection of the external thread of the driving shaft 43 and the threaded hole. The driving shaft 43 is rotated to withdraw the driving shaft 43 from the threaded hole, and then the driving shaft 43 and the two stopper rods 41 are completely withdrawn from the first connecting portion 12 and the second connecting portion 13, so that the second connecting portion 13 can be rotated.

In some embodiments, to facilitate driving the drive shaft 43 in rotation, the outer sidewall of the second end of the drive shaft 43 is knurled.

In some embodiments, referring to FIG. 2, support bracket 1 further comprises a moving portion 14, a guide bar 15, and a telescoping assembly 16. The moving unit 14 is located below the support plate 11 and has four moving wheels 141 arranged in a rectangular shape. The guide rod 15 is vertically disposed, fixedly connected to the moving portion 14, and slidably penetrates the support plate 11. The telescopic assembly 16 is fixed on the supporting plate 11, and has a telescopic end 161 capable of extending and retracting along the vertical direction, and the telescopic end 161 is abutted with the moving part 14. The lifting of the support plate 11 can be realized by the extension and contraction of the telescopic end 161 of the telescopic assembly 16, so that the height of the support plate 11 can be adjusted according to actual needs. The four moving wheels 141 can facilitate the movement of the device, the moving wheels 141 can adopt universal casters, and two of the moving wheels 141 are provided with brakes.

In this embodiment, the telescopic assembly 16 may be one of a hydraulic cylinder, an air cylinder, or an electric push rod.

In some embodiments, referring to fig. 2, in order to prevent the i-beam from shifting during the moving process, the number of the second rollers 3 in the roller group is four, and the connecting lines between the four second rollers 3 in the same roller group are arranged in a rectangular shape.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. I-steel lateral shifting device, its characterized in that includes:

a support bracket;

the first rollers are used for supporting one wing plate of the I-shaped steel, the first rollers are sequentially arranged along the moving direction of the I-shaped steel, the first rollers can be rotatably arranged on the supporting bracket, and the rotating axis of the first rollers is horizontally arranged and is vertical to the moving direction of the I-shaped steel;

the two roller groups are respectively arranged on two sides of a web plate of the I-shaped steel and comprise a plurality of second rollers abutted to the web plate, and the second rollers are rotatably arranged on the bearing bracket and are vertically arranged in a rotating axis manner.

2. The apparatus for laterally moving an i-steel according to claim 1, wherein the support bracket comprises:

the bearing plate is horizontally arranged, and the first roller is rotatably arranged on the bearing plate;

the first connecting part and the second connecting part are respectively positioned on the opposite outer sides of the two roller groups and are connected with the bearing plate, and the second roller can be rotatably arranged on the first connecting part or the second connecting part at the same side.

3. The i-steel lateral movement device according to claim 2, wherein the first connecting portion is fixedly connected to the supporting plate, the bottom end of the second connecting portion is rotatably connected to the supporting plate, the rotation axis of the second connecting portion is horizontally disposed and perpendicular to the rotation axis of the first roller, and when the second connecting portion rotates, the second roller connected to the second connecting portion can be away from the web or abut against the web, and the i-steel lateral movement device further comprises:

and the locking assembly is used for detachably connecting the first connecting part and the second connecting part so that a second roller connected with the second connecting part can be kept in a state of abutting against the web.

4. The i-beam lateral shifting apparatus of claim 3, wherein the locking assembly comprises:

the limiting rod is horizontally arranged and perpendicular to the rotating axis of the second connecting portion, and the limiting rod penetrates through the first connecting portion and the second connecting portion in a sliding mode.

5. The transverse moving device for the I-steel according to claim 4, wherein the number of the limiting rods is two, and the two limiting rods are arranged at intervals along the direction of the rotation axis of the second connecting part.

6. The i-beam lateral shifting apparatus of claim 5, wherein the locking assembly further comprises:

and the positioning plate is positioned on one side of the limiting rod in the length direction and is fixedly connected with the two limiting rods.

7. The i-steel lateral movement device according to claim 6, wherein the second connecting portion is provided with a threaded hole, the positioning plate is attached to a side surface of the first connecting portion away from the second connecting portion, and the locking assembly further comprises:

the drive shaft, with the gag lever post is parallel, first end wear to locate in the screw hole and be equipped with screw hole threaded connection's external screw thread, the drive shaft slides and pierces through first connecting portion, the lateral wall of drive shaft be equipped with the coaxial annular groove of external screw thread, the drive shaft passes through the rotatable card of annular groove is located in the locating plate.

8. The apparatus for laterally moving an i-steel according to claim 7, wherein an outer side wall of the second end of the driving shaft is knurled.

9. The apparatus for laterally moving an i-beam according to claim 2, wherein the support bracket further comprises:

the moving part is positioned below the bearing plate and is provided with four moving wheels which are arranged in a rectangular shape;

the guide rod is vertically arranged, is fixedly connected with the moving part and penetrates through the bearing plate in a sliding manner;

the telescopic assembly is fixedly arranged on the bearing plate and provided with a telescopic end which can stretch along the vertical direction, and the telescopic end is abutted to the moving part.

10. The transverse moving device for the I-steel according to claim 1, wherein the number of the second rollers in the roller groups is four, and connecting lines between the four second rollers in the same roller group are arranged in a rectangular shape.

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