CN223465752U - Steel pipe pile operation platform and steel pipe pile bracket welding system - Google Patents

Abstract

The present invention relates to the field of construction technology, and in particular to a steel pipe pile working platform and a steel pipe pile corbel welding system. The steel pipe pile working platform includes a platform assembly, including a channel extending along a first direction, and a first slide and a second slide distributed on both sides of the channel and extending along the first direction; at least two sliders are slidably fitted in the first slide and the second slide, and the sliders on the first slide and the sliders on the second slide are correspondingly provided; a hook lock is connected to the slider. The steel pipe pile working platform provided by the present invention can be flexibly and conveniently arranged around the steel pipe piles at a relatively low cost to form a working platform, so that workers can weld corbels or perform other processing operations on the steel pipe piles; moreover, through the sliding cooperation of the sliders and the slides, a working platform can be flexibly and conveniently formed between a plurality of consecutive steel pipe piles through the movement of the platform assembly, thereby realizing processing operations on a number of steel pipe piles.

Description

Steel pipe pile operation platform and steel pipe pile bracket welding system

Technical Field

The utility model relates to the technical field of construction, in particular to a steel pipe pile working platform and a steel pipe pile bracket welding system.

Background

In the construction process of steel pipe piles in shallow sea areas, the built steel pipe piles are required to be processed under partial working conditions, such as bracket welding and the like, and the conventional welding mode is usually manual welding, so that an operation platform is required to be erected around the steel pipe piles for workers to stand.

The conventional operation platform is formed by erecting a hanging frame, after bracket welding on the steel pipe pile in the range of the operation platform is completed, the operation platform needs to be dismantled, then the operation platform is arranged on other steel pipe piles, the construction period of the operation platform is long in the whole process, and the auxiliary disassembly of the crane is needed, so that the labor and the effort are wasted.

Disclosure of utility model

The utility model aims to solve the problem that the working platform needs to be removed and then reinstalled when the working position of the working platform is changed in the prior art, and provides a steel pipe pile working platform and a steel pipe pile bracket welding system.

In a first aspect, the utility model provides a steel pipe pile working platform, which comprises a platform assembly, wherein the platform assembly comprises a channel extending along a first direction, a first slideway and a second slideway which are distributed on two sides of the channel and extend along the first direction, at least two sliding blocks are in sliding fit in the first slideway and the second slideway, the sliding blocks on the first slideway and the sliding blocks on the second slideway are correspondingly arranged, and a hook locking piece is connected to the sliding blocks.

The steel pipe pile working platform comprises a first slide rail, a second slide rail, a first sliding rail, a second sliding rail, a hook locking piece and a plurality of hook locking pieces, wherein the first slide rail and the second slide rail are both connected with at least two sliding blocks in a sliding manner, each sliding block is connected with a hook locking piece, the hook locking pieces can be used for hooking a workpiece to be processed, so that supporting force is provided for the steel pipe pile working platform, at least four hook locking pieces distributed on two sides of a channel can firmly hang and fix a platform assembly on the workpiece to be processed, so that the working platform to be processed is formed, the sliding fit of the sliding blocks and the slide rails enables one end, close to the platform assembly, of the hook locking pieces to move relative to the platform assembly along a first direction, so that the platform assembly can move relative to the workpiece to be processed along the first direction to advance to a next working area, and a hooking state with the workpiece to be processed can be maintained in a moving process, and the working platform can be flexibly and conveniently formed between a plurality of workpieces to be processed through advancing movement of the platform assembly.

For example, the steel pipe pile working platform can be used for providing working platforms for a plurality of steel pipe piles which are linearly arranged, when the steel pipe pile working platform is used, a platform assembly can be hung on two adjacent steel pipe piles through at least four hook locking pieces to form the working platforms for the two steel pipe piles, and after the working is finished, the platform assembly is pushed and pulled to enable the next steel pipe pile to move along a first direction, so that the next steel pipe pile enters the platform assembly along a channel to form the working platform for the next steel pipe pile.

Preferably, the first slide way and the second slide way are both in sliding fit with at least three sliding blocks, the sliding blocks on the first slide way can enter and exit the first slide way from two ends of the first slide way, and the sliding blocks on the second slide way can enter and exit the second slide way from two ends of the second slide way.

In the process of advancing the platform assembly, the sliding blocks sliding out from the rear end of the advancing direction can be used for being connected with the next workpiece to be processed and entering the sliding ways again from the front end of the advancing direction, so that the cyclic utilization of the sliding blocks is realized, and at least three sliding blocks 14 are arranged on the two sliding ways, so that at least two sliding blocks and the upper hook locking piece thereof can be connected with the workpiece to be processed when one sliding block on each sliding way circularly rotates, and the stable hooking of the platform assembly is maintained.

Preferably, both ends of the first slideway and both ends of the second slideway are open, so that the sliding block can be smoothly put in or taken out from the ends of the first slideway and the second slideway.

Preferably, the platform assembly comprises two platform structures arranged at intervals, the channel is positioned between the two platform structures, and a platform connecting piece is fixedly connected between the two platform structures.

Preferably, the platform connector is a portal frame, which is erected between two platform structures.

The steel pipe pile and the bracket can be avoided to the door-type frame to guarantee two the rigidity of connection between the platform structure avoids the platform structure takes place the condition of unstability.

Preferably, a scaffold board is arranged between the two platform structures.

Preferably, the first slideway and the second slideway comprise a sliding cavity extending along a first direction and an opening positioned at the upper part of the sliding cavity, and the size of the opening is smaller than that of the sliding block in the projection of the first direction.

In a second aspect, the utility model provides a steel pipe pile bracket welding system which comprises at least two steel pipe piles and the steel pipe pile working platform, wherein the at least two steel pipe piles are positioned in a channel, at least two hooking locking pieces are hung on the steel pipe piles, at least one sliding block connected with the hooking locking pieces is in sliding fit with a first slideway, and at least one sliding block connected with the hooking locking pieces is in sliding fit with a second slideway.

The steel pipe pile bracket welding system provided by the utility model has the advantages that the steel pipe pile working platform is used, so that the working platform can be flexibly and conveniently arranged around the steel pipe piles at low cost, so that workers can weld brackets on the steel pipe piles or perform other processing operations, and the working platform can be flexibly and conveniently formed among a plurality of continuous steel pipe piles through the sliding fit of the sliding blocks and the sliding ways, so that the processing operations on a plurality of steel pipe piles are realized.

Preferably, the steel pipe pile comprises at least three steel pipe piles which are arranged at intervals along a first direction, and the platform assembly can move along the first direction.

Preferably, the hook locking piece comprises a flexible rope and a hook claw, one end of the flexible rope is connected with the sliding block, the other end of the flexible rope is connected with the hook claw, and the hook claw is clamped at the upper pipe orifice of the steel pipe pile.

Compared with the prior art, the utility model has the beneficial effects that:

1. The steel pipe pile working platform comprises a first slide rail, a second slide rail, a first sliding rail, a second sliding rail, a hook locking piece and a plurality of hook locking pieces, wherein the first slide rail and the second slide rail are both connected with at least two sliding blocks in a sliding manner, each sliding block is connected with a hook locking piece, the hook locking pieces can be used for hooking a workpiece to be processed, so that supporting force is provided for the steel pipe pile working platform, at least four hook locking pieces distributed on two sides of a channel can firmly hang and fix a platform assembly on the workpiece to be processed, so that the working platform to be processed is formed, the sliding fit of the sliding blocks and the slide rails enables one end, close to the platform assembly, of the hook locking pieces to move relative to the platform assembly along a first direction, so that the platform assembly can move relative to the workpiece to be processed along the first direction to advance to a next working area, and a hooking state with the workpiece to be processed can be maintained in a moving process, and the working platform can be flexibly and conveniently formed between a plurality of workpieces to be processed through advancing movement of the platform assembly. For example, the steel pipe pile working platform can be used for providing working platforms for a plurality of steel pipe piles which are linearly arranged, when the steel pipe pile working platform is used, a platform assembly can be hung on two adjacent steel pipe piles through at least four hook locking pieces to form the working platforms for the two steel pipe piles, and after the working is finished, the platform assembly is pushed and pulled to enable the next steel pipe pile to move along a first direction, so that the next steel pipe pile enters the platform assembly along a channel to form the working platform for the next steel pipe pile.

2. The steel pipe pile bracket welding system provided by the utility model has the advantages that the steel pipe pile working platform is used, so that the working platform can be flexibly and conveniently arranged around the steel pipe piles at low cost, so that workers can weld brackets on the steel pipe piles or perform other processing operations, and the working platform can be flexibly and conveniently formed among a plurality of continuous steel pipe piles through the sliding fit of the sliding blocks and the sliding ways, so that the processing operations on a plurality of steel pipe piles are realized.

Drawings

Fig. 1 is a schematic top view of a steel pipe pile working platform according to the present utility model;

Fig. 2 is a schematic side view of a steel pipe pile working platform according to the present utility model;

FIG. 3 is an enlarged view of portion A of FIG. 2;

Fig. 4 is a schematic diagram illustrating a movement of a steel pipe pile working platform according to the present utility model;

fig. 5 is a second schematic motion diagram of the steel pipe pile working platform according to the present utility model;

fig. 6 is a drawing illustrating a first drawing of the steel pipe pile working platform according to the present utility model;

fig. 7 is a second drawing schematic diagram of the steel pipe pile working platform according to the present utility model.

The marks in the figure:

1-a platform structure;

11-a platform connection;

12-a first slideway;

121-a sliding cavity, 122-an opening;

13-a second slideway;

14-a slider;

15-hooking the locking element;

151-fingers;

16-scaffold boards;

2-channel;

3-steel pipe piles;

4-corbels;

5-chain block.

Detailed Description

The present utility model will be described in further detail with reference to specific examples. It should not be construed that the scope of the above subject matter of the present utility model is limited to the following embodiments, and all techniques realized based on the present utility model are within the scope of the present utility model.

Unless specifically stated otherwise, in the description of specific embodiments of the present utility model, terms of expression of orientation or positional relationship in which "up", "down", "left", "right", "center", "inside", "outside", etc. are indicated are all expressions based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship in which the inventive products/apparatuses/devices are placed when they are conventionally used. These directional or positional terms are merely used to facilitate description of the aspects of the utility model or to simplify the description of the specific embodiments, so that a skilled artisan will readily understand the aspects, rather than to indicate or imply that a particular device/component/element must have a particular orientation or be constructed and operated in a particular positional relationship, and thus should not be construed as limiting the utility model.

Furthermore, the terms "horizontal," "vertical," "overhang," "parallel," and the like, if any, do not denote the requirement that the corresponding apparatus/component/element be absolutely horizontal or vertical or overhang or parallel, but may be slightly inclined or offset. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined. Or may be simply understood as a corresponding device/component/element, disposed in a "horizontal", "vertical", "overhanging", "parallel" or the like direction, capable of having an error/deviation within + 10%, more preferably within + 8%, more preferably within + 6%, more preferably within + 5%, more preferably within + 4% of the corresponding directional arrangement. As long as the corresponding device/component/element is within the error/deviation range, it is still possible to achieve its function in the solution according to the utility model.

Furthermore, the appearances of the terms such as "first," "second," "third," etc. are merely descriptive of distinguishing between similar or identical components and not necessarily for describing a particular part or for indicating or implying a relative importance.

Furthermore, in the description of the embodiments of the present utility model, "several", "a plurality" and "a number" represent at least 2. There may be any case of 2, 3, 4, 5, 6, 7, 8, 9, etc., and even more than 9.

Furthermore, in the description of the technical solutions of the present utility model, unless explicitly specified/limited/restricted otherwise, the occurrence of the terms "set", "install", "connect", "provided", "laid" and "arranged" shall be understood in a broad sense, for example, as a fixed connection, as a removable connection, as an integral connection, as a connection means commonly used in the art, such as welding, riveting, bolting, screwing, etc. The connection may be mechanical connection, electrical connection or communication connection, direct connection, indirect connection through an intermediate medium, or communication between two elements.

Example 1

As shown in fig. 1 to 5, the steel pipe pile working platform provided in this embodiment includes a platform assembly, a channel 2 extending along a first direction and a first slide 12 and a second slide 13 distributed on two sides of the channel 2 are arranged on the platform assembly, the first slide 12 and the second slide 13 extend along the first direction, at least two slide blocks 14 are slidably matched in the first slide 12 and the second slide 13, the slide blocks 14 on the first slide 12 and the slide blocks 14 on the second slide 13 are correspondingly arranged, and a hook lock 15 is connected to the slide blocks 14.

The platform assembly may be a platform-type member, and by arranging the platform assembly around the workpiece to be machined (e.g., the steel pipe pile 3), a work platform on which a worker stands may be formed, thereby allowing the worker to perform a machining operation on the workpiece to be machined.

The channel 2 is a road through which the workpiece to be machined can pass, and in use, the workpiece to be machined can enter the platform assembly from one end of the channel 2 and leave the platform assembly from the other end of the channel 2, and the channel 2 is preferably in a strip shape, and the strip shape is preferably arranged to extend along the first direction.

The first slide 12 and the second slide 13 are capable of sliding engagement with a slide 14, which allows a sliding movement of the slide 14 provided in the first slide 12 or the second slide 13 in a first direction, the slide 14 being connected to the catch 15, the sliding movement of the slide 14 in the first direction moving the point of attachment of the catch 15 to the slide 14 in the first direction.

The hooking locking piece 15 is used for connecting a workpiece to be machined and a platform assembly, the platform assembly can be hung on the workpiece to be machined through the hooking locking piece 15, the hanging mode is adopted, the ground layer is not required to be erected, the erecting height can be greatly shortened, the cost is saved, the hooking locking piece is also less limited by surrounding environments such as a foundation and the like, the application range is wider, and the position of the platform assembly can be changed by controlling the length of the hooking locking piece 15 and the connection position of the hooking locking piece and the workpiece to be machined, so that the platform assembly can be placed on the corresponding height.

It will be appreciated that the sliding fit of the slide 14 with the first slide 12 and the second slide 13 allows the slide 14 to move relative to the platform assembly along the first direction, but in the vertical direction, the first slide 12 and the second slide 13 can limit the slide 14 to be separated, and a large tensile force can be born between the first slide 12, the second slide 13 and the slide 14 to realize the suspension of the platform assembly, and in order to improve the stability of the platform assembly during suspension, at least two slides 14 are slidably fit in the first slide 12, at least two slides 14 are slidably fit in the second slide 13, and the slide 14 in the first slide 12 and the slide 14 in the second slide 13 are correspondingly arranged, and each slide 14 is connected with a hook lock 15, so that a workpiece to be processed can be connected through at least four rectangular hook locks 15 to realize the stable suspension of the platform assembly.

According to the steel pipe pile working platform, the first slide rail 12 and the second slide rail 13 are both connected with the at least two slide blocks 14 in a sliding mode, each slide block 14 is connected with the hooking locking piece 15, the hooking locking pieces 15 can be used for hooking a to-be-machined piece, so that supporting force is provided for the steel pipe pile working platform, at least four hooking locking pieces 15 distributed on two sides of the channel 2 can firmly hang and fix the platform assembly on the to-be-machined piece, so that the to-be-machined piece working platform is formed, the slide blocks 14 are in sliding fit with the slide rails, one end, close to the platform assembly, of the hooking locking piece 15 can move relative to the platform assembly along the first direction, the platform assembly can move relative to the to-be-machined piece along the first direction to move to the next working area, and in the moving process, the hooking state with the to-be-machined piece can be maintained, and accordingly the working platform can be flexibly and conveniently formed between a plurality of continuous to-be-machined pieces through the moving motion of the platform assembly, and the working operation of a plurality of to-be-machined pieces can be achieved.

For example, the steel pipe pile working platform can be used for providing working platforms for a plurality of steel pipe piles 3 which are linearly arranged, when the steel pipe pile working platform is used, a platform assembly can be hung on two adjacent steel pipe piles 3 through at least four hook locking pieces 15 to form the working platform for the two steel pipe piles 3, and after the working is completed, the platform assembly is pushed and pulled to move along a first direction, so that the next steel pipe pile 3 enters the platform assembly along a channel 2 to form the working platform for the next steel pipe pile 3.

In one or several preferred embodiments, the first slide 12 and the second slide 13 are each slidably fitted with at least three slides 14, the slides 14 on the first slide 12 being able to move in and out of the first slide 12 from both ends of the first slide 12, and the slides 14 on the second slide 13 being able to move in and out of the second slide 13 from both ends of the second slide 13.

As shown in FIG. 1, three or more sliding blocks 14 can improve the stability of the platform assembly when the platform assembly is hung on a workpiece to be processed, in addition, the sliding blocks 14 sliding out from the rear end of the advancing direction can enter the sliding ways again from the front end of the advancing direction in the advancing process of the platform assembly, so that the hooking requirement of the platform assembly in the advancing process can be met through the recycling of a limited number of sliding blocks 14, at least three sliding blocks 14 are arranged on each sliding way, and the four sliding blocks 14 and the hooking locking pieces 15 on the sliding blocks can be maintained to be hooked and connected with the workpiece to be processed at any moment through reasonable allocation, so that the hanging state of the platform assembly is maintained stable.

When the workpiece to be machined is a steel pipe pile, preferably, the lengths of the first slide rail 12 and the second slide rail 13 are greater than twice the center-to-center distance between two adjacent steel pipe piles, as shown in fig. 1, so that the first slide rail 12 and the second slide rail 13 can accommodate at least three sliding blocks 14 at the same time, and at any moment, at least two sliding blocks 14 can be in sliding fit with the first slide rail 12 or the second slide rail 13.

Preferably, both ends of the first slide rail 12 and both ends of the second slide rail 13 are opened, and the sliding block 14 can enter and exit the first slide rail 12 or the second slide rail 13 from both ends of the opened arrangement, for example, the sliding block 14 can be knocked by a hammer to assist in putting in or taking out the sliding block 14 from the ends of the first slide rail 12 and the second slide rail 13.

In one or several preferred embodiments, the platform assembly comprises two platform structures 1 arranged at intervals, the channel 2 is located between the two platform structures 1, and the platform connector 11 is fixedly connected between the two platform structures 1.

As shown in FIG. 1, the platform structures 1 can be platform-type members, the two platform structures 1 can be arranged in parallel at intervals, a channel 2 for a workpiece to pass through is formed between the two platform structures 1, and in order to improve the connection constraint between the two platform structures 1 and the stability during hooking, a platform connecting piece 11 can be arranged between the two platform structures 1, and the platform connecting piece 11 is fixedly connected with the two platform structures 1 respectively so as to reduce the probability of inwards overturning of the platform structures 1 due to uneven stress.

Alternatively, the platform connectors 11 are horizontal bars which are connected to the upper plate surface of the platform structure 1 for the worker to install and remove, and when the workpiece to be processed travels along the passage 2 to the horizontal bar installation position, the worker is required to remove the horizontal bars to free the traveling space of the workpiece to be processed, and in order to be able to maintain the stability of the two platform structures 1 during the installation and removal, the number of the platform connectors 11 is preferably three and arranged at intervals along the first direction.

Preferably, in order to avoid frequent disassembly, the platform connector 11 may be configured as a portal frame, as shown in fig. 2, where the portal frame includes two vertical rods respectively disposed on the two platform structures 1, and a cross rod connecting the upper ends of the two vertical rods, and the portal frame may enable workpieces to be machined (for example, the steel pipe piles 3 and the brackets 4) to pass through the lower portion of the cross rod by lifting the cross rod, so that frequent disassembly of the platform connector 11 is not required.

Preferably, a scaffold board 16 is arranged between the two platform structures 1, wherein the scaffold board 16 can be a wood board, a steel net frame and the like for a worker to tread and stand.

Preferably, the platform structure 1 is provided with guardrails, which may be provided on three sides other than the side close to the channel 2.

Preferably, the first slide 12 and the second slide 13 include a sliding cavity 121 extending in a first direction, and an opening 122 located at an upper portion of the sliding cavity 121, and the size of the opening 122 is smaller than the size of the slider 14 in a projection in the first direction.

As shown in fig. 3, the first slide 12 and the second slide 13 may be formed by two symmetrically arranged inverted L-shaped members, a sliding cavity 121 with a larger transverse dimension and an opening 122 with a smaller transverse dimension are formed between the two inverted L-shaped members, the sliding cavity 121 is provided for the sliding block 14 to slide along a first direction, the opening 122 is provided for the hooking and locking member 15 to extend into the connecting sliding block 14, and on the projection of the first direction, the size of the opening 122 is smaller than the size of the sliding block 14, so that the sliding block 14 cannot be separated from the first slide 12 or the second slide 13 from the vertical direction, and the hooking and locking member 15 can lift and hang the platform assembly through the lifting and hanging sliding block 14.

Example 2

The embodiment provides a steel pipe pile bracket welding system, which comprises at least two steel pipe piles 3 and the steel pipe pile working platform, wherein the at least two steel pipe piles 3 are positioned in a channel 2, at least two hooking locking pieces 15 are hung on the steel pipe piles 3, at least one sliding block 14 connected with the hooking locking pieces 15 is in sliding fit with a first slideway 12, and at least one sliding block 14 connected with the hooking locking pieces 15 is in sliding fit with a second slideway 13.

The steel pipe pile bracket welding system provided by the utility model can be used for flexibly and conveniently arranging the working platform around the steel pipe piles 3 with less cost so as to facilitate workers to weld brackets or perform other processing operations on the steel pipe piles 3, and can flexibly and conveniently form the working platform among a plurality of continuous steel pipe piles 3 through the sliding fit of the sliding blocks 14 and the sliding ways through the travelling movement of the platform assembly, thereby realizing the processing operations on a plurality of steel pipe piles 3.

Two hooking and locking elements 15 which are in connection and fit with the same steel pipe pile 3 can be symmetrically arranged along the first direction, and the two hooking and locking elements 15 are respectively in sliding fit with the first slide way 12 and the second slide way 13.

Preferably, it comprises at least three steel pipe piles 3 arranged at intervals along the first direction, and the platform assembly is movable along the first direction.

As shown in figure 1, at least three steel pipe piles 3 are positioned in a channel 2, each steel pipe pile 3 is symmetrically connected with two hooking locking pieces 15, when a platform assembly moves relative to the steel pipe pile 3 along a first direction, the steel pipe pile 3 positioned at the moving rear end leaves the length range of a first slide way 12 and a second slide way 13, a worker can take off the hooking locking pieces 15 and the sliding blocks 14 connected with the steel pipe pile 3, then the steel pipe pile 3 positioned at the moving front end is installed on the steel pipe pile 3, and the two sliding blocks 14 respectively enter the first slide way 12 and the second slide way 13, so that the circular turnover use of the hooking locking pieces 15 and the sliding blocks 14 is realized.

At least three steel-pipe piles 3 can still have four hook locks 15 to hook the platform assembly in the turnover process, and the position of the platform assembly is maintained stable.

Preferably, the hook lock 15 comprises a flexible rope and a hook claw 151, one end of the flexible rope is connected with the sliding block 14, the other end of the flexible rope is connected with the hook claw 151, and the hook claw 151 is clamped at the upper pipe orifice of the steel pipe pile 3.

As shown in fig. 2, the hook claw 151 may hook the upper pipe orifice of the steel pipe pile 3, so as to implement rapid hooking connection of the platform assembly, and the flexible ropes may have the same length, so that the platform assembly in the hooked state is horizontal.

The application method of the utility model comprises the following steps:

For example, for a plurality of steel pipe piles 3 extending out of the water surface and distributed along the line, the steel pipe pile operation platform of the utility model can be hung and installed on two or three steel pipe piles 3 through a hoisting machine, and a worker can weld bracket 4 or perform other processing operations on the two or three steel pipe piles 3;

After the above processing operation is completed, a pulling device may be disposed on the platform assembly, and the other end of the pulling device is connected to the steel pipe pile 3 outside the range of the operation platform, as shown in fig. 4 to 7, the acting force direction of the pulling device is adjusted so that the pulling device can be based on the steel pipe pile 3 outside the range of the operation platform, the platform assembly is pulled along the first direction until the next steel pipe pile or piles 3 in the first direction enter the channel 2, in this process, the hooking lock 15 is pulled by the steel pipe pile 3 to the hooking lock 15, and the slider 14 is pulled along the slide way, thereby maintaining the hooking state of the hooking lock 15 and the steel pipe pile 3 in the moving process of the platform assembly.

As shown in fig. 4 and 5, when the steel pipe pile 3 at the rear end of the traveling direction of the platform assembly slides over the ends of the first and second runners 12, 13 during the movement of the platform assembly, the hooking lock 15 and the slider 14 connected to the steel pipe pile 3 can be removed and attached to the steel pipe pile 3 entering the channel 2 from the front end of the traveling direction of the platform assembly, thus being recycled.

Pulling equipment such as a chain block 5, a hoist, and the like.

For facilitating the application of force by the pulling apparatus, for the steel pipe pile 3 closer to the platform assembly, a transverse long rod may be provided on the side thereof away from the platform assembly, to which the pulling apparatus is connected, as shown in fig. 6;

For a steel pipe pile 3 that is further from the platform assembly, the pulling apparatus may be directly connected to the steel pipe pile 3, as shown in fig. 7.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A steel pipe pile work platform, comprising:

The platform assembly comprises a channel (2) extending along a first direction, and a first slideway (12) and a second slideway (13) which are distributed on two sides of the channel (2) and extend along the first direction;

At least two sliding blocks (14) are in sliding fit in the first sliding way (12) and the second sliding way (13), and the sliding blocks (14) on the first sliding way (12) and the sliding blocks (14) on the second sliding way (13) are correspondingly arranged;

The sliding block (14) is connected with a hook locking piece (15).

2. The steel pipe pile working platform according to claim 1, wherein the first slide way (12) and the second slide way (13) are both in sliding fit with at least three sliding blocks (14), the sliding blocks (14) on the first slide way (12) can enter and exit the first slide way (12) from two ends of the first slide way (12), and the sliding blocks (14) on the second slide way (13) can enter and exit the second slide way (13) from two ends of the second slide way (13).

3. The steel pipe pile working platform according to claim 2, characterized in that both ends of the first slideway (12) and both ends of the second slideway (13) are arranged open.

4. A steel pipe pile working platform according to claim 1, characterized in that the platform assembly comprises two platform structures (1) arranged at intervals, the channel (2) is positioned between the two platform structures (1), and a platform connecting piece (11) is fixedly connected between the two platform structures (1).

5. A steel pipe pile working platform according to claim 4, characterised in that the platform connection (11) is a portal frame which is erected between two of the platform structures (1).

6. A steel pipe pile working platform according to claim 4, characterised in that a scaffold board (16) is erected between two of the platform structures (1).

7. The steel pipe pile working platform according to any one of claims 1-6, characterized in that the first slide (12), the second slide (13) comprise a slide cavity (121) extending in a first direction, and an opening (122) in the upper part of the slide cavity (121), the opening (122) having a smaller size than the slider (14) in the projection in the first direction.

8. The steel pipe pile bracket welding system is characterized by comprising at least two steel pipe piles (3) and the steel pipe pile operation platform according to any one of claims 1-7, wherein at least two steel pipe piles (3) are located in the channel (2), at least two hooking locking pieces (15) are hung on the steel pipe piles (3), at least one sliding block (14) connected with the hooking locking pieces (15) is in sliding fit with the first sliding way (12), and at least one sliding block (14) connected with the hooking locking pieces (15) is in sliding fit with the second sliding way (13).

9. The steel pipe pile bracket welding system according to claim 8, comprising at least three of said steel pipe piles (3) arranged at intervals along a first direction, said platform assembly being movable along the first direction.

10. The steel pipe pile bracket welding system according to claim 8, characterized in that the hooking lock (15) comprises a flexible rope and a hook claw (151), one end of the flexible rope is connected with the sliding block (14), the other end of the flexible rope is connected with the hook claw (151), and the hook claw (151) is clamped at an upper pipe orifice of the steel pipe pile (3).