CN220016321U

CN220016321U - Hydraulic engineering pipeline docking mechanism

Info

Publication number: CN220016321U
Application number: CN202321352018.9U
Authority: CN
Inventors: 张方坤; 赵明上; 程皓; 云建华; 夏桃
Original assignee: Henan Keping Engineering Testing Consulting Co ltd
Current assignee: Henan Keping Engineering Testing Consulting Co ltd
Priority date: 2023-05-31
Filing date: 2023-05-31
Publication date: 2023-11-14
Anticipated expiration: 2033-05-31

Abstract

The utility model relates to the technical field of pipeline installation supporting equipment, in particular to a hydraulic engineering pipeline butt joint mechanism which comprises an installation rod, an axial sliding groove, an axial sliding block, radial sliding rails, a sliding frame, connecting arms, connecting holes, positioning pins, clamping blocks and lifting blocks.

Description

Hydraulic engineering pipeline docking mechanism

Technical Field

The utility model relates to the technical field of pipeline installation supporting equipment, in particular to a hydraulic engineering pipeline butt joint mechanism.

Background

When hydraulic engineering is constructed, often need to drain different rivers, water such as sewage, especially when the water needs to pass structures such as building, bridge, need use the pipeline to switch on the water, in current work progress, the kind of pipeline is divided into cement pipeline, metal pipeline, synthetic material pipeline etc. and the self weight of these pipelines is great, and the installation in-process needs to be assembled by segmentation, often adopt lifting equipment such as crane in the current work progress, bind through the rope, lift up the tip of a pipeline, and then the manual operation pipeline tip aligns its tip with the tip of another pipeline, this kind of mounting means often still needs personnel to fall into the channel of digging, just can realize the operation of alignment, there is certain potential safety hazard, and the alignment in-process speed of adjusting two pipeline tips is slower, the precision relies on workman's manual operation completely, influence the construction progress, still easily cause the collision damage of pipeline tip, produce the loss, therefore a hydraulic engineering pipeline docking mechanism is proposed and these problems are solved.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the hydraulic engineering pipeline docking mechanism which has the advantages of high pipeline docking speed, simplicity and convenience in operation and high safety and is beneficial to improving the working efficiency by improving the pipeline docking precision.

The above-mentioned application purpose of the utility model is realized through the following technical scheme:

the utility model provides a hydraulic engineering pipeline docking mechanism, includes installation pole, axial spout, axial slider, radial slide rail, carriage, linking arm, connecting hole, locating pin, clamp splice and hoist and mount piece, axial spout has been seted up respectively to the lower surface at installation pole both ends, the cross-section of axial spout is T shape, the upper end of axial slider is sliding connection respectively in axial spout, the cross-section of axial slider is "worker" font, radial slide rail is fixed connection respectively at the lower surface of axial slider both sides, radial slide rail's trend is mutually perpendicular with the direction of movement of axial slider, the upper end and the radial slide rail sliding connection of carriage are in the same place, two linking arms are a set of, the connecting hole has been seted up in the equidistance link up respectively on the linking arm, the locating pin passes respectively in the connecting hole of every linking arm cross position of group, the both ends of locating pin respectively with the lower extreme swing joint of carriage, the clamp splice is fixed connection respectively at the lower extreme of every linking arm of linking arm, two clamp splice of every group lower extreme are cooperation respectively and are connected, the clamp splice is connected with the hoist and mount piece respectively on the two side of pipeline body and the surface symmetry is connected on the hoist and mount piece, the surface mounting position is fixed connection respectively on the both sides.

Optionally, the electric power device further comprises a connecting protrusion and an electric push rod, wherein the connecting protrusion is fixedly connected to the lower surface of the middle position of the mounting rod, the two electric push rods are arranged, the respective connecting ends of the electric push rods are respectively connected with the surface fixing of the two sides of the connecting protrusion, the telescopic ends of the electric push rods are respectively connected with the surface fixing of the axial sliding block at the end, and the input ends of the electric push rods are electrically connected with the output end of an external power supply.

Optionally, still include connecting frame and adjustment lead screw, the connecting frame outward appearance is the U-shaped, the both sides of connecting frame are fixed connection respectively at the surface of every radial slide rail of group, adjustment lead screw threaded connection respectively in the middle part of connecting frame, the tip of adjustment lead screw rotates with the surface of carriage to be connected together respectively.

Optionally, the clamping device further comprises clamping protrusions, and the clamping protrusions are respectively and fixedly connected to the lower ends of the clamping blocks.

Optionally, the clamping block further comprises arc-shaped surfaces which are respectively arranged on the surfaces of the opposite sides of the clamping block at the same end.

Optionally, still include carousel and regulation handle, the middle part of carousel is fixed connection respectively at the tip of adjusting the lead screw, the regulation handle rotates respectively to be connected on the surface that the carousel deviates from the centre of a circle, is close to the marginal position.

Optionally, still include connecting seat and connecting rod, the connecting seat passes through the connecting rod cooperation and connects in the through-hole department of hoist and mount piece.

Optionally, the axial sliding groove is provided with a plurality of axial sliding grooves, and the axial sliding groove is provided with a plurality of axial sliding grooves.

In summary, the present utility model includes at least one of the following beneficial technical effects:

the hydraulic engineering pipeline butt joint mechanism can realize the connection of the end parts of the pipeline body through the clamping blocks when in use, so that the pipeline body is lifted to a certain height, and the end parts of some heavier pipelines can be simultaneously adjusted when lifted, so that the pipeline body is butt-jointed together;

according to the hydraulic engineering pipeline butt joint mechanism, the ends of two pipelines can be transversely or longitudinally adjusted, so that the time consumed by pipeline butt joint is greatly shortened, personnel are prevented from entering a ditch, safety accidents are effectively reduced, the hydraulic engineering pipeline butt joint mechanism has good application value, and the labor intensity of the personnel is reduced;

this hydraulic engineering pipeline docking mechanism, the adjustment lead screw that sets up can realize carrying out fine adjustment to the position of carriage on axial spout, and then realizes that the pipeline body draws close each other through the electric putter of setting, realizes the butt joint process, and application scope is wide, and the practicality is good.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic view of a portion of the assembly structure of an embodiment of the present utility model;

fig. 3 is a schematic bottom structure of an embodiment of the present utility model.

Reference numerals: 1. a mounting rod; 2. an axial chute; 3. an axial slider; 4. a radial slide rail; 5. a carriage; 6. a connecting arm; 7. a connection hole; 8. a positioning pin; 9. clamping blocks; 10. hoisting the block; 11. a connection protrusion; 12. an electric push rod; 13. a connection frame; 14. adjusting a screw rod; 15. the clamping bulge; 16. an arc surface; 17. a turntable; 18. adjusting the handle; 19. a connecting seat; 20. a connecting rod; 21. scale marks; 22. a pipe body.

Description of the embodiments

The present utility model will be described in further detail with reference to the accompanying drawings.

In order to more clearly understand the technical scheme shown in the embodiment of the utility model, the work of the conventional hydraulic engineering pipeline docking mechanism is first described.

The existing hydraulic engineering pipeline docking mechanism is characterized in that a pipeline is supported by a side pipeline, the structure is of a fixed supporting frame structure, the pipeline is docked, but because the diameters of some pipelines are large, the other pipelines which are supported by manpower are required to be moved, the pipelines are mutually close to each other by manpower, the ends are coated or bonded with other connecting agents, the lifting effect of the mode and the traditional lifting structure is not obvious enough, the convenience is poor, and the lifting and docking mode is required to be improved to solve the problems.

Referring to fig. 1, a hydraulic engineering pipeline docking mechanism disclosed in the embodiments of the present utility model includes a mounting rod 1, an axial chute 2, an axial sliding block 3, a radial sliding rail 4, a sliding frame 5, connecting arms 6, connecting holes 7, positioning pins 8, clamping blocks 9 and hoisting blocks 10, wherein the lower surfaces of two ends of the mounting rod 1 are respectively provided with the axial chute 2, the section of the axial chute 2 is T-shaped, the upper ends of the axial sliding blocks 3 are respectively and slidably connected in the axial chute 2, the section of the axial sliding block 3 is i-shaped, the radial sliding rail 4 is respectively and fixedly connected to the lower surfaces of two sides of the axial sliding block 3, the trend of the radial sliding rail 4 is perpendicular to the moving direction of the axial sliding block 3, the upper ends of the sliding frame 5 are slidably connected with the radial sliding rail 4, two connecting arms 6 are in a group, the connecting arms 6 are respectively and equidistantly and penetratingly provided with the connecting holes 7, the positioning pins 8 respectively pass through the connecting holes 7 of the crossing positions of each group of the connecting arms 6, the two ends of the positioning pins 8 are respectively movably connected with the lower ends of the sliding frame 5, the clamping blocks 9 are respectively and fixedly connected to the lower ends of each connecting arm 6, the lower ends of the connecting arms 6 are respectively, the clamping blocks 9 are respectively and the two sides of the two symmetrical clamping blocks 9 are respectively connected to the hoisting blocks 10, and the two sides of the connecting blocks are respectively and the upper surfaces of the connecting blocks 9 are respectively and two sides of the connecting blocks are respectively and fixedly connected to the two sides of the hoisting blocks and two sides of the corresponding surfaces 1.

Specifically, the upper end of the installation rod 1 is provided with a hoisting block 10, which can be used for being connected with a crane or other hoisting equipment, the installation rod 1 can provide firm support, and further can reach enough strength when two ends of a pipeline are required to be lifted respectively, the arranged axial sliding chute 2 can enable the axial sliding block 3 to slide in the axial direction, the lower end of the arranged axial sliding block 3 is used for connecting the radial sliding rail 4, the radial sliding rail 4 can move along with the movement of the axial sliding block 3, the local adjustment can be used when two ends of the pipeline are aligned in the butt joint process, the arranged sliding frame 5 can slide on the radial sliding rail 4 for a certain distance, the connecting arm 6 can follow the movement in the movement process, the connecting arm 6 is provided with a connecting hole 7, can connect locating pin 8 in different positions according to the diameter of different pipelines to make the cross position of linking arm 6 follow upwards when lifting installation pole 1, and then make clamp splice 9 produce pressure, clamp splice 9 can set up to buckling or form L shape with linking arm 6 as required, be used for adapting to the hoist and mount connection except tubular panel etc. use, also can cooperate safety rope according to the demand in actual use, make clamp splice 9 department more firm to the connection of pipeline, avoid the emergence of phenomenon that drops, promote the security, and then realized the front and back of pipeline tip and moved about, promoted docking efficiency greatly, help the reduction of time limit for a project, have better application prospect, the practicality is better.

Referring to fig. 3, as another embodiment of the disclosure, the device further includes a connection protrusion 11 and an electric push rod 12, the connection protrusion 11 is fixedly connected to the lower surface of the middle position of the installation rod 1, the electric push rod 12 is provided with two connection ends of the electric push rod 12, the connection ends of the electric push rod 12 are respectively and fixedly connected to the surfaces of two sides of the connection protrusion 11, the telescopic ends of the electric push rod 12 are respectively and fixedly connected to the surfaces of the axial sliding blocks 3 at the ends, and the input end of the electric push rod 12 is electrically connected to the output end of an external power supply.

Specifically, the setting of connecting protrusion 11 can be connected electric putter 12, and electric putter 12 can promote or the pulling to the axial slider 3 of both sides respectively, and then realizes driving when the butt joint to the pipeline of both sides, compares the butt joint of manpower or the mounting means of plus butt joint pushing equipment, has reduced the use of other equipment, and the function is more powerful, and the convenience is better.

Referring to fig. 2, as another embodiment of the disclosure, the present disclosure further includes a connection frame 13 and an adjusting screw 14, the connection frame 13 is in a U shape, two sides of the connection frame 13 are respectively and fixedly connected to the outer surfaces of each set of radial sliding rails 4, the adjusting screw 14 is respectively and threadedly connected to the middle part of the connection frame 13, and the end parts of the adjusting screw 14 are respectively and rotatably connected to the surface of the sliding frame 5.

Specifically, the setting of connecting frame 13 can be used for connecting adjustment lead screw 14, when rotating adjustment lead screw 14, can promote the carriage 5 of tip, realizes the adjustment under the inconsistent condition of pipeline highly uniform angle, avoids personnel to go into the canal and promotes the work emergence of pipeline tip, has alleviateed personnel's intensity of labour to help personnel's security to promote, the pipeline is difficult to directly bump in the adjustment process, has reduced the impaired phenomenon emergence of pipeline tip simultaneously, helps the promotion of connection quality.

Referring to fig. 3, another embodiment of the present utility model is disclosed, which further includes a clamping protrusion 15, where the clamping protrusion 15 is fixedly connected to the lower end of each clamping block 9.

Specifically, the lower end of the pipeline can be supported by the clamping protrusion 15, so that the phenomenon of sliding caused by insufficient clamping force is avoided.

Referring to fig. 3, another embodiment of the present utility model is disclosed, which further includes an arc surface 16, wherein the arc surfaces 16 are respectively formed on the surfaces of opposite sides of the same end clamping block 9.

Specifically, the contact area between the clamping block 9 and the pipeline body 22 can be increased by the arrangement of the arc-shaped surface 16, the occurrence of local overlarge stress is avoided, the occurrence of damage is reduced, and the connection firmness in the butt joint process is improved.

Referring to fig. 2, another embodiment of the present utility model is disclosed, which further includes a turntable 17 and an adjusting handle 18, wherein the middle of the turntable 17 is fixedly connected to the end of the adjusting screw 14, and the adjusting handle 18 is rotatably connected to the surface of the turntable 17 deviating from the center of the circle and approaching to the edge.

Specifically, the turntable 17 and the adjusting handle 18 are arranged, so that the adjusting screw 14 can be rotated conveniently, the operation is convenient, and the adjusting screw can be used in more scenes.

Referring to fig. 2, another embodiment of the present utility model is disclosed, which further includes a connecting seat 19 and a connecting rod 20, wherein the connecting seat 19 is connected to the through hole of the lifting block 10 through the connecting rod 20.

Specifically, the connection base 19 is configured to connect the hoisting blocks 10 through the connection rod 20, and can be used in a situation of one hoisting point, when the connection base 19 is not additionally installed, the connection base 19 can be used in a situation of different hoisting points at two ends of an uneven ground, and after the connection base 19 is additionally installed, rope wear generated in a single hoisting point can be reduced.

Referring to fig. 1, another embodiment of the present utility model is disclosed, which further includes scale marks 21, where the scale marks 21 are equidistantly arranged on the surface of the installation rod 1 corresponding to the axial chute 2.

Specifically, the setting of scale mark 21 can comparatively audio-visual observation adjustment's angle when using, accords with the use of actual scene, promotes the convenience.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims

1. A hydraulic engineering pipeline docking mechanism which is characterized in that: the device comprises a mounting rod (1), an axial sliding groove (2), an axial sliding block (3), radial sliding rails (4), sliding frames (5), connecting arms (6), connecting holes (7), positioning pins (8), clamping blocks (9) and lifting blocks (10), wherein the lower surfaces of two ends of the mounting rod (1) are respectively provided with the axial sliding groove (2), the cross sections of the axial sliding grooves (2) are in T shapes, the upper ends of the axial sliding blocks (3) are respectively and slidably connected in the axial sliding groove (2), the cross sections of the axial sliding blocks (3) are I-shaped, the radial sliding rails (4) are respectively and fixedly connected to the lower surfaces of two sides of the axial sliding blocks (3), the trend of the radial sliding rails (4) is perpendicular to the moving direction of the axial sliding blocks (3), the upper ends of the sliding frames (5) are in sliding connection with the radial sliding rails (4), two connecting arms (6) are in a group, the connecting holes (7) are respectively and equidistantly and respectively and completely arranged on the connecting arms (6), the positioning pins (8) respectively penetrate through the connecting holes (7) of each group of connecting arms (6) at the cross positions, the two ends of the connecting pins (6) are respectively and the lower ends of the sliding frames (9) are respectively and fixedly connected to the lower ends of the sliding frames (9), two clamping blocks (9) at the lower end of each group of connecting arms (6) are respectively connected in a matched mode, the clamping blocks (9) are respectively connected with the surfaces of two sides of the pipeline body (22), the lifting blocks (10) are symmetrically and fixedly connected to the upper surfaces of two sides of the middle position of the mounting rod (1), and through holes are respectively formed in the lifting blocks (10).

2. The hydraulic engineering pipeline docking mechanism according to claim 1, wherein: the electric power device is characterized by further comprising a connecting protrusion (11) and an electric push rod (12), wherein the connecting protrusion (11) is fixedly connected to the lower surface of the middle position of the mounting rod (1), the electric push rod (12) is provided with two connecting ends of the electric push rod (12) respectively and fixedly connected with the surfaces of two sides of the connecting protrusion (11), the telescopic ends of the electric push rod (12) are respectively and fixedly connected with the surfaces of the axial sliding blocks (3) of the ends, and the input ends of the electric push rod (12) are electrically connected with the output ends of an external power supply.

3. The hydraulic engineering pipeline docking mechanism according to claim 1, wherein: the novel sliding frame comprises a sliding frame body and is characterized by further comprising a connecting frame (13) and an adjusting screw (14), wherein the appearance of the connecting frame (13) is U-shaped, two sides of the connecting frame (13) are respectively and fixedly connected to the outer surface of each group of radial sliding rails (4), the adjusting screw (14) is respectively and threadedly connected to the middle part of the connecting frame (13), and the end parts of the adjusting screw (14) are respectively and rotatably connected with the surface of the sliding frame (5).

4. The hydraulic engineering pipeline docking mechanism according to claim 1, wherein: the clamping device further comprises clamping bulges (15), and the clamping bulges (15) are respectively and fixedly connected to the lower ends of the clamping blocks (9).

5. The hydraulic engineering pipeline docking mechanism according to claim 1, wherein: the clamping block also comprises an arc-shaped surface (16), wherein the arc-shaped surfaces (16) are respectively arranged on the surfaces of the opposite sides of the clamping block (9) at the same end.

6. A hydraulic engineering pipe docking mechanism according to claim 3, characterized in that: the automatic adjusting device is characterized by further comprising a rotary table (17) and an adjusting handle (18), wherein the middle part of the rotary table (17) is fixedly connected to the end part of the adjusting screw rod (14) respectively, and the adjusting handle (18) is rotatably connected to the surface of the rotary table (17) deviating from the circle center and approaching to the edge position respectively.

7. The hydraulic engineering pipeline docking mechanism according to claim 1, wherein: the lifting device further comprises a connecting seat (19) and a connecting rod (20), wherein the connecting seat (19) is connected to the through hole of the lifting block (10) in a matched mode through the connecting rod (20).

8. The hydraulic engineering pipeline docking mechanism according to claim 1, wherein: the device further comprises scale marks (21), wherein the scale marks (21) are equidistantly arranged on the surface of the mounting rod (1) corresponding to the axial sliding groove (2).