CN219259299U - Rubber lining pipeline installation device - Google Patents

Abstract

The utility model discloses a rubber lining pipeline installation device which comprises a lifting part, an adjusting part, a telescopic fixing part and a balancing part, wherein the lifting part is connected with the adjusting part; the lifting part is transversely penetrated with the balance part, the telescopic fixing parts are fixed on the two longitudinal sides, the two bottom sides are connected with the sliding blocks through the connecting frame, the sliding blocks are fixed with the U-shaped frame, and the two bottom sides of the U-shaped frame are fixed with the adjusting parts; an adjusting part which is oppositely and oppositely arranged for clamping the rubber lining pipeline; the telescopic fixing part is provided with two ends of the protection balance part in opposite opposition; and the balance part is arranged in parallel with the cross beam of the lifting part, and the left end and the right end of the balance part are arranged between the telescopic fixing parts. The utility model adopts the balance part to monitor the installation device, so that the technical problem that the installation device in the prior art cannot meet the coaxiality requirement of the installation of the subsequent rubber lining pipeline, thereby causing unstable connection of the rubber lining pipeline is effectively solved, and the balance degree of the installation device is timely fed back to staff.

Description

Rubber lining pipeline installation device

Technical Field

The utility model relates to the technical field of rubber lining pipeline equipment, in particular to a rubber lining pipeline installation device.

Background

The working principle of the rubber lining pipeline is that a layer of rubber lining is clamped between two layers of plastic pipelines to form a pipeline structure. The sandwich of rubber liners has two functions: firstly, the connection between plastic pipelines is firm, so that the pipeline structure is more stable; and secondly, the contact area between the plastic pipelines is increased, so that friction between the plastic pipelines is reduced, and the service life of the pipelines is prolonged. The rubber lining pipeline has the advantages of effectively resisting the external static electricity, preventing the pipeline from being influenced by the static electricity and causing pollution to the external environment. In addition, the mechanical strength of the rubber lining pipeline is higher than that of a common plastic pipeline, so that the pipeline is more stable and can bear larger pressure.

In the installation process of the rubber lining pipeline in the prior art, the following technical problems exist:

the lifting device is unstable in balance degree after long-time use, and the coaxiality requirement of the installation of the subsequent rubber lining pipeline cannot be met, so that the connection of the rubber lining pipeline is unstable.

The adjustment cannot be performed according to the size of the rubber lining pipe, and only the rubber lining pipe with a fixed size can be clamped.

Disclosure of Invention

According to the rubber lining pipe installation device, the technical problem that the connection of the rubber lining pipe is unstable is solved by the fact that the installation device in the prior art cannot meet the coaxiality requirement of the installation of the subsequent rubber lining pipe, the installation device is monitored through the balancing part, and the balancing degree of the installation device can be timely fed back to staff.

The embodiment of the application provides a rubber lining pipeline installation device, which comprises a lifting part, an adjusting part, a telescopic fixing part and a balancing part; the lifting part is transversely penetrated with the balance part, the telescopic fixing parts are fixed on the two longitudinal sides, the two bottom sides are connected with the sliding blocks through the connecting frame, the sliding blocks are fixed with the U-shaped frame, and the two bottom sides of the U-shaped frame are fixed with the adjusting parts; an adjusting part which is oppositely and oppositely arranged for clamping the rubber lining pipeline; the telescopic fixing part is provided with two ends of the protection balance part in opposite opposition; and the balance part is arranged in parallel with the cross beam of the lifting part, and the left end and the right end of the balance part are arranged between the telescopic fixing parts.

Further, the lifting part comprises a lifting lug, a damping box, a connecting rod, a rope, a connecting column, a rope ring and a cross beam; the lifting lug is connected with a damping box through a lifting lug connecting rod, and the top of the lifting lug is connected with a crane; the shock absorption box is provided with rope rings at two sides, adopts a hollow cuboid structure and is provided with through holes at the upper and lower parts; the bottom of the connecting rod is connected with a cross beam, the middle part of the connecting rod is penetrated with a connecting column, the top of the connecting rod is arranged in the damping box, and the connecting rod is of a T-shaped structure; the upper surfaces of the two sides of the cross beam are provided with rope rings; the rope rings are connected with rope rings at two sides of the damping box through ropes; the ropes are elastic, and a triangular connection structure is formed between the two groups of ropes and the cross beam; the connecting column is integrally formed with the connecting rod, a rotating shaft is longitudinally arranged in the connecting column, a through hole is transversely formed in the connecting column, and a balancing part is arranged in the rotating shaft in a penetrating mode.

Further, the damping box comprises a lifting lug connecting rod, a connecting shaft and a spring; the lifting lug connecting rod is of a T-shaped structure, the upper end of the lifting lug connecting rod is connected with a lifting lug, and the lower end of the lifting lug connecting rod penetrates into the damping box; the connecting shafts are vertically fixed in the damping box and are arranged into two groups; the springs penetrate through the upper end and the lower end of the connecting shaft, the springs at the upper end are limited through the lifting lug connecting rods, and the springs at the lower end are limited through the connecting rods.

Further, the balance part comprises a balance block and a balance rod; the balance rod transversely penetrates into a through hole of the connecting column, and the diameter of the through hole is larger than that of the balance rod; the balance weight is arranged at two sides of the balance rod.

Further, the adjusting part comprises an adjusting handle, an adjusting box, a threaded rod and a pipeline supporting frame; the adjusting boxes are arranged on two side surfaces of the U-shaped frame; the adjusting handles are arranged at two sides of the adjusting box; one end of the threaded rod penetrates through the U-shaped frame and the adjusting box to be connected with the adjusting handle; and the pipeline supporting frame is connected with the other end of the threaded rod.

Further, the telescopic fixing part comprises a U-shaped clamping block, a telescopic pipe and a telescopic column; one side of the telescopic column is connected with a U-shaped clamping block, and the other side of the telescopic column penetrates through the cross beam; the telescopic pipe is of a U-shaped structure and is in sliding connection with the telescopic column; the U-shaped fixture blocks are arranged into two groups, and a balance weight is arranged between the U-shaped fixture blocks.

Further, the shape of the inner ring of the pipeline supporting frame is consistent with the shape of the outer ring of the rubber lining pipeline.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

because the balance part is adopted to monitor the installation device, the installation device in the prior art can not meet the coaxiality requirement of the installation of the subsequent rubber lining pipeline, so that the technical problem of unstable connection of the rubber lining pipeline is caused, and the balance degree of the installation device is timely fed back to staff.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a top view of an embodiment of the present application;

FIG. 3 is a cross-sectional view of A-A of FIG. 2;

FIG. 4 is a schematic structural view of a balance portion according to an embodiment of the present disclosure;

fig. 5 is a schematic structural view of a telescopic fixing portion according to an embodiment of the present application.

Detailed Description

Because the balance part is adopted to monitor the installation device, the installation device in the prior art can not meet the coaxiality requirement of the installation of the subsequent rubber lining pipeline, so that the technical problem of unstable connection of the rubber lining pipeline is caused, and the balance degree of the installation device is timely fed back to staff.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Examples

A rubber lining pipe installation device comprises a lifting part 1, an adjusting part 5, a telescopic fixing part 6 and a balancing part 7;

the lifting part 1 is transversely provided with a balancing part 7 in a penetrating way, the two longitudinal sides are respectively fixed with a telescopic fixing part 6, the two bottom sides are connected with a sliding block 3 through a connecting frame 2, the sliding block 3 is fixedly provided with a U-shaped frame 4, and the two bottom sides of the U-shaped frame 4 are respectively fixedly provided with an adjusting part 5;

the adjusting part 5 is oppositely and oppositely arranged to clamp the rubber lining pipeline, and is used for clamping the rubber lining pipeline through screw thread adjustment and locking;

the telescopic fixing part 6 is provided with two ends of the protection balance part 7 opposite to each other, and can stretch and retract, and after the work is finished, the balance part 7 is fixed to prevent damage.

The balance part 7 is arranged in parallel with the cross beam 1.7 of the lifting part 1, and the left end and the right end of the balance part are arranged between the telescopic fixing parts 6, so that the balance degree of the whole installation device can be visually seen through the balance part 7.

Examples

The lifting part 1 comprises a lifting lug 1.1, a damping box 1.2, a connecting rod 1.3, a rope 1.4, a connecting column 1.5, a rope ring 1.6 and a cross beam 1.7;

the lifting lug 1.1 is connected with a damping box 1.2 through a lifting lug connecting rod 1.21, the top of the damping box is connected with a lifting machine, and lifting of the installation device is realized through the lifting lug 1.1;

the damping box 1.2 is provided with rope rings 1.6 at two sides, a hollow cuboid structure is adopted, through holes are formed in the upper and lower parts, and damping of the installation device is realized through the damping box 1.2;

the connecting rod 1.3, the bottom is connected with the cross beam 1.7, the middle part is penetrated with the connecting column 1.5, the top is arranged in the shock absorption box 1.2, the connecting rod 1.3 is of a T-shaped structure, and the shock absorption box 1.2 is connected with the cross beam 1.7 through the connecting rod 1.3;

the upper surfaces of the two sides of the cross beam 1.7 are provided with rope rings 1.6, and the two ends of the rubber lining pipeline are clamped through the cross beam 1.7;

rope rings 1.6, wherein the rope rings 1.6 at two sides of the damping box 1.2 are connected through ropes 1.4; the ropes 1.4 are elastic, and a triangular connection structure is formed between the two groups of ropes 1.4 and the cross beam 1.7; the damping box 1.2 is connected with the cross beam 1.7 through the telescopic ring 1.6 and the rope 1.4, so that unstable connection caused by overlong cross beam 1.7 is prevented;

the spliced pole 1.5, with connecting rod 1.3 integrated into one piece, inside vertical pivot 1.51 that is provided with of spliced pole 1.5 transversely is provided with the through-hole, and balanced portion 7 is worn to be equipped with by pivot 1.51, realizes through spliced pole 1.5 that balanced portion 7 can keep a balanced state under the horizontality, and when taking place the slope, the balancing piece 7.1 can appear the slope to remind the staff.

Examples

The damping box 1.2 comprises a lifting lug connecting rod 1.21, a connecting shaft 1.22 and a spring 1.23;

the lifting lug connecting rod 1.21 is of a T-shaped structure, the upper end of the lifting lug connecting rod is connected with the lifting lug 1.1, and the lower end of the lifting lug connecting rod penetrates into the damping box 1.2; damping of the upper half part of the installation device is achieved through the lifting lug connecting rod 1.21;

the connecting shafts 1.22 are vertically fixed in the damping box 1.2 and are arranged into two groups; the fixed mounting of the spring 1.23 is realized through the connecting shaft 1.22;

the springs 1.23 are arranged at the upper end and the lower end of the connecting shaft 1.22 in a penetrating way, the springs 1.23 at the upper end are limited by the lifting lug connecting rod 1.21, and the springs 1.23 at the lower end are limited by the connecting rod 1.3; damping of the mounting device is achieved by means of springs 1.23.

Examples

The balance part 7 comprises a balance weight 7.1 and a balance rod 7.2; the balance rod 7.2 transversely penetrates through a through hole of the connecting column 1.5, and the diameter of the through hole is larger than that of the balance rod 7.2; the balance weights 7.1 are arranged on two sides of the balance rod 7.2. One monitoring to the installation device is realized through the balance weight 7.1 and the balance rod 7.2, and the balance degree of the installation device can be timely fed back to staff.

Examples

The adjusting part 5 comprises an adjusting handle 5.1, an adjusting box 5.2, a threaded rod 5.3 and a pipeline supporting frame 5.4; the adjusting boxes 5.2 are arranged on two sides of the U-shaped frame 4; the adjusting handles 5.1 are arranged at two sides of the adjusting box 5.2; one end of the threaded rod 5.3 penetrates through the U-shaped frame 4 and the adjusting box 5.2 to be connected with the adjusting handle 5.1; the pipeline supporting frame 5.4 is connected with the other end of the threaded rod 5.3; the size of the clamping of the rubber lining pipe can be freely adjusted through the adjusting part 5, so that the clamping device can be suitable for rubber lining pipes with different sizes.

Examples

The telescopic fixing part 6 comprises a U-shaped clamping block 6.1, a telescopic pipe 6.2 and a telescopic column 6.3; a U-shaped clamping block 6.1 is connected to one side of the telescopic column 6.3, and the other side of the telescopic column passes through the cross beam 1.7; the telescopic pipe 6.2 is of a U-shaped structure and is in sliding connection with the telescopic column 6.3; the U-shaped clamping blocks 6.1 are arranged into two groups, and the balance blocks 7.1 are arranged between the two groups. The balance part 7 is protected after the work is finished by the telescopic fixing part 6, and the balance part 7 is prevented from collision in the carrying process.

While preferred embodiments of the present utility model have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the utility model.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. A rubber lined pipe installation device, characterized in that: comprises a lifting part (1), an adjusting part (5), a telescopic fixing part (6) and a balancing part (7);

the lifting part (1) is transversely penetrated with a balance part (7), telescopic fixing parts (6) are fixed on two longitudinal sides, sliding blocks (3) are connected to two bottom sides through connecting frames (2), U-shaped frames (4) are fixed on the sliding blocks (3), and adjusting parts (5) are fixed on two bottom sides of the U-shaped frames (4);

an adjusting part (5) which is oppositely arranged to clamp the rubber lining pipeline;

the telescopic fixing part (6) is provided with two ends of the protection balance part (7) oppositely;

the balance part (7) is arranged in parallel with the cross beam (1.7) of the lifting part (1), and the left end and the right end are arranged between the telescopic fixing parts (6).

2. A rubber lined pipe installation apparatus as claimed in claim 1, wherein: the lifting part (1) comprises lifting lugs (1.1), a damping box (1.2), a connecting rod (1.3), ropes (1.4), connecting columns (1.5), rope rings (1.6) and cross beams (1.7);

the lifting lug (1.1) is connected with a damping box (1.2) through a lifting lug connecting rod (1.21), and the top of the lifting lug connecting rod is connected with a crane;

the shock absorption box (1.2) is provided with rope rings (1.6) at two sides, adopts a hollow cuboid structure and is provided with through holes at the upper and lower parts;

the connecting rod (1.3), the bottom is connected with the crossbeam (1.7), the middle part is penetrated with the connecting column (1.5), the top is arranged in the shock absorption box (1.2), and the connecting rod (1.3) is of a T-shaped structure;

the upper surfaces of the two sides of the cross beam (1.7) are provided with rope rings (1.6);

the rope rings (1.6) are connected with the rope rings (1.6) at two sides of the damping box (1.2) through ropes (1.4);

the ropes (1.4) are elastic, and a triangular connection structure is formed between the two groups of ropes (1.4) and the cross beam (1.7);

the connecting column (1.5) and the connecting rod (1.3) are integrally formed, a rotating shaft (1.51) is longitudinally arranged in the connecting column (1.5), a through hole is transversely formed in the connecting column, and a balancing part (7) is arranged in the rotating shaft (1.51) in a penetrating mode.

3. A rubber lined pipe installation apparatus as claimed in claim 2, wherein: the damping box (1.2) comprises a lifting lug connecting rod (1.21), a connecting shaft (1.22) and a spring (1.23);

the lifting lug connecting rod (1.21) is of a T-shaped structure, the upper end of the lifting lug connecting rod is connected with a lifting lug (1.1), and the lower end of the lifting lug connecting rod penetrates into the damping box (1.2);

the connecting shafts (1.22) are vertically fixed inside the damping box (1.2) and are arranged into two groups;

the springs (1.23) are arranged at the upper end and the lower end of the connecting shaft (1.22) in a penetrating mode, the springs (1.23) at the upper end are limited through the lifting lug connecting rods (1.21), and the springs (1.23) at the lower end are limited through the connecting rods (1.3).

4. A rubber lined pipe installation apparatus as claimed in claim 1, wherein: the balance part (7) comprises a balance block (7.1) and a balance rod (7.2);

the balance rod (7.2) transversely penetrates into a through hole of the connecting column (1.5), and the diameter of the through hole is larger than that of the balance rod (7.2);

the balance weights (7.1) are arranged on two sides of the balance rod (7.2).

5. A rubber lined pipe installation apparatus as claimed in claim 1, wherein: the adjusting part (5) comprises an adjusting handle (5.1), an adjusting box (5.2), a threaded rod (5.3) and a pipeline supporting frame (5.4);

the adjusting boxes (5.2) are arranged on two side surfaces of the U-shaped frame (4);

the adjusting handles (5.1) are arranged at two sides of the adjusting box (5.2);

one end of the threaded rod (5.3) penetrates through the U-shaped frame (4) and the adjusting box (5.2) to be connected with the adjusting handle (5.1);

and the pipeline supporting frame (5.4) is connected with the other end of the threaded rod (5.3).

6. A rubber lined pipe installation apparatus as claimed in claim 1, wherein: the telescopic fixing part (6) comprises a U-shaped clamping block (6.1), a telescopic pipe (6.2) and a telescopic column (6.3);

a U-shaped clamping block (6.1) is connected to one side of the telescopic column (6.3), and the other side of the telescopic column penetrates through the cross beam (1.7);

the telescopic pipe (6.2) is of a U-shaped structure and is in sliding connection with the telescopic column (6.3);

the U-shaped clamping blocks (6.1) are arranged into two groups, and the balance blocks (7.1) are arranged between the two groups.

7. A rubber lined pipe installation apparatus as defined in claim 5, wherein: the shape of the inner ring of the pipeline supporting frame (5.4) is consistent with the shape of the outer ring of the rubber lining pipeline.

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