CN113060674A

CN113060674A - Pipeline arbitrary direction conveyer

Info

Publication number: CN113060674A
Application number: CN202110491137.1A
Authority: CN
Inventors: 华国军
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-06
Filing date: 2021-05-06
Publication date: 2021-07-02

Abstract

A pipeline transportation device in any direction relates to a pipeline transportation device, which comprises two trolleys with the same structure and the opposite direction, wherein universal wheels (11) are respectively arranged at the lower parts of the two ends of two side rods (13), an outer rod (12) is arranged between the one ends of the two side rods, the two lower ends of a door-shaped frame are respectively fixedly connected to the middle parts of the upper surfaces of the two side rods, a rotating handle (1) is arranged at the upper end of a screw rod (3), the middle part of the screw rod is connected with a screw hole in the middle part of an upper cross beam (4), the lower end of the screw rod penetrates through a lifting cross beam (5) and then is connected with a supporting block (6), the two ends of the lifting cross beam are respectively hinged and connected with the upper ends of two lifting booms (8), the lower ends of the two lifting booms are connected with inverted T-shaped rods (15), the inner ends of the two inverted T-shaped rods are connected; the invention uses the rotating column of the arc-shaped plate to support the pipeline, and the universal wheels are used for acquiring the transportation of the pipeline in any direction.

Description

Pipeline arbitrary direction conveyer

[ technical field ] A method for producing a semiconductor device

The invention relates to a pipeline transportation device, in particular to a pipeline transportation device in any direction.

[ background of the invention ]

It is known that pipes are important parts of water supply, drainage, heat supply, gas supply, long-distance petroleum and natural gas transportation, agricultural irrigation, hydraulic engineering and various industrial devices, and mainly include steel pipes, bai nonferrous metal pipes, nonmetallic pipes and other pipes, wherein the steel pipes are used in the field of large flow rate and have heavy weight, especially the pipes for special purposes such as vacuum pipes, low-pressure pipes, high-pressure pipes, ultrahigh-pressure pipes and the like have complex processing processes, and the processing equipment in a factory building is dispersed, so that the pipes need to be sent from a point A to a point B for next processing treatment, and the large pipes have heavy dead weight, and each transportation consumes a large amount of manpower and material resources for loading, unloading, horizontal pushing and the like.

[ summary of the invention ]

In order to overcome the defects in the background art, the invention discloses a pipeline transportation device in any direction.

The technical scheme for realizing the invention is as follows:

a pipeline transportation device in any direction comprises two pipeline two-end lifting transportation trolleys with the same structure and the opposite direction, wherein each lifting transportation trolley comprises side rods, universal wheels, outer rods, a portal frame, a screw rod, a rotating handle, a portal lifting frame, inverted T-shaped rods, arc plates and a rotating column, the two side rods are arranged at intervals, the universal wheels are respectively arranged at the lower parts of the two ends of each side rod, the outer rods are arranged between the two ends of each side rod, the two lower ends of the portal frame are respectively and fixedly connected to the middle parts of the upper surface of the two side rods, the rotating handle is arranged at the upper end of the screw rod, the middle part of the screw rod is in threaded connection with a screw hole in the middle part of an upper beam of the portal frame, the lower end of the screw rod penetrates through a light hole in the middle part of a lifting frame beam of the portal lifting frame and then is connected with a supporting block, the two ends of the lifting beam are respectively hinged with the upper ends of two lifting rods, the inner arc surfaces of the two arc plates are provided with a plurality of rotating columns, and the outer ends of the two inverted T-shaped rods are respectively hinged to the middle parts of the opposite surfaces of the two side rods to form a lifting transport trolley; the outer rods of the two lifting transport trolleys face outwards, the two arc-shaped plates of the two lifting transport trolleys are respectively inserted into the lower parts of the two sides of the two ends of the pipeline, the two lifting cross beams are controlled to lift by rotating handles of the two lifting transport trolleys, at the moment, the rotating columns on every two arc-shaped plates of the two lifting transport trolleys respectively lift the two ends of the pipeline, and the universal wheels are used for acquiring the transportation of the pipeline in any direction.

The pipeline transporting device in any direction is characterized in that reinforcing angles are respectively arranged at included angles formed between the two side rods and the outer rod.

The pipeline arbitrary direction conveyer, the both ends lower part of door type frame respectively with the upper end fixed connection of two stands, the lower extreme of two stands respectively fixed connection in the upper portion face middle part of both sides pole, be equipped with short column respectively in the lower part face middle part of both sides pole, the opposite face lower part of two short columns is equipped with connecting seat C respectively, the outer end of two shape of falling T poles is connected through axle and connecting seat C are articulated respectively.

The pipe is arranged at the upper end of the screw rod, the middle of the rotating handle is movably inserted into a pipe hole of the pipe, one end of the rotating handle is provided with a fixed end stop block, the other end of the rotating handle is provided with an external thread, the inner end face of the other end stop block is provided with a screw hole, and the screw hole of the other end stop block is connected with the external thread at the other end of the rotating handle.

The pipeline transportation device in any direction is characterized in that a reducing polished rod is arranged at the lower end of a screw rod, the lower part of the reducing polished rod penetrates through an inner hole in the middle of a support block, and a cotter pin is arranged in a left-right through hole in the lower end of the reducing polished rod.

The pipeline transportation device in any direction is characterized in that a bearing is arranged in the middle of the support block, the lower part of the reducing polished rod penetrates into an inner hole of an inner ring of the bearing, and an annular bulge with an annular structure is arranged on the upper surface of the support block.

The pipeline transportation device in any direction is characterized in that the lower parts of two ends of the lifting beam are respectively provided with a connecting seat A, and the two connecting seats A are respectively connected with the upper ends of the two lifting rods through shafts.

The arbitrary direction conveyer of pipeline, the both sides of arc are equipped with the arc riser respectively, and the equidistance interval is equipped with a plurality of shaft holes that correspond each other on two arc risers, the axostylus axostyle at a plurality of two rotation post both ends is worn in the shaft hole of two arc risers.

The pipeline arbitrary direction conveyer, the shaft hole department on two arc risers is equipped with the semicircle arch, obtains the protrusion of rotating the post by the semicircle arch.

The pipeline transportation device in any direction is characterized in that the lower parts of the outer cambered surfaces of the two arc-shaped vertical plates are provided with connecting seats B, and the connecting seats B are connected with the inner ends of the two inverted T-shaped rods through shafts.

Through the disclosure, the beneficial effects of the invention are as follows:

the invention relates to a pipeline arbitrary direction transportation device, wherein two ends of a pipeline are respectively inserted between two side rods by one side without an outer rod of two lifting transportation trolleys, then every two arc plates of the two lifting transportation trolleys are respectively positioned at two sides close to the two ends of the pipeline, then a screw rod of one lifting transportation trolley is controlled to lift by using a rotating handle, a lifting cross beam is driven by a support block at the lower end of the screw rod to lift two lifting rods, the inverted T-shaped rod is pulled while the two lifting rods lift, and the arc plates are driven by the inner end of the inverted T-shaped rod to enable a rotating column to support the end part of the pipeline; the other operation step of lifting the transport trolley is the same as the previous operation step, so that the two ends of the pipeline can be lifted and transported to a proper position by using universal wheels; the invention does not need lifting equipment or a warping bar, and can advance in any direction by using the upper crossbeam as a pushing handle when in use; the invention has reasonable structure and is suitable for water supply and drainage pipelines, heat supply pipelines, gas supply pipelines, petrochemical pipelines, natural gas pipelines, agricultural irrigation pipelines, hydraulic pipelines and various industrial pipeline processing enterprises.

[ description of the drawings ]

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a view in the direction A of FIG. 1;

FIG. 3 is a perspective view of an arcuate plate of the present invention;

FIG. 4 is a perspective view of the twist grip of the present invention;

FIG. 5 is a schematic perspective view of a pallet of the present invention;

FIG. 6 is a schematic diagram of the structure of the present invention in use;

in the figure: 1. rotating the handle; 2. a tube; 3. a screw; 4. an upper cross beam; 5. hoisting the cross beam; 6. a support block; 7. a connecting seat A; 8. lifting the suspender; 9. an arc-shaped vertical plate; 10. rotating the column; 11. a universal wheel; 12. an outer rod; 13. a side lever; 14. a connecting seat B; 15. an inverted T-shaped bar; 16. a short column; 17. reinforcing corners; 18. a column; 19. a cotter pin; 20. a shaft; 21. a connecting seat C; 22. reducing the polished rod; 23. a shaft lever; 24. a semicircular bulge; 25. an arc-shaped plate; 26. an external thread; 27. a screw hole; 28. an end stop; 29. an inner bore; 30. a bearing; 31. an annular projection; 32. a pipeline; 33. and connecting the flanges.

[ detailed description ] embodiments

The present invention will be further illustrated with reference to the following examples; the following examples are not intended to limit the present invention, and are only used as a support for the implementation of the present invention, and any equivalent structure replacement within the technical framework of the present invention is included in the protection scope of the present invention;

the pipeline transportation device in any direction shown in the attached figures 1 to 5 comprises two pipeline 32 with the same structure and opposite directions, wherein two ends of the pipeline are lifted up to transport trolleys, the lifting transport trolley comprises side rods 13, universal wheels 11, outer rods 12, a portal frame, a screw rod 3, a rotating handle 1, a portal lifting frame, inverted T-shaped rods 15, an arc-shaped plate 25 and a rotating column 10, wherein the side rods 13 are arranged at intervals, universal wheels 11 are respectively arranged at the lower parts of the two ends of the two side rods 13, an outer rod 12 is arranged between one ends of the two side rods 13, reinforcing angles 17 are respectively arranged at included angles formed between the two side rods 13 and the outer rod 12, the lower parts of the two ends of the door-shaped frame are respectively fixedly connected with the upper ends of two upright posts 18, the lower ends of the two upright posts 18 are respectively fixedly connected with the middle parts of the upper surface of the two side rods 13, short columns 16 are respectively arranged in the middle of the lower surface of the two side rods 13, and connecting seats C21 are respectively arranged at the lower parts of the opposite surfaces of the two short columns 16; the upper end of a screw rod 3 is provided with a rotating handle 1, the middle part of the screw rod 3 is in threaded connection with a screw hole in the middle part of an upper cross beam 4 of a portal frame, the lower end of the screw rod 3 penetrates through a unthreaded hole in the middle part of a lifting cross beam 5 of a portal lifting frame and then is connected with a supporting block 6, the lower parts of the two ends of the lifting cross beam 5 are respectively provided with a connecting seat A7, two connecting seats A7 are respectively connected with the upper ends of two lifting booms 8 through shafts, the lower ends of the two lifting booms 8 are respectively hinged with an upper rod of an inverted T-shaped rod 15, the inner ends of the two inverted T-shaped rods 15 are respectively hinged and connected with the lower parts of the outer cambered surfaces of two arc plates 25, the inner cambered surfaces of the two arc plates 25 are provided with a plurality; the outer rods 12 of the two lifting transport trolleys face outwards, the two arc-shaped plates 25 of the two lifting transport trolleys are respectively inserted into the lower parts of the two sides of the two ends of the pipeline 32, the two lifting cross beams 5 are controlled to lift by the rotating handles 1 of the two lifting transport trolleys, at the moment, the two ends of the pipeline 32 are respectively lifted by the rotating columns 10 on every two arc-shaped plates 25 of the two lifting transport trolleys, and the pipeline 32 is transported in any direction by the universal wheels 11.

With reference to fig. 1, 2, 4 or 5, the upper end of the screw rod 3 is provided with a tube 2, the middle part of the rotary handle 1 is movably inserted into a tube hole of the tube 2, one end of the rotary handle 1 is provided with a fixed end stop 28, the other end of the rotary handle 1 is provided with an external thread 26, the inner end surface of the other end stop 28 is provided with a screw hole 27, and the screw hole 27 of the other end stop 28 is connected with the external thread 26 at the other end of the rotary handle 1; the lower end of the screw rod 3 is provided with a reducing polished rod 22, the middle part of the support block 6 is provided with a bearing 30, the lower part of the reducing polished rod 22 is penetrated in an inner hole 29 of an inner ring of the bearing 30, the upper part surface of the support block 6 is provided with an annular bulge 31 with an annular structure, and a cotter pin 19 is arranged in a hole which is penetrated left and right at the lower end of the reducing polished rod 22.

Combine attached figure 1, 2 or 3, the both sides of arc 25 are equipped with arc riser 9 respectively, and equidistant interval is equipped with a plurality of shaft holes that correspond each other on two arc risers 9, on two arc risers 9 shaft hole department is equipped with semicircle arch 24, obtains the protrusion of rotating post 10 by semicircle arch 24, and the axostylus axostyle 23 at a plurality of two rotation post 10 both ends is worn in the shaft hole of two arc risers 9.

In the structure of the invention, an upper cross beam 4, a short column 16, an outer rod 12, a side rod 13 and a hoisting cross beam 5 are made of square steel pipes, a rotating column 10 is made of stainless steel pipes, a hoisting rod 8 is made of steel plates, and other parts are welded by steel materials; the specific thickness and strength depend on the application range and design requirements.

The installation and manufacturing process is as follows:

taking manufacturing of a lifting transport trolley as an example, cutting an outer rod 12, side rods 13, short columns 16, an upright post 18 and an upper cross beam 4 of a square steel pipe according to a design drawing, firstly punching universal wheel 11 mounting holes at the lower parts of two ends of the two side rods 13, welding the outer rod 12 between the outer ends of the two side rods 13, buckling reinforcing angles 17 cut by channel steel on two concave angles formed by the two side rods 13 and the inner surface of the outer rod 12, and welding and connecting the reinforcing angles 17; punching a through hole in the middle of the upper cross beam 4, wherein the hole at the lower part can be slightly larger, then placing a metal block with a screw hole in the upper cross beam 4, fixing the lower end surface of the metal block with the hole at the lower part of the upper cross beam 4 by welding, fixedly connecting the lower parts of the two ends of the upper cross beam 4 with the upper ends of the two upright posts 18, fixedly connecting the lower ends of the two upright posts 18 with the middle parts of the upper surfaces of the two side posts 13, fixedly connecting the inner surfaces of the lower ends of the two short posts 16 with a connecting seat C21 respectively, and fixedly connecting the upper ends of the two short posts 16 with the middle parts of the lower surfaces of the two side posts 13 corresponding to the two; punching through holes which are communicated up and down in the middle of the lifting cross beam 5, and welding two connecting seats A7 at the lower parts of two ends of the lifting cross beam 5 for standby; punching two ends of a plate with proper length, and then welding a connecting seat in the middle of the plate to form an inverted T-shaped rod 15; the connecting seat B14 is welded at the rear lower part of the arc-shaped plate 25; all the parts are subjected to rust removal, polishing, priming and baking treatment, and then all the ends of the side rods 13, the short columns 16 and the upper cross beam 4 are provided with insertion square pipes with the sizes corresponding to the sizes of the orifices through plastic baffles, namely plastic baffles with the same sizes of the orifices, and the insertion square pipes can be obtained in an injection molding mode for plugging; referring to fig. 4, the upper end of the screw rod 3 is welded to the pipe 2, one end of the rotary handle 1 is welded to an upper end stop 28, and then the rotary handle 1 is inserted into the pipe 2 at the upper end of the screw rod 3 and connected to the external thread 26 at the other end of the rotary handle 1 by using the other end stop 28 with a screw hole 27; an inner hole 29 arranged in the middle of the supporting block 6 is thin at the upper part and thick at the lower part, namely the diameter of the upper part is smaller than that of the lower part, and two sets of bearings 30 are manufactured according to the mode that the bearings are placed in the inner hole 29 from the lower part; the installation process is as follows, one of the transporting trolleys is also used for lifting, four universal wheels 11 are respectively installed at the lower parts of the two ends of the two side rods 13, the screw rod 3 is used for entering the proper length from the screw hole in the middle of the upper cross beam 4, then sleeving the unthreaded hole of the lifting cross beam 5 on the upper part of a reducing polished rod 22 at the lower end of a screw rod 3, sleeving the inner ring of a bearing 30 at the middle part of a support block 6 on the middle part of the reducing polished rod 22, penetrating a cotter pin 19 into a pin hole at the lower part of the reducing polished rod 22 and separating two end rods of the cotter pin 19, connecting the outer ends of two inverted T-shaped rods 15 with a connecting seat C21 by using a shaft 20, connecting a connecting seat B14 of an arc-shaped vertical plate 9 at the inner ends of the two inverted T-shaped rods 15 by a shaft, connecting the lower ends of two lifting booms 8 with the connecting seat at the middle upper part of the two inverted T-shaped rods 15 by using the shaft, connecting the upper ends of the two lifting booms 8 with the connecting seats A7 at;

when the lifting device is used, the outer rods 12 of the two lifting transport trolleys are outwards arranged at two ends of the pipeline 32 respectively by combining with the attached drawings 6 and the attached drawings 1 to 5, so that the two ends of the pipeline 32 are respectively inserted between every two side rods 13 of the two lifting transport trolleys, if the pipeline 32 is provided with the connecting flange 33, the connecting flange 33 of the lifting transport trolleys can be close to the neutral position between the inner surface of the outer rod 12 and the two arc-shaped plates 25, the screw 3 for lifting one of the lifting transport trolleys is controlled to lift by using the rotating handle 1, the support block 6 at the lower end of the screw 3 drives the lifting cross beam 5 to slowly lift the two lifting booms 8, the two inverted T-shaped rods 15 are pulled up while the two inverted T-shaped rods 8 lift up, the outer ends of the two inverted T-shaped rods 15 are limited by the connecting seats C21 on the short column 16, and the inner ends of the two inverted T-shaped rods 15 drive; similarly, the other operation step of lifting the transportation trolley can lift the two ends of the pipeline 32 and transport the pipeline to a proper station by using the universal wheels 11, then the rotation handle 1 is rotated in the opposite direction, and the operation can be carried out by unloading the two lifted transportation trolleys.

The present invention is not described in detail in the prior art.

Claims

1. The utility model provides a pipeline optional direction conveyer, includes that two ends of pipeline (32) in the same structure opposite direction lift up travelling bogie, characterized by: the lifting and transporting trolley comprises side rods (13), universal wheels (11), outer rods (12), a portal frame, screw rods (3), rotating handles (1), a portal lifting frame, inverted T-shaped rods (15), an arc-shaped plate (25) and a rotating column (10), wherein the two side rods (13) are arranged at intervals, the universal wheels (11) are respectively arranged at the lower parts of the two ends of the two side rods (13), the outer rods (12) are arranged between one ends of the two side rods (13), the two lower ends of the portal frame are respectively and fixedly connected to the middle parts of the upper part surfaces of the two side rods (13), the rotating handles (1) are arranged at the upper ends of the screw rods (3), the middle parts of the screw rods (3) are in threaded connection with screw holes in the middle parts of upper cross beams (4) of the portal frame, the lower ends of the screw rods (3) penetrate through unthreaded holes in the middle parts of lifting cross beams (5) of the portal lifting frame and then are connected with supporting, the lower ends of the two lifting rods (8) are respectively hinged with the upper part rods of the inverted T-shaped rods (15), the inner ends of the two inverted T-shaped rods (15) are respectively hinged with the lower parts of the outer cambered surfaces of the two arc plates (25), the inner cambered surfaces of the two arc plates (25) are provided with a plurality of rotating columns (10), and the outer ends of the two inverted T-shaped rods (15) are respectively hinged with the middle parts of the opposite surfaces of the two side rods (13) to form a lifting transport trolley; the outer rods (12) of the two lifting transport trolleys face outwards, the two arc-shaped plates (25) of the two lifting transport trolleys are respectively inserted into the lower parts of the two sides of the two ends of the pipeline (32), the two lifting cross beams (5) are controlled to lift by the rotating handles (1) of the two lifting transport trolleys, the two ends of the pipeline (32) are respectively lifted by the rotating columns (10) on every two arc-shaped plates (25) of the two lifting transport trolleys, and the pipeline (32) is transported in any direction by the universal wheels (11).

2. The pipe random direction transportation apparatus of claim 1, wherein: reinforcing angles (17) are respectively arranged at included angles formed between the two side rods (13) and the outer rod (12).

3. The pipe random direction transportation apparatus of claim 1, wherein: the lower parts of two ends of the door-shaped frame are respectively fixedly connected with the upper ends of two upright posts (18), the lower ends of the two upright posts (18) are respectively fixedly connected with the middle parts of the upper surface of two side rods (13), short columns (16) are respectively arranged in the middle parts of the lower surface of the two side rods (13), connecting seats C (21) are respectively arranged on the lower parts of opposite surfaces of the two short columns (16), and the outer ends of the two inverted T-shaped rods (15) are respectively hinged and connected with the connecting seats C (21) through shafts (20).

4. The pipe random direction transportation apparatus of claim 1, wherein: the pipe (2) is arranged at the upper end of the screw (3), the middle part of the rotating handle (1) is movably inserted into a pipe hole of the pipe (2), a fixed end part stop block (28) is arranged at one end of the rotating handle (1), an external thread (26) is arranged at the other end of the rotating handle (1), a screw hole (27) is arranged on the inner end face of the other end part stop block (28), and the external thread (26) at the other end of the rotating handle (1) is connected with the screw hole (27) of the other end part stop block (28).

5. The pipe random direction transportation apparatus of claim 1, wherein: the lower end of the screw rod (3) is provided with a reducing polished rod (22), the lower part of the reducing polished rod (22) is penetrated in an inner hole (29) in the middle of the support block (6), and a cotter pin (19) is arranged in a hole which is communicated from left to right at the lower end of the reducing polished rod (22).

6. The pipe random direction transportation apparatus of claim 5, wherein: a bearing (30) is arranged in the middle of the support block (6), the lower part of the reducing polished rod (22) penetrates into an inner hole (29) of an inner ring of the bearing (30), and an annular bulge (31) with an annular structure is arranged on the upper surface of the support block (6).

7. The pipe random direction transportation apparatus of claim 1, wherein: the lower parts of the two ends of the hoisting crossbeam (5) are respectively provided with a connecting seat A (7), and the two connecting seats A (7) are respectively connected with the upper ends of the two hoisting rods (8) through shafts.

8. The pipe random direction transportation apparatus of claim 1, wherein: arc riser (9) are equipped with respectively to the both sides of arc (25), and equidistant interval is equipped with a plurality of shaft holes that correspond each other on two arc risers (9), and axostylus axostyle (23) at a plurality of two rotation post (10) both ends are worn in the shaft hole of two arc risers (9).

9. The pipe random direction transportation apparatus of claim 8, wherein: the axle holes on the two arc-shaped vertical plates (9) are provided with semicircular bulges (24), and the semicircular bulges (24) are used for acquiring the bulges of the rotating columns (10).

10. The pipe random direction transportation apparatus of claim 1, wherein: the lower parts of the outer cambered surfaces of the two arc-shaped vertical plates (9) are provided with a connecting seat B (14), and the connecting seat B (14) is connected with the inner ends of the two inverted T-shaped rods (15) through a shaft.