CN116062423B - Pipeline transportation device convenient to dump - Google Patents

Abstract

The invention discloses a pipeline transportation device convenient to dump, which relates to the field of pipeline transportation, wherein a pipeline fixing structure comprises a first fixing plate, a second fixing plate and a pipeline clamping piece which are parallel to each other, and a pipeline is fixed between the first fixing plate and the second fixing plate through the pipeline clamping piece; the pipeline moving structure comprises two mutually parallel placing racks; the pipeline fixing structure is located between the two placing frames, the pipeline fixing structure is turned over by the turning structure, the pipeline slides onto the two placing frames through the first fixing plate or the second fixing plate, and the placing frames are perpendicular to the pipeline. The device does not need to be carried manually, and the transportation efficiency is further improved.

Description

Pipeline transportation device convenient to dump

Technical Field

The invention relates to a conveying device, in particular to a pipeline conveying device convenient to dump.

Background

The petroleum transportation pipeline consists of oil pipe and its accessories, and is equipped with corresponding oil pump unit according to the technological process, and is designed and installed into a complete pipeline system for completing the oil receiving, unloading and transferring tasks.

The pipe material of the petroleum transportation pipeline is generally a steel pipe, and is connected with a long-distance pipeline by using a connecting device such as welding, a flange and the like, and is controlled to open and close and flow rate is regulated by using a valve. At present, when transporting and placing petroleum transportation pipelines, after the transportation vehicle is used for transporting the petroleum transportation pipelines to the required position, the pipelines are unloaded on the ground in a concentrated mode, when the petroleum transportation pipelines are required to be used, the petroleum pipelines are manually transported from the container to the petroleum transportation pipeline placement holes, time and labor are consumed in the operation process, the length of the used pipelines is longer, the weight is heavier, the petroleum transportation pipelines are manually transported, the petroleum transportation pipelines are not only matched by a plurality of people, but also the petroleum transportation pipelines are difficult to move, and the petroleum transportation pipelines are possibly damaged.

Accordingly, the present inventors devised a pipeline transportation apparatus that facilitates dumping, which facilitates transportation of petroleum pipelines carried off from a transportation vehicle to pipeline installation holes.

Disclosure of Invention

An object of the present invention is to provide a pipe transportation device for facilitating dumping, in which a pipe is fixed by a pipe fixing structure, and when the pipe is dumped, the pipe fixing structure with the pipe fixed thereon is directly turned over by a turning structure to a pipe moving structure for transportation.

The purpose is realized by adopting the following technical scheme:

the device comprises a pipeline fixing structure, a pipeline moving structure and a turnover structure, wherein the pipeline fixing structure comprises a first fixing plate, a second fixing plate and a pipeline clamping piece which are parallel to each other, when the device is used, a pipeline is fixed between the first fixing plate and the second fixing plate, the pipeline is further fixed on the first fixing plate and the second fixing plate through the pipeline clamping piece, when the device is transported, the pipeline and the pipeline fixing structure are directly placed on a transport vehicle for transportation, when the device is transported to a required position, the pipeline is fixed on the pipeline fixing structure and unloaded from the transport vehicle, compared with the prior structure, the device is directly placed on the transport vehicle, long distance is required for a road, and abrasion is easy to occur between the pipeline and the pipeline in a road jolt area. The pipeline is fixed through the pipeline fixing structure in transportation, collision and abrasion between the pipeline and the pipeline can be avoided, and when the pipeline is unloaded from the transportation vehicle, the pipeline fixing structure can be directly operated for carrying, and the operation is more convenient.

Wherein, to the longer pipeline of length, can set up a plurality of pipeline fixed knot and construct and fix it on the pipeline, generally speaking, a pipeline includes two at least pipeline fixed knot constructs, and two pipeline fixed knot constructs are fixed respectively at the both ends of pipeline, and longer pipeline can set up three or four pipeline fixed knot constructs, and specific quantity is according to the long setting of pipeline. The length of the first fixing plate and the second fixing plate along the direction of the pipeline is more than 10 cm.

After the transport vehicle transports the pipelines to the required positions, all the pipelines are required to be unloaded on the ground, then each pipeline is transported to the corresponding pipeline placement hole by workers, and the pipelines are transported by the workers, so that the efficiency is low and the pipelines are easy to wear although the distance between the ground for stacking the pipelines and the placement hole of each pipeline is short. After the structure is used, the pipeline is stacked on the ground through the pipeline fixing structure, the placing frame is paved between the placing hole of the pipeline and the stacking position of the pipeline through the pipeline moving structure, then the pipeline fixing structure is turned through the adjusting turning structure, the pipeline slides onto the placing frame from the first fixing plate in the pipeline fixing structure, and finally the pipeline is directly rolled to the pipeline placing hole of the pipeline through the placing frame. When the pipeline is dumped onto the placing frame from the pipeline fixing structure, the direction in which the pipeline is located is perpendicular to the direction in which the placing frame is located, and the pipeline is supported through the placing frame.

When in use, a plurality of pipeline moving structures can be provided, and preferably, each pipeline fixing structure is provided with one pipeline moving structure, namely, when three pipeline fixing structures are provided, each pipeline fixing structure is provided with one pipeline moving structure, and the pipeline fixing structures are positioned between two placing frames in the corresponding pipeline moving structures.

Further, the rack length of this device is adjustable, can be formed by a plurality of racks concatenation, and the accessible connecting piece is connected different directions between rack and the rack, and after pipeline transportation to its pipeline arrangement hole that corresponds, sustainable pipeline transportation to its pipeline arrangement hole department that corresponds next, operating personnel is according to the route that the pipeline laid, corresponds in order the pipeline of dumping, and after dumping a pipeline from the rack, the direction adjustment next pipeline of accessible adjustment rack dump the position, and then last efficient use.

Further, the first fixed plate of the pipeline fixing structure of the device is provided with at least one first chute, the second fixed plate is provided with at least one second chute, and the second chute corresponds to the first chute one by one. The pipeline clamping piece comprises a first adjusting rod and a second adjusting rod which are arranged between the first chute and the second chute, the upper end of the first adjusting rod is detachably connected with the second fixing plate, and the lower end of the first adjusting rod is detachably connected with the first fixing plate; the upper end and the second fixed plate of second regulation pole can dismantle the connection, and the lower extreme can dismantle with first fixed plate and be connected, and when using, first regulation pole and second regulation pole can slide between corresponding first spout and second spout, through sliding adjustment to the position department with pipeline assorted, then fixed first regulation pole and second regulation pole position on first fixed plate and second fixed plate, and then realize the fixed to the pipeline. For the pipeline of equidimension not, this structure all can use, directly adjusts the position of pole with the second through adjusting first regulation pole to and first regulation pole and second adjust the length of pole between first fixed plate and second fixed plate and fix the pipeline.

Wherein, the both ends of first regulation pole all are connected with first connecting plate, and two first connecting plates can follow the length direction of first regulation pole and remove, and the both ends of second regulation pole all are connected with the second connecting plate, and two second connecting plates can follow the length direction of second regulation pole and remove, and then realize the regulation of the length between first fixed plate and the second fixed plate.

Still further, the flip structure in this device includes the first spliced pole that is connected with first fixed plate can be dismantled, be used for turning over the first operation panel of first fixed plate, when using, drive first spliced pole rotation through first operation panel, make first spliced pole drive first fixed plate and use first spliced pole place straight line together as the axis rotation, simultaneously, for better drive first fixed plate rotation, be connected with a first spliced pole on two opposite sides of first fixed plate respectively, and two first spliced poles are located same straight line, first spliced pole place straight line is parallel to each other with the straight line that the pipeline is located, when using, two first operation panels control two first spliced poles rotation simultaneously, two first spliced poles are used on first fixed plate simultaneously, drive first fixed plate rotation.

Specifically, a first gear disc is arranged on the first connecting column, and a gear strip and a first fixing piece for fixing the first connecting column are arranged on the first operating platform; when the first fixing plate needs to be turned over, the first connecting column is fixed on the first operation table through the first fixing piece, after the first connecting column is fixed, the gear bar is meshed with the first gear disc, the first gear disc is driven to rotate through movement of the gear bar, and further the first gear disc is driven to rotate by the first fixing plate by taking the straight line where the first connecting column is located as an axis.

Further, the overturning structure further comprises a second connecting column detachably connected with the first fixing plate and a second operation table for overturning the first fixing plate, a second gear disc is arranged on the second connecting column, the second operation table is connected with the first operation table, the gear strip is positioned on the second operation table and the first operation table, and a second fixing piece for fixing the second connecting column is arranged on the second operation table;

the gear strip moves back and forth on second operation panel and first operation panel, when first toothed disc and gear strip meshing, second toothed disc and gear strip do not mesh, first connecting column is fixed on first operation panel to first mounting, first toothed disc drives first fixed plate under the effect of gear strip and uses two straight lines at first connecting column place to rotate as the axis, and then turn over, turn over the efficiency of turning over to first fixed plate simultaneously through two first connecting columns, the efficiency of turning over can be further improvement, it is more stable to turn over.

When the pipeline overturning device is used, the overturning structure is fixed on two opposite sides of the first fixing plate, the first connecting column and the second connecting column of the overturning structure on the same side face of the same side face are respectively connected to the same side face of the first fixing plate, so that the pipeline can be overturned to the required side face according to the requirement when the pipeline is required to be overturned to the side face close to the first connecting column, the first connecting column is fixed on the first operation table through the first fixing piece, the second connecting column is not fixed on the second operation table through the second fixing piece, the second connecting column is in a free state, the gear bars are meshed with the first gear disc, the gear bars move to drive the first gear disc to rotate, the first fixing plate rotates by taking the straight line where the first connecting column is located as an axis, and one end of the second connecting column is connected with the first fixing plate in the rotating process to rotate upwards. When the pipeline needs to be overturned to the side surface position close to the second connecting column, the second connecting column is fixed on the second operation table through the second fixing piece, the first fixing piece does not fix the first connecting column on the first operation table, the first connecting column is in a free state, the gear bar is meshed with the second gear disc, the gear bar moves to drive the second gear disc to rotate, the first fixing plate rotates by taking the straight line where the second connecting column is located as an axis, and one end of the first connecting column is connected with the first fixing plate in the rotating process to rotate upwards. Therefore, the direction of the pipeline rotary dumping can be directly rotated through the device, and the operation and the use are more convenient.

In the process of dumping the pipeline, the rack is erected on two sides of the first fixing plate, which are perpendicular to the pipeline, then the first connecting column and the second connecting column are connected to the first fixing plate, the second fixing plate is taken down from the first fixing plate, the first connecting column is fixed on the first operation table or the second connecting column is fixed on the second operation table according to the requirement, the gear bar is adjusted after the fixing to be meshed with the first gear disc or the second gear disc, the first fixing plate is further rotated to different directions, the pipeline on the first fixing plate is rolled onto the rack under the action of gravity after the first fixing plate is rotated, and then the rack is directly rolled to a position where the pipeline needs to be connected, so that the pipeline and the position hole are directly connected by workers, and the operation is facilitated. Preferably, be provided with the sponge layer on the rack, all be provided with the rubber layer on the relative face of first fixed plate, second fixed plate, avoid the pipeline to receive wearing and tearing in the transportation, in particular, when the pipeline slides on the rack from first fixed plate, can also cushion through the sponge layer, further protection pipeline and this device.

More preferably, the turnover structure can enable the first fixing plate to rotate 0-90 degrees, so that when the side face of the pipeline fixing structure, namely the side face of the first fixing plate, is perpendicular to the ground, the side face of the pipeline fixing structure is in contact with the ground, and when the placement area is smaller, the turnover structure can enable the first fixing plate to rotate 90 degrees, and stacking is facilitated.

Compared with the prior art, the invention has the following advantages and beneficial effects:

according to the pipeline transportation device convenient to dump, the pipeline is fixed through the first fixing plate and the second fixing plate, and when the pipeline is transported, the pipeline is transported on the transport vehicle through the first fixing plate and the second fixing plate, so that the pipeline can be better fixed. Simultaneously, when dumping the pipeline from the transport vechicle to pipeline stack, can directly take off the pipeline from the transport vechicle through first fixed plate and second fixed plate, first fixed plate and second fixed plate protect the pipeline, when avoiding taking off from the transport vechicle again, cause the damage to the pipeline.

And, this device can also be fixed to the pipeline at pipeline stack to when the locating hole department that corresponds with pipeline transportation, directly erect the both ends at first fixed plate and second fixed plate through two racks, separate the second fixed plate from first fixed plate, rethread flip structure makes first fixed plate drive the pipeline upset together, after the upset, the pipeline slides to the rack on from first fixed plate to move to the locating hole department that corresponds with this pipeline through the rack and connect fixedly, this device does not need the manual work to carry when pipeline is transported to locating hole department from stack, further improved conveying efficiency.

Secondly, this device is through rack with pipeline transportation to settling hole department, because the rack has highly, consequently, the pipeline is when being connected with settling hole, and the operation of being more convenient for does not need to lift the pipeline from subaerial, and the operation is more simple and convenient.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention. In the drawings:

FIG. 1 is a schematic view of a pipe fixing structure in embodiment 2;

FIG. 2 is a schematic diagram showing the flip structure in embodiment 3;

FIG. 3 is a schematic diagram showing the flip structure in embodiment 4;

FIG. 4 is a schematic diagram showing the relationship between the original state overturning structure and the first fixing plate;

FIG. 5 is a schematic diagram showing the positional relationship between the turnover structure and the first fixing plate when the first fixing plate needs to be turned over in the direction of the first connecting column;

FIG. 6 is a schematic view showing the positional relationship between the turnover structure and the first fixing plate when the first fixing plate needs to be turned over by 90 degrees;

FIG. 7 is a schematic diagram showing the positional relationship between the turnover structure and the first fixing plate when the first fixing plate needs to be turned over in the direction of the second connecting column;

fig. 8 is a schematic diagram of the positional relationship between the pipe fixing structure and the two racks.

In the drawings, the reference numerals and corresponding part names:

1-first fixed plate, 2-first chute, 3-second fixed plate, 4-second chute, 5-first adjusting rod, 6-second adjusting rod, 7-first connecting plate, 8-second connecting plate, 9-first connecting column, 10-first gear disc, 11-first operation table, 12-first fixed piece, 13-gear strip, 14-second connecting column, 15-second operation table, 16-second fixed piece, 17-second placing groove, 18-second gear disc, 19-sleeve, 20-telescopic rod, 21-sliding block, 22-telescopic plate, 23-supporting plate.

Description of the embodiments

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the terms "front", "rear", "left", "right", "upper", "lower", "vertical", "horizontal", "high", "low", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the scope of the present invention.

Example 1

The device comprises a pipeline fixing structure, a pipeline moving structure and a turnover structure. For a pipeline, the pipeline fixing structures are arranged along the length direction of the pipeline, the number of the pipeline fixing structures is set according to the length of the pipeline, and for a shorter pipeline, the pipeline fixing structure can be arranged at the center of the pipeline, and the pipeline fixing structures can be respectively arranged at the two ends of the pipeline; for the longer pipeline of length, can set up a pipeline fixed knot structure respectively in pipeline center department and both ends, can also follow pipeline length direction and evenly set up four or a plurality of pipeline fixed knot structure, pipeline fixed knot constructs's quantity is according to the length setting of pipeline.

The pipe fixing structure comprises a first fixing plate 1, a second fixing plate 3 and a pipe clamping piece which are parallel to each other, and a pipe is fixed between the first fixing plate 1 and the second fixing plate 3 through the pipe clamping piece.

The pipeline moving structure comprises two mutually parallel placing frames, and the number of the pipeline moving structures is matched with that of the pipeline fixing structures.

The pipeline fixing structure is enabled to overturn through the overturning structure, the pipeline fixing structure can be of various structures and can be two fixing rods arranged at the lower end of the first fixing plate, two ends of the two fixing rods are respectively connected to two side faces of the first fixing plate, a pipeline is located between the two fixing rods, and when the pipeline fixing structure is used, the length of one fixing rod is adjusted, and the length of the other fixing rod is unchanged, so that the first fixing plate is overturned. The turning structure may be other structures as long as the first fixing plate can be turned over, and the inventor does not specifically limit the present invention here.

When in use, as shown in fig. 8, the pipeline fixing structure is positioned between two corresponding placing frames of the pipeline moving structure, four side faces of the first fixing plate are upper and lower end faces, two side faces which are parallel to the pipeline length direction are left and right side faces, the two placing frames are respectively positioned at the upper and lower end faces of the first fixing plate, the placing frames can be spliced to be used, one end of each placing frame is positioned at the first fixing plate, the other end of each placing frame is positioned at a placing hole which needs to be connected with the pipeline, the first fixing plate and the second fixing plate are separated, the pipeline clamping piece is taken down from the pipeline, the first fixing plate is turned over by operating the turning structure, the pipeline on the first fixing plate slides to the placing frame, the pipeline rolls from the placing frame to the place where the pipeline needs to be connected with the placing hole, and the pipeline and the placing hole are connected.

Example 2

As shown in fig. 1, the pipe fixing structure includes a first fixing plate 1, a second fixing plate 3 and a pipe clamping member parallel to each other, at least one first chute 2 is provided on the first fixing plate 1, at least one second chute 4 corresponding to the first chute 2 is provided on the second fixing plate 3, the pipe is fixed between the first fixing plate 1 and the second fixing plate 3 through the pipe clamping member, the pipe clamping member may have various structures, so long as the pipe can be clamped between the first fixing plate and the second fixing plate, and the pipe clamping member may be a connecting band, or may be a snap ring provided on the first fixing plate, where the snap ring is used for being clamped on the pipe.

In one or more embodiments, the pipe clamp includes a first adjusting lever 5 and a second adjusting lever 6 disposed between the first chute 2 and the second chute 4, an upper end of the first adjusting lever 5 is detachably connected to the second fixing plate 3 through a first connection plate 7, and a lower end is detachably connected to the first fixing plate 1 through the first connection plate 7; the upper end of the second adjusting rod 6 is detachably connected with the second fixing plate 3 through a second connecting plate 8, and the lower end of the second adjusting rod is detachably connected with the first fixing plate 1 through the second connecting plate 8. When the adjustable pipeline fixing device is used, the first adjusting rod 5 and the second adjusting rod 6 can be telescopic rods, for pipelines with different sizes, the distance between the first fixing plate and the second fixing plate is adjusted by adjusting the lengths of the first adjusting rod 5 and the second adjusting rod 6, the first adjusting rod and the second adjusting rod slide between the first sliding groove and the second sliding groove, the distance between the first adjusting rod and the second adjusting rod is adjusted, the left and right positions of the first adjusting rod and the second adjusting rod are fixed, the upper and lower positions of the first fixing plate and the second fixing plate are fixed, after the first connecting plate at the upper end of the first adjusting rod is fixed on the second fixing plate 3, and the first connecting plate at the lower end of the first adjusting rod is fixed on the first fixing plate; the second connecting plate at the upper end of the second adjusting rod is fixed on the second fixing plate 3, and the second connecting plate at the lower end of the second adjusting rod is fixed on the first fixing plate, so that the pipeline is fixed.

Example 3

On the basis of the above embodiment, as shown in fig. 2, the turnover structure includes a first connecting column 9 detachably connected with the first fixing plate 1, and a first operating platform 11 for turning over the first fixing plate 1, wherein one end of the first connecting column 9 is connected with a first connecting column on the lower end face and the upper end face of the first fixing plate 1 respectively, and axes of the two first connecting columns are collinear and parallel to a length direction of the pipeline. Be provided with first toothed disc 10 on the first spliced pole 9, be provided with gear 13 on the first operation panel 11, be used for fixed first spliced pole 9's first mounting 12, be provided with the first standing groove that is used for placing first spliced pole on the first operation panel 11, still be provided with the second standing groove 17 that is used for placing gear 13, be provided with first toothed disc 10 on the first spliced pole 9, first mounting 12 detachable connects on first standing groove, first mounting passes through bolted connection with first operation panel, when needs rotatory first spliced pole, fix the opening part of hanging first mounting at first standing groove of first operation panel, fix first spliced pole in first standing groove, after the fixing, adjust the gear moves in the second standing groove, gear and first toothed disc 10 intermesh, move in the second standing groove through adjusting the gear, make first toothed disc drive first spliced pole rotatory, realize that first fixed plate uses first spliced pole place straight line to rotate as the axis, first terminal surface is rotatory with first fixed plate and first fixed plate is the same on two rotatory side of upper side of first connecting plate, rotatory fixed plate passes through first fixed plate. Because the first connecting column of this device is fixed on the lower terminal surface and the lower terminal surface of first fixed plate, consequently need not operating personnel when overturning first fixed plate to lift up the lower extreme of first fixed plate and can realize rotatory, more be convenient for operation use.

Example 4

On the basis of the above embodiment, as shown in fig. 3, the turnover structure further includes a second connection post 14 detachably connected with the first fixing plate 1, a second operation table 15 for turning over the first fixing plate 1, a second gear disc 18 is disposed on the second connection post 14, the second operation table 15 is connected with the first operation table 11, a second placement groove 17 is disposed between the second operation table 15 and the first operation table 11, the gear strip 13 is located on the second operation table 15 and the first operation table 11, and a second fixing member 16 for fixing the second connection post 14 is disposed on the second operation table 15.

In some embodiments, the overturning structure includes two first connecting columns 9, the two first connecting columns 9 are respectively connected at two sides of the first fixing plate 1, the two first connecting columns 9 are located on the same straight line, and the straight line where the first connecting columns 9 are located is parallel to the straight line where the pipeline is located.

In the original state, as shown in fig. 4, in use, the first and second connection posts are connected to the lower and upper end surfaces of the first fixing plate, and then the first and second operation panels are placed on the first and second connection posts, respectively. When the first fixing plate is required to be turned over towards the direction of the first connecting column, the first connecting column is fixed by the first fixing piece, the gear strip is meshed with the first gear plate and is not meshed with the second gear plate, the gear strip moves towards the direction close to the second connecting column and drives the first gear plate to rotate, and the first fixing plate is turned over towards the direction of the first connecting column, as shown in fig. 5.

When the first fixing plate needs to be folded by 90 degrees to enable the side face of the first fixing plate to be in contact with the ground, the first connecting column is fixed by the first fixing piece, the gear bar is meshed with the first gear plate and is not meshed with the second gear plate, the gear bar moves towards the direction close to the second connecting column to drive the first gear plate to rotate, the first fixing plate is folded by 90 degrees towards the direction of the first connecting column, and the side face of the first fixing plate is in contact with the ground, as shown in fig. 6.

When the first fixing plate is required to be turned over towards the direction of the second connecting column, the second connecting column is fixed by the second fixing piece, the gear strip is meshed with the second gear disc and is not meshed with the first gear disc, the gear strip moves towards the direction close to the first connecting column and drives the second gear disc to rotate, and the first fixing plate is turned over towards the direction of the second connecting column, as shown in fig. 7.

Example 5

On the basis of the embodiment, the sponge layer is arranged on the placing frame. Rubber layers are arranged on the opposite surfaces of the first fixing plate 1 and the second fixing plate 3. The lengths of the first fixing plate 1 and the second fixing plate 3 along the direction of the pipeline are more than 10 cm. The rack includes expansion plate 22 and backup pad 23, and backup pad 23 is connected with expansion plate 22's both ends, and expansion plate's interlude is flexible end, can stretch out and draw back as required.

Simultaneously, the lower extreme of second standing groove is provided with the spout, and the lower extreme of gear strip is provided with the slider, and the lower extreme of spout is passed to the one end of slider, and slider 21 is connected with the extensible member, and the extensible member includes telescopic link 20 and is used for placing telescopic link 20's sleeve pipe 19, stretches out and draws back through telescopic link 20 and drives the slider and slide in the spout, and then drives the removal of gear strip.

The use of "first," "second," and "second," herein merely distinguish between corresponding components for clarity of description and are not intended to limit any order or emphasize importance, etc. In addition, the term "coupled" as used herein may be directly coupled or indirectly coupled via other components, unless otherwise indicated.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (9)

1. The pipeline transportation device convenient to dump is characterized by comprising a pipeline fixing structure, a pipeline moving structure and a turnover structure, wherein the pipeline fixing structure comprises a first fixing plate (1), a second fixing plate (3) and a pipeline clamping piece which are parallel to each other, and a pipeline is fixed between the first fixing plate (1) and the second fixing plate (3) through the pipeline clamping piece; the pipeline moving structure comprises two mutually parallel placing racks; the pipeline fixing structure is positioned between the two placing frames, the turnover structure enables the pipeline fixing structure to turn over, the pipeline slides onto the two placing frames through the first fixing plate (1) or the second fixing plate (3), and the placing frames are perpendicular to the pipeline;

the turnover structure comprises a first connecting column (9) detachably connected with the first fixing plate (1), and a first operation table (11) for turning over the first fixing plate (1), wherein a first gear disc (10) is arranged on the first connecting column (9), and a gear strip (13) and a first fixing piece (12) for fixing the first connecting column (9) are arranged on the first operation table (11); the gear strip (13) can be meshed with the first gear disc (10), the first gear disc (10) is driven to rotate through movement of the gear strip (13), and the first gear disc (10) drives the first fixing plate (1) to rotate by taking the straight line where the first connecting column (9) is located as an axis.

2. A pipeline transportation device convenient for dumping according to claim 1, characterized in that the first fixing plate (1) is provided with at least one first chute (2), and the second fixing plate (3) is provided with at least one second chute (4) corresponding to the first chute (2); the pipeline clamping piece comprises a first adjusting rod (5) and a second adjusting rod (6) which are arranged between the first sliding groove (2) and the second sliding groove (4), two ends of the first adjusting rod (5) are respectively detachably connected with the first fixing plate (1) and the second fixing plate (3), and two ends of the second adjusting rod (6) are respectively detachably connected with the first fixing plate (1) and the second fixing plate (3); the pipeline is fixed at the positions of the first sliding groove (2) and the second sliding groove (4) by adjusting the first adjusting rod (5) and the second adjusting rod (6).

3. A pipeline transportation device convenient for dumping according to claim 2, characterized in that the two ends of the first adjusting rod (5) are connected with a first connecting plate (7), the two ends of the second adjusting rod (6) are connected with a second connecting plate (8), the first connecting plate (7) is detachably connected with the first fixing plate (1) or the second fixing plate (3), and the second connecting plate (8) is detachably connected with the first fixing plate (1) or the second fixing plate (3); the first adjusting rod (5) and the second adjusting rod (6) are telescopic rods with telescopic lengths.

4. A pipeline transportation device convenient for dumping according to claim 1, characterized in that the turnover structure further comprises a second connecting column (14) detachably connected with the first fixing plate (1), a second operation table (15) for turning over the first fixing plate (1), a second gear disc (18) is arranged on the second connecting column (14), the second operation table (15) is connected with the first operation table (11), the gear strip (13) is positioned on the second operation table (15) and the first operation table (11), and a second fixing piece (16) for fixing the second connecting column (14) is arranged on the second operation table (15); the gear strip (13) can be meshed with the second gear disc (18), the second gear disc (18) is driven to rotate through movement of the gear strip (13), and the second gear disc (18) drives the first fixing plate (1) to rotate by taking the straight line where the second connecting column (14) is located as an axis; when the first gear disc (10) is meshed with the gear strip (13), the second gear disc (18) is not meshed with the gear strip (13); when the second gear disk (18) is engaged with the gear strip (13), the first gear disk (10) is not engaged with the gear strip (13).

5. A pipeline transportation device convenient for dumping according to claim 1, comprising two first connecting columns (9), wherein the two first connecting columns (9) are respectively connected to two sides of the first fixing plate (1), the two first connecting columns (9) are positioned on the same straight line, and the straight line where the first connecting columns (9) are positioned is parallel to the straight line where the pipeline is positioned.

6. A dumper-facilitated pipe transportation apparatus as defined in claim 1, wherein the rack is provided with a sponge layer.

7. A dump-ready pipe transport device according to claim 1 wherein the flip structure has sides of the pipe-holding structure in contact with the ground when the flip structure is oriented such that the pipe-holding structure is vertical to the ground.

8. A dump-ready pipe transportation device according to claim 1, characterised in that the first and second fixing plates (1, 3) are provided with rubber layers on opposite faces.

9. A dump-ready pipe transportation device according to claim 1, characterised in that the first fixing plate (1), the second fixing plate (3) have a length in the direction of the pipe of more than 10 cm.

Images