CN220244559U - Steel pipe is put pipe and is shifted integrative equipment - Google Patents

Abstract

The utility model provides steel pipe placing and transferring integrated equipment, which belongs to the technical field of mechanical equipment and further comprises at least one sliding rail, wherein one end of the sliding rail is fixedly arranged on a first side, and the other end of the sliding rail is fixedly arranged on a second side; the device comprises a bracket, a tube placing device and a tube separating device, wherein the tube placing device and the tube separating device are arranged on the bracket, the tube placing device is arranged close to a first side, and the tube separating device is arranged close to a second side; the steel pipe is arranged on the sliding rail in a sliding manner, one end of the steel pipe, which is close to the first side, of the sliding rail is placed on the sliding rail, and the steel pipe sequentially passes through the pipe placing device and the pipe separating device to reach one end, which is close to the second side, of the sliding rail under the action of gravity; the steel pipe put on the slide rail by first side reaches the pipe-releasing device under the effect of gravity, and the pipe-releasing device releases the steel pipe as required, and the steel pipe slides to the pipe-separating device under the effect of gravity, and the pipe-separating device shifts the steel pipe to the next process for processing, and this technical scheme can control the pipe-releasing and the shift of steel pipe as required, has improved the machining efficiency of steel pipe.

Description

Steel pipe is put pipe and is shifted integrative equipment

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to steel pipe placing and transferring integrated equipment.

Background

In order to meet the requirements of different production, the formed steel pipe needs to be subjected to process treatments such as shot blasting, sand blasting or spraying to meet different use occasions, so that the steel pipe needs to be repeatedly conveyed and transferred. In particular, in the shot blasting and spraying process of steel pipes, one or more steel pipes are generally required to be operated at the same time, a certain time is required in one operation process, and if a set of equipment integrating pipe placing and transferring of the steel pipes cannot be designed according to the characteristics of operation, the operation efficiency is greatly influenced.

Therefore, according to the characteristics of the treatment process requiring a certain operation time, such as shot blasting, sand spraying, and the like, an integrated device for reasonably releasing and transferring the steel pipe is required.

Disclosure of Invention

In view of the above, the present utility model proposes an integrated apparatus for discharging and transferring steel pipes using a discharging device and a branching device.

The technical scheme of the utility model is realized as follows: the utility model provides a steel pipe puts a tub integrative equipment of transfer, includes the support, the support includes first side and second side, the horizontal plane at first side place is higher than the horizontal plane at second side place, its characterized in that: the device also comprises at least one sliding rail, wherein one end of the sliding rail is fixedly arranged on the first side, and the other end of the sliding rail is fixedly arranged on the second side; the device comprises a bracket, a tube placing device and a tube separating device, wherein the tube placing device and the tube separating device are arranged on the bracket, the tube placing device is arranged close to a first side, and the tube separating device is arranged close to a second side; the sliding device comprises a sliding rail, a first side and a second side, wherein the sliding rail is provided with a steel pipe, one end of the steel pipe, which is close to the first side, of the sliding rail is placed on the sliding rail, and under the action of gravity, the steel pipe sequentially passes through a pipe placing device and a pipe separating device to reach one end, which is close to the second side, of the sliding rail.

On the basis of the technical scheme, preferably, the pipe placing device comprises a pipe blocking piece, the pipe blocking piece is hinged to the support, and the steel pipe is blocked and released in the lifting process of the pipe blocking piece.

On the basis of the technical scheme, preferably, the pipe blocking piece comprises a main rod and an auxiliary rod, the auxiliary rod is arranged at one end of the main rod, the other end of the main rod is hinged to the support, the main rod ascends the auxiliary rod to block the steel pipe, and the main rod descends the auxiliary rod to release the steel pipe.

On the basis of the technical scheme, preferably, the pipe placing device comprises a pipe placing connecting rod and a pipe placing bearing, the pipe placing bearing is arranged on the support, the pipe placing connecting rod is sleeved in the pipe placing bearing, and the main rod is arranged on the pipe placing connecting rod.

On the basis of the technical scheme, preferably, the pipe discharging device further comprises a pipe discharging cylinder and a pipe discharging transmission rod; the pipe placing cylinder is hinged to the support, the output end of the pipe placing cylinder is hinged to the pipe placing transmission rod, and the pipe placing transmission rod is fixedly connected with the pipe placing connecting rod.

On the basis of the technical scheme, preferably, the baffle pipe fitting further comprises a baffle plate, and the baffle plate is arranged on one side of the auxiliary rod, which is contacted with the steel pipe.

On the basis of the technical scheme, preferably, the blocking pipe fitting further comprises a pipe placing fixing hole, the pipe placing fixing hole is formed in the main rod, and the pipe placing connecting rod penetrates through the pipe placing fixing hole and is fixedly arranged in the pipe placing fixing hole.

On the basis of the technical scheme, preferably, the pipe separating device comprises a pipe separating shaft, a pipe separating piece and a pipe separating bearing, wherein the pipe separating bearing is arranged on the support, the pipe separating piece is arranged on the pipe separating shaft, the pipe separating shaft is sleeved in the pipe separating bearing, and the pipe separating shaft is driven to move the pipe separating piece to transfer the steel pipe in the rotating process of the pipe separating shaft.

On the basis of the above technical scheme, preferably, the pipe branching piece comprises a main rotating plate and a pipe branching hook, wherein the main rotating plate is fixedly arranged on the pipe branching shaft, and the pipe branching hook is fixedly arranged on the main rotating plate.

On the basis of the technical scheme, preferably, the branch pipe piece comprises an extension plate and a branch pipe fixing hole, wherein the branch pipe fixing hole is fixedly arranged in the main rotating plate, and the branch pipe shaft penetrates through the branch pipe fixing hole and is fixedly arranged in the branch pipe fixing hole; the extension plate is disposed between the main rotation plate and the branch pipe hook.

Compared with the prior art, the steel pipe placing and transferring integrated device has the following beneficial effects:

the steel pipe put on the slide rail by first side reaches the pipe-releasing device under the effect of gravity, and the pipe-releasing device releases the steel pipe as required, and the steel pipe slides to the pipe-separating device under the effect of gravity, and the pipe-separating device shifts the steel pipe to the next process for processing, and this technical scheme can control the pipe-releasing and the shift of steel pipe as required, has improved the machining efficiency of steel pipe.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of a steel pipe paying-off and transferring integrated device of the utility model;

FIG. 2 is a schematic view of the partial structure of FIG. 1 according to the present utility model;

FIG. 3 is a perspective view of a baffle tube member of the present utility model;

FIG. 4 is an enlarged view of a portion of FIG. 1 in accordance with the present utility model;

fig. 5 is a perspective view of a sub-pipe according to the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will clearly and fully describe the technical aspects of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, are intended to fall within the scope of the present utility model.

As shown in fig. 1-5, the steel pipe placing and transferring integrated device comprises a bracket 1, wherein the bracket 1 comprises a first side 11 and a second side 12, the horizontal plane of the first side 11 is higher than that of the second side 12, and at least one sliding rail 2 is further arranged, one end of the sliding rail 2 is fixedly arranged on the first side 11, and the other end of the sliding rail 2 is fixedly arranged on the second side 12; the device further comprises a tube placing device 3 and a tube separating device 4 which are arranged on the bracket 1, wherein the tube placing device 3 is arranged close to the first side 11, and the tube separating device 4 is arranged close to the second side 12; the steel pipe 10 is arranged on the sliding rail 2 in a sliding manner, one end, close to the first side 11, of the sliding rail 2, and the steel pipe 10 is placed on the sliding rail 2, and sequentially passes through the pipe placing device 3 and the pipe separating device 4 to reach one end, close to the second side 12, of the sliding rail 2 under the action of gravity. The steel pipe 10 placed on the slide rail 2 by the first side 11 reaches the pipe placing device 3 under the action of gravity, the pipe placing device 3 releases the steel pipe 10 according to the requirement, the steel pipe 10 slides to the pipe separating device 4 under the action of gravity, and the pipe separating device transfers the steel pipe 10 to the next procedure for processing.

As shown in fig. 1, the four sliding rails 2 are included, the four sliding rails 2 are in the same plane, and the four sliding rails 2 are arranged in parallel, in this embodiment, the four sliding rails 2 are provided for conveying the steel pipe 10, so that the steel pipe 10 can be conveyed by guiding at least one sliding rail 2, and in actual use, the number and the interval of the sliding rails 2 can be adjusted according to the length and the weight of the steel pipe 10; one end of the slide rail 2 is provided at the other end of the first book 11 at the second side 12, wherein the first side 11 is higher than the second side 12, and thus the slide rail 2 is obliquely placed, with the purpose of automatically rolling the steel pipe 10 placed to the slide rail 2 from the first side 11 to the second side 12 without additional power, and the apparatus is further simplified.

The support 1 sets up in four slide rail 2 bottoms, and support 1 is used for fixed slide rail 2, makes four slide rail 2 keep in the coplanar to four slide rail 2 mutual parallel arrangement avoid steel pipe 10 landing in-process slide rail 2 between the relative position change, lead to whole rack 1 reliability to reduce, and steel pipe 10 can't be smooth from slide rail 2 landing.

In order to better control the pipe discharging speed of the steel pipes 10, avoid a large number of steel pipes 10 to be piled up on the rack 1, we set up the pipe discharging device 3 at one end of the slide rail 2 close to the first side 11, the pipe discharging device 3 is used for controlling the quantity of the steel pipes 10 sliding on the slide rail 2, reasonably discharge the steel pipes 10 according to the time of different processes, avoid a plurality of steel pipes 10 to simultaneously slide to the next procedure on the slide rail 2, influence the treatment effect of the steel pipes 10, know according to the position of the steel pipes 10 placed on the slide rail 2, if the pipe discharging device 3 is to function, the pipe discharging device 3 needs to be arranged at one end of the slide rail 2 close to the first side 11, the pipe discharging device 3 is fixedly arranged on the rack 1, at this moment, the time when the steel pipes 10 roll down from the slide rail 2 can be controlled, and the purpose of the steel pipes 10 can be released according to the needs.

The tube discharging device 3, as shown in fig. 1-3, comprises a tube discharging connecting rod 31, a baffle tube 32, a tube discharging cylinder 33, a tube discharging transmission rod 34 and tube discharging bearings 35, in this embodiment, the tube discharging bearings 35 comprise four tube discharging bearings 35 which are fixedly arranged on the bracket 1, the tube discharging connecting rod 31 is fixedly arranged on the inner rings of the four tube discharging bearings 35, at this time, the tube discharging connecting rod 31 can rotate under the assistance of the tube discharging bearings 35, and the tube discharging connecting rod 31 is arranged vertically to the slide rail 2 in order to better play a role of blocking the steel tube 10; the function of the tube releasing bearing 35 in the technical scheme is to reduce friction between the tube releasing connecting rod 31 and the bracket 1 in the rotation process, reduce noise in the use process of the equipment, improve the reliability of the whole equipment, and release the steel tube 10 as required by reducing or not using the tube releasing bearing 35.

In order to control the rotation of the tube discharging connecting rod 31, the embodiment is realized by hinging the tube discharging cylinder 33 on the bracket 1 with the tube discharging transmission rod 34, the output end of the tube discharging cylinder 33 is connected with one end of the tube discharging transmission rod 34 in a hinging manner, the other end of the tube discharging transmission rod 34 is fixedly arranged on the tube discharging connecting rod 31, the tube discharging transmission rod 34 is arranged in a manner of being mutually perpendicular to the tube discharging connecting rod 31, and the tube discharging transmission rod 31 is driven to rotate by the tube discharging transmission rod 34 hinged with the tube discharging cylinder 33 in the process of the action of the tube discharging cylinder 33.

In order to block and release the steel pipe 10, the blocking pipe fitting 32 is fixedly arranged on the pipe releasing connecting rod 31, the blocking pipe fitting 32 swings along with the rotation of the pipe releasing connecting rod 31, and the swinging process achieves the effects of blocking the steel pipe 10 and releasing the steel pipe 10.

The blocking pipe fitting 32 is used for blocking the steel pipe 10, and when the blocked steel pipe 10 is released at a proper time and the steel pipe 10 is longer or heavier, the use effect of the blocking pipe fitting 32 is poor, so that the blocking pipe fitting 32 can be more reliable, the blocking pipe fitting 32 can be increased in number, in this embodiment, the blocking pipe fitting 32 comprises four blocking pipe fittings 32, and the four blocking pipe fittings 32 are uniformly arranged along the length direction of the pipe releasing connecting rod 31.

The pipe blocking member 32, as shown in fig. 2 and 3, comprises a main rod 32a, an auxiliary rod 32b, a pipe releasing fixing hole 32d and a blocking plate 32c, wherein the auxiliary rod 32b is fixedly arranged on the main rod 32a, the blocking plate 32c is fixedly arranged on the auxiliary rod 32b, the pipe releasing fixing hole 32d is arranged on the main rod 32a, the pipe releasing connecting rod 31 is fixedly arranged in the pipe releasing fixing hole 32d, the main rod 32a is driven by the pipe releasing connecting rod 31 to rotate, and the surface formed by rotation of the main rod 32a is parallel to the auxiliary rod 32b and is perpendicular to the surface where the sliding rail 2 is positioned; the blocking plates 32c are arranged towards the steel pipe 10 placed on the sliding rail 2, the blocking plates 32c are parallel to the steel pipe 10 placed on the sliding rail 2, the blocking plates 32c of the four blocking pipe fittings 32 are arranged on the same plane, in order to avoid damage of the steel pipe 10 to the surface coating of the steel pipe 10, rubber pads are arranged on the surface, in contact with the steel pipe 10, of the blocking plates 32c, the blocking plates 32c are used for blocking the steel pipe 10, the steel pipe is released according to requirements, friction between the rubber pads and the steel pipe 10 is reduced by the rubber pads, and the coating on the steel pipe 10 is protected.

In the embodiment, when the pipe discharging cylinder 33 acts, the pipe discharging transmission rod 34 hinged with the pipe discharging cylinder drives the pipe discharging connecting rod 31 to rotate, the main rod 32a fixedly arranged on the pipe discharging connecting rod 31 is lifted upwards, and the auxiliary rod 32b is slowly higher than the height of the steel pipe 10 arranged on the sliding rail 2, so that the rolling of the steel pipe 10 is blocked; when the steel pipe 10 is required to roll, the pipe discharging cylinder 33 acts in the opposite direction, the main rod 32a fixedly provided on the pipe discharging link 31 drops downward, and the auxiliary rod 32b is lower than the height of the steel pipe 10 placed on the slide rail 2, and the steel pipe 10 rolls along the slide rail 2 under the action of gravity. As can be seen from practical use, in order to make the release of the steel pipe 10 by the blocking plate 32c smoother, the release of the steel pipe 10 is most smooth when the angle between the blocking plate 32c and the main rod 32a is 120 °.

The pipe separation device 4 is arranged at one end of the sliding rail 2 far away from the pipe separation device 3, as shown in fig. 1, 4 and 5, the steel pipe 10 released by the pipe separation device 3 reaches the pipe separation device 4 along the sliding rail 2 under the action of gravity, the pipe separation device 4 comprises a pipe separation shaft 41, a pipe separation piece 42, a pipe separation motor 43, a pipe separation speed reducer 44 and pipe separation bearings 45, the pipe separation shaft 41 is parallel to the plane where the four sliding rails 2 are located and is mutually perpendicular to the sliding rail 2, the pipe separation shaft 41 is arranged at the end part of the sliding rail 2, the pipe separation bearings 45 are fixedly arranged on the bracket 1 in order to prevent the pipe separation device 4 from moving in the working process, the pipe separation shaft 41 is fixedly arranged at the inner ring of the pipe separation bearings 45, in this embodiment, the pipe separation bearings 45 comprise four parts, and are uniformly arranged along the length direction of the pipe separation shaft 41.

The power output by the branch pipe motor 43 is transmitted to the branch pipe reducer 44, the branch pipe reducer 44 drives the branch pipe shaft 41 to rotate, the branch pipe motor 43 provides power for the rotation of the branch pipe shaft 41, and the branch pipe reducer 44 is used for reducing the rotation speed of the branch pipe motor 43, so that safety accidents caused by too fast rotation are avoided.

The branch pipe fitting 42, as shown in fig. 5, comprises a main rotating plate 42a, an extension plate 42b, a branch pipe hook 42c and a branch pipe fixing hole 42d, wherein the branch pipe hook 42c is fixedly arranged on the extension plate 42b, the branch pipe fixing hole 42d is fixedly arranged on the main rotating plate 42a, and the branch pipe shaft 41 is fixedly arranged in the branch pipe fixing hole 42 d; in order to improve efficiency, the extension plate 42b and the pipe-separating hook 42c may include a plurality of positions, but in order to control the positions of pipe-separating and pipe-releasing in the pipe-separating process, the distances from any one pipe-separating hook 42c to the pipe-separating fixing hole 42d are equal, and at this time, the positions of pipe-separating and pipe-releasing are more uniform, so that the inconsistent positions of pipe-separating and pipe-releasing of different pipe-separating hooks 42c are avoided, and the precision of the whole equipment is reduced.

In this embodiment, the main rotating plate 42a is an equilateral triangle, the branch pipe fixing hole 42d is disposed at the center of the main rotating plate 42a, the extending plate 42b includes 3 extending plates 42b, each side of the equilateral triangle is connected to one extending plate 42b, and the main rotating plate 42a can be any graph in actual production, so long as the distances from the branch pipe hook 42c to the branch pipe fixing hole 42d are ensured to be equal.

The pipe separating hook 42c is tilted upward along the rotation direction of the main rotating plate 42a to generate a certain blocking to the steel pipe 10, so as to avoid the steel pipe 10 from separating from the pipe separating piece 42 in the pipe separating process, and the steel pipe 10 cannot be transferred.

In order to make the tube separation more reliable, the tube separation members 42 include four tube separation members 42, and the four tube separation members 42 are uniformly arranged on the tube separation shaft 41, and each tube separation member 42 is identical, and the tube separation hooks 42c are arranged in one-to-one correspondence, and the one-to-one correspondence of the tube separation hooks 42c means that the corresponding four tube separation hooks 42 on the four tube separation members 42 are on a straight line, and the tube separation shaft 41 drives the tube separation hooks 42 to synchronously rotate, so that the stress of each tube separation hook 42 in the tube separation process of the steel tube 10 is uniform.

In order to enable the branched pipe member 42 to realize the bidirectional transfer function, in this embodiment, two branched pipe hooks 42c are provided on both sides of each extension plate 42b, and the branched pipe member 42 can transfer the steel pipe 10 from one side of the branched pipe member 42 to the other side, or can transfer the steel pipe in opposite directions, wherein the transfer direction is related to the rotation direction of the main rotation plate 42 a.

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

Claims (10)

1. The utility model provides a steel pipe puts a tub integrative equipment of transfer, includes support (1), support (1) include first side (11) and second side (12), the horizontal plane at first side (11) place is higher than the horizontal plane at second side (12) place, its characterized in that: the device also comprises at least one sliding rail (2), wherein one end of the sliding rail (2) is fixedly arranged on the first side (11), and the other end of the sliding rail is fixedly arranged on the second side (12);

the device also comprises a tube placing device (3) and a tube separating device (4) which are arranged on the bracket (1), wherein the tube placing device (3) is arranged close to the first side (11), and the tube separating device (4) is arranged close to the second side (12);

the sliding rail (2) is provided with a steel pipe (10) in a sliding manner, one end, close to the first side (11), of the steel pipe (10) is placed on the sliding rail (2), and under the action of gravity, the steel pipe (10) sequentially passes through the pipe placing device (3) and the pipe separating device (4) to reach one end, close to the second side (12), of the sliding rail (2).

2. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 1, wherein: the pipe placing device (3) comprises a pipe blocking piece (32), the pipe blocking piece (32) is hinged to the support (1), and the pipe blocking piece (32) blocks and releases the steel pipe (10) in the lifting process.

3. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 2, wherein: the pipe blocking piece (32) comprises a main rod (32 a) and an auxiliary rod (32 b), the auxiliary rod (32 b) is arranged at one end of the main rod (32 a), the other end of the main rod (32 a) is hinged to the support (1), the main rod (32 a) ascends the auxiliary rod (32 b) to block the steel pipe (10), and the main rod (32 a) descends the auxiliary rod (32 b) to release the steel pipe (10).

4. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 3, wherein: the tube placing device (3) comprises a tube placing connecting rod (31) and a tube placing bearing (35), the tube placing bearing (35) is arranged on the support (1), the tube placing connecting rod (31) is sleeved in the tube placing bearing (35), and the main rod (32 a) is arranged on the tube placing connecting rod (31).

5. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 4, wherein: the pipe discharging device (3) further comprises a pipe discharging cylinder (33) and a pipe discharging transmission rod (34); the pipe placing cylinder (33) is hinged to the support (1), the output end of the pipe placing cylinder (33) is hinged to the pipe placing transmission rod (34), and the pipe placing transmission rod (34) is fixedly connected with the pipe placing connecting rod (31).

6. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 3, wherein: the blocking pipe fitting (32) further comprises a blocking plate (32 c), and the blocking plate (32 c) is arranged on one side of the auxiliary rod (32 b) contacted with the steel pipe (10).

7. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 4, wherein: the blocking pipe fitting (32) further comprises a pipe placing fixing hole (32 d), the pipe placing fixing hole (32 d) is formed in the main rod (32 a), and the pipe placing connecting rod (31) penetrates through the pipe placing fixing hole (32 d) and is fixedly arranged in the pipe placing fixing hole (32 d).

8. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 1, wherein: the pipe separating device comprises a pipe separating shaft (41), a pipe separating piece (42) and a pipe separating bearing (45), wherein the pipe separating bearing (45) is arranged on the support (1), the pipe separating piece (42) is arranged on the pipe separating shaft (41), the pipe separating shaft (41) is sleeved in the pipe separating bearing (45), and the pipe separating piece (42) is driven to move the steel pipe (10) in the rotating process of the pipe separating shaft (41).

9. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 8, wherein: the branch pipe piece (42) comprises a main rotating plate (42 a) and a branch pipe hook (42 c), wherein the main rotating plate (42 a) is fixedly arranged on the branch pipe shaft (41), and the branch pipe hook (42 c) is fixedly arranged on the main rotating plate (42 a).

10. A steel pipe paying-off and transferring integrated apparatus as claimed in claim 9, wherein: the branch pipe piece (42) comprises an extension plate (42 b) and a branch pipe fixing hole (42 d), the branch pipe fixing hole (42 d) is fixedly arranged on the main rotating plate (42 a), and the branch pipe shaft (41) penetrates through the branch pipe fixing hole (42 d) and is fixedly arranged in the branch pipe fixing hole (42 d); the extension plate (42 b) is disposed between the main rotation plate (42 a) and the branch pipe hook (42 c).