CN218049804U - Pipeline transfer device - Google Patents

Abstract

The utility model relates to a pipeline transfer device, which comprises two material placing frames and two material stirring pieces which are arranged at two sides of a pipeline conveying path, wherein the tail ends of the material placing frames are provided with convex material blocking pieces; the material stirring piece is arranged at the corresponding position of the tail end of the material placing frame and the material blocking piece, the material stirring piece comprises a lifting support and a material stirring device, and the material stirring device is arranged at the top end of the lifting support. The rear part of the material placing frame is connected with a pipeline correcting mechanism, or the tail end of the material placing frame is provided with a pipeline centering mechanism. The utility model provides a manual work transfer pipeline inefficiency, unsafe problem, its simple structure, it is efficient to transfer the pipeline, but also facilitates for follow-up processing.

Description

Pipeline transfer device

Technical Field

The utility model relates to a pipeline processing equipment technical field, especially a pipeline transfer device.

Background

The channeling on the pipes is done by a channeling machine in order to facilitate the connection between the pipes. The steel pipe is often loaded and unloaded in a manual mode in the prior art, so that the workload is large and the efficiency is low. In actual machining, both ends of a steel pipe are usually subjected to rolling groove machining, and the length and the mass of the steel pipe cause the steel pipe to move and the other end of the steel pipe to be subjected to rolling groove machining, so that the rolling groove machining is difficult to implement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pipeline transfer device mainly solves artifical transfer pipeline inefficiency, unsafe problem, and its simple structure transfers the pipeline efficiently, but also facilitates for follow-up processing.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a pipeline transfer device comprises two material placing frames and two material stirring pieces which are arranged at two sides of a pipeline conveying path, wherein the tail ends of the material placing frames are provided with convex material blocking pieces; the material stirring piece is arranged at the corresponding position of the tail end of the material placing frame and the material blocking piece, the material stirring piece comprises a lifting support and a material stirring device, and the material stirring device is arranged at the top end of the lifting support.

The kick-out device comprises a bulge with an upward starting end, an inclined plane connected with the bulge and a concave part with a tail end connected with the inclined plane in sequence.

The tail end of the material placing frame is further provided with a pipeline correcting mechanism, the pipeline correcting mechanism comprises lifting platforms located on two sides of a pipeline conveying path, correcting wheels driven by driving motors are arranged on the lifting platforms, correcting elements are arranged on the outer sides of the correcting wheels on each side, and the distance between the two correcting elements is larger than the length of a pipeline.

The correcting wheel is a rotating wheel with two high ends and a low middle part, and the concave part at the tail end of the kick-out device and the correcting wheel of the correcting mechanism are positioned on the same straight line.

The correction element is a photoelectric switch.

The tail end of the material placing frame is provided with a pipeline centering mechanism, and the pipeline centering mechanism comprises two support frames which are positioned on two sides of a pipeline conveying path and on the outer side of the material placing frame and a centering regulator arranged on the support frames.

The centering regulator comprises a connecting seat, an air cylinder and a top plate, the centering regulator is arranged on the supporting frame through the connecting seat, the air cylinder is connected with the top plate, and the air cylinder is fixed on the connecting seat.

The support frame is provided with a plurality of mounting positions for centering regulators.

The material placing frame is provided with a blocking piece connected with the lifting component.

The lifting component connected with the barrier component is a cylinder.

The utility model has the advantages that:

1. the blocking piece prevents the pipelines from being stacked on the material placing frame in a scattered manner when being unbounded, so that the potential safety hazard of falling of the pipelines is eliminated;

2. the kick-out device is matched with the material blocking piece, and can orderly and singly transfer the pipeline to a next device;

3. the pipeline correcting mechanism and the pipeline centering mechanism can be respectively arranged or arranged together according to different lengths of pipelines, and have the function of correcting the position in advance when the pipelines are conveyed to the next processing stage, so that the pipelines can accurately enter the next processing stage, the processing efficiency is improved, and the processing precision is ensured.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the structure of the kick-out device of the present invention.

Fig. 3 is a schematic view of the position structure of the pipeline calibration mechanism and the material shifting member of the present invention.

Fig. 4 is a schematic view of the fitting structure of the pipeline centering mechanism and the material placing rack of the present invention.

In the figure: 1, placing a material frame; 2-a material blocking part; 3-a kick-out device; 31-a bump; 32-inclined plane; 33-a recess; 4-a barrier; 51-a correction wheel; 52-a correction element; 53-lifting platform; 61-a support frame; 62-a connecting seat; 63-a cylinder; 64-a top plate; a-the pipe transport path.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings. The drawings are for illustrative purposes only and are not to be construed as limiting the patent.

In order to explain the embodiment more simply, some parts known to those skilled in the art in the drawings or in the description, but not relevant to the main content of the present invention, will be omitted. In addition, some components in the drawings may be omitted, enlarged or reduced for convenience of description, but do not represent the size or the entire structure of an actual product.

The utility model discloses a pipeline transfer device, as shown in fig. 1, fig. 3, it is including setting up two in pipeline transportation route both sides put work or material rest 1 and two group material spare, put 1 upper surface of work or material rest and set up and be from beginning to end and slightly decurrent slope, its end is provided with bellied material 2 that hinders, and the pipeline is placed and will be rolled to end automatically on putting work or material rest 1, is hindered material 2 and blocks at last. In order to avoid the safety accident that the pipelines roll off possibly caused by the scattered arrangement of the material placing frame 1 when the pipelines are unbound, a liftable blocking piece 4 driven by a cylinder is arranged at the front end of the material placing frame 1.

Furthermore, a material stirring part is arranged at the position, corresponding to the material blocking part 2, of the tail end of the material placing frame 1, as shown in fig. 2, the material stirring part comprises a lifting support and a material stirring device 3, and the material stirring device 3 is arranged at the top end of the lifting support.

The kick-out member 3 comprises in turn a protrusion 31 with an upward start, an inclined surface 32 connected to the protrusion, and a recess 33 with a downward end connected to the inclined surface.

The first embodiment is as follows:

as shown in fig. 1 and 3, the tail end of the material placing rack is further provided with a pipeline correcting mechanism, the pipeline correcting mechanism comprises two lifting platforms 53 positioned at two sides of a pipeline conveying path, each lifting platform 53 is provided with a correcting wheel 51 driven by a driving motor, and the driving motors can drive the correcting wheels 51 at two sides to synchronously rotate in the same direction; the outside of the correction wheel 51 on each side is provided with a correction element 52, the distance between the two correction elements 52 being greater than the length of the pipe.

The calibration elements 52 are sensing elements, which are located on both sides of the pipeline, and when the calibration element 52 on each side detects one end of the pipeline in the sensing range, the sensing signal is transmitted to the control mechanism, the control mechanism controls the calibration wheel 51 to move the pipeline to the other side for a certain distance, i is set, and the length of the pipeline is L, the distance between the calibration elements 52 on both sides can be set to L +2L. This operation of determination and correction of the position of the pipe, carried out by the control means, is carried out until the correction elements 52 on both sides are no longer able to detect the end of the pipe in their sensing range.

Preferably, the calibration element 52 is a photoelectric switch, a common model being E3F-DS30C4 by Shanghai, zhejiang.

The correcting wheel 51 is a rotating wheel with two high ends and a low middle, and the concave part 33 at the tail end of the kick-out device 3 is positioned on the same straight line with the correcting wheel 51 of the correcting mechanism.

As shown in figure 1, a pipeline rolls from the head of a material placing rack 1 to a position of a tail end material blocking part 2, lifting supports of material shifting parts on two sides of a pipeline conveying path drive two material shifting devices 3 to rise simultaneously, a bulge 31 on the material shifting devices is matched with the corresponding material blocking parts 2 on two sides to jack up the pipeline, the pipeline rolls down into a concave part 33 along an inclined plane 32, at the moment, lifting platforms 53 of correction mechanisms on two sides of the pipeline conveying path rise, the lifting supports of the material shifting parts fall back, and the pipeline is erected on correction wheels 51 of the correction mechanisms on two sides of the pipeline conveying path because the concave part 33 on the tail end of the material shifting device 3 and the correction wheels 51 of the correction mechanisms are positioned on a straight line.

If any end of the pipeline is in the sensing range of the correction element 52 at the corresponding end, the drive motor is triggered to drive the correction wheels 51 at the two ends to synchronously rotate, the pipeline is moved to the middle position, and therefore after the pipeline is located in the center of the conveying path, the lifting support 53 falls back, and the pipeline is conveyed to the next processing stage.

The second embodiment:

the second embodiment is different from the first embodiment in that the position correction is performed after the material placing frame 1 transfers the pipeline through the material poking member, and the position correction is performed before the pipeline is transferred in the second embodiment.

As shown in fig. 4, a pipe centering mechanism is disposed at the end of the material placing rack 1, and the pipe centering mechanism includes two supporting frames 61 located at both sides of the pipe conveying path and outside the material placing rack 1, and a centering regulator disposed thereon.

Centering regulator includes connecting seat 62, cylinder 63 and roof 64, and centering regulator passes through connecting seat 62 and sets up on support frame 61, and cylinder 63 and roof 64 are connected, and cylinder 63 is fixed on connecting seat 62.

Furthermore, in order to meet the requirements of pipelines with different lengths, the supporting frame 61 of the pipeline centering mechanism is provided with a plurality of mounting positions of the centering regulators, and the proper mounting positions can be selected to mount the centering regulators according to the lengths of the processed pipelines.

The pipeline rolls from the head of the material placing frame 1 to the tail end material blocking part 2, and the air cylinders 63 of the regulators on the supporting frames 61 on two sides of the pipeline (two sides of the tail of the material placing frame 1) push the respective top plates 64 simultaneously from two sides to the middle, so that the pipeline is corrected to be in the middle position.

After the pipeline position is centered, the lifting supports of the material shifting pieces on two sides of the pipeline conveying path drive the two material shifting devices 3 to lift up simultaneously, the protrusions 31 on the material shifting devices are matched with the corresponding material blocking pieces 2 on two sides to jack up the pipeline with the centered position, and the pipeline falls into the concave portion 33 along the inclined surface 32 and is transferred to the next processing stage.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. All equivalent changes and modifications made according to the content of the claims of the present invention shall fall within the technical scope of the present invention.

Claims (10)

1. A pipe transfer device, characterized in that: the pipeline conveying device comprises two material placing frames (1) and two material stirring pieces which are arranged on two sides of a pipeline conveying path, wherein a protruding material blocking piece (2) is arranged at the tail end of each material placing frame (1); the material stirring part is arranged at the corresponding position of the tail end of the material placing frame (1) and the material blocking part (2), the material stirring part comprises a lifting support and a material stirring device (3), and the material stirring device (3) is arranged at the top end of the lifting support.

2. The pipe transfer device of claim 1, wherein: the kick-out device (3) comprises a bulge (31) with an upward starting end, an inclined plane (32) connected with the bulge and a concave part (33) with a tail end connected with the inclined plane in sequence.

3. The pipe transfer device of claim 2, wherein: the tail end of the material placing frame (1) is further provided with a pipeline correcting mechanism, the pipeline correcting mechanism comprises lifting platforms (53) located on two sides of a pipeline conveying path, correcting wheels (51) driven by driving motors are arranged on the lifting platforms (53), correcting elements (52) are arranged on the outer sides of the correcting wheels (51) on each side, and the distance between the two correcting elements (52) is larger than the length of a pipeline.

4. The pipe transfer device of claim 3, wherein: the correcting wheel (51) is a rotating wheel with two higher ends and lower middle, and the concave part (33) at the tail end of the kick-out device (3) and the correcting wheel (51) of the correcting mechanism are positioned on the same straight line.

5. The pipe transfer device of claim 3, wherein: the correction element (52) is a photoelectric switch.

6. The pipe transfer device of claim 2, wherein: the tail end of the material placing frame (1) is provided with a pipeline centering mechanism, and the pipeline centering mechanism comprises two support frames (61) which are positioned on two sides of a pipeline conveying path and on the outer side of the material placing frame (1) and a centering regulator arranged on the support frames.

7. The pipe transfer device of claim 6, wherein: centering regulator includes connecting seat (62), cylinder (63) and roof (64), and centering regulator passes through connecting seat (62) and sets up on support frame (61), and cylinder (63) and roof (64) are connected, and cylinder (63) are fixed on connecting seat (62).

8. The pipe transfer device of claim 6, wherein: the support frame (61) is provided with a plurality of mounting positions of the centering regulators.

9. The pipe transfer device of claim 1, wherein: the material placing frame (1) is provided with a blocking piece (4) connected with the lifting component.

10. The pipe transfer device of claim 9, wherein: the lifting component connected with the barrier (4) is a cylinder.

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