CN214188461U - Double-layer longitudinal hollow composite pipe processing device - Google Patents

Abstract

The utility model discloses a compound pipe processingequipment of double-deck vertical cavity, including base, first driving motor, second driving motor, first fixed subassembly, the fixed subassembly of second, first rotation axis, second rotation axis, first swinging boom, second swinging boom and control box, first driving motor locates on the base, first rotation axis is rotatable locate on the base and link to each other with first driving motor's output, first swinging boom is located on the first rotation axis, first fixed subassembly is located on the first swinging boom, second driving motor locates on the base, the rotatable output that locates on the base and with second driving motor of second rotation axis links to each other. The utility model relates to a technical field is fixed to the pipeline, concretely relates to support piece that supports to bellows is difficult for producing high temperature, simple structure, convenient to use's compound pipe processingequipment of double-deck vertical cavity.

Description

Double-layer longitudinal hollow composite pipe processing device

Technical Field

The utility model relates to a compound pipe production technical field, concretely relates to compound pipe processingequipment of double-deck vertical cavity.

Background

The double-layer longitudinal hollow composite pipe can be widely applied to industries such as electric power, metallurgy, mine, coal, chemical industry and the like as a conveying abrasive particle material such as sand, stone, coal dust, ash slag, aluminum liquid and the like and a corrosive medium, is an ideal abrasion-resistant pipeline, and generally needs to be subjected to film coating processing to protect the outer surface of the composite pipe and improve the integral appearance of a product. The film covering processing machine in the prior art is complex in structure and inconvenient to operate, does not have a dust removal function before film covering, and needs manual work to slightly remove dust on a pipe fitting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can carry out the tectorial membrane to compound pipe and can carry out automatic dust removal operation, simple structure, convenient to use's the compound pipe processingequipment of double-deck vertical cavity before the tectorial membrane.

The utility model adopts the following technical scheme: the utility model relates to a double-layer longitudinal hollow composite pipe processing device, which comprises a base, a first supporting seat, a second supporting seat, a third supporting seat, a first telescopic cylinder, a second telescopic cylinder and a first driver, wherein the first supporting seat and the third supporting seat are arranged on the base, the second supporting seat is arranged on the base and is positioned between the first supporting seat and the third supporting seat, the first telescopic cylinder is arranged on the first supporting seat, the free end of the first telescopic cylinder is provided with a push ring, the second supporting seat is provided with a sliding table, the push ring is positioned above the sliding table, the second telescopic cylinder is arranged on the base and is positioned between the second supporting seat and the third supporting seat, the free end of the second telescopic cylinder is provided with an installation box body, the base is provided with a supporting plate, the supporting plate is provided with a vertical sliding rail, the installation box body is slidably arranged on the vertical sliding rail, the first driver is arranged on the installation box body, the output end of the first driver is provided with a spline shaft, the spline shaft can be rotatably arranged on the installation box body, a support rod is sleeved on the spline shaft and connected with the spline shaft through a spline, an internal supporting roller can be rotatably arranged on the support rod and positioned above the sliding table, a second driver is arranged on the third supporting seat, an output shaft is arranged on the second driver, a driving wheel is arranged on the output shaft and can be rotatably arranged on the third supporting seat, an annular rack is arranged on the internal supporting roller and can be meshed and connected with the annular rack, a first dust hood is arranged on the supporting plate, one side of the first dust hood, which is close to the internal supporting roller, is in an inwards concave arc shape and is provided with a first air suction hole, a first air suction device is arranged on the supporting plate and is communicated with the first dust hood, a second dust hood is arranged on the supporting plate, one side, close to the internal supporting roller, of the second dust hood is arranged in an inwards concave arc shape and is provided with a second air suction hole, a second air suction device is arranged on the supporting plate, and the second air suction device is communicated with the second dust hood; when the dust removal device is used, the first telescopic cylinder is unfolded, the free end of the first telescopic cylinder pushes the double-layer longitudinal hollow composite pipe on the sliding table to the right through the push ring, the composite pipe is sleeved on the internal support roller, the second telescopic cylinder is unfolded to drive the installation box body to slide upwards along the vertical slide rail, the installation box body drives the support rod to vertically ascend, the composite pipe on the internal support roller vertically ascends, the composite pipe stops when ascending and is close to the first dust hood, the first air suction device is started, the first air suction device performs dust removal operation on the inner side of the composite pipe through a plurality of groups of first air suction holes on the first dust hood, the first driver is started after dust removal on the inner side of the composite pipe is completed, the first driver rotates 180 degrees anticlockwise to enable the outer side of the composite pipe to be close to the second dust hood, the second air suction device is started, and performs dust removal operation on the outer side of the composite pipe through a plurality of groups of second air suction holes on the second dust hood, after the dust removal is completed, the second telescopic cylinder contracts to drive the installation box body to descend along the vertical sliding rail, so that the annular rack is meshed with the driving wheel to be connected, the second telescopic cylinder stops contracting, the free end of the wound film is fixed on the composite pipe, the second driver is started and drives the driving wheel to rotate, and the driving wheel drives the internal supporting roller to rotate through the annular rack, so that the wound film is wound on the composite pipe.

Further, the first driver and the second driver are both servo driving motors.

Further, the first air suction holes are provided with a plurality of groups.

Furthermore, a plurality of groups of second air suction holes are arranged.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: when the device is used, the first telescopic cylinder is unfolded, the free end of the first telescopic cylinder pushes the double-layer longitudinal hollow composite pipe on the sliding table rightwards through the push ring, the composite pipe is sleeved on the inner supporting roller, the second telescopic cylinder is unfolded to drive the mounting box body to slide upwards along the vertical slide rail, the mounting box body drives the support rod to vertically ascend, the composite pipe on the inner supporting roller vertically ascends, when the composite pipe ascends and is close to the first dust hood, the first air suction device is started, the first air suction device performs dust removal operation on the inner side of the composite pipe through a plurality of groups of first air suction holes on the first dust hood, after the inner side of the composite pipe finishes dust removal, the first driver is started, the first driver rotates 180 degrees anticlockwise, the outer side of the composite pipe is close to the second dust hood, the second air suction device is started, the second air suction device performs dust removal operation on the outer side of the composite pipe through a plurality of groups of second air suction holes on the second dust hood, after the dust removal is completed, the second telescopic cylinder contracts to drive the installation box body to descend along the vertical sliding rail, so that the annular rack is meshed with the driving wheel to be connected, the second telescopic cylinder stops contracting, the free end of the wound film is fixed on the composite pipe, the second driver is started and drives the driving wheel to rotate, and the driving wheel drives the internal supporting roller to rotate through the annular rack, so that the wound film is wound on the composite pipe. The utility model discloses can carry out the tectorial membrane to compound pipe and can carry out automatic dust removal operation to compound outside of tubes surface before the tectorial membrane, simple structure, convenient to use has better market perspective.

Drawings

Fig. 1 is a schematic view of the overall structure of a double-layer longitudinal hollow composite pipe processing device of the present invention;

FIG. 2 is a schematic structural view of a first dust hood of the double-layer longitudinal hollow composite pipe processing device of the present invention;

fig. 3 is a schematic structural view of a second dust hood of the double-layer longitudinal hollow composite pipe processing device of the present invention.

The device comprises a base, a second supporting seat, a first supporting seat, a second supporting seat, a third supporting seat, a first telescopic cylinder, a second telescopic cylinder, a first driver, a second driver, a push ring, a sliding table, a third supporting seat, a fourth telescopic cylinder, a fourth supporting seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1-3, the utility model relates to a double-layer longitudinal hollow composite pipe processing device, which comprises a base 1, a first support seat 2, a second support seat 3, a third support seat 4, a first telescopic cylinder 5, a second telescopic cylinder 6 and a first driver 7, wherein the first support seat 2 and the third support seat 4 are arranged on the base 1, the second support seat 3 is arranged on the base 1 and is positioned between the first support seat 2 and the third support seat 4, the first telescopic cylinder 5 is arranged on the first support seat 2, the free end of the first telescopic cylinder 5 is provided with a push ring 8, the second support seat 3 is provided with a sliding table 9, the push ring 8 is positioned above the sliding table 9, the second telescopic cylinder 6 is arranged on the base 1 and is positioned between the second support seat 3 and the third support seat 4, the free end of the second telescopic cylinder 6 is provided with an installation box 10, the base 1 is provided with a support plate 11, be equipped with vertical slide rail 12 on the backup pad 11, install the box 10 slidable and locate on vertical slide rail 12, first driver 7 is located on installing the box 10, the output of first driver 7 is equipped with integral key shaft 13, integral key shaft 13 is rotatable to be located on installing the box 10, the last cover joint of integral key shaft 13 is equipped with bracing piece 14, bracing piece 14 adopts splined connection with integral key shaft 13, rotatable inside backing roll 15 that is equipped with on the bracing piece 14, inside backing roll 15 is located slip table 9 top, be equipped with second driver 16 on the third supporting seat 4, be equipped with output shaft 17 on the second driver 16, be equipped with action wheel 18 on the output shaft 17, action wheel 18 is rotatable to be located on the third supporting seat 4, be equipped with annular rack 19 on the inside backing roll 15, action wheel 18 can be connected with annular rack 19 meshing, be equipped with first dust excluding hood 20 in the backup pad 11, one side that first dust excluding hood 20 is close to inside backing roll 15 is the setting of indent arc and is equipped with first induced draft hole 21, be equipped with first aspirator 22 in the backup pad 11, first aspirator 22 and the setting of first dust excluding hood 20 intercommunication, be equipped with second dust excluding hood 23 in the backup pad 11, one side that second dust excluding hood 23 is close to inside backing roll 15 is the setting of indent arc and is equipped with second induced draft hole 24, be equipped with second aspirator 25 in the backup pad 11, second aspirator 25 and the setting of second dust excluding hood 23 intercommunication.

The first driver 7 and the second driver 16 are both servo driving motors, the first air suction holes 21 are provided with multiple groups, and the second air suction holes 24 are provided with multiple groups.

When the double-layer longitudinal hollow composite pipe winding machine is used specifically, in an initial state, the first driver 7 and the second driver 16 are both in a standby pause state, the first air suction device 22 and the second air suction device 25 are in a standby pause state, and the double-layer longitudinal hollow composite pipe to be wound is placed on the sliding table 9 and is positioned between the push ring 8 and the inner supporting roller 15; when the dust removal device is used, the first telescopic cylinder 5 is unfolded, the free end of the first telescopic cylinder 5 pushes the double-layer longitudinal hollow composite pipe on the sliding table 9 to the right through the push ring 8, the composite pipe is sleeved on the inner supporting roller 15, then the second telescopic cylinder 6 is unfolded to drive the installation box body 10 to slide upwards along the vertical slide rail 12, the installation box body 10 drives the supporting rod 14 to vertically ascend, the composite pipe on the inner supporting roller 15 vertically ascends, when the composite pipe ascends and is close to the first dust hood 20, the first air suction device 22 is started, the first air suction device 22 carries out dust removal operation on the inner side of the composite pipe through the plurality of groups of first air suction holes 21 on the first dust hood 20, after the dust removal of the inner side of the composite pipe is completed, the first driver 7 is started, the first driver 7 rotates 180 degrees anticlockwise, the outer side of the composite pipe is close to the second dust hood 23, the second air suction device 25 is started, and the second air suction device 25 carries out dust removal operation on the outer side of the composite pipe through the plurality of groups of second air suction holes 24 on the second dust hood 23, after the dust removal is finished, the second telescopic cylinder 6 contracts to drive the installation box body 10 to descend along the vertical sliding rail 12, so that the annular rack 19 is meshed with the driving wheel 18 to be connected, the second telescopic cylinder 6 stops contracting to fix the free end of the wound film on the composite pipe, the second driver 16 is started, the second driver 16 drives the driving wheel 18 to rotate, and the driving wheel 18 drives the internal supporting roller 15 to rotate through the annular rack 19, so that the wound film is wound on the composite pipe, and the film coating is realized.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. A double-layer longitudinal hollow composite pipe processing device is characterized by comprising a base, a first supporting seat, a second supporting seat, a third supporting seat, a first telescopic cylinder, a second telescopic cylinder and a first driver, wherein the first supporting seat and the third supporting seat are arranged on the base, the second supporting seat is arranged on the base and is positioned between the first supporting seat and the third supporting seat, the first telescopic cylinder is arranged on the first supporting seat, the free end of the first telescopic cylinder is provided with a push ring, the second supporting seat is provided with a sliding table, the push ring is positioned above the sliding table, the second telescopic cylinder is arranged on the base and is positioned between the second supporting seat and the third supporting seat, the free end of the second telescopic cylinder is provided with an installation box body, the base is provided with a supporting plate, the supporting plate is provided with a vertical sliding rail, the installation box body is slidably arranged on the vertical sliding rail, the first driver is arranged on the installation box body, the output end of the first driver is provided with a spline shaft, the spline shaft can be rotatably arranged on the installation box body, a support rod is sleeved on the spline shaft and connected with the spline shaft through a spline, an internal supporting roller can be rotatably arranged on the support rod and positioned above the sliding table, a second driver is arranged on the third supporting seat, an output shaft is arranged on the second driver, a driving wheel is arranged on the output shaft and can be rotatably arranged on the third supporting seat, an annular rack is arranged on the internal supporting roller and can be meshed and connected with the annular rack, a first dust hood is arranged on the supporting plate, one side of the first dust hood, which is close to the internal supporting roller, is in an inwards concave arc shape and is provided with a first air suction hole, a first air suction device is arranged on the supporting plate and is communicated with the first dust hood, the supporting plate is provided with a second dust hood, one side, close to the inner supporting roller, of the second dust hood is in an inwards concave arc shape and is provided with a second air suction hole, the supporting plate is provided with a second air suction device, and the second air suction device is communicated with the second dust hood.

2. The double-layer longitudinal hollow composite pipe processing device according to claim 1, wherein the first driver and the second driver are both servo drive motors.

3. The double-layer longitudinal hollow composite pipe processing device according to claim 2, wherein the first air suction holes are provided with a plurality of groups.

4. The double-layer longitudinal hollow composite pipe processing device according to claim 3, wherein the second air suction holes are provided with a plurality of groups.

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