CN217799391U - Double-end automatic beveling machine line - Google Patents

Abstract

The utility model relates to the technical field of groove equipment, and provides a double-end automatic groove machine line, which comprises a movable groove mechanism, a pipeline clamping mechanism, a pipeline supporting platform, a pipeline clamping mechanism and a fixed groove mechanism which are arranged in sequence along the left and right directions; the groove lathe bed of the movable groove mechanism and the clamping lathe bed on the same side are fixedly connected and then are slidably mounted on the ground rail and slide along the left and right directions under the action of the lathe bed driving unit, and the lathe bed of the fixed groove mechanism is fixed on the ground rail; the supporting platform comprises a platform bottom plate, a platform top frame arranged above the platform bottom plate through a jacking oil cylinder, a plurality of transmission rollers which are rotatably supported on the platform top frame and are uniformly distributed at intervals along the left and right directions, and a roller driving unit for driving each transmission roller to synchronously move. The utility model overcomes prior art's is not enough, reasonable in design, and compact structure has solved the current two-way movable groove machine because of the pipeline adjust the whole inefficiency of groove machining that the location leads to repeatedly.

Description

Double-end automatic beveling machine line

Technical Field

The utility model relates to a groove equipment technical field, concretely relates to automatic beveling machine line of double-end.

Background

The beveling machine is a special tool for chamfering and beveling the end face of a pipeline at the welding front end. The existing beveling machine is divided into a one-way beveling machine and a two-way beveling machine, wherein the two-way beveling machine is a two-way moving beveling machine, beveling mechanisms on two sides of the two-way moving beveling machine are respectively arranged on a movable lathe bed, and the length of a pipeline is adapted through the movement of the lathe bed. When the existing pipeline is lifted to a supporting platform, the position degrees of the left and right directions, namely the length directions, of the existing pipeline are different, and under the condition that the length of the pipeline is given, the preset advancing distance of the groove mechanisms on the two sides is certain, so that the position degrees of the pipeline need to be adjusted repeatedly by workers, the distance between the pipeline and the groove mechanisms on the two sides is ensured to be consistent with the preset advancing distance, and the whole efficiency of the groove machining of the pipeline is low.

Therefore, a double-head automatic beveling machine line is provided.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an automatic beveling machine line of double-end has overcome the not enough of prior art, reasonable in design, and compact structure has solved the current two-way movable formula beveling machine because of the pipeline adjust the technical problem that the whole inefficiency of groove machining that the location leads to repeatedly.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

a double-head automatic beveling machine line comprises a movable beveling mechanism, a pipeline clamping mechanism, a pipeline supporting platform, a pipeline clamping mechanism and a fixed beveling mechanism which are sequentially arranged along the left and right directions;

the movable groove mechanism and the fixed groove mechanism respectively comprise a groove lathe bed, a supporting plate which is slidably arranged on the lathe bed, a supporting plate driving unit which drives the supporting plate to slide, a spindle box which is arranged on the supporting plate and connected with a cutter head, and a spindle driving unit which is in transmission connection with the spindle box;

the pipeline clamping mechanism comprises a clamping lathe body, a pair of clamping seats, a support driving unit and a V-shaped chuck, wherein the clamping seats are slidably arranged on the clamping lathe body;

the supporting platform comprises a platform bottom plate, a platform top frame arranged above the platform bottom plate through a jacking oil cylinder, a plurality of transmission rollers which are rotatably supported on the platform top frame and are uniformly distributed at intervals along the left and right directions, and a roller driving unit which drives each transmission roller to synchronously move;

the groove bed body of the movable groove mechanism is fixedly connected with the clamping bed body on the same side, then is slidably mounted on the ground rail and slides along the left and right directions under the action of the bed body driving unit.

Furthermore, the front side wall or the rear side wall of the platform top frame is provided with a long hole arranged along the length direction, and a shaft neck of the transmission roller extends out of the long hole and is in synchronous transmission connection with the roller driving unit through a chain wheel and a chain.

Furthermore, arc-shaped notches are formed in the left side wall and the right side wall of the platform top frame.

Furthermore, a plurality of V-shaped clamping parts arranged at intervals are arranged on the inner side of the V-shaped clamping head.

Furthermore, the V-shaped chuck and the clamping seat are in sliding fit through a dovetail structure and are in fastening connection through a first bolt and nut assembly, the clamping seat is provided with a long hole matched with the first bolt and nut assembly, and the dovetail structure and the long hole extend in the vertical direction.

Furthermore, a numerical control bottom plate is installed on the cutter head, a cutter holder guided by a guide rail of the cutter holder through the auxiliary transmission of a screw-nut is installed on the numerical control bottom plate, and a screw rod of the screw-nut pair is rotatably supported and connected with a cutter holder driving unit through a support.

Furthermore, the numerical control bottom plate is fixedly connected with the cutter head through a second bolt and nut assembly, and the cutter head is provided with a T-shaped groove which is matched with the second bolt and nut assembly and extends along the diameter direction.

(III) advantageous effects

The utility model provides an automatic beveling machine line of double-end possesses following beneficial effect: the utility model discloses a set up the fixed groove mechanism of unilateral, opposite side activity groove mechanism to set up supporting platform into the adjustable structure who drives the pipeline removal through the transmission gyro wheel, with the adjustment that adapts to the pipeline position degree, need not the manual work of front track and adjust, and then improve the whole efficiency of pipeline groove preparation.

Drawings

Fig. 1 is a schematic structural view of a first viewing angle of the present invention;

fig. 2 is a schematic structural view of a second viewing angle of the present invention;

fig. 3 is a schematic structural view of a first viewing angle of the pipeline supporting platform according to the present invention;

fig. 4 is a schematic structural view of a second viewing angle of the pipeline supporting platform of the present invention;

fig. 5 is a schematic structural view of the pipe clamping mechanism of the present invention;

fig. 6 is a schematic structural view of the middle fixed groove mechanism of the present invention.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are part of the embodiments of the present invention, rather than all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Referring to the attached drawings 1-6, a double-end automatic beveling machine line comprises a movable beveling mechanism 1, a pipeline clamping mechanism 2, a pipeline supporting platform 3, a pipeline clamping mechanism 2 and a fixed beveling mechanism 1' which are sequentially arranged along the left and right directions;

the movable bevel mechanism 1 and the fixed bevel mechanism 1' both comprise a bevel lathe bed 11, a transverse supporting plate 12 slidably mounted on the lathe bed, a longitudinal supporting plate 19 slidably mounted on the transverse supporting plate 12, a transverse supporting plate driving unit driving the transverse supporting plate 12 to slide along the left-right direction, a longitudinal supporting plate driving unit driving the longitudinal supporting plate 19 to slide along the front-back direction, a spindle box 13 mounted on the transverse supporting plate and connected with a cutter head 15, and a spindle driving unit 14 in transmission connection with the spindle box 13;

the pipeline clamping mechanism 2 comprises a clamping bed body 21, a pair of clamping seats 22 slidably mounted on the clamping bed body 21, a support driving unit for driving the clamping seats 22 to move oppositely, and a V-shaped clamp 23 mounted on the clamping seats 22;

the supporting platform 3 comprises a platform bottom plate 31, a platform top frame 32 arranged above the platform bottom plate 31 through a jacking oil cylinder, a plurality of transmission rollers 34 which are rotatably supported on the platform top frame 32 and are uniformly distributed at intervals along the left-right direction, and a roller driving unit 35 which drives each transmission roller 34 to synchronously move, wherein the diameters of the transmission rollers are gradually reduced from two ends to the middle, namely, a V-shaped structure for positioning the pipeline is formed on the transmission rollers;

the groove bed body 11 of the movable groove mechanism 1 and the clamping bed body 21 on the same side are fixedly connected and then are slidably mounted on the ground rail and slide along the left and right directions under the action of the bed body driving unit.

In this embodiment, a correlation infrared sensor may be disposed between the fixed groove mechanism 1' and the pipe clamping mechanism 2 on the same side to monitor and feed back the movement of the pipe.

In this embodiment, the front side wall or the rear side wall of the platform top frame 32 is provided with a long hole 321 arranged along the length direction, and the journal 341 of the transmission roller 34 extends out of the long hole 321 and is synchronously connected with the roller driving unit 35 through a sprocket and a chain. The left and right side walls of the platform top frame 32 are provided with circular arc notches 322 for coarse positioning of the pipeline.

In this embodiment, a plurality of V-shaped clamping portions 231 are disposed at intervals inside the V-shaped clamp head 23 to form a plurality of clamping points, which can form a better clamping for the pipe. V-arrangement chuck 23 passes through forked tail structure 232 sliding fit and through first bolt and nut subassembly fastening connection with pressing from both sides tight seat 22, press from both sides tight seat 22 and be equipped with first bolt and nut subassembly complex rectangular hole, forked tail structure, rectangular hole extend along upper and lower direction, on the basis that carries out the aperture to a pair of V-arrangement chuck 23 that sets up in opposite directions through support drive unit, assist and adjust V-arrangement chuck 23 height along forked tail structure 232 is manual to the adaptation centre gripping of the pipeline of different diameters.

In this embodiment, a numerical control bottom plate 16 is mounted on the cutter head 15 through a second bolt-nut assembly, a cutter holder 18 guided by a cutter holder guide rail through a screw-nut pair transmission is mounted on the numerical control bottom plate 16, and a screw of the screw-nut pair is rotatably supported by a support and connected with a cutter holder driving unit 17. The tool apron driving unit 17 drives the adjusting tool apron 18 to move along the tool apron guide rail in a guiding mode and adjust the position so as to adapt to groove machining of pipelines with different diameters.

In this embodiment, the transverse pallet driving unit, the longitudinal pallet driving unit, the spindle driving unit, the support driving unit, the roller driving unit, the bed driving unit, and the tool apron driving unit may all adopt a combination of a reducer and a servo motor. The transverse supporting plate driving unit and the longitudinal supporting plate driving unit are in transmission connection with the corresponding supporting plates, can refer to the transmission connection between the tool apron driving unit and the tool apron, and are in transmission through the screw-nut pair and guided by the guide rail; the main shaft driving unit is directly connected with a main shaft extending end on the main shaft box; the support driving unit and the pair of clamping seats are in transmission through a feed screw nut pair, a nut seat in the feed screw nut pair is arranged at the bottom of the clamping seat, a feed screw is a bidirectional feed screw and moves along the front-back direction, and the clamping seat is in guiding fit with a guide groove 211 of a clamping bed body along the front-back direction; the lathe bed driving unit and the groove lathe bed of the movable groove mechanism are in transmission through the screw nut pair.

It should be noted that the above embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. A double-head automatic beveling machine line comprises a movable beveling mechanism, a pipeline clamping mechanism, a pipeline supporting platform, a pipeline clamping mechanism and a fixed beveling mechanism which are sequentially arranged along the left and right directions; the method is characterized in that:

the movable groove mechanism and the fixed groove mechanism respectively comprise a groove lathe bed, a supporting plate which is slidably arranged on the lathe bed, a supporting plate driving unit which drives the supporting plate to slide, a spindle box which is arranged on the supporting plate and connected with a cutter head, and a spindle driving unit which is in transmission connection with the spindle box;

the pipeline clamping mechanism comprises a clamping lathe body, a pair of clamping seats, a support driving unit and a V-shaped chuck, wherein the clamping seats are slidably arranged on the clamping lathe body;

the supporting platform comprises a platform bottom plate, a platform top frame arranged above the platform bottom plate through a jacking oil cylinder, a plurality of transmission rollers which are rotatably supported on the platform top frame and are uniformly distributed at intervals along the left and right directions, and a roller driving unit which drives each transmission roller to synchronously move;

the groove bed body of the movable groove mechanism is fixedly connected with the clamping bed body on the same side, then is slidably mounted on the ground rail and slides along the left and right directions under the action of the bed body driving unit.

2. The double-ended automatic beveling machine line of claim 1, wherein: the front side wall or the rear side wall of the platform top frame is provided with a long hole arranged along the length direction, and a shaft neck of the transmission roller extends out of the long hole and is connected with the roller driving unit in a synchronous transmission mode through a chain wheel and a chain.

3. The double-ended automatic beveling machine line of claim 2, wherein: and circular arc-shaped notches are formed in the left side wall and the right side wall of the platform top frame.

4. The double-ended automatic beveling machine line of claim 1, wherein: the inner side of the V-shaped clamping head is provided with a plurality of V-shaped clamping parts which are arranged at intervals.

5. The double-ended automatic beveling machine line of claim 4, wherein: v-arrangement chuck passes through forked tail structure sliding fit and through first bolt and nut subassembly fastening connection with pressing from both sides tight seat, press from both sides tight seat and be equipped with the rectangular hole with first bolt and nut subassembly complex, forked tail structure, rectangular hole extend along upper and lower direction.

6. The double-ended automatic beveling machine line of claim 1, wherein: the numerical control bottom plate is installed on the cutter head, the cutter seat guided by the guide rail of the cutter seat and the transmission of the screw-nut pair is installed on the numerical control bottom plate, and the screw rod of the screw-nut pair is rotatably supported by the support and is connected with the cutter seat driving unit.

7. The double-ended automatic beveling machine line of claim 6, wherein: the numerical control bottom plate passes through second bolt and nut subassembly and blade disc fastening connection, the blade disc is equipped with the cooperation of second bolt and nut subassembly and along the T-slot of diametric extension.

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