CN217701622U - Tube cutting positioning device capable of distributing materials - Google Patents

Abstract

The utility model discloses a but material distribution formula pipe cutting positioner, include: the feeding mechanism comprises a stepping motor and a feeding track; the blanking mechanism comprises a blanking track; a cutting mechanism; the positioning mechanism comprises an air clamp, a pair of air claws, an air cylinder, a non-contact sensor, an impact sheet and an inductive switch; and (4) a transfer platform. The utility model discloses can realize streamlined cutting operation, cutting length is adjustable controllable, and the head stock tails can divide the material, and whole occupy-place is little, and cutting position space is big, and simple and easy maintenance is convenient with the accent machine, can full-automatic line production improve degree of automation greatly.

Description

Pipe cutting positioning device capable of distributing materials

Technical Field

The utility model relates to a pipeline processing technology field. More specifically, the utility model relates to a but material distribution formula pipe cutting positioner.

Background

Industrial conveying pipelines are widely used in the fields of petroleum, chemical industry, medical treatment, food, light industry, mechanical instruments and the like, and in traditional industrial production, the pipelines need to be cut to proper lengths in order to facilitate installation and connection of the pipelines. The short pipe cutting is common, the manual cutting is used, the advanced full-automatic pipe cutting machine is adopted, but the cutting position space is too small, the cutting length is too short, the connection line grabbing is influenced, only an independent machine table can be used, and the full-automatic connection line production cannot be carried out.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to solve at least the above problems and to provide at least the advantages which will be described later.

The utility model discloses can realize that flowing water ization cutting operation, cutting length is adjustable controllable, and head material tails can divide the material, and whole occupy-place is little, and cutting position space is big, and simple and easy maintenance is convenient with the accent machine, can full-automatic line production improve degree of automation greatly.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a separable pipe cutting positioning device, including:

the feeding mechanism comprises a stepping motor and a feeding track;

the blanking mechanism comprises a blanking track, and the blanking track and the feeding track are arranged in parallel;

a cutting mechanism;

the positioning mechanism comprises an air clamp, a pair of air claws, an air cylinder, a non-contact sensor, an impact sheet and an inductive switch, wherein a sliding block capable of sliding on the blanking track is arranged on the eccentric side of the bottom of the air clamp, the pair of air claws are arranged in front of the air clamp through a pair of clamping arms, the air cylinder is assembled in the front center of the air clamp, the non-contact sensor is arranged on the body of the air cylinder, the impact sheet is arranged on the piston rod of the air cylinder, the impact sheet and the pair of air claws form an impact surface and a clamping surface respectively, the non-contact sensor is connected with the inductive switch, and the inductive switch is used for controlling the air clamp;

and the transfer platform is positioned behind the feeding track and on one side of the discharging track and is provided with a bearing surface for bearing the cut pipe.

Preferably, the cutting mechanism includes a swing cylinder, a motor, and a cutting blade.

Preferably, the method further comprises the following steps:

and the waste recovery box is positioned between the feeding track and the discharging track.

Preferably, the pair of air jaws is detachably connected with the pair of clamping arms, and the pair of air jaws has a plurality of specifications.

Preferably, the inductive switch is a metal switch.

Preferably, the method further comprises:

the measuring scale is located behind the feeding track and is parallel to the feeding track, and the zero scale of the measuring scale is located on the vertical surface where the cutting saw blade is located.

The utility model discloses at least, include following beneficial effect:

first, the utility model discloses a feed mechanism carries out the body and carries, confirms length of marcing and parking position through positioning mechanism, cuts the operation through cutting mechanism, cuts the pipe through unloading mechanism and shifts, can realize streamlined cutting operation, and cutting length is adjustable controllable, and head material tails can divide the material, and whole occupy-place is little, and cutting position space is big, and simple and easy maintenance and accent quick-witted convenience can full-automatic line production improve degree of automation greatly.

Secondly, the feeding track is positioned in front of the cutting mechanism, namely the upstream side, the stepping motor drives the feeding track to run, the traction and transportation pipeline is pulled to a set position, the air clamp is provided with a pair of air claws, the pair of air claws for air inlet of the air clamp are close to the pipeline to be clamped, the pair of air claws for air exhaust of the air clamp are far away from the pipeline to be released, the centers of the pair of air claws are positioned on the extension line of the feeding track, the blanking track of the air clamp deviates and is parallel to the extension line of the blanking track, the air clamp can slide on the blanking track and can discharge materials at different positions conveniently, the sliding of the air clamp on the blanking mechanism is realized by driving a sliding block driven by a driving mechanism to reciprocate, the cylinder is provided with a center in front of the air clamp and can supply air, a piston rod of the air clamp pushes a collision sheet to form a collision surface, once the pipeline collides with the collision sheet, the piston rod is subjected to external force, a non-contact sensor can select a photoelectric sensor which is not in direct contact with the collision sheet to avoid collision damage, a back-impact force of the air cylinder is detected to trigger an induction switch to control the air clamp to supply the air inlet of the pipeline, the material to be clamped by the middle turntable, the turntable has a receiving surface, the turntable can be temporarily stored for transferring to a next process after the turntable is temporarily stored, and is transferred to be transferred to a specified lifting process, so as to be lifted process, thereby the material is convenient to be transferred to be lifted, and transferred to be transferred to a specified lifting type.

Thirdly, when the cutting machine is used, the length of the current cutting is determined firstly, the distance between the stop point where the positioning mechanism advances and the cutting surface is made to be a preset length, the stepping motor drives the feeding rail to feed materials, the non-contact sensor does not detect impact, the fact that the previous pipeline is cut completely means that the head material of the next pipeline comes, the head material is cut, the head material with a defective surface is discarded, the fed materials are intermediate materials, normal cutting and transferring can be achieved, the pipeline impacts an impact piece, the non-contact sensor triggers a sensing switch, a pair of air claws approach and clamp the pipeline, the cutting mechanism performs cutting, an air clamp after cutting moves backwards under the action of a driving structure, the pair of air claws separate and release the pipe to a middle rotating table, the operation is repeated until the tail material does not reach the impact surface long enough, the fact that the tail material comes means that the tail material comes, and the tail material with the defective surface is discarded.

Fourthly, the cutting mechanism comprises a motor driving cutting saw blade and a swing cylinder driving the cutting saw blade to swing on the same cutting surface, so that a larger space is reserved conveniently, the cutting saw blade swings to contact and cut a pipeline when the cutting is needed, and the cutting saw blade resets when the cutting is not needed; the waste recovery box is directly arranged below the cutting mechanism, so that waste is convenient to collect; the pair of air claws can be detached and replaced in a bolt mode and the like, so that the size of the matched pipeline can be conveniently selected to be in a proper specification; the induction switch selects the metal switch to improve the convenience of material taking and the sensitivity of reaction; the measuring scale is arranged to facilitate further rechecking of the length.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

fig. 2 is a schematic structural diagram of the positioning structure of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials described therein are commercially available unless otherwise specified; in the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected" and "disposed" are to be construed broadly, and may for example be fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terms "lateral," "longitudinal," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like refer to orientations or positional relationships that are illustrated in the drawings, merely for convenience in describing the invention and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be constructed in a particular manner of operation, and thus are not to be construed as limiting the invention.

As shown in fig. 1-2, the utility model provides an in can divide material formula pipe cutting positioner's a technical scheme, include:

the feeding mechanism 1 comprises a stepping motor and a feeding track;

the blanking mechanism 2 comprises a blanking track, and the blanking track and the feeding track are arranged in parallel;

a cutting mechanism 3;

the positioning mechanism 4 comprises an air clamp 11, a pair of air claws 5, an air cylinder 6, a non-contact sensor 7, an impact sheet 8 and an inductive switch, wherein a sliding block capable of sliding on the blanking track is arranged on the eccentric side of the bottom of the air clamp 11, the pair of air claws 5 are mounted in front of the air clamp 11 through a pair of clamping arms, the air cylinder 6 is assembled in the front center of the air clamp 11, the non-contact sensor 7 is arranged on the cylinder body of the air cylinder 6, the impact sheet 8 is arranged on the piston rod of the air cylinder 6, the impact sheet 8 and the pair of air claws 5 respectively form an impact surface and a clamping surface, the non-contact sensor 7 is connected with the inductive switch, and the inductive switch is used for controlling the air clamp 11;

and the transfer platform 9 is positioned behind the feeding track and on one side of the discharging track and is provided with a bearing surface for bearing the cut pipe.

In the technical scheme, the utility model discloses a feed mechanism 1 carries out the body and carries, confirms to advance length and stop the position through positioning mechanism 4, cuts the operation through cutting mechanism 3, cuts the pipe through unloading mechanism 2 and shifts, can realize streamlined cutting operation, and cutting length is adjustable controllable, and head and tail material can divide the material, and whole occupy-place is little, and cutting position space is big, and simple and easy maintenance and accent are convenient, can full-automatic line production improve degree of automation greatly.

The feeding track is positioned in front of the cutting mechanism 3, namely on the upstream side, the stepping motor drives the feeding track to run, the pipeline is dragged and transported to a set position, the air clamp 11 is provided with a pair of air claws 5, the air clamp 11 feeds air, the pair of air claws 5 are close to the pipeline to be clamped, the air clamp 11 exhausts air, the pair of air claws 5 are far away from the pipeline to be released, the centers of the pair of air claws 5 are positioned on an extension line of the feeding track, the blanking track of the air clamp 11 deviates and is parallel to the extension line of the blanking track, so that the air clamp 11 can slide on the blanking track and discharge materials at different positions, the air clamp 11 slides on the blanking mechanism 2 and is driven by the driving mechanism to reciprocate by a sliding block, the air cylinder 6 is assembled at the center in front of the air clamp 11, the air cylinder 6 feeds air, the piston rod pushes the impact sheet 8 to form a collision surface, once the pipeline collides with the impact sheet 8, the piston rod is subjected to external force, the non-contact sensor 7 can select a photoelectric sensor which is not directly contacted with the impact sheet 8 to avoid collision damage, an induction switch is triggered after detecting the recoil force of the air clamp 11 to control the air clamp 11 to prepare for clamping the pipeline, the pipeline to be clamped, the turntable 9 has a temporary transfer surface, so as to be connected with the turntable 9, and is convenient for being lifted and being placed to be placed at a lifting process, so as to be placed at a lifting process.

When the cutting machine is used, the cutting length is determined firstly, the distance between the stop point of the advancing of the positioning mechanism 4 and a cutting surface is a preset length, the stepping motor drives the feeding rail to feed, the non-contact sensor 7 does not detect impact, the fact that the cutting of a previous pipeline is finished is represented, the head material of a next pipeline comes, the cutting of the head material is carried out, the head material with a defective surface is discarded, the feeding is the intermediate material, the normal cutting and transferring can be carried out, the pipeline impacts the impact sheet 8, the non-contact sensor 7 triggers the induction switch, the pair of air claws 5 approach and clamp the pipeline, the cutting mechanism 3 carries out the cutting action, the air clamp 11 moves backwards under the action of the driving structure after the cutting is finished, the pair of air claws 5 are separated and released to cut the pipe to the intermediate rotating table 9, the cutting is repeated until the tail material reaches the impact surface, the distance is not long enough, the tail material comes, the tail material is represented, the tail material cutting is carried out, and the tail material with the defective surface is discarded.

In another technical scheme, the cutting mechanism 3 comprises a swing cylinder 6, a motor and a cutting saw blade. The cutting mechanism 3 comprises a motor driving cutting saw blade and a swing cylinder 6 driving the cutting saw blade to swing on the same cutting surface, so that a large space is reserved conveniently, the cutting saw blade swings to contact and cut a pipeline when cutting is needed, and the cutting saw blade resets when cutting is not needed.

In another technical solution, the method further comprises:

and a scrap recycling bin 10 located between the feeding track and the discharging track. The waste recycling bin 10 is directly arranged below the cutting mechanism 3, so that waste is convenient to collect.

In another technical scheme, a pair of air claws 5 is detachably connected with a pair of clamping arms, and the pair of air claws 5 have a plurality of specifications. The pair of air claws 5 can be detached and replaced in a bolt mode and the like, so that the size of the matched pipeline can be conveniently selected to be in a proper specification.

In another technical scheme, the inductive switch is a metal switch. The inductive switch selects the metal switch to improve the convenience of material drawing and the sensitivity of reaction.

In another technical solution, the method further comprises:

the measuring scale is located the orbital rear of material loading and is on a parallel with the material loading rail sets up, the zero scale of measuring scale is located the vertical face at cutting saw bit place. The measuring scale is arranged to facilitate further rechecking of the length.

The number of apparatuses and the scale of the process described here are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, particular embodiments, but rather to those skilled in the art, having the benefit of the teachings of the present invention, which is capable of numerous modifications and alternative forms, and will be readily apparent to those skilled in the art, and it is not intended to limit the invention to the details shown and described without departing from the general concepts defined by the appended claims and their equivalents.

Claims (6)

1. Can divide material formula to cut a tub positioner, its characterized in that includes:

the feeding mechanism comprises a stepping motor and a feeding track;

the blanking mechanism comprises a blanking track, and the blanking track and the feeding track are arranged in parallel;

a cutting mechanism;

the positioning mechanism comprises an air clamp, a pair of air claws, an air cylinder, a non-contact sensor, an impact sheet and an inductive switch, wherein a sliding block capable of sliding on the blanking track is arranged on the eccentric side of the bottom of the air clamp, the pair of air claws are arranged in front of the air clamp through a pair of clamping arms, the air cylinder is assembled in the center of the front of the air clamp, the non-contact sensor is arranged on the cylinder body of the air cylinder, the impact sheet is arranged on a piston rod of the air cylinder, the impact sheet and the pair of air claws form an impact surface and a clamping surface respectively, the non-contact sensor is connected with the inductive switch, and the inductive switch is used for controlling the air clamp;

and the transfer platform is positioned behind the feeding track and on one side of the discharging track and is provided with a bearing surface for bearing the cut pipe.

2. The depickable pipe-cutting positioning device of claim 1, wherein said cutting mechanism comprises a swing cylinder, a motor, and a cutting blade.

3. The separable tube cutting positioning device of claim 1, further comprising:

and the waste recovery box is positioned between the feeding track and the discharging track.

4. The depickable pipe-cutting positioning device of claim 1, wherein a pair of pneumatic jaws are removably coupled to a pair of clamping arms, the pair of pneumatic jaws having a plurality of gauges.

5. The depickable pipe cutting positioning device of claim 1, wherein said inductive switch is a metal switch.

6. The separable tube cutting positioning device of claim 2, further comprising:

the measuring scale is located behind the feeding track and is parallel to the feeding track, and the zero scale of the measuring scale is located on the vertical surface where the cutting saw blade is located.

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