CN118559053B - Metal pipeline turning device - Google Patents

Abstract

The application discloses a metal pipeline turning device, and relates to the technical field of turning devices. The application comprises a mounting frame, a cutter feeding frame is slidably arranged on the mounting frame, the cutter feeding frame is used for mounting a cutter head, and the application further comprises: the bearing frame is arranged on the mounting frame, a containing cavity for containing the pipeline is formed in the bearing frame, and a clamping piece is arranged on the bearing frame and comprises a clamping block which is inserted in the containing cavity in a sliding mode. According to the application, the knife feeding frame and the bearing frame are arranged on the mounting frame, when the feeding device is used, the feeding plate is used for bearing a pipeline and driving the pipeline to be transported to the bearing frame, the clamping block is driven to gradually slide into the containing cavity through the connecting rope in the transportation process, after the pipeline is transported into the containing cavity, the clamping block and the containing cavity clamp the pipeline, at the moment, the feeding can be completed only by sliding the clamping plate to limit the sliding of the clamping block, so that the stability of the feeding device is improved, and the processing efficiency of the feeding device is further improved.

Description

Metal pipeline turning device

Technical Field

The application relates to the technical field of turning devices, in particular to a metal pipeline turning device.

Background

The lathe is a metal processing machine tool, is used for processing the surface and other parts of a pipeline, is a common type in the traditional mechanical processing, is used for manufacturing various parts and workpieces, and is also convenient for processing the workpieces with curved surfaces such as the pipeline and the like.

When the existing lathe is used, a workpiece is fixed through the three-jaw chuck, when feeding is performed, the three-jaw chuck is required to be rotated, clamping jaws of the three-jaw chuck are required to be rotated to be far away from each other, feeding is performed again, the three-jaw chuck is rotated for resetting after feeding, feeding is completed, manual operation is required when feeding is performed, and the work efficiency is affected.

The present invention therefore proposes a metal pipe turning device to ameliorate this problem.

Disclosure of Invention

The application aims at: in order to solve the problems in the background art, the application provides a metal pipeline turning device.

The application adopts the following technical scheme for realizing the purposes:

The utility model provides a metal pipeline turning device, includes the mounting bracket, slidable mounting has the tool rest that advances on it, and the tool rest that advances is used for installing the tool bit, still includes:

the bearing frame is arranged on the mounting frame, a containing cavity for containing the pipeline is formed in the bearing frame, a clamping piece is arranged on the bearing frame, the clamping piece comprises a clamping block which is inserted in the containing cavity in a sliding mode, and a collision block is arranged in the clamping block and the containing cavity and is used for being in collision with the outer wall of the pipeline;

the feeding part is arranged on the mounting frame and comprises a conveying belt arranged on the mounting frame, a feeding plate is arranged on the conveying belt and used for bearing a pipeline, a connecting rope connected with the clamping block is arranged on the feeding plate, and a guide ring in sliding fit with the connecting rope is arranged on the mounting frame;

The fixing piece is installed on the mounting frame, the fixing piece includes the pressure of slidable mounting on the mounting frame and holds the board, install the curb plate on the grip block, when holding the board and sliding to contradicting with the curb plate, the slip of grip block on the carrier is restricted.

Further, the clamping piece is further comprising a clamping cavity formed in the bearing frame, a pushing plate is slidably mounted in the clamping cavity through a connecting spring, a pushing block located in the containing cavity is slidably matched with the containing cavity, the pushing plate is used for pushing the pushing blocks located in the containing cavity to be close to each other, an inserting block is mounted on the clamping block, an outlet facing the opening direction of the containing cavity is formed in the clamping cavity, and the inserting block is pushed against the pushing plate through the outlet.

Further, a reserved plate is arranged on the mounting frame, an inclined plane facing the conveying belt is formed in the reserved plate, the feeding plate comprises a connecting plate, the connecting plate is connected with the conveying belt, an extension plate is arranged on the connecting plate and is used for bearing a pipeline, a blocking block is further arranged on the connecting plate and is used for being inserted into an inner cavity of the pipeline, and when the connecting plate is conveyed to the farthest position far away from the bearing frame by the conveying belt, the distance between the connecting plate and the reserved plate is greater than or equal to the length of the blocking block;

When the device is used, the pipeline can be placed on the reserved plate, the pipeline on the reserved plate is shielded through other plate bodies or rod bodies, the pipeline can not roll in advance, when the conveying belt drives the feeding plate to move to the farthest end far away from the bearing plate, the shielding of the pipeline on the reserved plate is relieved, the conveying belt rolls on the extending plate, at the moment, the roller body of the conveying belt reversely rotates, the conveying belt drives the feeding plate to move towards the direction close to the bearing frame, in-process, when a new pipeline pushes the processed pipeline, the processed pipeline also collides with the new pipeline due to interaction of force, so that the blocking block can be smoothly inserted into the pipeline inner cavity, the feeding plate still plays a role of bearing the pipeline when the pipeline is processed, at the moment, the contact area between the feeding plate and the pipeline is increased through the blocking block, further the friction between the feeding plate and the pipeline is increased, the fixing effect of the device on the pipeline is improved, the feeding part can play the role of feeding the pipeline, the effect of the feeding device can also play a role of increasing the stability of the pipeline when the pipeline is processed, and the practicability of the device is increased.

Further, a shielding plate is slidably mounted on the mounting frame through a pushing spring, one end of the shielding plate penetrates through the reserved plate in a sliding mode, the shielding plate is used for shielding a passage between the reserved plate and the extension plate, an L-shaped rod is mounted on the shielding plate, a pressing plate is mounted on the connecting plate and is provided with a pressing cambered surface, when the connecting plate is far away from the bearing frame, the pressing plate abuts against the L-shaped rod through the pressing cambered surface, so that the shielding plate can remove shielding of the passage between the reserved plate and the extension plate, a lifting plate is mounted on the connecting plate, a lifting cambered surface is arranged on the lifting plate, and when the connecting plate is close to the bearing frame, the lifting plate abuts against the L-shaped rod through the lifting cambered surface, so that the shielding plate shields the passage between the reserved plate and the extension plate;

When the device is used for processing a pipeline, the shielding plate shields the pipeline positioned on the reserved plate, after the processing is finished, the loading plate is far away from the bearing frame, the pressing plate presses the L-shaped rod, the shielding plate gradually descends, when the loading plate moves to the maximum limit, the shielding plate completely removes shielding of the pipeline, the pipeline positioned on the reserved plate can smoothly roll on the extension plate, when the loading plate carries out loading, the loading plate drives the lifting plate to lift the L-shaped rod with the pushing spring, the shielding plate is used for shielding the pipeline positioned on the reserved plate, the position, beyond the extension plate, of the pipeline sliding is reduced, the downward sliding trend of the L-shaped rod is limited through the lifting plate, the possibility of mistakenly sliding the shielding of the pipeline is reduced, and the practicability of the device is improved.

Further, the fixing piece further comprises a 匚 template arranged on the mounting frame, a reset spring connected with the pressing plate is arranged on the 匚 template, and a driving plate is arranged on the connecting plate and used for pushing the pressing plate;

When using, when the connecting plate slides, promote the pressure board through the drive plate on it, make its drive pressure board to be close to the department motion of bearing frame, and then make the pressure board limit the sideboard, increased the stability of device when using to the pipeline centre gripping, when the loading board was kept away from the bearing frame, the drive plate was released to the conflict of holding the board, reset through reset spring, the pulling is pressed and is held board and curb plate separation for the mounting is removed the restriction to the grip block, is convenient for carry out the unloading with the pipeline, has increased the practicality of device.

Further, a guide rail rod is arranged on the bearing frame and used for bearing the connecting plate and the extension plate, the reserved plate is positioned on one side of the guide rail rod, the limiting plate is arranged on the other side of the guide rail rod, and the driving plate is positioned on the connecting plate and higher than the highest point of the limiting plate;

When using, when the pipeline rolls from reserving the board, shelter from by the limiting plate, reduced the pipeline when whereabouts, receive inertia influence to move to the outside possibility of extension board, increased the practicality of device, and the height that limiting plate highly is less than the drive plate makes it can not cause the shelter from the motion of drive plate, has increased the feasibility of device.

Further, an accommodating groove is formed in the limiting plate, an arc-shaped plate is hinged in the accommodating groove and used for extending the height of the limiting plate, and an abutting spring is arranged between the arc-shaped plate and the inner wall of the accommodating groove;

The shielding effect of limiting plate to the pipeline has been further increased through the arc, install conflict spring between arc and the holding tank inner wall, when using, when the driving plate is moved along with the connecting plate to being close to the carriage direction, the driving plate is contradicted the arc, make conflict spring compression, make the arc rotate to the holding tank, and then release the shielding to the driving plate, make the driving plate can be smooth pass through the arc, when the driving plate moves along with the connecting plate to keeping away from the carriage direction, the driving plate is pressed the arc again, make conflict spring is stretched, make the arc rotate the holding tank again in, make the arc remove the shielding to the driving plate again, the practicality of device has been improved.

Further, a cross rod is arranged on one side, far away from the tool inlet frame, of the bearing frame, a rubber roller is rotatably arranged on the cross rod, and the height of the lowest point of the rubber roller is lower than that of the highest point of the pipeline on the extension plate;

When using, rubber roller bottom can contradict to the pipeline for can make pipeline inner chamber and chock block be connected before pipeline and the pipeline contact of being processed finishes, and satisfy the motion of pipeline through the deformation of rubber roller, in-process, roll through the rubber roller and be used for satisfying the motion of pipeline, when the device is used, can just can make pipeline and chock block be connected before two pipeline contacts, make the chock block can just be in contact with the pipeline when pipeline is transported, the stability of pipeline when being transported has been increased, make the chock block not only can increase its stability when the pipeline is processed, also can increase its stability when the pipeline is transported, and then increased the stability of chock block when using.

Further, the end part of the shielding plate penetrating through one end of the reserved plate is in an arc-shaped structure;

when the shielding plate moves to the minimum, the arc-shaped end part of the shielding plate is positioned on the reserved plate, so that the shielding of the shielding plate to the rolling of the pipeline is reduced, the pipeline can roll conveniently, and the feasibility of the device is improved.

Further, a contact plate is arranged on the bearing frame through a contact spring and is used for abutting against the side plate, and a guide rod which is in sliding fit with the bearing frame is arranged on the contact plate;

When the clamping block moves downwards, the contact plate is extruded through the side plate, so that the contact spring is extruded, when the pressing plate is used for limiting the extrusion of the side plate, the contact spring applies force which is in conflict with the side plate to the contact plate, and then the gap between the clamping block and the bearing frame is reduced, and further the stability of the clamping block in use is improved.

The beneficial effects of the application are as follows: 1. according to the application, the knife feeding frame and the bearing frame are arranged on the mounting frame, when the feeding device is used, the feeding plate is used for bearing a pipeline and driving the pipeline to be transported to the bearing frame, the clamping block is driven to gradually slide into the containing cavity through the connecting rope in the transportation process, after the pipeline is transported into the containing cavity, the clamping block and the containing cavity clamp the pipeline, at the moment, the feeding can be completed only by sliding the clamping plate to limit the sliding of the clamping block, so that the stability of the feeding device is improved, and the processing efficiency of the feeding device is further improved.

2. When the pipeline processing device is used, after the pipeline processing is finished, the pushing plate is pulled by the connecting spring, so that the abutting blocks move downwards, the shielding of the abutting blocks to blanking of the pipeline is reduced, when the feeding plate drives the pipeline to move towards the containing cavity, the clamping blocks gradually fall, the inserting block pushes the pushing plate, the abutting blocks are pushed by the pushing plate, the abutting blocks and the abutting blocks located on the clamping blocks abut against the pipeline moving into the containing cavity, the fixing effect of the pipeline is improved, and the device is convenient to feed.

3. When the feeding device is used, the pipeline can be firstly placed on the reserved plate, and the pipeline on the reserved plate is shielded through other plate bodies or rod bodies, so that the pipeline cannot roll in advance, when the conveying belt drives the feeding plate to move to the farthest end far away from the bearing plate, the shielding of the pipeline on the reserved plate is relieved, the conveying belt rolls on the extending plate, at the moment, the roller bodies of the conveying belt reversely rotate, the conveying belt drives the feeding plate to move towards the direction close to the bearing frame, and in the process, when a new pipeline pushes the processed pipeline, the processed pipeline also collides with the new pipeline due to the interaction of forces, the blocking block can be smoothly inserted into the inner cavity of the pipeline, and when the pipeline is processed, the feeding plate still plays a role of bearing the pipeline, at the moment, the contact area between the feeding plate and the pipeline is increased through the blocking block, so that the friction between the feeding plate and the pipeline is increased, the fixing effect of the device on the pipeline is increased, the feeding device not only can play a role of feeding in the pipeline, but also play a role of increasing the stability of the pipeline in processing, and the practicability of the device is increased.

4. When the device is used, the shielding plate shields the pipeline positioned on the reserved plate, after the processing is finished, the feeding plate is far away from the bearing frame, so that the pressing plate presses the L-shaped rod, the shielding plate gradually descends, when the feeding plate moves to the maximum limit, the shielding plate completely removes shielding of the pipeline, the pipeline positioned on the reserved plate can smoothly roll on the extension plate, when the feeding plate feeds, the feeding plate drives the lifting plate and the pushing spring to lift the L-shaped rod, the shielding plate shields the pipeline positioned on the reserved plate, the pipeline is prevented from sliding to a place beyond the extension plate, the L-shaped rod is limited by the lifting plate, the possibility of mistakenly sliding the shielding plate to remove shielding of the pipeline is reduced, and the practicability of the device is improved.

5. When the connecting plate slides, the pressing plate is pushed by the driving plate on the connecting plate, so that the pressing plate is driven to move towards the position close to the bearing frame, the pressing plate limits the side plate, the stability of clamping the pipeline when the device is used is improved, when the feeding plate is far away from the bearing frame, the driving plate releases the interference on the pressing plate, and the pressing plate is pulled to be separated from the side plate through the reset of the reset spring, so that the fixing piece releases the limit on the clamping block, the pipeline is conveniently fed, and the practicability of the device is improved.

6. When the device is used, when the pipeline rolls from the reserved plate, the limited plate shields the pipeline, so that the possibility that the pipeline moves to the outside of the extension plate due to inertia when the pipeline falls is reduced, the practicability of the device is improved, and the height of the limited plate is lower than that of the driving plate, so that the limited plate does not shield the movement of the driving plate, and the feasibility of the device is improved.

7. According to the application, the shielding effect of the limiting plate on the pipeline is further increased through the arc plate, the abutting springs are arranged between the arc plate and the inner wall of the accommodating groove, when the driving plate moves along with the connecting plate towards the direction close to the bearing frame in use, the driving plate abuts against the arc plate, so that the abutting springs are compressed, the arc plate rotates towards the accommodating groove, shielding of the driving plate is further removed, the driving plate can smoothly pass through the arc plate, when the driving plate moves along with the connecting plate towards the direction far away from the bearing frame, the driving plate presses the arc plate again, the abutting springs are stretched, the arc plate rotates into the accommodating groove again, shielding of the driving plate is removed again by the arc plate, and the practicability of the device is improved.

8. When the device is used, the bottom of the rubber roller can be abutted against the pipeline, so that the inner cavity of the pipeline can be connected with the blocking block before the pipeline is contacted with the processed pipeline, and the movement of the pipeline is met through the deformation of the rubber roller, in the process, the movement of the pipeline is met through the rolling of the rubber roller, when the device is used, before the two pipelines are contacted, just can make pipeline and the sprue be connected for the sprue just can be in contact with the pipeline when the pipeline is transported, has increased the stability of pipeline when being transported, makes the sprue not only can increase its stability when the pipeline is processed, also can increase its stability when the pipeline is transported, and then has increased the stability of sprue when using.

9. When the application is used, when the shielding plate moves to the minimum, the arc-shaped end part of the shielding plate is positioned on the reserved plate, so that the shielding of the shielding plate to the rolling of the pipeline is reduced, the rolling of the pipeline is facilitated, and the feasibility of the device is improved.

10. According to the application, when the clamping block moves downwards, the contact plate is extruded through the side plate, so that the contact spring is extruded, and when the pressing plate is used for limiting the extrusion of the side plate, the contact spring applies a force which is in conflict with the side plate to the contact plate, so that the gap between the clamping block and the bearing frame is reduced, and the stability of the clamping block in use is further improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic diagram of the structure of the loading plate of the present application during loading;

FIG. 3 is a schematic view of the loading plate and its upper structure according to the present application;

FIG. 4 is a schematic view of the carrier and its upper structure according to the present application;

FIG. 5 is an exploded view of a portion of the structure of FIG. 1 in accordance with the present application;

FIG. 6 is an exploded view of a portion of the structure of FIG. 3 in accordance with the present application;

FIG. 7 is an exploded view of the restrictor plate and its upper structure of the present application;

FIG. 8 is an exploded view of the structure of FIG. 4 in accordance with the present application;

FIG. 9 is an exploded view of the structure of the carrier of the present application;

FIG. 10 is a perspective cross-sectional view of the structure of FIG. 4 in accordance with the present application;

reference numerals: 1. a mounting frame; 101. a knife feeding frame; 2. a carrier; 201. a cavity; 3. a clamping member; 301. a clamping block; 302. a collision block; 303. clamping a cavity; 304. a pushing plate; 305. a connecting spring; 306. inserting a block; 4. a feeding member; 401. a conveyor belt; 402. a loading plate; 4021. a connecting plate; 4022. an extension plate; 4023. blocking; 403. a connecting rope; 404. a guide ring; 5. a fixing member; 501. a pressing plate; 502. a side plate; 503. 匚 templates; 504. a return spring; 505. a driving plate; 6. a reserved plate; 7. a pushing spring; 8. a shielding plate; 801. an L-shaped rod; 802. a pressing plate; 803. a lifting plate; 9. a guide rail rod; 10. a limiting plate; 11. a receiving groove; 12. an arc-shaped plate; 13. a contact spring; 14. a cross bar; 15. a rubber roller; 16. a contact plate; 17. a guide rod; 18. and a contact spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application.

Embodiment one:

As shown in fig. 1 to 10, the metal pipe turning device according to the first embodiment of the present application includes a mounting frame 1, on which a tool holder 101 is slidably mounted, the tool holder 101 being used for mounting a tool bit, the mounting frame 1 and the tool holder 101 being both of the prior art, the tool holder 101 being used for fixing the tool bit so that the tool bit slides on the mounting frame 1 along with the sliding of the tool holder 101, and further includes:

The bearing frame 2 is arranged on the mounting frame 1, a containing cavity 201 for containing a pipeline is formed in the bearing frame 2, a clamping piece 3 is arranged on the bearing frame 2, the clamping piece 3 comprises a clamping block 301 which is inserted into the containing cavity 201 in a sliding mode, a collision block 302 is arranged in the clamping block 301 and the containing cavity 201, the collision block 302 is used for being in collision with the outer wall of the pipeline, the view angle shown in fig. 1 is taken as a main view angle, the clamping block 301 slides on the bearing frame 2 along the vertical direction, when the pipeline is positioned in the containing cavity 201 in use, the pipeline is initially pressed through the clamping block 301, in-process, the pipeline is collided from a plurality of points through the collision block 302, so that the collision pressure intensity between the clamping block 301 and the bearing frame 2 and the pipeline is increased, and primary fixing is completed;

The feeding part 4 is arranged on the mounting frame 1, the feeding part 4 comprises a conveying belt 401 arranged on the mounting frame 1, a feeding plate 402 is arranged on the conveying belt 401, the feeding plate 402 is used for bearing a pipeline, a connecting rope 403 connected with the clamping block 301 is arranged on the feeding plate 402, a guide ring 404 in sliding fit with the connecting rope 403 is arranged on the mounting frame 1, the conveying belt 401 comprises two rollers and a belt body, the belt body is sleeved outside the rollers, one of the rollers is used for driving the belt body to move, and when the feeding part is used, the conveying belt 401 drives the feeding plate 402 to be close to or far away from the bearing frame 2 through positive and negative rotation of the driven roller, so that the feeding plate 402 drives the pipeline to be close to the bearing frame 2 or far from the bearing frame 2;

When the feeding plate 402 drives the pipeline to be far away from the bearing frame 2, the clamping block 301 is pulled by the connecting rope 403 to slide in the direction far away from the containing cavity 201 to release the clamping of the pipeline, at the moment, an operator can feed the processed pipeline, when the feeding plate moves towards the direction close to the containing cavity 201, the clamping block 301 is driven to gradually fall down, when the pipeline is inserted into the containing cavity 201, the clamping block 301 clamps the pipeline, and in the process, the processed pipeline can be extruded from the containing cavity 201 through the transported pipeline, so that the processed pipeline is separated from the containing cavity 201, and the feeding is convenient and the discharging is convenient when the feeding plate is used;

The fixing piece 5 is arranged on the mounting frame 1, the fixing piece 5 comprises a pressing and holding plate 501 which is slidably arranged on the mounting frame 1, the clamping block 301 is provided with a side plate 502, when the pressing and holding plate 501 slides to be in contact with the side plate 502, the sliding of the clamping block 301 on the bearing frame 2 is limited, the horizontal direction of the pressing and holding plate 501 is taken as a main view angle, after the feeding plate 402 conveys a pipeline into the containing cavity 201, the feeding plate 402 moves to the upper side of the side plate 502 through sliding the pressing and holding plate 501, and the upward movement trend of the side plate 502 is limited, so that the sliding limitation of the clamping block 301 in the containing cavity 201 is realized, the stability of the clamping block 301 when the pipeline is clamped is increased, and the practicability of the device is improved;

Compared with the prior art, through being provided with into knife rest 101 and carrier 2 on mounting bracket 1, when using, bear the pipeline through loading board 402 and drive it to carrier 2 department transportation, the in-process of transportation drives grip block 301 through connecting rope 403 and slides gradually in holding chamber 201, after the pipeline is transported to holding chamber 201, grip block 301 and holding chamber 201 carry out the centre gripping with the pipeline, at this moment, only need the slip pressure grip plate 501 make it with the slip restriction of grip block 301 can accomplish the material loading, stability when having increased the device material loading, and then the machining efficiency of device has been improved.

Embodiment two:

as shown in fig. 8 and 10, in the second embodiment, the clamping member 3, the feeding member 4 and the fixing member 5 are further disclosed on the basis of the first embodiment, in the second embodiment, the clamping member 3 further includes a clamping cavity 303 formed on the carrier 2, a pushing plate 304 is slidably mounted in the clamping cavity 303 through a connecting spring 305, a pushing block 302 located in the cavity 201 is slidably matched with the cavity 201, one end of the pushing block 302 penetrates through the carrier 2 and is located in the clamping cavity 303, so that the pushing block 302 can be in contact with the pushing plate 304, the pushing plate 304 is used for pushing the pushing blocks 302 located in the cavity 201 to approach each other, the connecting spring 305 forces the pushing plate 304 to be away from the pushing block 302, and the pushing block 302 located in the cavity 201 is located at the bottom of the cavity 201, so that the pushing block 302 located in the cavity 201 is subject to gravity to fall under the effect of gravity in normal state, the height of the pushing block 302 is not higher than the inner wall of the cavity 201, the possibility of forming a bump on the surface of the pushing block is reduced, and the subsequent feeding is facilitated;

The clamping block 301 is provided with the inserting block 306, the clamping cavity 303 is provided with an outlet facing the opening direction of the accommodating cavity 201, the inserting block 306 is abutted against the pushing plate 304 through the outlet, the pushing plate 304 is provided with inclined planes along the moving direction of the pushing plate, the pushing plate 304 is abutted against the pushing plate 302 through the inclined planes on one side, and the inserting block 306 is abutted against the inserting block 306 through the inclined planes on the other side, so that when the clamping block 301 falls down, the inserting block 306 is inserted into the clamping cavity 303, the inserting block 306 is abutted against the pushing plate 304 through the inclined planes, the pushing plate 304 is abutted against the pushing plate 302, the pipeline is further abutted against the pushing plate 302 through the pushing plate 302, the connecting spring 305 is stretched in the process, the abutting force against the pushing plate 304 is exerted, the gap between the pushing plate 304 and the pushing plate 302 is reduced, and the abutting stability of the pushing plate 302 against the pipeline is further increased;

When the pipeline processing device is used, after the pipeline processing is finished, the pushing plate 304 is pulled by the connecting spring 305, so that the abutting block 302 moves downwards, the blocking of the pipeline blanking is reduced, when the feeding plate 402 drives the pipeline to move towards the containing cavity 201, the clamping block 301 gradually falls, the inserting block 306 pushes the pushing plate 304, and then the abutting block 302 is pushed by the pushing plate 304, so that the abutting block 302 and the abutting block 302 positioned on the clamping block 301 abut against the pipeline moving into the containing cavity 201, the fixing effect of the pipeline is improved, and the device is convenient to feed;

When the feeding plate 402 does not move in place, the newly fed pipeline can be enabled to push the processed pipeline down, the clamping block 301 does not move to the bottommost end of the inner wall of the accommodating cavity 201 at the moment, the processed pipeline is not clamped, the opposite abutting block 302 does not move to the maximum limit, at the moment, the abutting block 302 can still push the processed pipeline up for a certain distance, so that the contact area between the processed pipeline and the inner wall of the accommodating cavity 201 is reduced, the subsequent pipeline can be conveniently pushed down, and in the application, the pipeline not only serves as a processed workpiece, but also can be matched with the feeding plate 402 to form a workpiece for blanking, and the practicability of the device is improved.

As shown in fig. 3 and 8, in the second embodiment, a reserved plate 6 is installed on the mounting frame 1, an inclined plane facing the conveyor belt 401 is formed on the reserved plate 6, when feeding is performed, a pipeline to be processed subsequently is placed on the reserved plate 6, when in use, the pipeline rolls onto the feeding plate 402 through the guiding of the inclined plane of the reserved plate 6, and the physical characteristics of the pipeline are fully utilized for feeding, so that the practicability of the device is increased;

The feeding plate 402 comprises a connecting plate 4021, the connecting plate 4021 is connected with the conveying belt 401, an extension plate 4022 is installed on the connecting plate 4021 and used for bearing pipelines, when the pipelines roll off from the reserved plate 6, the pipelines roll on the feeding plate 402 and are borne by the extension plate 4022, and the extension plate 4022 is arc-shaped, so that the extension plate 4022 can be attached to the outer wall of the pipelines more, and the bearing stability of the extension plate 4022 on the pipelines is improved;

The connecting plate 4021 is also provided with a blocking block 4023, the blocking block 4023 is used for being inserted into an inner cavity of a pipeline, when the connecting plate 4021 is transported to the farthest position far away from the bearing frame 2 by the conveyor belt 401, the distance between the connecting plate 4021 and the reserved plate 6 is larger than or equal to the length of the blocking block 4023, so that when the pipeline falls onto the extension plate 4022, the pipeline is positioned on one side of the blocking block 4023 close to the bearing frame 2, and the blocking block 4023 cannot block the trend of the pipeline falling onto the extension plate 4022;

When the device is used, the pipeline can be placed on the reserved plate 6, and the pipeline on the reserved plate 6 is shielded through other plate bodies or rod bodies, so that the pipeline can not roll in advance, when the conveying belt 401 drives the feeding plate 402 to move to the far end far away from the bearing frame 2, the shielding of the pipeline on the reserved plate 6 is relieved, the pipeline rolls on the extension plate 4022, at the moment, the roller body of the conveying belt 401 rotates reversely, the conveying belt 401 drives the feeding plate 402 to move towards the direction close to the bearing frame 2, when a new pipeline pushes the processed pipeline, the processed pipeline is also abutted against the new pipeline due to the interaction of the force, the blocking block 4023 can be successfully inserted into the inner cavity of the pipeline, and when the pipeline is processed, the feeding plate 402 still plays a role of bearing the pipeline, at the moment, the contact area between the feeding plate 402 and the pipeline is increased through the blocking block 4023, the friction effect of the device on the pipeline is increased, the device cannot play a role of only feeding the feeding 4, and the device can also be used in the processing of the pipeline.

As shown in fig. 3 and 8, in the second embodiment, the mounting frame 1 is slidably provided with the shielding plate 8 by the pushing spring 7, one end of the shielding plate 8 penetrates through the reserved plate 6 in a sliding manner, when the pipeline is located on the reserved plate 6, the pipeline is shielded by the shielding plate 8, so that the pipeline cannot fall in advance when the feeding plate 402 does not move to the maximum limit far away from the carrier 2;

The shielding plate 8 is used for shielding a passage between the reserved plate 6 and the extension plate 4022, an L-shaped rod 801 is arranged on the shielding plate 8, a pressing plate 802 is arranged on the connecting plate 4021, a pressing cambered surface is arranged on the pressing plate 802, when the connecting plate 4021 is far away from the bearing frame 2, the pressing plate 802 is abutted against the L-shaped rod 801 through the pressing cambered surface, so that the shielding plate 8 can remove shielding of the passage between the reserved plate 6 and the extension plate 4022, when the feeding plate 402 moves in the direction far away from the bearing frame 2 in use, the L-shaped rod 801 is pressed through the pressing plate 802, so that the shielding plate 8 is driven to gradually fall, shielding of a pipeline is removed, and the pipeline can roll onto the extension plate 4022 to finish feeding;

Wherein, the shielding plate 8 can completely remove the shielding of the pipeline only when the L-shaped rod 801 is contacted with the connecting plate 4021, and the length of the L-shaped rod 801 is longer than the thickness of the connecting plate 4021, so that the shielding plate 8 can completely remove the shielding of the pipeline only when the connecting plate 4021 moves to the maximum limit, thereby reducing the possibility of the pipeline falling in advance and increasing the practicability of the device;

The connection plate 4021 is also provided with a lifting plate 803, the connection plate 4021 is provided with a plate body, the length of the plate body is long, the lifting plate 803 is arranged on the connection plate 4021 through the plate body, the lifting plate 803 is provided with a lifting cambered surface, when the connection plate 4021 is close to the bearing frame 2, the lifting plate 803 is abutted to the L-shaped rod 801 through the lifting cambered surface, so that a passage between the reserved plate 6 and the extension plate 4022 is shielded by the shielding plate 8, when the feeding plate 402 moves towards the position close to the bearing frame 2, the lifting plate 803 is driven to be close to the L-shaped rod 801 and is driven to slide upwards, and the lifting plate 803 is matched with the pushing spring 7, so that the shielding plate 8 moves upwards to shield a subsequent pipeline;

When the device is used for processing pipelines, the shielding plate 8 shields the pipelines on the reserved plate 6, after the processing is finished, the loading plate 402 is far away from the bearing frame 2, the pressing plate 802 presses the L-shaped rods 801, the shielding plate 8 gradually descends, when the loading plate 402 moves to the maximum limit, the shielding plate 8 completely removes shielding of the pipelines, the pipelines on the reserved plate 6 can smoothly roll on the extension plate 4022, when the loading plate 402 carries out feeding, the loading plate 402 drives the lifting plate 803 to lift the L-shaped rods 801, the spring 7 is pushed to reset in the process, the auxiliary lifting effect is also achieved, the shielding plate 8 finishes shielding the pipelines on the reserved plate 6, the position beyond the extension plate 4022 where the pipelines slide is reduced, the tendency that the L-shaped rods 801 slide downwards is limited by the lifting plate 803, the possibility that the shielding plate 8 slides mistakenly is relieved, and the practicability of the device is increased.

As shown in fig. 2 and fig. 4, in the second embodiment, the fixing member 5 further includes a 匚 board 503 mounted on the mounting frame 1, a return spring 504 connected to the holding plate 501 is mounted on the 匚 board 503, a driving plate 505 is mounted on the connecting plate 4021, the driving plate 505 is used for pushing the holding plate 501, since the holding plate 501 is slidably mounted on the mounting frame 1 along the horizontal direction, the side walls of the 匚 board 503 are used for limiting the side walls of the two sides of the holding plate 501, so that the holding plate 501 can only slide on the mounting frame 1 along the horizontal direction, and the stability of the holding plate 501 during sliding is increased;

When the connecting plate 4021 slides in use, the driving plate 505 on the connecting plate pushes the pressing plate 501, so that the pressing plate 501 is driven to move towards the position close to the bearing frame 2, the pressing plate 501 is further used for limiting the side plate 502, the stability of clamping the pipeline when the device is used is improved, when the feeding plate 402 is far away from the bearing frame 2, the driving plate 505 releases the interference on the pressing plate 501, the pressing plate 501 is pulled to be separated from the side plate 502 through the reset of the reset spring 504, the fixing piece 5 releases the limitation on the clamping block 301, the pipeline is conveniently fed, and the practicability of the device is improved.

In the second embodiment, the carrier 2 is provided with the guide rail rod 9, and the guide rail rod 9 is used for carrying the connection plate 4021 and the extension plate 4022, so that the connection area between the connection plate 4021 and the connection area between the extension plate 4022 and the mounting frame 1 are increased, and the stability of the connection plate 4021 and the extension plate 4022 in sliding is further improved;

The reservation board 6 is located one side of guide rail pole 9, limiting plate 10 is installed to mounting bracket 1 at the opposite side of guide rail pole 9, and drive plate 505 is located the highest point that highly is higher than limiting plate 10 on connecting plate 4021, and when using, when the pipeline rolls from reservation board 6, is sheltered from by limiting plate 10, has reduced the pipeline when the whereabouts, receives inertia influence to move to the outside possibility of extension plate 4022, has increased the practicality of device, and limiting plate 10 highly is less than the height of drive plate 505, makes it can not cause sheltering from the motion of drive plate 505, has increased the feasibility of device.

As shown in fig. 7, in the second embodiment, the accommodating groove 11 is formed in the limiting plate 10, the arc plate 12 is hinged in the accommodating groove 11, the height of the limiting plate 10 is further increased by the arc plate 12, the shielding effect of the limiting plate 10 on the pipeline is further increased by the arc plate 12, the interference spring 13 is installed between the arc plate 12 and the inner wall of the accommodating groove 11, when the driving plate 505 moves along with the connecting plate 4021 towards the direction close to the carrying frame 2, the driving plate 505 interferes with the arc plate 12, the interference spring 13 compresses, the arc plate 12 rotates in the accommodating groove 11, shielding of the driving plate 505 is further removed, the driving plate 505 can smoothly pass through the arc plate 12, when the driving plate 505 moves along with the connecting plate 4021 towards the direction far away from the carrying frame 2, the driving plate 505 presses the arc plate 12 again, the interference spring 13 is stretched, the arc plate 12 rotates into the accommodating groove 11 again, and the practicality of the device is improved.

As shown in fig. 4, in the second embodiment, the cross bar 14 is installed on the side, far away from the tool inlet frame 101, of the carrier 2, the rubber roller 15 is installed on the cross bar 14 in a rotating manner, the height of the lowest point of the rubber roller 15 is lower than the height of the highest point of the pipeline on the extension plate 4022, when in use, the bottom of the rubber roller 15 can be abutted against the pipeline, so that the inner cavity of the pipeline can be connected with the block 4023 before the pipeline contacts with the processed pipeline, and the movement of the pipeline is met through the deformation of the rubber roller 15, in the process, the pipeline can be connected with the block 4023 through the rolling of the rubber roller 15 when the device is in use, the block 4023 can be contacted with the pipeline before the two pipelines are contacted, the stability of the pipeline when in transportation is increased, the stability of the block 4023 can be increased when the pipeline is processed, the stability of the pipeline can also be increased when the pipeline is transported, and the stability of the block 4023 when in use is increased.

Embodiment III:

As shown in fig. 1 to 10, the third embodiment further discloses the present application based on the second embodiment, in the third embodiment, the end portion of the shielding plate 8 penetrating through one end of the reserved plate 6 is in an arc-shaped structure, when the shielding plate 8 moves to the minimum in use, the arc-shaped end portion of the shielding plate is located on the reserved plate 6, when a pipeline passes through the end portion of the shielding plate 8, blocking caused by pipeline rolling is reduced through the arc-shaped end portion, further shielding of the pipeline rolling is reduced, the pipeline is convenient to roll, and feasibility of the device is improved.

In the third embodiment, the carrier 2 is provided with the contact plate 16 through the contact spring 18, the contact plate 16 is used for abutting against the side plate 502, the contact plate 16 is provided with the guide rod 17 in sliding fit with the carrier 2, when the clamping block 301 moves downwards, the contact plate 16 is pressed by the side plate 502 first to enable the contact spring 18 to be pressed, when the pressing plate 501 is used for limiting the pressing of the side plate 502, the contact spring 18 is enabled to apply the force of abutting against the side plate 502 to the contact plate 16, so that the gap between the clamping block 301 and the carrier 2 is reduced, and the stability of the clamping block 301 in use is further improved;

When the contact plate 16 is pressed by the side plate 502, the side wall of the guide rod 17 is limited by the inner wall of the hole, and the sliding path of the contact plate 16 is limited by the guide rod 17, so that the contact plate 16 can only slide on the bearing frame 2 along a straight line and limit the deformation direction of the contact spring 18, and the stability of the contact plate 16 and the contact spring 18 in use is further increased.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. Metal pipeline turning device, including mounting bracket (1), slidable mounting has a tool rest (101) that advances on it, and tool rest (101) are used for installing the tool bit, its characterized in that still includes:

The bearing frame (2) is arranged on the mounting frame (1), a containing cavity (201) for containing a pipeline is formed in the bearing frame (2), a clamping piece (3) is arranged on the bearing frame (2), the clamping piece (3) comprises a clamping block (301) which is inserted into the containing cavity (201) in a sliding mode, a collision block (302) is arranged in the clamping block (301) and the containing cavity (201), and the collision block (302) is used for being in collision with the outer wall of the pipeline;

The feeding piece (4) is arranged on the mounting frame (1), the feeding piece (4) comprises a conveying belt (401) arranged on the mounting frame (1), a feeding plate (402) is arranged on the conveying belt (401), the feeding plate (402) is used for bearing a pipeline, a connecting rope (403) connected with the clamping block (301) is arranged on the feeding plate (402), and a guide ring (404) in sliding fit with the connecting rope (403) is arranged on the mounting frame (1);

The fixing piece (5) is arranged on the mounting frame (1), the fixing piece (5) comprises a pressing and holding plate (501) which is slidably arranged on the mounting frame (1), the side plate (502) is arranged on the clamping block (301), and when the pressing and holding plate (501) slides to be in contact with the side plate (502), the sliding of the clamping block (301) on the bearing frame (2) is limited;

The clamping piece (3) further comprises a clamping cavity (303) formed in the bearing frame (2), a pushing plate (304) is slidably mounted in the clamping cavity (303) through a connecting spring (305), a pushing block (302) located in the containing cavity (201) is slidably matched with the containing cavity (201), the pushing plate (304) is used for pushing the pushing block (302) located in the containing cavity (201) to be close to each other, an inserting block (306) is mounted on the clamping block (301), an outlet facing the opening direction of the containing cavity (201) is formed in the clamping cavity (303), and the inserting block (306) is pushed against the pushing plate (304) through the outlet.

2. The metal pipeline turning device according to claim 1, wherein a reserved plate (6) is installed on the installation frame (1), an inclined plane facing the conveying belt (401) is formed in the reserved plate (6), the feeding plate (402) comprises a connecting plate (4021), the connecting plate (4021) is connected with the conveying belt (401), an extension plate (4022) is installed on the connecting plate (4021), the extension plate (4022) is used for bearing a pipeline, a blocking block (4023) is further installed on the connecting plate (4021), the blocking block (4023) is used for being inserted into an inner cavity of the pipeline, and when the connecting plate (4021) is conveyed to a farthest position far away from the bearing frame (2) by the conveying belt (401), the distance between the connecting plate (4021) and the reserved plate (6) is greater than or equal to the length of the blocking block (4023).

3. The metal pipeline turning device according to claim 2, wherein the mounting frame (1) is provided with a shielding plate (8) through a pushing spring (7) in a sliding manner, one end of the shielding plate (8) penetrates through the reserved plate (6) in a sliding manner, the shielding plate (8) is used for shielding a passage between the reserved plate (6) and the extension plate (4022), the shielding plate (8) is provided with an L-shaped rod (801), the connecting plate (4021) is provided with a pressing plate (802), the pressing plate (802) is provided with a pressing cambered surface, when the connecting plate (4021) is far away from the bearing frame (2), the pressing plate (802) is abutted against the L-shaped rod (801) through the pressing cambered surface, so that the shielding plate (8) is free from shielding the passage between the reserved plate (6) and the extension plate (4022), the connecting plate (4021) is provided with a lifting cambered surface, and when the connecting plate (4021) is close to the bearing frame (2), the lifting plate (803) is abutted against the L-shaped rod (803) through the shielding plate (803), and the reserved plate (6) is made between the shielding plate (803).

4. A metal pipe turning apparatus according to claim 3, characterized in that the fixing member (5) further comprises a 匚 -type plate (503) mounted on the mounting frame (1), a return spring (504) connected to the holding plate (501) is mounted on the 匚 -type plate (503), and a driving plate (505) is mounted on the connecting plate (4021), the driving plate (505) being for pushing the holding plate (501).

5. The metal pipeline turning device according to claim 4, wherein the bearing frame (2) is provided with a guide rail rod (9), the guide rail rod (9) is used for bearing the connecting plate (4021) and the extension plate (4022), the reserved plate (6) is located on one side of the guide rail rod (9), the mounting frame (1) is provided with a limiting plate (10) on the other side of the guide rail rod (9), and the driving plate (505) is located at the highest point of the connecting plate (4021) higher than the limiting plate (10).

6. The metal pipeline turning device according to claim 5, wherein the limiting plate (10) is provided with a containing groove (11), an arc-shaped plate (12) is hinged in the containing groove (11), the arc-shaped plate (12) is used for prolonging the height of the limiting plate (10), and an abutting spring (13) is arranged between the arc-shaped plate (12) and the inner wall of the containing groove (11).

7. The metal pipeline turning device according to claim 6, wherein a cross bar (14) is installed on one side, far away from the tool inlet frame (101), of the bearing frame (2), a rubber roller (15) is rotatably installed on the cross bar (14), and the height of the lowest point of the rubber roller (15) is lower than the height of the highest point of the pipeline on the extension plate (4022).

8. Metal pipe turning device according to claim 7, characterized in that the end of the shielding plate (8) penetrating one end of the reserve plate (6) is of arc-shaped construction.

9. Metal pipe turning device according to claim 8, characterized in that the carrier (2) is provided with a contact plate (16) by means of a contact spring (18), the contact plate (16) being intended to abut against the side plate (502), the contact plate (16) being provided with a guide bar (17) in sliding engagement with the carrier (2).