CN212704683U - Pipe cutter material loading stack feedway - Google Patents

Abstract

The utility model provides a pipe cutter material loading stack feedway in the technical field of pipe cutter material loading, including the frame, one side interval of frame is provided with a plurality of outwardly extending's support arm, the one end that the support arm kept away from the frame is equipped with the slope arm that upwards just inclines to extend right, still be connected with a plurality of stack mechanism in the frame, stack mechanism is including connecting the slide arm on the slope arm, the slide arm can slide from top to bottom along the slope arm, the interval is equipped with a plurality of outwardly extending's movable stack on the slide arm, the one end that the slide arm was kept away from to movable stack is equipped with the striker rod that upwards just extends left; the utility model discloses tubular product can not pile up, and convenient operation, work efficiency is high, can realize the automatic feeding of pipe cutter tubular product.

Description

Pipe cutter material loading stack feedway

Technical Field

The utility model belongs to the technical field of the pipe cutter material loading, in particular to pipe cutter material loading stack feedway.

Background

The pipe cutting machine indicates that the pipeline need become the actual required length with the body intercepting in the installation, also is a device that cuts the body, and the tubular product material loading mode that tradition is commonly used is: the method comprises the steps of manually feeding a pipe into the pipe cutting machine from a clamping jaw of the pipe cutting machine, then enabling the clamping jaw of the pipe cutting machine to clamp the pipe, and then cutting the pipe into different lengths through the pipe cutting machine. However, the working mode of manual feeding is not only high in labor intensity of workers, but also low in working efficiency, so that a device capable of automatically feeding the pipe cutter needs to be designed.

For the device of pipe cutter automatic feeding among the prior art, belt one end is fixed on tightening up the motor gyro wheel, and one end is fixed on the stack support in addition, and when taking up motor gyro wheel and rotating, the belt was tightened up, and tubular product risees. Reach certain height, tubular product crosses the switching-over gyro wheel, slides in through the slope on the conveying chain to realize the feed of pipe cutter material loading stack, but this feed structure exists two points not enough: 1. in the process of tightening the belt, the pipe is forced to turn over due to tightening of the belt, when the pipe is a slender pipe and falls into the conveying chain, the pipe is easy to stir together to generate a stacking phenomenon, and when the pipe is a rectangular pipe, the posture of the pipe falling onto the conveying chain is inconsistent, which can cause follow-up abnormity; 2. during tightening, the belt wears heavily.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model discloses an aim at solves the weak point among the prior art, has solved among the prior art tubular product and has piled up easily, the inconvenient technical problem of work, provides a pipe cutter material loading stack feedway, and this device tubular product can not pile up, convenient operation, and work efficiency is high.

The purpose of the utility model is realized like this: the utility model provides a pipe cutter material loading stack feedway, includes the frame, one side interval of frame is provided with the outside support arm that extends of a plurality of, the one end that the frame was kept away from to the support arm is equipped with the slope arm that upwards just inclines to extend right, still be connected with a plurality of stack mechanism in the frame, stack mechanism is including connecting the slide arm on the slope arm, the slide arm can slide from top to bottom along the slope arm, the interval is equipped with the outside movable stack that extends of a plurality of on the slide arm, and the one end that the slide arm was kept away from to movable stack is equipped with the striker rod that upwards just extends left.

When the utility model works, a plurality of pipes are firstly tiled and stacked on the movable stack, the stop lever and the inclined arm can limit the pipes in the left and right directions respectively to prevent the pipes from falling off the movable stack when being transported, when the pipes are transported, the sliding arm moves upwards along the inclined arm, the movable stack moves upwards along with the sliding arm, the pipes on the movable stack also move upwards along with the movable stack, when the center height of the first pipe close to the inclined arm on the uppermost layer exceeds the highest point of the inclined arm, the first pipe close to the inclined arm can slide down onto the next-level conveying mechanism over the inclined arm, the next-level conveying mechanism further conveys the pipes to the worktable of the pipe cutting machine, the second pipe close to the inclined arm originally automatically supplements the position of the first pipe under the action of gravity, and then slides down onto the next-level conveying mechanism over the inclined arm, by analogy, the pipes on the uppermost layer sequentially move downwards and slide to the next-stage conveying mechanism from bottom to top under the action of gravity, the pipes on the second layer on the upper layer become the new uppermost layer along with the continuous upward movement of the sliding arm, and by analogy, all the pipes on the movable material stack are conveyed finally, so that the automatic feeding work is completed; the utility model discloses the setting of well slide arm and sloping arm makes tubular product in the process of upwards transporting, can not take place relative movement between the tubular product of piling up, and the gesture remains stable, when tubular product was transported to a take the altitude, because of the slope of sloping arm, makes tubular product can cross the sloping arm landing and go to next stage conveying mechanism, along with the slide arm upwards moves, tubular product falls into on next stage conveying mechanism in order, can not take place to pile up between the tubular product, and work efficiency is high; the material blocking rod and the inclined arm respectively limit the pipe in the left direction and the right direction, so that the pipe is prevented from sliding off the movable material stack when being conveyed, the use is convenient, and the working efficiency is high; can be applied to the automatic feeding work of the pipe.

In order to realize the slidable connection of the sliding arm and the inclined arm, one side of the sliding arm, which is opposite to the rack, is provided with a plurality of sliding seats, the sliding seats are in one-to-one correspondence with the inclined arm, a sliding groove is formed in each sliding seat, one side of the inclined arm, which is opposite to the sliding seats, is provided with a sliding rail, and the sliding seats can slide on the sliding rails through the sliding grooves.

Can reciprocate in order to realize the sliding arm, the stack mechanism still includes drive assembly, drive assembly is including connecting the mount pad in the frame upper end, rotatable being connected with on the mount pad driven sprocket one, rotatable being connected with on the mount pad of going up driven sprocket below two driven sprockets, still rotatable being connected with tensioning sprocket on the mount pad, one side of the relative frame of sliding arm still is equipped with the fixing base, rotatable being connected with the axis of rotation on the support arm, being equipped with down driven sprocket in the axis of rotation of fixing base below, going up driven sprocket one, tensioning sprocket, last driven sprocket two and link together through the chain between the driven sprocket down, the one end that the sliding arm was kept away from to the fixing base is connected on the chain.

In order to prevent the chain from colliding with the rack during movement, the transmission assembly further comprises two guide plates, the fixed seat is arranged between the two guide plates, a connecting seat is further arranged on the rack between the two guide plates, an anti-collision chain wheel is rotatably connected to the connecting seat, and the chain is meshed with the anti-collision chain wheel.

In order to realize the rotation of axis of rotation, the opposite side of frame is connected with the gear box, be connected with driving motor on the gear box, be equipped with the action wheel on stretching into the motor output shaft in the gear box, rotatable being connected with the pivot in the gear box, be equipped with in the pivot and rotate the wheel, the action wheel meshes with rotating the wheel mutually, stretches out and is equipped with in the outer pivot of gear box from the driving wheel, still be equipped with down in the axis of rotation from the driving wheel, go up from being connected through the drive chain transmission between driving wheel.

In order to compress the transmission chain, a compressing seat is arranged on the rack above the transmission chain wheel, a compressing wheel is rotatably connected to the compressing seat, and the compressing wheel is meshed with the transmission chain.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a first perspective view of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a second perspective view of the present invention.

Fig. 5 is a partially enlarged view of B in fig. 4.

Fig. 6 is a three-dimensional structure diagram of the present invention.

Fig. 7 is the utility model discloses the structural schematic diagram when tiling and piling up tubular product on well activity stack.

Fig. 8 is a schematic view of the operation of the movable material stack of the present invention when transporting pipes.

The automatic feeding device comprises a machine frame 1, a mounting seat 101, a connecting seat 102, a pressing seat 103, a supporting arm 2, an inclined arm 3, a sliding rail 301, a stack mechanism 4, a sliding arm 401, a movable stack 402, a stop rod 403, a sliding seat 404, a sliding chute 404, a fixed seat 405, a transmission assembly 5, a driven sprocket I on 501, a driven sprocket II on 502, a tensioning sprocket 503, a chain 504, a driven sprocket 505, a guide plate 506, a rotating shaft 6, an anti-collision sprocket 7, a gear box 8, a driving motor 9, a rotating shaft 10, a driven wheel 11, a driven wheel 12, a driving chain 13, a pressing wheel 14, a pipe 15 and a next-stage conveying mechanism 16.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The pipe cutting machine feeding stack feeding device shown in fig. 1 to 8 comprises a frame 1, wherein a plurality of outwardly extending support arms 2 are arranged at intervals on one side of the frame 1, an inclined arm 3 which extends upwards and obliquely to the right is arranged at one end, away from the frame 1, of each support arm 2, a plurality of stack mechanisms 4 are further connected to the frame 1, each stack mechanism 4 comprises a sliding arm 401 connected to the inclined arm 3, each sliding arm 401 can slide up and down along the corresponding inclined arm 3, a plurality of sliding seats 404 are arranged on one side, opposite to the frame 1, of each sliding arm 401, the sliding seats 404 correspond to the inclined arms 3 one by one, sliding grooves are formed in the sliding seats 404, a sliding rail 301 is arranged on one side, opposite to the sliding seats 404, of the inclined arms 3, the sliding seats 404 can slide on the sliding rail 301 through the sliding grooves, a plurality of outwardly extending movable stacks 402 are arranged at intervals on the sliding arms 401, and a material blocking rod 403 which extends upwards and leftwards is arranged at one end; the material stack mechanism 4 further comprises a transmission assembly 5, the transmission assembly 5 comprises a mounting seat 101 connected to the upper end of the rack 1, an upper driven sprocket 501 is rotatably connected to the mounting seat 101, an upper driven sprocket 502 is rotatably connected to the mounting seat 101 below the upper driven sprocket 501, a tensioning sprocket 503 is further rotatably connected to the mounting seat 101, a fixed seat 405 is further arranged on one side of the sliding arm 401 opposite to the rack 1, a rotating shaft 6 is rotatably connected to the supporting arm 2, a lower driven sprocket 505 is arranged on the rotating shaft 6 below the fixed seat 405, the upper driven sprocket 501, the tensioning sprocket 503, the upper driven sprocket 502 and the lower driven sprocket 505 are connected together through a chain 504, one end of the fixed seat 405 far away from the sliding arm 401 is connected to the chain 504, the transmission assembly 5 further comprises two guide plates 506, the fixed seat 405 is arranged between the two guide plates 506, and a connecting seat 102 is further arranged on the rack 1 between, the connecting seat 102 is rotatably connected with an anti-collision chain wheel 7, and the chain 504 is meshed with the anti-collision chain wheel 7; the opposite side of frame 1 is connected with gear box 8, be connected with driving motor 9 on the gear box 8, be equipped with the action wheel on stretching into the motor output shaft in the gear box 8, rotatable pivot 10 that is connected with in the gear box 8, be equipped with the rotation wheel on the pivot 10, the action wheel meshes with the rotation wheel mutually, it is equipped with on the pivot 10 outside the gear box 8 from driving wheel 11 to stretch out, still be equipped with down on the axis of rotation 6 from driving wheel 12, go up from driving wheel 11 and be connected through drive chain 13 transmission between the driving wheel down, be equipped with compressing tightly seat 103 on the frame 1 of drive sprocket top, rotatable pinch roller 14 that is connected with on the compressing tightly seat 103.

When the utility model works, a plurality of pipes 15 are firstly tiled and stacked on the movable material stack 402, the material blocking rod 403 and the inclined arm 3 can limit the pipes 15 in the left and right directions respectively, so as to prevent the pipes 15 from falling from the movable material stack 402 when being transported, when the pipes 15 are transported, the driving motor 9 works, the output shaft of the driving motor 9 drives the driving wheel in the gear box 8 to rotate, the rotation of the driving wheel drives the rotating wheel to rotate (the driving wheel and the rotating wheel in the gear box 8 of the utility model are in the prior art, the driving wheel and the rotating wheel are not shown in the figure of the embodiment), the rotation of the rotating wheel drives the rotating shaft 10 to rotate, the rotation of the rotating shaft 10 drives the upper driven wheel 11 to rotate, the upper driven wheel 11 drives the pressing wheel 14 and the lower driven wheel 12 to rotate through the transmission of the transmission chain 13, the pressing wheel 14 presses the transmission chain 13, the rotation of the lower, the rotation of the rotating shaft 6 enables the lower driven sprocket 505 to rotate, the lower driven sprocket 505 transmits power to the anti-collision sprocket 7, the upper driven sprocket 501, the tension sprocket 503 and the upper driven sprocket 502 through the chain 504, the anti-collision sprocket 7 can prevent the chain 504 from colliding with the rack 1, the chain 504 drives the fixed seat 405 to move upwards when moving upwards, the guide plate 506 is arranged to guide the fixed seat 405, the fixed seat 405 is more stable when moving upwards, the fixed seat 405 drives the sliding arm 401, the sliding arm 401 transmits power to the sliding seat 404, when the sliding arm 401 moves, the sliding seat 404 moves upwards along the sliding rail 301 on the inclined arm 3 through the sliding chute, namely the sliding arm 401 moves upwards along the inclined arm 3, the movable stack 402 moves upwards along with the sliding arm 401, the pipe 15 on the movable stack 402 also moves upwards along with the movable stack 402, when the center height of the uppermost layer and the first pipe close to the inclined arm 3 exceeds the highest point of the inclined arm 3, a first pipe close to the inclined arm 3 slides over the inclined arm 3 and falls onto a next-stage conveying mechanism 16, the next-stage conveying mechanism 16 continuously conveys the pipe 15 to a pipe cutting machine workbench, a second pipe close to the inclined arm 3 originally automatically supplements the position of the first pipe under the action of gravity, then slides over the inclined arm 3 and falls onto the next-stage conveying mechanism 16, and the like, a plurality of pipes 15 on the uppermost layer sequentially move downwards and slide onto the next-stage conveying mechanism 16 from bottom to top under the action of gravity, and the second layer of pipes 15 on the upper layer become a new uppermost layer along with the continuous upward movement of the sliding arm 401, so that all the plurality of layers of pipes 15 on the movable material stack 402 are conveyed finally, and the automatic feeding work is completed; the utility model discloses the setting of well slide arm 401 and slope arm 3 makes tubular product 15 in the process of upwards transporting, can not take place relative movement between the tubular product 15 of piling up, and the gesture remains stable, and when tubular product 15 was transported to a take the altitude, because of the slope of slope arm 3, make tubular product 15 can cross slope arm 3 landing to next stage conveying mechanism 16 on, along with slide arm 401 moves upwards, tubular product 15 falls into next stage conveying mechanism 16 in order, can not take place to pile up between the tubular product 15, and work efficiency is high; the material blocking rod 403 and the inclined arm 3 respectively limit the pipe 15 in the left direction and the right direction, so that the pipe 15 is prevented from sliding off the movable material stack 402 when being conveyed, the use is convenient, and the working efficiency is high; the arrangement of the sliding grooves, the sliding rails 301 and the guide plates 506 guides the sliding arm 401 during moving, so that the structure is stable and reliable, and the working efficiency is high; the automatic feeding device can be applied to automatic feeding work of the pipe 15.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (6)

1. The utility model provides a pipe cutter material loading stack feedway which characterized in that: the rack comprises a frame, one side interval of frame is provided with the outside support arm that extends of a plurality of, the one end that the frame was kept away from to the support arm is equipped with the slope arm that upwards just inclines to extend right, still be connected with a plurality of stack mechanism in the frame, stack mechanism is including connecting the slip arm on the slope arm, the slip arm can slide from top to bottom along the slope arm, the interval is equipped with the outside activity stack that extends of a plurality of on the slip arm, and the one end that the slip arm was kept away from to activity stack is equipped with the fender material pole that upwards just extends left.

2. The pipe cutter feeding stack feeding device according to claim 1, wherein: the sliding arm is provided with a plurality of sliding seats on one side relative to the rack, the sliding seats correspond to the inclined arms one by one, sliding grooves are formed in the sliding seats, sliding rails are arranged on one side of the inclined arms relative to the sliding seats, and the sliding seats can slide on the sliding rails through the sliding grooves.

3. The pipe cutter feeding stack feeding device as claimed in claim 2, wherein: the feed stack mechanism still includes drive assembly, drive assembly is including connecting the mount pad in the frame upper end, rotatable being connected with on the mount pad driven sprocket one, rotatable being connected with on the mount pad of going up driven sprocket one below driven sprocket two, still rotatable being connected with tensioning sprocket on the mount pad, one side of the relative frame of movable arm still is equipped with the fixing base, rotatable being connected with the axis of rotation on the support arm, being equipped with down driven sprocket in the axis of rotation of fixing base below, last driven sprocket one, tensioning sprocket, go up and link together through the chain between driven sprocket two and the lower driven sprocket, the one end that the movable arm was kept away from to the fixing base is connected on the chain.

4. The pipe cutter feed stack feeding device of claim 3, wherein: the transmission assembly further comprises two guide plates, the fixed seat is arranged between the two guide plates, a connecting seat is further arranged on the rack between the two guide plates, an anti-collision chain wheel is rotatably connected onto the connecting seat, and the chain is meshed with the anti-collision chain wheel.

5. The pipe cutter feed stack feeding device of claim 3, wherein: the opposite side of frame is connected with the gear box, be connected with driving motor on the gear box, be equipped with the action wheel on the motor output shaft that stretches into in the gear box, rotatable being connected with pivot in the gear box, be equipped with in the pivot and rotate the wheel, the action wheel meshes with rotating the wheel mutually, stretches out to be equipped with in the outer pivot of gear box from the driving wheel, still be equipped with down in the axis of rotation from the driving wheel, go up from being connected through the drive chain transmission between driving wheel and the lower driving wheel.

6. The pipe cutter feed stack feeding device of claim 5, wherein: and a pressing seat is arranged on the rack above the transmission chain, a pressing wheel is rotatably connected to the pressing seat, and the pressing wheel is meshed with the transmission chain.

Images