CN115740610A

CN115740610A - Electric automatization's pipeline guider

Info

Publication number: CN115740610A
Application number: CN202211612207.5A
Authority: CN
Inventors: 陈亮; 莫文统; 林燕鹏
Original assignee: Guangdong New Engineering Education Equipment Technology Co Ltd
Current assignee: Guangdong New Engineering Education Equipment Technology Co Ltd
Priority date: 2022-12-15
Filing date: 2022-12-15
Publication date: 2023-03-07

Abstract

The invention discloses an electric automatization pipeline guiding device, which comprises a guide frame, wherein a conveying belt is arranged between the inner walls of the guide frame, a clamping mechanism and a cutting mechanism are arranged on the guide frame, two fixing plates are arranged at one end of the guide frame, a storage tank is arranged at one end of each fixing plate, a feeding mechanism is arranged between each fixing plate and the storage tank, a driving mechanism is arranged on the outer wall of each fixing plate, the driving mechanism is connected with the feeding mechanism, the clamping mechanism and the cutting mechanism, and a chute is arranged on the guide frame. Drive feed mechanism, conveyer belt, fixture and cutting mechanism motion through the actuating mechanism linkage, and feed mechanism sends a pipeline to conveyer belt department, and the conveyer belt is tight along leading truck guide movement fixture department with the pipeline clamp, cuts the pipeline both ends through cutting mechanism again and levels, then fixture loosens the pipeline, and the conveyer belt removes the chute department with the pipeline and the waste material that process and falls, realizes automatic direction processing, raises the efficiency.

Description

Electric automatization's pipeline guider

Technical Field

The invention relates to the technical field of pipeline machining, in particular to an electric automation pipeline guide device.

Background

Need use the pipeline to cup joint the protection to the circuit in the electric automatization construction, the pipeline adopts corrosion-resistant steel pipe usually, the position to pipeline terminal surface unevenness cuts usually in the processing, guarantee that the pipeline terminal surface is level and smooth, thereby be convenient for the pipeline butt joint and the welding when setting up, the cutting needs fix a position the pipeline, guarantee pipeline axis perpendicular to cutting wheel, thereby the terminal surface of cutting just can level and smooth, present pipeline material loading still needs to adopt the mode of artifical location centre gripping, be difficult to adopt full automatic direction material loading and automatic cutting's purpose, processing makes degree of automation lower, to the above-mentioned problem, the inventor proposes an electric automatization's pipeline guider and is used for solving above-mentioned problem.

Disclosure of Invention

In order to solve the problems that the pipeline needs to be positioned for cutting, the axis of the pipeline is ensured to be vertical to a cutting wheel, so that the cut end face is smooth, the current pipeline feeding still needs to adopt a manual positioning and clamping mode, the full-automatic guiding feeding and automatic cutting purposes are difficult to adopt, and the processing degree is low; the invention aims to provide an electric automatic pipeline guiding device.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides an electric automatization's pipeline guider, includes the leading truck, install the conveyer belt between the inner wall of leading truck, install fixture and cutting mechanism on the leading truck, the fixed two fixed plates that are equipped with of one end of leading truck, the one end fixed mounting that the leading truck was kept away from to the fixed plate has the stock chest, install feed mechanism between fixed plate and stock chest, actuating mechanism is installed to the outer wall of fixed plate, actuating mechanism connects feed mechanism, fixture and cutting mechanism, the one end fixed mounting that the fixed plate was kept away from to the leading truck has the chute.

An embodiment of preferred, the stock chest is the slope structure, and the stock chest keeps away from the one end height that the fixed plate was highly be greater than the one end height that is close to the fixed plate, fixed embedded having a plurality of magnet pieces on the outer wall of conveyer belt, the chute is the slope structure.

Preferably, the driving mechanism comprises a motor frame, the outer wall of the fixing plate is fixedly provided with the motor frame, the motor frame is fixedly provided with a motor, an output shaft of the motor is fixedly sleeved with a driving wheel, the fixing plates on two sides of the motor frame are respectively and rotatably sleeved with a first transmission shaft and a second transmission shaft, the first transmission shaft and the second transmission shaft are respectively and fixedly sleeved with a first grooved pulley and a second grooved pulley, the first transmission shaft is connected with the feeding mechanism through a driving wheel and a driving belt, the outer wall of the guide frame is rotatably sleeved with a driven shaft, the driven shaft is connected with a rotating shaft of the conveying belt through the driving wheel and the driving belt, a matched bevel gear is arranged between the end surfaces of the driven shaft and the second transmission shaft, the driving wheel is far away from one end surface of the motor, the end surface of the driving wheel is fixedly connected with one end of the push rod, and the outer wall of the fixing plate is fixedly provided with a forward switch and a backward switch.

Preferably, the outer walls of the first sheave and the second sheave are provided with four stopping grooves, the first sheave and the second sheave between two adjacent stopping grooves are provided with pushing grooves, the outer wall of the driving wheel is provided with a rotating groove, the push rod is positioned in the middle of the rotating groove, and the middle of the push rod is fixedly provided with a sliding shaft.

In a preferred embodiment, the diameter of the sliding shaft is equal to the width of the pushing groove, the forward switch and the backward switch are electrically connected with the clamping mechanism and the cutting mechanism, and the stopping groove is of an arc structure matched with the circumferential outer wall of the driving wheel.

An embodiment of preferred, feed mechanism includes the dog, the one end top fixed mounting that the stock chest is close to the fixed plate has the dog, open at the middle part of dog and stock chest has logical groove, two all rotate on the fixed plate and cup jointed the pivot, one the one end of pivot runs through the fixed plate and connects first transmission shaft through drive wheel and drive belt, the pivot is close to the one end fixed connection articulate one end of fixed plate inner wall, two be equipped with the connecting plate between the fixed plate, the fixed three movable supporting plate that is equipped with in top of connecting plate, the equal fixed mounting in bottom both sides of connecting plate has the pole setting, the bottom of pole setting is passed through the round pin hub rotation and is connected the crank, two the equal fixed mounting in top of fixed plate has three fixed supporting plate.

In an embodiment of the present invention, the fixed supporting plate and the movable supporting plate are distributed at equal intervals, the inner wall of the movable supporting plate is fixedly provided with a magnet, and the distance from the rotating shaft to the axis of the pin shaft is equal to the distance between the axes of two adjacent movable supporting plates.

In an embodiment of the present invention, the clamping mechanism includes a mounting plate, the mounting plates are fixedly mounted at two ends of the side wall of the guide frame, the short cylinder is fixedly mounted on the mounting plate, the V-shaped block is fixedly mounted on the movable rod of the short cylinder, the slot is opened at the top of the outer wall of the guide frame, and the slot is opposite to the V-shaped block.

In an embodiment of the present invention, the top surface of the guide frame is fixedly mounted with a fixing base, the top of the fixing base is fixedly mounted with a long cylinder, a movable rod of the long cylinder penetrates through the fixing base and the fixed connection hanging plate, the hanging plate is slidably attached to the inner wall of the fixing base, the outer walls of the two ends of the hanging plate are fixedly mounted with motors, and the output shafts of the motors penetrate through the hanging plate and are fixedly mounted with cutting wheels.

In a preferred embodiment, the bottom of the V-shaped block is aligned with the top of the conveying belt, a through groove is formed in the top surface of the guide frame, which is opposite to the cutting wheel, and the width of the through groove is larger than the thickness of the cutting wheel.

Compared with the prior art, the invention has the beneficial effects that:

the pipeline slides along the stock chest and piles up, drive feed mechanism through the actuating mechanism linkage, the conveyer belt, fixture and cutting mechanism motion, realize that feed mechanism sends a pipeline to conveyer belt department, then the conveyer belt is tight along leading truck guide movement to fixture department with the pipeline, cut the pipeline both ends through cutting mechanism again and level, then fixture loosens the pipeline, next endless conveyor belt removes the pipeline and the waste material that process to chute department and falls down, next pipeline synchronous movement processes to fixture and cutting mechanism, realize automatic guiding process, the efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the structure of the pipeline of the present invention on a storage tank and a feeding mechanism.

FIG. 2 is a schematic view of the empty storage tank and the feeding mechanism according to the present invention.

FIG. 3 is an enlarged schematic view of the structure A in FIG. 2 according to the present invention.

FIG. 4 is an enlarged view of the structure of FIG. 3 at C according to the present invention.

Fig. 5 is a schematic structural diagram of the feeding mechanism of the present invention.

FIG. 6 is an enlarged view of the structure at B in FIG. 2 according to the present invention.

In the figure: 1. a guide frame; 2. a conveyor belt; 3. a fixing plate; 4. a storage tank; 5. a feeding mechanism; 51. a stopper; 52. a through groove; 53. fixing the supporting plate; 54. a rotating shaft; 55. a crank; 56. a pin shaft; 57. erecting a rod; 58. a connecting plate; 59. a movable supporting plate; 6. a drive mechanism; 61. a motor frame; 62. a motor; 63. a first drive shaft; 64. a second drive shaft; 65. a first sheave; 66. a second sheave; 67. a drive wheel; 68. a push rod; 69. a forward switch; 610. a back-off switch; 611. a driven shaft; 612. rotating the groove; 613. a sliding shaft; 614. a stopper groove; 615. pushing the groove; 7. a clamping mechanism; 71. mounting a plate; 72. a short cylinder; 73. a slot; 74. a V-shaped block; 8. a cutting mechanism; 81. a fixed seat; 82. a long cylinder; 83. a hanger plate; 84. a motor; 85. a cutting wheel; 9. chute

Detailed Description

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

Example (b): as shown in fig. 1-6, the invention provides an electric automatic pipeline guiding device, which comprises a guiding frame 1, wherein a conveying belt 2 is arranged between the inner walls of the guiding frame 1, a clamping mechanism 7 and a cutting mechanism 8 are arranged on the guiding frame 1, two fixing plates 3 are fixedly arranged at one end of the guiding frame 1, a storage tank 4 is fixedly arranged at one end of each fixing plate 3 far away from the guiding frame 1, a feeding mechanism 5 is arranged between each fixing plate 3 and each storage tank 4, a driving mechanism 6 is arranged on the outer wall of each fixing plate 3, each driving mechanism 6 is connected with each feeding mechanism 5, each clamping mechanism 7 and each cutting mechanism 8, and a chute 9 is fixedly arranged at one end of the guiding frame 1 far away from each fixing plate 3.

Through the technical scheme, the pipeline is piled up along the stock chest 4 slides, drive feed mechanism 5 through 6 linkages of actuating mechanism, conveyer belt 2, fixture 7 and the motion of cutting mechanism 8, realize that feed mechanism 5 delivers to 2 departments of conveyer belt with a pipeline, then 2 tight that the pipeline is pressed from both sides to fixture 7 along the guide bracket 1 direction removal of conveyer belt, cut the pipeline both ends through cutting mechanism 8 again and level, then fixture 7 loosens the pipeline, next endless conveyor belt 2 removes the pipeline and the waste material that process to chute 9 department and falls, next pipeline synchronous motion is processed to fixture 7 and cutting mechanism 8, realize automatic direction processing, and the efficiency is improved.

Further, stock chest 4 is the slope structure, and the one end height that fixed plate 3 was kept away from to stock chest 4 is greater than the one end height that is close to fixed plate 3, and fixed embedded having a plurality of magnet pieces on the outer wall of conveyer belt 2, and chute 9 is the slope structure.

Through the technical scheme, the inclined material storage tank 4 is convenient for the pipeline to roll downwards for storage, and the pipeline at the upper part automatically falls down after one pipeline is fed.

Further, the driving mechanism 6 includes a motor frame 61, the motor frame 61 is fixedly installed on the outer wall of the fixing plate 3, the motor 62 is fixedly installed on the motor frame 61, a driving wheel 67 is fixedly sleeved on an output shaft of the motor 62, the fixing plate 3 on both sides of the motor frame 61 is respectively sleeved with a first transmission shaft 63 and a second transmission shaft 64 in a rotating manner, the first transmission shaft 63 and the second transmission shaft 64 are respectively fixedly sleeved with a first sheave 65 and a second sheave 65, the first transmission shaft 63 is connected with the feeding mechanism 5 through a transmission wheel and a transmission belt, the outer wall of the guide frame 1 is rotatably sleeved with a driven shaft 611, the driven shaft 611 is connected with the rotating shaft of the conveying belt 2 through the transmission wheel and the transmission belt, a matched bevel gear is installed between the end surfaces of the driven shaft 611 and the second transmission shaft 64, one end surface of the driving wheel 67 far away from the motor 62 is fixedly connected with one end of the push rod 68, a forward switch 610 and a backward switch 69 are fixedly installed on the outer wall of the driving wheel 3, four locking grooves 614 are respectively formed on the outer walls of the first sheave 65 and the second sheave 66, a sliding groove 613 is formed between two adjacent locking grooves 614, a sliding groove 613 is electrically connected with a sliding mechanism, a sliding groove 613, a sliding groove 612 with a sliding mechanism which is formed in the middle part of the sliding mechanism and a sliding groove 613, and a sliding mechanism 612 which is electrically connected with the sliding groove 69, and a sliding mechanism which is formed in a sliding groove 613, and a sliding mechanism which is formed in the sliding groove 612, and is formed in a sliding groove 613, and a sliding mechanism which is electrically connected with a sliding mechanism which is formed in the sliding mechanism and a sliding mechanism which is formed in the sliding groove 612, and a sliding mechanism 8.

Through the above technical solution, the motor 62 drives the driving wheel 67 to rotate continuously, the driving wheel 67 drives the push rod 68 to move when rotating, when the rotating groove 612 faces the first sheave 65 or the second sheave 66, the sliding shaft 613 slides into the push groove 615, thereby pushing the first sheave 65 or the second sheave 66 to rotate a quarter of a turn, at this time, the sliding shaft 613 slides out of the push groove 615, meanwhile, the circumferential outer wall of the driving wheel 67 slides into the stop groove 614, and when the first sheave 65 rotates, the second sheave 66 is in a stop state, the first sheave 65 and the second sheave 66 rotate alternately and intermittently, then the first sheave 65 drives the feeding mechanism 5 through the first transmission shaft 63 to move a pipeline to the conveyor belt 2, the conveyor belt 2 is stationary, then the first sheave 65 stops, the pipe is moved to the clamping mechanism 7 by the conveyor belt 2 when the second sheave 66 rotates, then the push rod 68 disengages from the second sheave 66 and is located between the second sheave 66 and the first sheave 65, the push rod 68 contacts the forward switch 69 first, the clamping mechanism 7 clamps and fixes the pipe, the cutting mechanism 8 moves down to cut the two ends of the pipe evenly, then the push rod 68 contacts the backward switch 610, the cutting mechanism 8 moves up, the clamping mechanism 7 releases the pipe, so as to enter the next cycle, the feeding mechanism 5 moves the next pipe to the conveyor belt 2, then the conveyor belt 2 moves to move the processed pipe away, and the next pipe is conveyed to the clamping mechanism 7, and continuous automatic processing is realized.

Further, feed mechanism 5 includes dog 51, one end top fixed mounting that silo 4 is close to fixed plate 3 has dog 51, open at the middle part of dog 51 and silo 4 has logical groove 52, all rotate on two fixed plates 3 and cup jointed pivot 54, the one end of a pivot 54 runs through fixed plate 3 and connects first transmission shaft 63 through drive wheel and drive belt, pivot 54 is close to the one end fixed connection crank 55's of fixed plate 3 inner wall one end, be equipped with connecting plate 58 between two fixed plates 3, the fixed three movable supporting plate 59 that is equipped with in top of connecting plate 58, the equal fixed mounting in bottom both sides of connecting plate 58 has pole setting 57, the bottom of pole setting 57 rotates through round pin axle 56 and connects crank 55, the equal fixed mounting in top of two fixed plates 3 has three fixed supporting plate 53, fixed supporting plate 53 and movable supporting plate 59 equidistance distribute, the inner wall of movable supporting plate 59 is fixed and is equipped with the magnet piece, the distance of pivot 54 to the axis of round pin axle 56 equals the axis distance of two adjacent movable supporting plate 59.

Through the technical scheme, the pipeline slides downwards to the stop block 51 along the material storage tank 4 under the gravity to stop, when the first transmission shaft 63 rotates for a quarter turn, the rotating shaft 54 is driven by the transmission belt to rotate for a turn, when the rotating shaft rotates for a turn, the connecting line of the two rotating shafts 54, the connecting line of the two cranks 55 and the connecting line between the two pin shafts 56 form a parallelogram, the two rotating shafts 54 are fixed and kept horizontal, the pin shafts 56 are kept horizontal, the connecting plate 58 is kept horizontal, the motion track of any point on the connecting plate 58 is clockwise circular, and the radius is equal to the length of the crank 55, the connecting plate 58 is located at the through groove 52 at the leftmost side and gradually moves upwards along the circumference, so that the movable supporting plate 59 supports one pipeline to move upwards, then the connecting plate 58 moves to the rightmost side, the movable supporting plate 59 moves downwards from the fixed supporting plate 53 to place the pipeline on the fixed supporting plate 53, the circulation is repeated, the pipeline passes through the fixed supporting plates 53 from the stop block 51 one by one, when the last fixed supporting plate 53 is located, one end of the pipeline is lapped on the conveying belt 2, when the conveying belt 2 moves, the pipeline is dragged and conveyed through magnetic force adsorption, and the pipeline is positioned and fed one by one.

Further, the clamping mechanism 7 comprises a mounting plate 71, the mounting plates 71 are fixedly mounted at two ends of the side wall of the guide frame 1, short air cylinders 72 are fixedly mounted on the mounting plates 71, V-shaped blocks 74 are fixedly mounted on movable rods of the short air cylinders 72, slots 73 are formed in the top of the outer wall of the guide frame 1, the slots 73 are opposite to the V-shaped blocks 74, fixing seats 81 are fixedly mounted in the middle of the top surface of the guide frame 1, long air cylinders 82 are fixedly mounted at the top of the fixing seats 81, the movable rods of the long air cylinders 82 penetrate through the fixing seats 81 and are fixedly connected with hanging plates 83, the hanging plates 83 are in sliding fit with the inner walls of the fixing seats 81, motors 84 are fixedly mounted on the outer walls of two ends of the hanging plates 83, output shafts of the motors 84 penetrate through the hanging plates 83 and are fixedly mounted with cutting wheels 85, the bottoms of the V-shaped blocks 74 are aligned with the top of the conveyor belt 2, penetrating grooves are formed in positions, opposite to the top surface of the cutting wheels 85, and the width of the penetrating grooves is larger than the thickness of the cutting wheels 85.

Through the technical scheme, after the pipeline is moved to the space between the V-shaped blocks 74 by the conveyer belt 2, the push rod 68 is separated from the first grooved pulley 66, the conveyer belt 2 is static, then the push rod 68 contacts the forward switch 69, the short air cylinder 72 and the long air cylinder 82 extend, the V-shaped blocks 74 are close to the pipeline, so that the inclined plane at the bottom of the V-shaped blocks 74 lifts the pipeline, finally, after the short air cylinder 72 reaches a formed key point, the pipeline is clamped and lifted in a centering manner by the V-shaped blocks 74, the long air cylinder 82 pushes the hanging plate 83 to move downwards, so that the two ends of the pipeline are cut and leveled by the cutting wheel 85, after the push rod 68 contacts the backward switch 610, the short air cylinder 72 and the long air cylinder 82 contract, so that the cutting wheel 85 moves upwards, the V-shaped blocks 74 are far away from the pipeline, the pipeline falls onto the conveyer belt 2, and when the subsequent conveyer belt 2 moves, the processed pipeline and end face waste are gradually moved to the chute 9 to slide upwards and downwards for collection, so that the automatic feeding, the guiding positioning, the clamping and the cutting and leveling of the pipeline are realized, and the processing efficiency is improved.

The working principle is as follows: the pipeline is stacked along the storage tank 4 in a sliding manner, the motor 62 drives the driving wheel 67 to rotate continuously, the driving wheel 67 drives the push rod 68 to move when rotating, when the rotating groove 612 faces the first grooved wheel 65 or the second grooved wheel 66, the sliding shaft 613 slides into the push groove 615, so as to push the first grooved wheel 65 or the second grooved wheel 66 to rotate for a quarter of a turn, at the same time, the sliding shaft 613 slides out of the push groove 615, meanwhile, the circumferential outer wall of the driving wheel 67 slides into the stop groove 614, when the first grooved wheel 65 rotates, the second grooved wheel 66 is in a stop state, the first grooved wheel 65 and the second grooved wheel 66 rotate alternately and intermittently, the pipeline slides down to the stop block 51 along the storage tank 4 under gravity, when the first transmission shaft 63 rotates for a quarter of a turn, the connection line of the two rotating shafts 54, the two cranks 55, and the connection line between the two pins 56 form a parallelogram, and the two rotating shafts 54 are not moved and are kept horizontal, and the pin shaft 56 is kept horizontal, the connecting plate 58 is kept horizontal, the motion trail of any point on the connecting plate 58 is clockwise circular, and the radius is equal to the length of the crank 55, the connecting plate 58 is positioned at the through groove 52 at the leftmost side and then gradually moves upwards along the circumference, so that the movable supporting plate 59 supports a pipeline upwards, then when the connecting plate 58 moves to the rightmost side, the movable supporting plate 59 moves downwards from the fixed supporting plate 53 to place the pipeline on the fixed supporting plate 53, the circulation is carried out, the pipeline passes through the plurality of fixed supporting plates 53 one by one from the stop block 51, when the last fixed supporting plate 53 is positioned, one end of the pipeline is lapped on the conveyer belt 2, when the conveyer belt 2 moves, the pipeline is dragged and conveyed through the magnetic adsorption pipeline, the one-by-one positioning and feeding of the pipeline are realized, when the first grooved wheel 65 drives the feeding mechanism 5 to move a pipeline to the conveyer belt 2 through the first transmission shaft 63, the conveying belt 2 is static, then the first grooved pulley 65 is stopped, the conveying belt 2 moves the pipeline to the clamping mechanism 7 when the second grooved pulley 66 rotates, then the push rod 68 is separated from the second grooved pulley 66 and is positioned between the second grooved pulley 66 and the first grooved pulley 65, the conveying belt 2 is static, then the push rod 68 contacts the forward switch 69, the short air cylinder 72 and the long air cylinder 82 extend, the V-shaped block 74 approaches the pipeline, so that the bottom inclined surface of the V-shaped block 74 lifts the pipeline, finally after the short air cylinder 72 reaches a formed key point, the V-shaped block 74 clamps and lifts the pipeline in a centering manner, the long air cylinder 82 pushes the hanging plate 83 to move downwards, so that the cutting wheel 85 cuts and flattens the two ends of the pipeline, after the push rod 68 contacts the backward switch 610, the short air cylinder 72 and the long air cylinder 82 contract, so that the cutting wheel 85 moves upwards, the V-shaped block 74 moves away from the pipeline, the pipeline falls onto the conveying belt 2, and when the subsequent conveying belt 2 moves, the processed pipeline and end face waste are gradually moved to the chute 9 to slide upwards and collect, so that automatic loading, the guiding positioning, the clamping, the cutting positioning, the cutting and the processing efficiency is improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides an electric automatization's pipeline guider, includes leading truck (1), its characterized in that: install conveyer belt (2) between the inner wall of leading truck (1), install fixture (7) and cutting mechanism (8) on leading truck (1), the one end of leading truck (1) is fixed and is equipped with two fixed plates (3), the one end fixed mounting that leading truck (1) was kept away from in fixed plate (3) has stock chest (4), install feed mechanism (5) between fixed plate (3) and stock chest (4), actuating mechanism (6) are installed to the outer wall of fixed plate (3), feed mechanism (5), fixture (7) and cutting mechanism (8) are connected in actuating mechanism (6), the one end fixed mounting that fixed plate (3) were kept away from in leading truck (1) has chute (9).

2. The electric automatization pipeline guider according to claim 1, characterized in that, the stock chest (4) is a slant structure, and the height of the end of the stock chest (4) far away from the fixed plate (3) is larger than the height of the end near the fixed plate (3), a plurality of magnet pieces are fixed and embedded on the outer wall of the conveyer belt (2), and the chute (9) is a slant structure.

3. An electric automatic pipeline guiding device as claimed in claim 1, wherein the driving mechanism (6) comprises a motor frame (61), the outer wall of the fixing plate (3) is fixedly provided with the motor frame (61), the motor frame (61) is fixedly provided with a motor (62), the output shaft of the motor (62) is fixedly sleeved with a driving wheel (67), the fixing plates (3) at two sides of the motor frame (61) are respectively rotatably sleeved with a first transmission shaft (63) and a second transmission shaft (64), the first transmission shaft (63) and the second transmission shaft (64) are respectively fixedly sleeved with a first sheave (65) and a second sheave (65), the first transmission shaft (63) is connected with the feeding mechanism (5) through a transmission wheel and a transmission belt, the outer wall of the guiding frame (1) is rotatably sleeved with a driven shaft (611), the driven shaft (611) is connected with the transmission wheel and the transmission belt between the rotation shafts of the conveying belt (2), a matched bevel gear is arranged between the end surfaces of the driven shaft (611) and the second transmission shaft (64), one end of the driving wheel (67) far away from the fixing motor (62) is connected with a rear switch (69), and a rear switch (610) is arranged with a rear switch (69).

4. The electric automatization pipeline guider according to claim 3, characterized in that the outer wall of the first sheave (65) and the second sheave (66) are provided with four stop grooves (614), the first sheave (65) and the second sheave (66) between two adjacent stop grooves (614) are provided with push grooves (615), the outer wall of the driving wheel (67) is provided with a rotating groove (612), the push rod (68) is positioned in the middle of the rotating groove (612), and the middle of the push rod (68) is fixedly provided with a sliding shaft (613).

5. An electrically automated pipe guide according to claim 4, wherein the sliding shaft (613) has a diameter equal to the width of the push slot (615), the advance switch (69) and the retreat switch (610) are electrically connected to the gripping mechanism (7) and the cutting mechanism (8), and the stop slot (614) is of arcuate configuration matching the circumferential outer wall of the drive wheel (67).

6. The electrically automated pipeline guiding device according to claim 3, wherein the feeding mechanism (5) comprises a stopper (51), the stopper (51) is fixedly installed at the top of one end of the stock chest (4) close to the fixing plate (3), through grooves (52) are formed in the middle of the stopper (51) and the stock chest (4), rotating shafts (54) are rotatably sleeved on the two fixing plates (3), one end of one rotating shaft (54) penetrates through the fixing plate (3) and is connected with a first transmission shaft (63) through a transmission wheel and a transmission belt, one end of the rotating shaft (54) close to the inner wall of the fixing plate (3) is fixedly connected with one end of a crank (55), a connecting plate (58) is arranged between the two fixing plates (3), three movable supporting plates (59) are fixedly installed at the top of the connecting plate (58), vertical rods (57) are fixedly installed at both sides of the bottom of the connecting plate (58), the bottom of the crank (55) is rotatably connected with the crank (55) through a pin shaft (56), and three fixed supporting plates (53) are fixedly installed at the top of the two fixing plates (3).

7. The electrically automated pipe guide apparatus according to claim 6, wherein the fixed support plate (53) and the movable support plate (59) are equidistantly arranged, the inner wall of the movable support plate (59) is fixedly provided with a magnet piece, and the distance from the rotating shaft (54) to the axis of the pin shaft (56) is equal to the distance between the axes of two adjacent movable support plates (59).

8. The electric automatization's pipeline guider of claim 6, characterized in that fixture (7) includes mounting panel (71), mounting panel (71) are all fixedly mounted at leading truck (1) lateral wall both ends, all fixedly mounted with short cylinder (72) on mounting panel (71), fixedly mounted with V type piece (74) on the movable rod of short cylinder (72), open at the outer wall top of leading truck (1) has slot (73), slot (73) just to V type piece (74).

9. The electric automatization pipeline guiding device according to claim 8, characterized in that a fixed seat (81) is fixedly installed in the middle of the top surface of the guiding frame (1), a long cylinder (82) is fixedly installed on the top of the fixed seat (81), the movable rod of the long cylinder (82) penetrates through the fixed seat (81) and is fixedly connected with a hanging plate (83), the hanging plate (83) is in sliding fit with the inner wall of the fixed seat (81), the outer walls of the two ends of the hanging plate (83) are both fixedly installed with a motor (84), and the output shaft of the motor (84) penetrates through the hanging plate (83) and is fixedly installed with a cutting wheel (85).

10. An electrically automated pipe guide according to claim 9, wherein the bottom of the V-shaped block (74) is aligned with the top of the conveyor belt (2), the top surface of the guide frame (1) facing the cutting wheel (85) is provided with a through slot, and the width of the through slot is greater than the thickness of the cutting wheel (85).