CN116638332A

CN116638332A - Automatic change right angle steel pipe cutting processing apparatus

Info

Publication number: CN116638332A
Application number: CN202310704124.7A
Authority: CN
Inventors: 王伟
Original assignee: Shanghai Jingzhou Membrane Structure Co ltd
Current assignee: Shanghai Jingzhou Membrane Structure Co ltd
Priority date: 2023-06-14
Filing date: 2023-06-14
Publication date: 2023-08-25

Abstract

The invention discloses an automatic right-angle steel pipe cutting processing device, which relates to the field of steel pipe processing, and comprises a base and a bending mechanism, wherein the base comprises a fixed seat, a discharge hole, two groups of first sliding grooves, a second sliding groove, a sliding column, a first limiting groove, an objective table and a cleaning plate, the first sliding grooves are arranged on the inner side of the fixed seat, the discharge hole is arranged between the two groups of first sliding grooves, the second sliding grooves are arranged on the inner wall of the first sliding grooves, the sliding column is connected with the inner side of the first sliding grooves, and the first limiting groove is arranged on the inner side of the fixed seat. The invention realizes the fixation of the workpiece by arranging the cutting mechanism, the fixing mechanism, the transmission mechanism and the polishing mechanism, reduces the need of an operator to independently operate the reinforcing device to fix the workpiece, improves the working efficiency, polishes the two ends of the workpiece after cutting, reduces burrs at the two ends of the workpiece and improves the product quality.

Description

Automatic change right angle steel pipe cutting processing apparatus

Technical Field

The invention relates to the field of steel pipe machining, in particular to an automatic right-angle steel pipe cutting treatment device.

Background

The steel pipe is a steel material having a hollow cross section, the length of which is far greater than the diameter or circumference, and is classified into round, square, rectangular and abnormal steel pipes according to the cross section shape, and is classified into carbon structural steel pipes, low alloy structural steel pipes, alloy steel pipes and composite steel pipes according to the material, and is classified into steel pipes for transportation pipelines, engineering structures, thermal equipment, petrochemical industry, machine manufacturing, geological drilling, high-voltage equipment, and the like according to the use.

When processing the steel pipe, need use steel pipe cutting device, current steel pipe cutting device is at first through pressing from both sides the steel pipe that needs processing on the support to can not rock when guaranteeing to cut the steel pipe, ensure cutting accuracy, fix the steel pipe after, through adjustment cutting knife's position and angle, start the cutting knife and cut the steel pipe.

In the prior art, when cutting the steel pipe, because contact and cut through high-speed rotation through metal cutting knife and metal pipeline to this can produce a large amount of sparks and piece, and because high-speed rotation cuts for the piece scatters to the operation panel surface, and cleans difficultly, and when cutting the steel pipe, easily makes the steel pipe edge cause the burr, and need carry out independent processing through other equipment to the burr among the prior art, increased the device cost, and current cutting device is two main parts with bending device, when needs cut the steel pipe, just need a plurality of equipment to operate, increased operating cost and operating time, thereby reduced work efficiency.

Disclosure of Invention

Based on this, the present invention aims to provide an automatic right-angle steel pipe cutting processing device, so as to solve the technical problems mentioned in the background.

In order to achieve the above purpose, the present invention provides the following technical solutions: including base and mechanism of bending, the base is including first fixing base, discharge gate, two sets of first spouts, second spout, sliding column, first spacing groove, objective table and clean board, and first spout sets up in the inboard of first fixing base, and the discharge gate sets up between two sets of first spouts, the second spout sets up in the inner wall of first spout, and sliding column connects in the inboard of first spout, first spacing groove sets up in the inboard of first fixing base, and the objective table sets up in the top of first fixing base to clean board sets up in the top of objective table, the top of base is provided with cutting mechanism, and the top of base is provided with drive mechanism.

Through adopting above-mentioned technical scheme, the first spout that has guaranteed through the inside setting of first fixing base that the slip post removes along first spout to this has guaranteed to drive the objective table and has removed, and treats the machined part through cutting mechanism and cut, and through bending mechanism's setting, has guaranteed to bend the processing to the machined part.

The invention is further arranged that the cutting mechanism comprises a first motor, a first telescopic rod, a cutting blade, a first connecting rod and a first transmission rod, wherein the first motor is arranged above the first fixing seat, the first telescopic rod is connected to one side of the first motor, the cutting blade is arranged between two groups of first telescopic rods, the first connecting rod is arranged on the outer side of the first telescopic rod, and the first transmission rod is arranged above the first connecting rod.

Through adopting above-mentioned technical scheme, when first motor drives first telescopic link and carries out flexible removal, through the transmission connection between first telescopic link, head rod and the first transfer line, guaranteed when first telescopic link drives cutting blade and remove, guaranteed that first transfer line removes.

The invention further provides that one side of the cutting mechanism is provided with the fixing mechanism, the fixing mechanism comprises a first shell, a second fixing seat, a rotating rod, a first gear, a threaded rod, an extrusion mechanism and a first limiting plate, the first shell is arranged above the first fixing seat, the second fixing seat is arranged on the inner side of the first shell, the rotating rod is arranged above the second fixing seat, the first gear is arranged above the rotating rod, the threaded rod is arranged on the inner side of the rotating rod, the extrusion mechanism is arranged at the tail end of the threaded rod, the first limiting plate is arranged at the bottom end of the second fixing seat, and the first limiting plate penetrates through the discharge hole.

Through adopting above-mentioned technical scheme, when first transfer line removes, constitute the meshing connection between rack and the first gear through first transfer line is terminal, ensured when first transfer line removes, make first gear rotate through the fixed connection between first gear and the dwang, ensured the dwang and rotated, and through threaded connection between dwang and the threaded rod, ensured when the dwang rotates, make the threaded rod move down, and be connected through the bearing between threaded rod and the extrusion mechanism, ensured that extrusion mechanism presss from both sides tightly the machined part.

The invention further provides that the extrusion mechanism comprises an extrusion block, a fixed shaft and a rotating shaft, wherein the rotating shaft is fixed at the tail end of the threaded rod, the fixed shaft is connected to the outer side of the rotating shaft through the rotating shaft, and the extrusion block is fixed at the tail end of the fixed shaft.

Through adopting above-mentioned technical scheme, through fixed connection between threaded rod and the axis of rotation to and the bearing connection between axis of rotation and the fixed axle, guaranteed when the axis of rotation moves down along with the threaded rod, drive the fixed axle and move down, until drive with fixed axle fixed connection's extrusion piece moves down, until make extrusion piece and wait for the work piece closely laminating, and avoided the extrusion piece to rotate.

The invention further provides that the transmission mechanism comprises a second shell, a transmission plate, a first rotating shaft and a second gear, wherein the second shell is arranged above the base, the transmission plate is fixed on the outer side of the first connecting rod, the first rotating shaft is arranged on the inner side of the second shell, and the second gear is arranged on the outer side of the first rotating shaft.

Through adopting above-mentioned technical scheme, through the fixed connection between head rod and the drive plate, guaranteed to drive the drive plate and remove thereupon when head rod moves, guaranteed to constitute the meshing connection between drive plate and the second gear, driven the second gear and rotated.

The invention is further arranged that one side of the transmission mechanism is provided with the polishing mechanism, the polishing mechanism comprises a second motor, a second rotating shaft, a second connecting rod, a second telescopic rod and a polishing plate, the second motor is arranged above the base, the second rotating shaft is connected to two sides of the second motor in the vertical direction, the second connecting rod is provided with two sides of the second motor in the horizontal direction, the second telescopic rod is provided with the tail end of the second connecting rod, and the polishing plate is arranged at the tail end of the second rotating shaft.

Through adopting above-mentioned technical scheme, through the second motor, guaranteed that the second pivot rotates, through the rotation of first group second pivot, guaranteed to polish the one end of the machined part when cutting off to this effect of deburring has been guaranteed to one end of machined part, and when the machined part drives the objective table through the slip post and removes to the other end of machined part and paste between another group of board of polishing, through the rotation of board of polishing, guaranteed to polish the other end of machined part.

The invention is further characterized in that the tail end of the transmission plate is provided with a rack, the rack at the bottom of the transmission plate is connected with the second gear in a meshed manner, the rack is arranged outside the second telescopic rod on one side of the transmission mechanism, and the rack on the outer side of the second telescopic rod is connected with the second gear in a meshed manner.

Through adopting above-mentioned technical scheme, when driving the drive plate through the head rod and remove, through the meshing connection between drive plate and the second gear for the second gear rotates, and is connected through the meshing between second gear and the second telescopic link, makes the second telescopic link shrink, has ensured when the head rod removes to fixed establishment, makes the polishing plate move down, has ensured that the polishing plate carries out closely laminating with the one end of machined part, and when the head rod reverse movement, makes the polishing plate upwards move, has ensured that the machined part can follow the slip post and continuously move, carries out follow-up work.

The bending mechanism further comprises a third gear, a third rotating shaft, a second limiting groove, a second transmission rod, a second limiting plate and a third limiting plate, wherein the third gear is arranged on the inner side of the first limiting groove, the third rotating shaft is arranged above the third gear, the second limiting groove is arranged on the outer side of the third rotating shaft, the second transmission rod is connected to one side of the third rotating shaft, the second limiting plate is arranged above the second transmission rod, the third limiting plate is arranged on one side of the second limiting plate, and the third limiting plate is connected with the sliding column through a fixing column.

Through adopting above-mentioned technical scheme, when the machined part removes between second spacing groove and the second limiting plate, through the rotation of third pivot for second spacing groove and second limiting plate carry out the centre gripping to the machined part and rotate, so guaranteed to bend the processing to the machined part.

The invention is further arranged that the inner wall of the sliding column at one side close to the cutting mechanism is provided with a rack, the rack on the inner wall of the sliding column is connected with the third gear in a meshed manner, and the length of the rack on the inner wall of the sliding column is equal to one quarter of the circumference of the third gear.

Through adopting above-mentioned technical scheme, through the meshing connection between rack and the third gear of slip post inner wall, guaranteed when the slip post removes, drive the third gear and rotate, guaranteed to drive the fixed second spacing groove in third pivot outside and rotate, and through slip post inner wall rack length and third gear circumference quarter equal, guaranteed that the removal of slip post makes the third gear rotate 90 to this makes the machined part bend to the pipe between.

In summary, the invention has the following advantages:

1. according to the invention, the cutting mechanism and the fixing mechanism are arranged, the first connecting rod is driven to move through the movement of the first telescopic rod, the first gear is rotated through the transmission connection among the first connecting rod, the first transmission rod and the first gear, the rotating rod is rotated through the fixed connection among the first gear and the rotating rod, and the pressing mechanism is ensured to be attached to a workpiece when the first gear is rotated through the transmission connection among the rotating rod, the threaded rod and the pressing mechanism, so that the workpiece is fixed, the operation of singly operating the reinforcing device by an operator is reduced, and the working efficiency is improved.

2. According to the invention, the cutting mechanism, the transmission mechanism and the polishing mechanism are arranged, when the first telescopic rod moves, the transmission plate is ensured to move through the fixed connection among the first telescopic rod, the first connecting rod and the transmission plate, the second telescopic rod moves up and down through the transmission connection among the transmission plate, the second gear and the transmission connection among the transmission plate, the second telescopic rod and the polishing plate is driven to move up and down through the transmission connection among the second rotating shaft, the second connecting rod, the second telescopic rod and the polishing plate, so that when the first telescopic rod moves towards the direction of the fixed mechanism, the polishing plate moves downwards, the polishing plate is attached to one end of a workpiece, the end of the workpiece is polished, when the first telescopic rod moves reversely, the polishing plate moves upwards, the workpiece is ensured to move along the sliding column, and the next procedure is performed.

Drawings

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

FIG. 2 is a schematic view of the structure of the base of the present invention;

FIG. 3 is a schematic view of a cutting mechanism according to the present invention;

FIG. 4 is a schematic structural view of the fixing mechanism of the present invention;

FIG. 5 is a schematic view of the internal structure of the fixing mechanism of the present invention;

FIG. 6 is a schematic view of the pressing mechanism of the present invention;

FIG. 7 is a schematic diagram of a connection structure of a transmission mechanism according to the present invention;

FIG. 8 is a schematic diagram of a transmission mechanism of the present invention;

FIG. 9 is an enlarged schematic view of the structure of the invention at A;

FIG. 10 is a schematic view of the attachment location of the grinding mechanism of the present invention;

fig. 11 is a schematic structural view of a bending mechanism according to the present invention.

In the figure: 1. a base; 101. a first fixing seat; 102. a discharge port; 103. a first chute; 104. a second chute; 105. a sliding column; 106. a first limit groove; 107. an objective table; 108. a cleaning plate; 2. a cutting mechanism; 201. a first motor; 202. a first telescopic rod; 203. a cutting blade; 204. a first connecting rod; 205. a first transmission rod; 3. a fixing mechanism; 301. a first housing; 302. the second fixing seat; 303. a rotating lever; 304. a first gear; 305. a threaded rod; 306. an extrusion mechanism; 3061. extruding a block; 3062. a fixed shaft; 3063. a rotating shaft; 307. a first limiting plate; 4. a transmission mechanism; 401. a second housing; 402. a drive plate; 403. a first rotating shaft; 404. a second gear; 5. a polishing mechanism; 501. a second motor; 502. a second rotating shaft; 503. a second connecting rod; 504. a second telescopic rod; 505. polishing the plate; 6. a bending mechanism; 601. a third gear; 602. a third rotating shaft; 603. the second limit groove; 604. a second transmission rod; 605. a second limiting plate; 606. and the third limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

1-11, including base 1 and mechanism 6 of bending, base 1 is including first fixing base 101, the discharge gate 102, two sets of first spouts 103, the second spout 104, slide column 105, first spacing groove 106, objective table 107 and clean board 108, and first spout 103 sets up in the inboard of first fixing base 101, and the discharge gate 102 sets up between two sets of first spouts 103, the second spout 104 sets up in the inner wall of first spout 103, and slide column 105 connects in the inboard of first spout 103, first spacing groove 106 sets up in the inboard of first fixing base 101, and objective table 107 sets up in the top of first fixing base 101, and clean board 108 sets up in the top of objective table 107, the top of base 1 is provided with cutting mechanism 2, and the top of base 1 is provided with drive mechanism 4, the first spout 103 through the inside setting of first fixing base 101 has ensured that slide column 105 moves along first spout 103, thereby ensured to drive objective table 107 and cut, and the mechanism through cutting mechanism 2 handles machined part 6 through setting up, the mechanism has ensured the processing of bending.

Referring to fig. 1-3, the cutting mechanism 2 includes a first motor 201, a first telescopic rod 202, a cutting blade 203, a first connecting rod 204 and a first transmission rod 205, wherein the first motor 201 is disposed above the first fixing seat 101, the first telescopic rod 202 is connected to one side of the first motor 201, the cutting blade 203 is disposed between two groups of the first telescopic rods 202, the first connecting rod 204 is disposed outside the first telescopic rods 202, and the first transmission rod 205 is disposed above the first connecting rod 204, so that when the first motor 201 drives the first telescopic rod 202 to perform telescopic movement, the first transmission rod 205 is ensured to move through the transmission connection among the first telescopic rod 202, the first connecting rod 204 and the first transmission rod 205 when the first telescopic rod 202 drives the cutting blade 203 to move.

Referring to fig. 4-5, a fixing mechanism 3 is disposed on one side of the cutting mechanism 2, and the fixing mechanism 3 includes a first housing 301, a second fixing seat 302, a rotating rod 303, a first gear 304, a threaded rod 305, a pressing mechanism 306 and a first limiting plate 307, wherein the first housing 301 is disposed above the first fixing seat 101, the second fixing seat 302 is disposed inside the first housing 301, the rotating rod 303 is disposed above the second fixing seat 302, the first gear 304 is disposed above the rotating rod 303, the pressing mechanism 306 is disposed inside the rotating rod 303, the threaded rod 305 is disposed at the end of the threaded rod 305, the first limiting plate 307 is disposed at the bottom end of the second fixing seat 302, and the first limiting plate 307 passes through the discharge hole 102.

Referring to fig. 4-6, the pressing mechanism 306 includes a pressing block 3061, a fixed shaft 3062 and a rotating shaft 3063, the rotating shaft 3063 is fixed at the end of the threaded rod 305, the fixed shaft 3062 is connected to the outer side of the rotating shaft 3063 through the rotating shaft, the pressing block 3061 is fixed at the end of the fixed shaft 3062, and the fixed shaft 3063 is connected to the fixed shaft 3062 through the fixed connection between the threaded rod 305 and the rotating shaft 3063, so that when the rotating shaft 3063 moves downwards along with the threaded rod 305, the fixed shaft 3062 is driven to move downwards until the pressing block 3061 fixedly connected with the fixed shaft 3062 is driven to move downwards until the pressing block 3061 is tightly attached to a workpiece to be processed, and the pressing block 3061 is prevented from rotating.

Referring to fig. 7-9, the transmission mechanism 4 includes a second housing 401, a transmission plate 402, a first rotating shaft 403 and a second gear 404, wherein the second housing 401 is disposed above the base 1, the transmission plate 402 is fixed on the outer side of the first connecting rod 204, the first rotating shaft 403 is disposed on the inner side of the second housing 401, and the second gear 404 is disposed on the outer side of the first rotating shaft 403, so that the transmission plate 402 is ensured to be driven to move along with the first connecting rod 204 when the first connecting rod 204 moves, and the transmission plate 402 and the second gear 404 are ensured to form meshing connection, so as to drive the second gear 404 to rotate.

Referring to fig. 7-10, a polishing mechanism 5 is disposed on one side of the transmission mechanism 4, and the polishing mechanism 5 includes a second motor 501, a second rotating shaft 502, a second connecting rod 503, a second telescopic rod 504 and a polishing plate 505, the second motor 501 is disposed above the base 1, the second rotating shaft 502 is connected to two sides of the second motor 501 in a vertical direction, the second connecting rod 503 is disposed on two sides of the second motor 501 in a horizontal direction, the second telescopic rod 504 is disposed at an end of the second connecting rod 503, the polishing plate 505 is disposed at an end of the second rotating shaft 502, the second rotating shaft 502 is ensured to rotate by the second motor 501, and one end of a workpiece cut is ensured to be polished by the rotation of the first group of second rotating shafts 502, so that deburring is ensured at one end of the workpiece, and when the workpiece drives the other end of the workpiece 107 to be attached between the other end of the workpiece and the other group of polishing plate 505 by the rotation of the polishing plate 505 by the sliding column 105, polishing of the workpiece is ensured to be polished at the other end of the workpiece.

Referring to fig. 7-10, a rack is disposed at the end of the driving plate 402, and a meshing connection is formed between the rack at the bottom of the driving plate 402 and the second gear 404, a rack is disposed outside the second telescopic rod 504 on one side of the driving mechanism 4, and the rack on the outer side of the second telescopic rod 504 is in meshing connection with the second gear 404, when the driving plate 402 is driven to move by the first connecting rod 204, the second gear 404 is made to rotate by the meshing connection between the driving plate 402 and the second gear 404, and the second telescopic rod 504 is made to shrink by the meshing connection between the second gear 404 and the second telescopic rod 504, so that when the first connecting rod 204 moves towards the fixing mechanism 3, the polishing plate 505 is made to move downwards, so that the polishing plate 505 is made to closely attach to one end of a workpiece, and when the first connecting rod 204 moves reversely, the polishing plate 505 is made to move upwards, so that the workpiece can move continuously along the sliding column 105, so as to perform subsequent work.

Referring to fig. 10-11, the bending mechanism 6 includes a third gear 601, a third rotating shaft 602, a second limiting groove 603, a second driving rod 604, a second limiting plate 605 and a third limiting plate 606, wherein the third gear 601 is disposed at the inner side of the first limiting groove 106, the third rotating shaft 602 is disposed above the third gear 601, the second limiting groove 603 is disposed at the outer side of the third rotating shaft 602, the second driving rod 604 is connected to one side of the third rotating shaft 602, the second limiting plate 605 is disposed above the second driving rod 604, the third limiting plate 606 is disposed at one side of the second limiting plate 605, and the third limiting plate 606 is connected with the sliding post 105 through a fixing post, when the workpiece moves between the second limiting groove 603 and the second limiting plate 605, the workpiece is clamped and rotated by the second limiting groove 603 and the second limiting plate 605, so as to ensure bending of the workpiece.

Referring to fig. 10-11, racks are disposed on the inner wall of the sliding column 105 at one side of the cutting mechanism 2, the racks on the inner wall of the sliding column 105 are engaged with the third gear 601, and the length of the racks on the inner wall of the sliding column 105 is equal to one fourth of the circumference of the third gear 601, so that when the sliding column 105 moves, the third gear 601 is driven to rotate, the second limiting groove 603 fixed at the outer side of the third rotating shaft 602 is driven to rotate, and the length of the racks on the inner wall of the sliding column 105 is equal to one fourth of the circumference of the third gear 601, so that the third gear 601 rotates by 90 ° due to movement of the sliding column 105, and a workpiece is bent to a pipe therebetween.

The working principle of the invention is as follows: when the steel pipe needs to be cut, firstly, a workpiece to be machined is placed on the inner side of the objective table 107, then, a motor is started to enable the objective table 107 to horizontally move along the first sliding groove 103, the workpiece to be machined passes through the through groove of the first shell 301 until the tail end of the workpiece to be machined is attached to the polishing plate 505, and the workpiece to be machined reaches between two groups of extrusion mechanisms 306 and the second fixed seat 302, at the moment, the horizontal movement of the objective table 107 is stopped by the motor, then, the first motor 201 is started, the first telescopic rod 202 is enabled to move towards the fixed mechanism 3 through the threaded rod connection between the first motor 201 and the first telescopic rod 202, the fixed connection between the first connecting rod 204 and the first transmission rod 205 is enabled to enable the first transmission rod 205 to horizontally move along with the first telescopic rod 202, at the moment, the rack at the tail end of the first transmission rod 205 is connected with the first gear 304 in a meshed mode, the first gear 304 is rotated, the threaded rod 305 is moved downwards through the transmission connection between the first gear 304, the rotating rod 303 and the threaded rod 305, the threaded rod 305 is connected with the rotating shaft 3063 through the fixed connection between the threaded rod 305 and the rotating shaft 3063, and the extrusion block 3061, the fixed shaft 3062 and the transmission connection between the rotating shaft 3063 are used for enabling the extrusion block 3061 to move downwards, so that a workpiece to be processed is limited, the phenomenon that the cutting inaccuracy caused by large shaking amplitude is avoided during cutting is avoided, when the first telescopic rod 202 moves horizontally, the cutting blade 203 is driven to be attached to the workpiece to be processed through a through groove on the surface of the first shell 301, at the moment, the attachment between the cutting blade 203 and the workpiece to be processed is driven by the rotation of the workpiece to be processed (driven by a motor in the prior art), and the attachment between the cutting blade 203 and the driving plate 402 is connected through the fixed connection between the first connecting rod 204 and the driving plate 402 when the first telescopic rod 202 moves horizontally, the transmission plate 402 and the first telescopic rod 202 move in the same direction, the transmission plate 402 and the second gear 404 form meshed connection, the second telescopic rod 504 moves downwards through the meshed connection between the second gear 404 and the second telescopic rod 504, so as to drive the polishing plate 505 to move downwards, the tail end of a workpiece to be processed is ensured to be attached to the polishing plate 505, at the moment, the second motor 501 is started to ensure that the rotating direction of the second rotating shaft 502 is opposite to the rotating direction of the workpiece to be processed, so that one end of the workpiece to be processed is polished, the workpiece to be processed is cut, at the moment, the cutting chips are ensured to pass through the discharge port 102 by the inclined arrangement of the first limiting plate 307 and the first limiting plate 307, the cleaning effect on the surface of the device is achieved, the chips can be recovered, the waste of materials is reduced, after the workpiece to be machined is cut, the second group of object stages 107 is driven to continuously and horizontally move by the movement of the sliding column 105, the workpiece is moved between the second limiting plate 605 and the second limiting groove 603, the workpiece is clamped, the other end of the steel pipe is attached to the polishing plate 505, the other end of the workpiece to be machined is polished by the rotation of the polishing plate 505, the rotation direction of the polishing plate 505 is opposite to the rotation direction of the workpiece to be machined, the rack on the inner wall of the sliding column 105 is meshed with the third gear 601, the third gear 601 is rotated, the second limiting groove 603 is rotated by the transmission connection among the third gear 601, the third rotating shaft 602 and the second limiting groove 603, one side of the workpiece is fixed by the third limiting plate 606, therefore, the workpiece is bent (as the principle of a steel pipe bending machine in the prior art), and the cutting and bending processes of the workpiece are completed.

Although embodiments of the invention have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the invention as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the invention, provided that such modifications are within the scope of the appended claims.

Claims

1. An automatic change right angle steel pipe cutting processing apparatus, includes base (1) and mechanism (6) of bending, its characterized in that: base (1) is including first fixing base (101), discharge gate (102), two sets of first spouts (103), second spout (104), slip post (105), first spacing groove (106), objective table (107) and clean board (108), and first spout (103) set up in the inboard of first fixing base (101), and discharge gate (102) set up between two sets of first spouts (103), second spout (104) set up in the inner wall of first spout (103), and slip post (105) are connected in the inboard of first spout (103), first spacing groove (106) set up in the inboard of first fixing base (101), and objective table (107) set up in the top of first fixing base (101) to clean board (108) set up in the top of objective table (107), the top of base (1) is provided with cutting mechanism (2), and the top of base (1) is provided with drive mechanism (4).

2. An automated right angle steel pipe cutting processing apparatus according to claim 1, wherein: the cutting mechanism (2) comprises a first motor (201), a first telescopic rod (202), a cutting blade (203), a first connecting rod (204) and a first transmission rod (205), wherein the first motor (201) is arranged above the first fixing seat (101), the first telescopic rod (202) is connected to one side of the first motor (201), the cutting blade (203) is arranged between two groups of the first telescopic rods (202), the first connecting rod (204) is arranged on the outer side of the first telescopic rod (202), and the first transmission rod (205) is arranged above the first connecting rod (204).

3. An automated right angle steel pipe cutting processing apparatus according to claim 2, wherein: one side of cutting mechanism (2) is provided with fixed establishment (3), and fixed establishment (3) are including first shell (301), second fixing base (302), dwang (303), first gear (304), threaded rod (305), extrusion mechanism (306) and first limiting plate (307), first shell (301) set up in the top of first fixing base (101), and second fixing base (302) set up in the inboard of first shell (301), dwang (303) set up in the top of second fixing base (302), and first gear (304) set up in the top of dwang (303) to threaded rod (305) set up in the inboard of dwang (303), extrusion mechanism (306) set up in the end of threaded rod (305), and first limiting plate (307) set up in the bottom of second fixing base (302), and first limiting plate (307) pass discharge gate (102).

4. An automated right angle steel pipe cutting processing apparatus according to claim 3, wherein: the extrusion mechanism (306) comprises an extrusion block (3061), a fixed shaft (3062) and a rotating shaft (3063), the rotating shaft (3063) is fixed at the tail end of the threaded rod (305), the fixed shaft (3062) is connected to the outer side of the rotating shaft (3063) through the rotating shaft, and the extrusion block (3061) is fixed at the tail end of the fixed shaft (3062).

5. An automated right angle steel pipe cutting processing apparatus according to claim 1, wherein: the transmission mechanism (4) comprises a second shell (401), a transmission plate (402), a first rotating shaft (403) and a second gear (404), wherein the second shell (401) is arranged above the base (1), the transmission plate (402) is fixed on the outer side of the first connecting rod (204), the first rotating shaft (403) is arranged on the inner side of the second shell (401), and the second gear (404) is arranged on the outer side of the first rotating shaft (403).

6. An automated right angle steel pipe cutting processing apparatus according to claim 5, wherein: one side of drive mechanism (4) is provided with grinding machanism (5), and grinding machanism (5) are including second motor (501), second pivot (502), second connecting rod (503), second telescopic link (504) and polishing board (505), second motor (501) set up in the top of base (1), and second pivot (502) are connected in the both sides of the vertical direction of second motor (501), second connecting rod (503) are provided with the both sides of second motor (501) horizontal direction, and second telescopic link (504) are provided with the end of second connecting rod (503), and polishing board (505) set up in the end of second pivot (502).

7. An automated right angle steel pipe cutting processing apparatus according to claim 6, wherein: the bottom of the transmission plate (402) is provided with a rack, the rack at the bottom of the transmission plate (402) is connected with the second gear (404) in a meshed mode, the rack is arranged outside the second telescopic rod (504) at one side of the transmission mechanism (4), and the rack at the outer side of the second telescopic rod (504) is connected with the second gear (404) in a meshed mode.

8. An automated right angle steel pipe cutting processing apparatus according to claim 1, wherein: the bending mechanism (6) comprises a third gear (601), a third rotating shaft (602), a second limiting groove (603), a second transmission rod (604), a second limiting plate (605) and a third limiting plate (606), wherein the third gear (601) is arranged on the inner side of the first limiting groove (106), the third rotating shaft (602) is arranged above the third gear (601), the second limiting groove (603) is arranged on the outer side of the third rotating shaft (602), the second transmission rod (604) is connected to one side of the third rotating shaft (602), the second limiting plate (605) is arranged above the second transmission rod (604), the third limiting plate (606) is arranged on one side of the second limiting plate (605), and the third limiting plate (606) is connected with the sliding column (105) through a fixing column.

9. An automated right angle steel pipe cutting processing apparatus according to claim 8, wherein: the inner wall of the sliding column (105) at one side of the cutting mechanism (2) is provided with a rack, the rack on the inner wall of the sliding column (105) is connected with the third gear (601) in a meshed mode, and the length of the rack on the inner wall of the sliding column (105) is equal to half of the circumference of the third gear (601).