CN113635109B - Square pipe grooving device for high-end manufacturing - Google Patents

Abstract

The invention relates to a grooving device, in particular to a square pipe grooving device for high-end manufacturing. The square pipe grooving device for high-end manufacturing is convenient for people to groove the square pipe, time and labor are saved, working efficiency is high, and the grooving is smooth and does not influence subsequent use. A square pipe grooving device for high-end manufacture is characterized by comprising: the base is symmetrically provided with fixing plates; the support legs are arranged on the base; the mounting frame is mounted on the supporting leg; and the support frame is arranged on the base. According to the invention, the square tube is placed at the rear side of the limiting frame, the motor I is started, the pushing frame is reversed to drive the square tube to move forwards to be contacted with the cutting tool for grooving, meanwhile, the motor II is started, the pushing material box is moved forwards to be right below the inclined plate, and the square tube falls into the material box through the inclined plate, so that people can conveniently groove the square tube, time and labor are saved, and the working efficiency is high.

Description

Square pipe grooving device for high-end manufacturing

Technical Field

The invention relates to a grooving device, in particular to a square pipe grooving device for high-end manufacturing.

Background

Square steel pipes are called square pipes for short, are called square pipes, namely steel pipes with equal side lengths, and are formed by rolling strip steel through technological treatment. When people need to use square pipes, they need to be grooved. At present, most all are the manual work and cut groove to the side pipe, and at first operating personnel is fixed with the side pipe, then holds cutting tool and cut groove to the side pipe, because the hand needs to be incessantly removed, and the time is long, and is more laborious, and the hand produces the shake easily when people cut groove, leads to cutting out the groove level and non-uniformity, influences the follow-up use.

Therefore, the square pipe grooving device for high-end manufacturing, which is convenient for people to grooving the square pipe, has the advantages of time and labor saving, high working efficiency and smooth grooving without influencing the subsequent use, is required to be developed, and the problem of the prior art is solved.

Disclosure of Invention

In order to overcome the defects that the hand needs to move continuously, the time is long, the labor is wasted, and the hand is easy to shake when people cut grooves, so that the cut grooves are smooth and different, and the subsequent use is influenced, the invention has the following technical problems: the square pipe grooving device for high-end manufacturing is convenient for people to grooving the square pipe, time-saving and labor-saving, high in working efficiency and smooth in grooving, and subsequent use is not affected.

A square pipe grooving device for high-end manufacture is characterized by comprising: the base is symmetrically provided with fixing plates; the support legs are arranged on the base; the mounting frame is mounted on the supporting leg; the support frame is arranged on the base; the first rotating shaft is rotatably arranged on the support frame; the cutting tool is arranged on the first rotating shaft; the driving device is arranged between the mounting frame and the supporting frame and is used for cutting grooves; and the conveying device is arranged on the base and is used for receiving materials.

Optionally, the driving device includes: the first motor is arranged on the mounting frame, and the first rotating shaft is fixedly connected with a conveying shaft of the first motor; the second rotating shaft is symmetrically arranged on the supporting frame; the first transmission assembly is arranged between one of the second rotating shafts and the first rotating shaft; the first belt pulley is arranged on the second rotating shaft; the conveyor belt is symmetrically arranged between the two first belt pulleys; the pushing frames are uniformly arranged on the conveyor belt at intervals; the limiting frame is arranged on the supporting frame; and the sloping plate is arranged on the supporting frame.

Optionally, the conveying device includes: the second motor is arranged on the base; the third rotating shaft is arranged on the output shaft of the second motor; the second belt pulley is symmetrically arranged between the two fixed plates; the conveying belt is arranged between the two second belt pulleys; the second transmission assembly is arranged between the third rotating shaft and one of the second belt pulleys; the pushing rod is arranged on the conveying belt; the material receiving boxes are uniformly arranged on the conveying belt at intervals.

Optionally, the device further comprises a blanking device, wherein the blanking device comprises: the charging box is arranged on the base; the material blocking frame is symmetrically and slidably arranged on the charging box; the second spring is arranged between the material blocking frame and the charging box; the sliding block is arranged on the material blocking frame in a sliding manner; the stop lever is symmetrically arranged on the limiting frame and matched with the material blocking frame; the material blocking plate is slidably arranged on the charging box; the first springs are uniformly arranged between the material blocking plate and the charging box at intervals.

Optionally, a debris collecting device is further included, and the debris collecting device includes: the fourth rotating shaft is rotatably arranged on the support frame and is fixedly connected with one second rotating shaft; the rotating rod is arranged on the fourth rotating shaft; the fifth rotating shaft is rotatably arranged on the rotating rod; the telescopic rod is rotatably arranged on the fifth rotating shaft; the third spring is arranged on the telescopic rod; the sixth rotating shaft is rotatably arranged on the telescopic rod; the roller is rotatably arranged on the sixth rotating shaft and is positioned in the support frame to be in sliding fit with the support frame; the collecting box is arranged on the supporting frame in a sliding mode and is fixedly connected with the sixth rotating shaft; the conveying hopper is arranged on the supporting frame.

Optionally, the cleaning device is further included, and the cleaning device includes: the fixed rods are symmetrically arranged on the limiting frame; the connecting rod is arranged on the fixed rod; the brush is arranged on the connecting rod.

Optionally, the device also comprises a scraping device, and the scraping device comprises: the fixed long rods are uniformly arranged between the two conveyor belts at intervals; and the rubber scraping blade is arranged on the fixed long rod.

Optionally, the material of the material blocking plate is rubber.

The beneficial effects of the invention are as follows:

1. through putting into spacing rear side with a square pipe, start motor No. one, push away the material frame reversal and drive square pipe and move forward and cut groove with cutting tool contact, simultaneously, start motor No. two, push away connect the workbin and move forward to the swash plate under, and square pipe just also drops to connect the workbin through the swash plate in, so, can make things convenient for people to cut groove to the side's pipe, labour saving and time saving, work efficiency is high.

2. Through unloader's effect, can make the side pipe drop in the spacing, so, need not that people put into the spacing with side pipe repeatedly.

3. Through the effect of scraping the bits device, can scrape the broken bits in the spacing in the fortune hopper, so, can avoid remaining too much piece in the spacing.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a first partially cut-away structure of the present invention.

FIG. 3 is a schematic view of a second partially cut-away structure of the present invention.

Fig. 4 is an enlarged schematic view of the portion a of the present invention.

FIG. 5 is an enlarged schematic view of section B of the present invention.

FIG. 6 is an enlarged schematic view of section C of the present invention.

The reference symbols in the drawings: 1: base, 2: fixing plate, 3: landing leg, 4: mounting bracket, 41: support frame, 5: cutting tool, 51: first pivot, 7: driving device, 71: motor number one, 73: first drive assembly, 74: second spindle, 75: first pulley, 76: conveyor belt, 77: pushing frame, 78: limit frame, 79: swash plate, 8: conveyor, 81: no. two motors, 82: third rotating shaft, 83: second transmission assembly, 84: second pulley, 85: conveyor belt, 86: pushing bar, 87: receiving box, 9: unloader, 91: charging box, 92: material blocking frame, 93: sliding block, 94: stop lever, 95: first spring, 96: baffle, 97: second spring, 10: debris collection device, 101: fourth rotation shaft, 102: rotating lever, 103: fifth rotation shaft, 104: telescoping rod, 105: third spring, 106: sixth rotation shaft, 107: roller, 108: collection box, 109: hopper, 11: cleaning device, 111: fixing rod, 112: connecting rod, 113: brush, 12: scraping device, 121: fixed long rod, 122: a rubber wiper blade.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Example 1

The utility model provides a square pipe grooving device for high-end manufacture, as shown in fig. 1 and 2, including base 1, fixed plate 2, landing leg 3, mounting bracket 4, support frame 41, cutting tool 5, first pivot 51, drive arrangement 7 and conveyer 8, bilateral symmetry rigid coupling has fixed plate 2 in the middle of the base 1 top, the anterior rigid coupling in base 1 top right side has landing leg 3, landing leg 3 upper portion is equipped with mounting bracket 4, be equipped with support frame 41 in the middle of the base 1 top, support frame 41 upper portion front side rotation is equipped with first pivot 51, first pivot 51 middle part circumference is equipped with cutting tool 5, be equipped with drive arrangement 7 between mounting bracket 4 and the support frame 41, be equipped with conveyer 8 on the base 1.

The driving device 7 comprises a first motor 71, a first transmission assembly 73, a second rotating shaft 74, a first belt pulley 75, a conveying belt 76, a pushing frame 77, a limiting frame 78 and an inclined plate 79, wherein the first motor 71 is arranged in the mounting frame 4, the first rotating shaft 51 is fixedly connected with an output shaft of the first motor 71, the second rotating shaft 74 is symmetrically arranged on the upper portion of the supporting frame 41 in a rotating mode, the first belt pulley 75 is circumferentially arranged on the second rotating shaft 74, the conveying belt 76 is symmetrically wound between the first belt pulleys 75 on the front side and the rear side, the first transmission assembly 73 is connected between the circumference of the right portion of the front second rotating shaft 74 and the circumference of the right portion of the first rotating shaft 51, the pushing frame 77 is uniformly arranged at intervals on the conveying belt 76, the limiting frame 78 is arranged between the upper portion of the supporting frame 41, the pushing frame 77 is in sliding fit with the limiting frame 78, and the inclined plate 79 is arranged on the front portion of the supporting frame 41.

The conveying device 8 comprises a second motor 81, a third rotating shaft 82, a second transmission assembly 83, a second belt pulley 84, a conveying belt 85, a pushing rod 86 and a material receiving box 87, wherein the second motor 81 is fixedly connected to the rear portion of the left side of the top of the base 1, the third rotating shaft 82 is connected to an output shaft of the second motor 81, the second belt pulley 84 is rotationally arranged between the fixed plates 2 on the left side and the right side in a front-back symmetrical mode, the second transmission assembly 83 is connected between the circumference of the right portion of the second belt pulley 84 on the rear side and the circumference of the right portion of the third rotating shaft 82, the conveying belt 85 is wound between the second belt pulleys 84 on the front side and the rear side, the pushing rod 86 is arranged on the conveying belt 85, and the material receiving box 87 is uniformly arranged on the conveying belt 85 at intervals.

Firstly, an operator puts a square tube into the rear side of a limit frame 78, a first motor 71 is started, the first motor 71 drives a first rotating shaft 51 to rotate reversely, the first rotating shaft 51 rotates reversely to drive a cutting tool 5 to rotate reversely, the first rotating shaft 51 rotates reversely and also drives a first transmission component 73 to rotate reversely, the first transmission component 73 rotates reversely to drive a front second rotating shaft 74 to rotate reversely, the front second rotating shaft 74 rotates reversely to drive a front first belt pulley 75 to rotate reversely, the front first belt pulley 75 rotates reversely to drive a conveying belt 76 to rotate reversely through a rear first belt pulley 75, the conveying belt 76 rotates reversely to drive a pushing frame 77 to rotate reversely, the pushing frame 77 rotates reversely to drive the square tube to move forwards to be in contact with the cutting tool 5 so as to cut the square tube, meanwhile, a second motor 81 is started, the second motor 81 rotates a third rotating shaft 82 rotates reversely to drive a second transmission component 83 to rotate reversely, the second transmission component 83 rotates reversely to drive a rear second belt pulley 84 to rotate reversely, the front second belt pulley 84 rotates reversely, the conveyer belt 85 is driven to rotate reversely through the rear second belt pulley 84, the conveyer belt 85 rotates reversely to drive the pushing rod 86 to rotate reversely, the pushing rod 86 rotates reversely to drive the receiving box 87 to move forwards, the receiving box 87 moves forwards to the position right below the inclined plate 79, the pushing frame 77 rotates reversely continuously to enable the grooved square tube to fall into the receiving box 87 through the inclined plate 79, the receiving box 87 is lifted to carry out subsequent treatment on the square tube, the grooving can be carried out continuously, after all the square tubes are grooved, the first motor 71 is closed, the first rotating shaft 51 stops driving the front second rotating shaft 74 to rotate reversely through the first transmission assembly 73, the conveyer belt 76 also stops rotating reversely, the cutting tool 5 stops rotating reversely, the second motor 81 is closed again, the third rotating shaft 82 stops driving the rear second belt pulley 84 to rotate reversely through the second transmission assembly 83, the conveyor belt 85 also stops reversing.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 3 and 4, the blanking device 9 is further included, the blanking device 9 comprises a charging box 91, a material blocking frame 92, a sliding block 93, a stop lever 94, a first spring 95, a material blocking plate 96 and a second spring 97, the charging box 91 is fixedly connected to the rear side of the top of the base 1, the left side and the right side of the lower portion of the charging box 91 are both slidably provided with the material blocking frame 92, the sliding block 93 is slidably arranged in the front portion of the material blocking frame 92, the stop lever 94 is fixedly connected to the left side and the right side of the front portion of the limiting frame 78, the stop lever 94 is matched with the material blocking frame 92, the second spring 97 is fixedly connected between the lower portion of the rear side of the material blocking frame 92 and the inside of the charging box 91, the lower portions of the left side and the right side of the inside of the charging box 91 are both slidably provided with the material blocking plate 96, and the inside of the charging box 91 are uniformly spaced with the first spring 95.

The debris collecting device 10 comprises a fourth rotating shaft 101, a rotating rod 102, a fifth rotating shaft 103, a telescopic rod 104, a third spring 105, a sixth rotating shaft 106, a roller 107, a collecting box 108 and a transporting hopper 109, wherein the fourth rotating shaft 101 is rotatably arranged on the upper left side of the supporting frame 41, the right end of the fourth rotating shaft 101 is fixedly connected with the left end of the second rotating shaft 74 in front, the rotating rod 102 is fixedly connected with the left part of the fourth rotating shaft 101 in a circumferential direction, the fifth rotating shaft 103 is rotatably arranged on the rear part of the rotating rod 102, the telescopic rod 104 is rotatably arranged on the left part of the second rotating shaft 74 in a circumferential direction, the third spring 105 is arranged in the telescopic rod 104, the sixth rotating shaft 106 is rotatably arranged on the right part of the sixth rotating shaft 106 in a circumferential direction, the roller 107 is positioned in the supporting frame 41 and is in sliding fit with the roller 107, the collecting box 108 is slidably arranged on the left part of the supporting frame 41, the collecting box 108 is fixedly connected with the right end of the sixth rotating shaft 106, and the transporting hopper 109 is arranged on the front of the supporting frame 41.

Initially, the material blocking frame 92 limits the material blocking plate 96, the first spring 95 is in a compressed state, an operator puts a proper amount of square tubes into the material loading box 91, the material blocking frame 92 limits the square tubes, when the first motor 71 is started, the material pushing frame 77 reversely rotates to be in contact with the material pushing frame 77, the material pushing frame 77 drives the sliding block 93 to move forwards, the sliding block 93 moves forwards to drive the material blocking frame 92 to move forwards, the second spring 97 is stretched, the material blocking frame 92 moves forwards to stop limiting the square tubes, the lowest square tube falls onto the limiting frame 78, the material blocking frame 92 moves forwards to stop limiting the material blocking plate 96, the material blocking plate 96 moves inwards to limit the residual square tubes due to the action of the first spring 95, the sliding block 93 continues to move forwards to be in contact with the stop lever 94, the stop lever 94 enables the sliding block 93 to move upwards to be separated from the material pushing frame 77 due to the action of the second spring 97, the material blocking frame 92 drives the sliding block to move backwards to reset, the material blocking frame 92 moves backwards to be in contact with the material blocking plate 96 to be moved outwards, the first spring 95 is compressed, the sliding block 93 due to gravity moves forwards to stop the sliding block 93 to move downwards, and people do not need to reset to repeatedly put into the limiting frame 78.

When the first motor 71 is started, the cutting tool 5 cuts the square tube, the scraps fall into the collecting box 108 through the transporting hopper 109, the front second rotating shaft 74 is reversed to drive the fourth rotating shaft 101 to be reversed, the fourth rotating shaft 101 is reversed to drive the rotating rod 102 to be reversed, the rotating rod 102 is reversed to drive the telescopic rod 104 to move back and forth, the third spring 105 plays a buffering role, the telescopic rod 104 is moved back and forth to drive the sixth rotating shaft 106 to move back and forth, the sixth rotating shaft 106 is moved back and forth to drive the collecting box 108 to move back and forth, the roller 107 plays a guiding role, after all square tubes are cut, the front second rotating shaft 74 stops to drive the rotating rod 102 to be reversed through the fourth rotating shaft 101, the collecting box 108 stops to move back and forth, and scraps in the collecting box 108 are collected for subsequent treatment, so that scraps produced during cutting can be conveniently carried out by people.

Example 3

On the basis of the embodiment 1 and the embodiment 2, as shown in fig. 2, 5 and 6, the cleaning device 11 is further included, the cleaning device 11 includes a fixing rod 111, a connecting rod 112 and a brush 113, the front parts of the left side and the right side in the limiting frame 78 are provided with the fixing rod 111, the connecting rod 112 is fixedly connected in the middle of the bottom of the fixing rod 111, and the brush 113 is fixedly connected at the bottom of the connecting rod 112.

The scraping device 12 comprises a fixed long rod 121 and a rubber scraping blade 122, wherein the fixed long rod 121 is uniformly arranged between the conveyor belts 76 at the left side and the right side at intervals, and the inner side surface of the fixed long rod 121 is fixedly connected with the rubber scraping blade 122.

When the pushing frame 77 drives the square tube to move forward, the square tube is in contact with the hairbrush 113, and the hairbrush 113 cleans the inner wall of the square tube, so that excessive scraps remained on the inner wall of the square tube can be avoided.

When the first motor 71 is started, the conveyor belt 76 also drives the fixed long rod 121 to rotate reversely, the fixed long rod 121 rotates reversely to drive the rubber scraping blade 122 to rotate reversely, the rubber scraping blade 122 rotates reversely to scrape the broken slag in the limiting frame 78 into the conveying hopper 109, and after all square pipes are cut, the conveyor belt 76 stops driving the rubber scraping blade 122 to rotate reversely through the fixed long rod 121, so that excessive chips remained in the limiting frame 78 can be avoided.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (5)

1. A square pipe grooving device for high-end manufacture is characterized by comprising:

the base (1) is symmetrically and fixedly connected with a fixing plate (2) at the middle of the top of the base (1);

the support leg (3) is arranged at the front part of the right side of the top of the base (1);

the mounting frame (4), the mounting frame (4) is installed on the upper part of the supporting leg (3);

the support frame (41), the support frame (41) is installed in the middle of the top of the base (1);

the first rotating shaft (51), the first rotating shaft (51) is rotatably installed on the front side of the upper part of the supporting frame (41);

the cutting tool (5), the cutting tool (5) is installed in the circumference of the middle part of the first rotating shaft (51);

the driving device (7) is arranged between the mounting frame (4) and the supporting frame (41) and is used for cutting grooves;

the conveying device (8) is arranged on the base (1) and is used for receiving materials;

the driving device (7) comprises:

the first motor (71), the first motor (71) is arranged on the mounting frame (4), and the first rotating shaft (51) is fixedly connected with a conveying shaft of the first motor (71);

the second rotating shaft (74), the second rotating shaft (74) is installed on the upper part of the supporting frame (41) in a front-back symmetrical way;

the first transmission assembly (73), the first transmission assembly (73) is installed between the circumference of the right part of the front second rotating shaft (74) and the circumference of the right part of the first rotating shaft (51);

a first pulley (75), the first pulley (75) being mounted on the second rotating shaft (74) in the circumferential direction;

a conveyor belt (76), wherein the conveyor belt (76) is arranged between the two first belt pulleys (75) in a bilateral symmetry manner;

the pushing frames (77) are uniformly arranged on the conveyor belt (76) at intervals;

the limiting frame (78), the limiting frame (78) is installed between the upper parts of the supporting frames (41), and the pushing frame (77) is in sliding fit with the limiting frame (78);

a sloping plate (79), wherein the sloping plate (79) is arranged at the front part of the supporting frame (41);

the conveying device (8) comprises:

the second motor (81) is arranged at the rear part of the left side of the top of the base (1);

the third rotating shaft (82), the third rotating shaft (82) is installed on the output shaft of the second motor (81);

the second belt pulley (84), the second belt pulley (84) is installed between two fixed plates (2) symmetrically back and forth;

a conveyor belt (85), wherein the conveyor belt (85) is arranged between the front second belt pulley (84) and the rear second belt pulley (84);

the second transmission assembly (83), the second transmission assembly (83) is installed between the circumference of the right part of the third rotating shaft (82) and the circumference of the right part of the rear second belt pulley (84);

a pushing rod (86), wherein the pushing rod (86) is arranged on the conveying belt (85);

the material receiving boxes (87), the material receiving boxes (87) are uniformly arranged on the conveying belt (85) at intervals;

the device also comprises a blanking device (9), wherein the blanking device (9) comprises:

the charging box (91), the charging box (91) is installed at the rear side of the top of the base (1);

the material blocking frame (92), the material blocking frame (92) is arranged at the lower part of the charging box (91) in a bilateral symmetry sliding manner;

the second spring (97) is arranged between the lower part of the rear side surface of the material blocking frame (92) and the inside of the material charging box (91);

the sliding block (93), the sliding block (93) is installed on the material blocking frame (92) in a sliding way;

the stop lever (94), the stop lever (94) is installed in front of the limit frame (78) in a bilateral symmetry mode, and the stop lever (94) is matched with the material blocking frame (92);

the material blocking plate (96), the material blocking plate (96) is installed on the charging box (91) in a sliding mode;

the first springs (95) are uniformly arranged between the inner side surface of the material blocking plate (96) and the inside of the material charging box (91) at intervals;

when the first motor (71) is started, the pushing frame (77) is reversely contacted with the sliding block (93), the sliding block (93) is driven to move forwards by the pushing frame (77), the sliding block (93) is driven to move forwards by the pushing frame (92), the second spring (97) is stretched, the sliding block (92) is moved forwards to stop limiting the square pipe, the lowest square pipe falls onto the limiting frame (78), the sliding block (92) is moved forwards to stop limiting the sliding block (96), the sliding block (96) is moved inwards to limit the residual square pipe due to the action of the first spring (95), the sliding block (93) is continuously moved forwards to be contacted with the stop lever (94), the sliding block (93) is moved upwards to be separated from the pushing frame (77) due to the action of the second spring (97), the sliding block (92) is driven to move backwards to reset, the sliding block (92) is moved backwards to be contacted with the limiting block (96) to enable the sliding block (95) to move outwards, and the sliding block (93) is moved downwards due to compression of the first spring (95).

2. A square pipe grooving apparatus for high end manufacturing according to claim 1, further comprising a chip collecting device (10), the chip collecting device (10) comprising:

the fourth rotating shaft (101), the fourth rotating shaft (101) is rotatably arranged on the upper side of the left part of the supporting frame (41), and the right end of the fourth rotating shaft (101) is fixedly connected with the left end of the front second rotating shaft (74);

the rotating rod (102), the rotating rod (102) is installed on the circumference of the left part of the fourth rotating shaft (101);

the fifth rotating shaft (103), the fifth rotating shaft (103) is rotatably arranged at the rear part of the rotating rod (102);

the telescopic rod (104), the telescopic rod (104) is rotatably installed on the fifth rotating shaft (103);

the third spring (105), the third spring (105) is installed in the telescopic link (104);

the sixth rotating shaft (106), the sixth rotating shaft (106) is rotatably arranged at the lower part of the telescopic rod (104);

the roller (107), the roller (107) is rotatably arranged on the circumference of the right part of the sixth rotating shaft (106), and the roller (107) is positioned in the supporting frame (41) and is in sliding fit with the supporting frame;

the collecting box (108), the collecting box (108) is installed on the left part of the supporting frame (41) in a sliding mode, and the collecting box (108) is fixedly connected with the right end of the sixth rotating shaft (106);

and the conveying hopper (109) is arranged at the front part of the supporting frame (41).

3. A square pipe grooving apparatus for high-end manufacturing according to claim 2, further comprising a cleaning device (11), the cleaning device (11) comprising:

the fixing rod (111), the fixing rod (111) is installed in the front part of the limit frame (78) in a bilateral symmetry mode;

a connecting rod (112), wherein the connecting rod (112) is arranged in the middle of the bottom of the fixed rod (111);

and the brush (113), the brush (113) is installed at the bottom of the connecting rod (112).

4. A square pipe grooving apparatus for high end manufacturing according to claim 3, further comprising a scraping device (12), the scraping device (12) comprising:

the fixed long rods (121) are uniformly arranged between the left conveyor belt (76) and the right conveyor belt (76) at intervals;

and the rubber wiper blade (122), wherein the rubber wiper blade (122) is arranged on the inner side surface of the fixed long rod (121).

5. The square tube grooving apparatus for high end manufacturing according to claim 4, wherein the material of the material blocking plate (96) is rubber.