CN220482160U - Pipe cutting equipment - Google Patents

Abstract

The utility model relates to the technical field of tubing processing, in particular to tubing cutting equipment; including cutting table, conveying unit, cutting machine and unloading unit, the cutting table is provided with the cutting position, conveying unit is connected in the cutting table, when carrying out the cutting work of mica pipe, can carry the mica pipe that waits to cut to the cutting position, the cutting machine articulates and is located one side at cutting position with the cutting table, when the mica pipe carries to cutting position, the cutting machine is through driving the saw bit rotation to cut the pipe material, the unloading unit is connected and is located the one side that conveying unit was kept away from to the cutting table, the unloading unit can accept the mica pipe after the cutting of cutting machine and will accept the mica pipe and carry out the unloading, through the cutting of cutting machine to the mica pipe, can effectively alleviate the cutting cost of mica pipe, and need not the cutting angle of accurate control mica pipe, and then can effectively ensure the cutting quality of mica pipe.

Description

Pipe cutting equipment

Technical Field

The utility model relates to the technical field of tubing processing, in particular to tubing cutting equipment.

Background

When the mica tube is produced, the mica tube is produced into a long tube, the stacked long mica tube can be bound through the binding belt so as to be convenient to carry, and when the product is processed, a specific length is cut out of the mica tube in a factory according to actual requirements.

A mica tube cutting mechanism as disclosed in the publication CN217913441U, comprising a clamping device and a cutting device; this mica pipe cutting mechanism carries out the centre gripping to the one end of mica pipe through clamping device's chuck, and cutting device cuts the mica pipe of chuck centre gripping through laser cutting machine, and then processes the mica pipe that forms specific length.

Although the existing mica tube cutting mechanism can realize the machining of the mica tube through laser cutting, the cutting cost of the laser cutting is higher, the cutting mechanism is affected by the cutting precision, burrs are easily formed at the cutting part of the mica tube, and the cutting quality of the mica tube is reduced.

Disclosure of Invention

The utility model aims to overcome the technical defects, provides pipe cutting equipment, and solves the technical problems of higher cutting cost and lower cutting quality of mica pipes in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides pipe cutting equipment, which comprises:

the cutting table is provided with a cutting position;

the conveying unit is connected with the cutting table and used for conveying the pipe material to be cut to a cutting position;

the cutting machine is hinged with the cutting table and is positioned at one side of the cutting position, the cutting machine is provided with a saw blade, and the cutting machine is used for driving the saw blade to rotate so as to cut the pipe material at the cutting position;

the cutting device comprises a cutting table, a cutting driver, a cutting machine and a cutting mechanism, wherein one end of the cutting driver is hinged with the cutting table, and the other end of the cutting driver is hinged with the cutting machine and is used for driving the cutting machine to rotate towards the cutting position when a pipe material is conveyed to the cutting position;

and the blanking unit is connected with the cutting table and is positioned at one side of the cutting position away from the conveying unit and used for receiving and blanking the pipe cut by the cutting machine.

Optionally, the conveying unit includes pushing away work or material rest and pushing away material drive module, pushing away the work or material rest sliding connection in the cutting platform, pushing away material drive module with pushing away the work or material rest is connected, is used for the drive pushing away the work or material rest and being close to or keep away from the direction of cutting the position is slided, pushing away the work or material rest and being used for through towards the slip of cutting the position direction, will cut the pipe material propelling movement extremely the cutting position.

Optionally, the pushing driving module comprises a motor and a screw rod, the motor is fixed on the cutting table, the screw rod is fixed on the shaft of the motor and extends towards the direction of the cutting position, and the pushing frame is in threaded connection with the screw rod.

Optionally, the pipe cutting device further comprises a limiting unit, the limiting unit comprises a first limiting frame, a second limiting frame and an adjusting module, the first limiting frame is fixed on the cutting table and extends towards the direction of the cutting position, the second limiting frame is arranged opposite to the first limiting frame and forms a conveying channel with the first limiting frame, the conveying channel is used for limiting pipe conveyed towards the direction of the cutting position, and the adjusting module is connected with the second limiting frame and is used for driving the second limiting frame to move towards the direction close to or far away from the first limiting frame.

Optionally, the pipe cutting device further comprises a pipe pressing unit, the pipe pressing unit comprises a pipe pressing frame and a lifting driving module, the pipe pressing frame is located above the cutting position, and the lifting driving module is fixed on the cutting table and connected with the pipe pressing frame and used for driving the pipe pressing frame to descend and press the pipe when the pipe is conveyed to the cutting position.

Optionally, the press pipe frame is fixed with the elastic plate, the elastic plate is used for pressing the pipe material that carries to the cutting position.

Optionally, the unloading unit includes blanking plate and unloading driver, the blanking plate is located the one side of cutting position and with the cutting bench is articulated for accept the pipe material after the cutting, the one end of unloading driver with the cutting bench is articulated, the other end of unloading driver with the blanking plate is articulated, is used for the drive the blanking plate rotates.

Optionally, the pipe cutting device further comprises a material distributing unit, the material distributing unit comprises a material distributing box and a material distributing module, the material distributing box is fixed on the cutting table and located on one side of the discharging unit, at least two material distributing cavities are formed in the material distributing box, and the material distributing module is connected with the material distributing box and used for guiding the pipe discharged by the discharging unit to one of the material distributing cavities.

Optionally, the feed distribution module includes feed distribution driver and leading truck, the leading truck rotate connect in the feed distribution box is located the below of unloading unit, feed distribution driver's one end with the feed distribution box articulates, feed distribution driver's the other end with the leading truck articulates, is used for the drive the leading truck rotates, will the pipe material of unloading unit unloading is directed to one of them the feed distribution chamber.

Compared with the prior art, the pipe cutting equipment provided by the utility model has the beneficial effects that: through setting up cutting table, conveying unit, cutting machine and unloading unit, the cutting table is provided with the cutting position, conveying unit is connected in the cutting table, when carrying out the cutting work of mica pipe, can carry the mica pipe that waits to cut to the cutting position, the cutting machine articulates and is located one side at cutting position with the cutting table, when the mica pipe carries to cutting position, the cutting machine cuts the pipe material through driving the saw bit rotation, the unloading unit is connected and is located one side that conveying unit was kept away from to the cutting table, the unloading unit can accept the mica pipe after the cutting of cutting machine and carry out the unloading to the mica pipe that will accept, the cutting cost of mica pipe through the cutting machine to the cutting of mica pipe, and need not the cutting angle of accurate control mica pipe, and then can effectively ensure the cutting quality of mica pipe.

Drawings

Fig. 1 is a schematic structural diagram of a pipe cutting apparatus according to an embodiment of the present utility model.

Fig. 2 is a partial enlargement at a in fig. 1.

Fig. 3 is another schematic structural view of a pipe cutting apparatus according to an embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of a pipe pressing unit of a pipe cutting apparatus according to an embodiment of the present utility model.

Fig. 5 is a schematic structural diagram of a material distributing unit of a pipe cutting apparatus according to an embodiment of the present utility model.

Wherein, each reference sign in the figure:

10-cutting table 11-cutting position 12-slide rail

13-trough 20-conveying unit 21-pushing frame

22-pushing driving module 30-cutting machine 31-saw blade

40-blanking unit 41-blanking plate 42-blanking driver

50-limiting unit 51-first limiting frame 52-second limiting frame

53-regulating module 54-conveying channel 60-pipe pressing unit

61-press rack 62-lifting driving module 70-cutting driver

80-material distributing unit 81-material distributing box 82-material distributing module

221-motor 222-screw 531-driving board

532-adjusting screw 533-locking nut 611-elastic plate

621-lifting frame 622-pressing screw 811-material distributing cavity

821-distribution driver 822-guide frame 823-connecting frame

824-spindle 10 a-mica tube.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The embodiment of the utility model provides pipe cutting equipment, which comprises a cutting table 10, a conveying unit 20, a cutting machine 30 and a blanking unit 40, wherein the cutting table 10 is provided with a cutting position 11; the conveying unit 20 is connected with the cutting table 10 and is used for conveying the pipe material to be cut to the cutting position 11; the cutting machine 30 is hinged with the cutting table 10 and is positioned at one side of the cutting position 11, the cutting machine 30 is provided with a saw blade 31, and the cutting machine 30 is used for driving the saw blade 31 to rotate so as to cut the pipe material of the cutting position 11; the blanking unit 40 is connected with the cutting table 10 and is located at one side of the cutting position 11 far away from the conveying unit 20, and is used for receiving and blanking the pipe cut by the cutter 30.

It will be appreciated that the pipe cutting apparatus may be used to cut any pipe material which may be cut by the cutter 30, and in this embodiment, the cutting of the mica pipe 10a is taken as an example, and when it is used for cutting other pipe materials, the working principle is the same as that when the mica pipe 10a is cut.

Specifically, through setting up cutting table 10, conveying unit 20, cutting machine 30 and unloading unit 40, cutting table 10 is provided with cutting position 11, conveying unit 20 is connected in cutting table 10, when carrying out the cutting work of mica tube 10a, can carry the mica tube 10a that waits to cut to cutting position 11, cutting machine 30 articulates and is located the one side of cutting position 11 with cutting table 10, when the mica tube 10a carries to cutting position 11, cutting machine 30 cuts the pipe material through driving saw bit 31 rotation, unloading unit 40 is connected and is located the one side that cutting position 11 kept away from conveying unit 20 with cutting table 10, unloading unit 40 can accept the mica tube 10a after the cutting of cutting machine 30 and carry out the unloading to the mica tube 10a that will accept, through the cutting machine 30 to the cutting of mica tube 10a, can effectively alleviate the cutting cost of mica tube 10a, and need not accurate control the cutting angle of mica tube 10a, and then can effectively ensure the cutting quality of mica tube 10a.

It will be appreciated that the cutting table 10 may be any form of gantry structure.

It is understood that the conveying unit 20 may be a belt, a chain belt, or the like.

In one embodiment, as shown in fig. 1-2, the pipe cutting apparatus further includes a cutting driver 70, one end of the cutting driver 70 is hinged to the cutting table 10, and the other end of the cutting driver 70 is hinged to the cutting machine 30, so as to drive the cutting machine 30 to rotate towards the cutting position 11 when the pipe is conveyed to the cutting position 11. Specifically, when the mica tube 10a is cut, the cutting driver 70 drives the cutter 30 to rotate towards the cutting position 11, so that the cutter 30 cuts the mica tube 10a through the saw blade 31, and automatic cutting of the mica tube 10a is realized.

In this embodiment, further, the cutting driver 70 is a cylinder.

In one embodiment, as shown in fig. 1 and 3, the conveying unit 20 includes a pushing frame 21 and a pushing driving module 22, the pushing frame 21 is slidably connected to the cutting table 10, and the pushing driving module 22 is connected to the pushing frame 21 and is used for driving the pushing frame 21 to slide towards or away from the cutting position 11, and the pushing frame 21 is used for pushing the cut tube material to the cutting position 11 by sliding towards the cutting position 11.

Specifically, when the mica tube 10a is conveyed, the mica tube 10a is firstly placed on one side of the pushing frame 21, the pushing driving module 22 drives the pushing frame 21 to move towards the cutting position 11, the pushing frame 21 pushes the tube material to the cutting position 11, the part to be cut stretches out of the cutting position 11, automatic conveying of the mica tube 10a to be cut towards the cutting position 11 can be achieved through the arrangement of the pushing frame 21 and the pushing driving module 22, and the cutting size of the mica tube 10a can be controlled by controlling the pushing distance of the mica tube 10a.

In this embodiment, as shown in fig. 1 and 3, the pushing driving module 22 includes a motor 221 and a screw rod 222, the motor 221 is fixed on the cutting table 10, the screw rod 222 is fixed on a shaft of the motor 221 and extends toward the cutting position 11, and the pushing frame 21 is screwed on the screw rod 222. Specifically, when the mica tube 10a is conveyed, the motor 221 is started to drive the screw 222 to rotate, so that the pushing frame 21 is moved.

It is understood that the pushing driving module 22 may also have any structure such as a cylinder that can linearly drive the pushing rack 21.

In this embodiment, as shown in fig. 3, a slide rail 12 is fixed inside the cutting table 10, the slide rail 12 is parallel to the through slot 13, and the pushing frame 21 is slidably connected to the slide rail 12.

In this embodiment, further, in order to reduce the space occupation rate of the conveying unit 20, as shown in fig. 1, the cutting table 10 is further provided with a through slot 13, the through slot 13 is parallel to the screw rod 222 and located at one side of the screw rod 222, the motor 221 and the screw rod 222 are both located inside the cutting table 10, and one end of the mica tube 10a is pushed by the pushing rack 21 to pass through the through slot 13.

In one embodiment, as shown in fig. 1-2, the pipe cutting apparatus further includes a limiting unit 50, where the limiting unit 50 includes a first limiting frame 51, a second limiting frame 52 and an adjusting module 53, the first limiting frame 51 is fixed on the cutting table 10 and extends toward the cutting position 11, the second limiting frame 52 is opposite to the first limiting frame 51 and forms a conveying channel 54 with the first limiting frame 51, the conveying channel 54 is used for limiting the pipe conveyed toward the cutting position 11, and the adjusting module 53 is connected with the second limiting frame 52 and is used for driving the second limiting frame 52 to move toward a direction approaching or separating from the first limiting frame 51.

Specifically, the conveying channel 54 can accommodate the mica tube 10a to be cut, meanwhile, the mica tube 10a is limited to avoid deviation in the conveying process of the mica tube 10a, and the adjusting module 53 can adjust the width of the conveying channel 54 by controlling the second limiting frame 52 to move, so as to adapt to the mica tubes 10a with different numbers and sizes.

In this embodiment, further, as shown in fig. 1-2, the adjusting module 53 includes a driving plate 531, an adjusting screw 532 and a locking nut 533, the driving plate 531 is fixed on the second limiting plate, the adjusting screw 532 is rotationally connected with the cutting table 10, the threaded end of the adjusting screw 532 extends towards the direction perpendicular to the second limiting frame 52 and is in threaded connection with the driving plate 531, the locking nut 533 is in threaded connection with the cutting table 10, and the locking nut 533 can abut against the adjusting screw 532 through rotation to limit the rotation of the adjusting screw 532. Through the above setting of adjusting module 53, when adjusting the width of conveyer way 54, only need rotate adjusting screw 532, make drive plate 531 drive second spacing 52 remove can, accomplish the width adjustment of conveyer way 54 after, twist again and move lock nut 533, make lock nut 533 offset with adjusting screw 532 can.

In one embodiment, as shown in fig. 1 and 2 to 4, the pipe cutting apparatus further includes a pipe pressing unit 60, where the pipe pressing unit 60 includes a pipe pressing frame 61 and a lifting driving module 62, the pipe pressing frame 61 is located above the cutting position 11, and the lifting driving module 62 is fixed on the cutting table 10 and connected to the pipe pressing frame 61, and is used for driving the pipe pressing frame 61 to descend and press the pipe when the pipe is conveyed to the cutting position 11. Specifically, after the mica tube 10a is conveyed to the cutting position 11 by the conveying unit 20 and extends out of the cutting position 11 for a certain distance, the lifting driving module 62 drives the pipe pressing frame 61 to descend, and the pipe is pressed, so that the cutting of the cutting machine 30 is facilitated, the deviation of the cutting process of the mica tube 10a is avoided, and the cutting quality of the mica tube 10a is improved.

In this embodiment, further, as shown in fig. 1, the number of the tube pressing units 60 is two.

In this embodiment, further, as shown in fig. 1 and 2 to 4, the lifting driving module 62 includes a lifting frame 621 and a pressing screw 622, the lifting frame 621 is vertically fixed on the cutting table 10, the pressing frame is slidably connected to the lifting frame 621 along the height direction of the cutting table 10, one end of the pressing screw 622 is rotatably connected to the lifting frame 621, and the other end of the pressing screw 622 extends along the height direction of the cutting table 10 and is in threaded connection with the pressing frame. After the mica tube 10a is conveyed to the cutting position 11 by the conveying unit 20 and extends out of the cutting position 11 by a certain distance, the lifting frame 621 is lowered and the mica tube 10a is pressed by controlling the pressing screw 622 to rotate.

In this embodiment, as shown in fig. 1 and 2 to 4, the pressing tube rack 61 is fixed with an elastic plate 611, and the elastic plate 611 is used for pressing the tube material conveyed to the cutting position 11. Specifically, by pressing the mica pipe 10a by the elastic plate 611, damage to the mica pipe 10a during the pressing can be avoided.

In this embodiment, further, the elastic plate 611 is a polyurethane plate.

It will be appreciated that the blanking unit 40 may be a guide plate provided on one side of the cutting station 11, on which the cut mica tube 10a falls and is guided out.

In one embodiment, as shown in fig. 1-2, the blanking unit 40 includes a blanking plate 41 and a blanking driver 42, where the blanking plate 41 is located at one side of the cutting station 11 and hinged to the cutting table 10, for receiving the cut pipe, and one end of the blanking driver 42 is hinged to the cutting table 10, and the other end of the blanking driver 42 is hinged to the blanking plate 41, for driving the blanking plate 41 to rotate.

Specifically, the mica tube 10a is conveyed to the cutting position 11 by the conveying unit 20 and extends out of the cutting position 11 for a certain distance, the part extending out of the cutting position 11 is supported by the blanking plate 41, after the cutting machine 30 completes cutting of the mica tube 10a, the mica tube 10a subjected to cutting blanking is positioned on the blanking plate 41, and the blanking driver 42 drives the blanking plate 41 to rotate, so that the blanking plate 41 is inclined, and the mica tube 10a is blanked. Through the arrangement, the part extending out of the cutting position 11 can be supported through the blanking plate 41 in the cutting process of the mica tube 10a, so that the cutting quality of the mica tube 10a is improved.

In this embodiment, further, the blanking driver 42 is a cylinder.

In one embodiment, as shown in fig. 1-2 and 5, the pipe cutting apparatus further includes a distributing unit 80, the distributing unit 80 includes a distributing box 81 and a distributing module 82, the distributing box 81 is fixed on the cutting table 10 and located on one side of the blanking unit 40, at least two distributing chambers 811 are provided in the distributing box 81, and the distributing module 82 is connected with the distributing box 81 and is used for guiding the pipe blanking by the blanking unit 40 to one of the distributing chambers 811. Specifically, the mica pipes 10a fed by the feeding unit 40 enter the distributing unit 80, and the mica pipes 10a with different sizes are respectively distributed to different distributing cavities 811 through the guiding of the distributing module 82 of the distributing unit 80, so as to realize the classification of the mica pipes 10a.

In this embodiment, further, as shown in fig. 2 and 5, the distributing module 82 includes a distributing driver 821 and a guiding frame 822, the guiding frame 822 is rotatably connected to the distributing box 81 and located below the blanking unit 40, one end of the distributing driver 821 is hinged to the distributing box 81, and the other end of the distributing driver 821 is hinged to the guiding frame 822 and is used for driving the guiding frame 822 to rotate, so as to guide the tube material blanked by the blanking unit 40 to one of the distributing cavities 811. Specifically, when the mica tube 10a is split, the splitting driver 821 drives the guide frame 822 to rotate, so that the guide frame 822 is engaged with one of the splitting cavities 811, the mica tube 10a blanked by the blanking unit 40 enters the guide frame 822, and enters the splitting cavity 811 under the guidance of the guide frame 822, and finally, the splitting of the mica tube 10a is realized.

In this embodiment, further, the material distributing driver 821 is a cylinder.

In this embodiment, further, as shown in fig. 2 and 5, the material distributing module 82 further includes a connecting frame 823 and two rotating shafts 824, the two rotating shafts 824 are rotatably connected with the material distributing box 81, the number of the guide frames 822 is two, the two guide frames 822 are respectively fixed on the two rotating shafts 824, two ends of the connecting frame 823 are respectively fixedly connected with the two rotating shafts, and the material distributing driver 821 is hinged with the connecting frame 823. The material distributing driver 821 drives the connecting frame 823 to drive the two rotating shafts 824 to rotate, and the two rotating shafts 824 can drive the guide frame 822 to rotate through rotation.

The specific working principle of the pipe cutting equipment is as follows: when the mica tube 10a is cut, the mica tube 10a is firstly placed on one side of the material pushing frame 21, the motor 221 is started to drive the screw rod 222 to rotate, the material pushing frame 21 moves towards the cutting position 11, the mica tube 10a is conveyed to the cutting position 11 and extends out of the cutting position 11 for a certain distance, the pressing screw rod 622 is controlled to rotate, the lifting frame 621 descends and presses the mica tube 10a, the cutting driver 70 is started to drive the cutting machine 30 to rotate towards the cutting position 11, the cutting machine 30 cuts the mica tube 10a through the saw blade 31, after the cutting of the mica tube 10a is completed, the blanking driver 42 drives the blanking plate 41 to rotate, the blanking plate 41 is inclined, the mica tube 10a is blanked between the two guide frames 822, and finally the mica tube 10a is guided to one of the material distributing cavities 811 through the guide frames 822.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A tubing cutting apparatus, comprising:

the cutting table is provided with a cutting position;

the conveying unit is connected with the cutting table and used for conveying the pipe material to be cut to a cutting position;

the cutting machine is hinged with the cutting table and is positioned at one side of the cutting position, the cutting machine is provided with a saw blade, and the cutting machine is used for driving the saw blade to rotate so as to cut the pipe material at the cutting position;

the cutting device comprises a cutting table, a cutting driver, a cutting machine and a cutting mechanism, wherein one end of the cutting driver is hinged with the cutting table, and the other end of the cutting driver is hinged with the cutting machine and is used for driving the cutting machine to rotate towards the cutting position when a pipe material is conveyed to the cutting position;

and the blanking unit is connected with the cutting table and is positioned at one side of the cutting position away from the conveying unit and used for receiving and blanking the pipe cut by the cutting machine.

2. The pipe cutting apparatus according to claim 1, wherein the conveying unit comprises a pushing frame and a pushing driving module, the pushing frame is slidably connected to the cutting table, the pushing driving module is connected to the pushing frame and is used for driving the pushing frame to slide in a direction approaching or separating from the cutting position, and the pushing frame is used for pushing the cut pipe to the cutting position by sliding in the direction of the cutting position.

3. The tubing cutting apparatus of claim 2, wherein the pushing drive module comprises a motor and a screw, the motor being fixed to the cutting table, the screw being fixed to a shaft of the motor and extending in a direction of the cutting location, the pushing frame being threadedly connected to the screw.

4. A tubing cutting apparatus according to claim 3, wherein the cutting table is further provided with a penetration groove, the penetration groove is arranged in parallel with the screw rod and located at one side of the screw rod, the motor and the screw rod are both located inside the cutting table, and the pushing frame pushes one end of the mica tube to penetrate through the penetration groove.

5. The pipe cutting apparatus according to any one of claims 1 to 4, further comprising a limiting unit, wherein the limiting unit comprises a first limiting frame, a second limiting frame and an adjusting module, the first limiting frame is fixed on the cutting table and extends towards the cutting position, the second limiting frame is opposite to the first limiting frame and forms a conveying channel with the first limiting frame, the conveying channel is used for limiting pipe conveyed towards the cutting position, and the adjusting module is connected with the second limiting frame and is used for driving the second limiting frame to move towards a direction close to or far away from the first limiting frame.

6. The pipe cutting apparatus according to any one of claims 1 to 4, further comprising a pipe pressing unit, wherein the pipe pressing unit comprises a pipe pressing frame and a lifting driving module, the pipe pressing frame is located above the cutting position, and the lifting driving module is fixed on the cutting table and connected with the pipe pressing frame, and is used for driving the pipe pressing frame to descend and press the pipe when the pipe is conveyed to the cutting position.

7. A tubing cutting apparatus according to claim 6, wherein the press tube rack is fixed with an elastic plate for pressing the tubing conveyed to the cutting position.

8. The pipe cutting apparatus according to any one of claims 1 to 4, wherein the blanking unit comprises a blanking plate and a blanking driver, the blanking plate is located at one side of the cutting position and hinged to the cutting table, and is used for receiving the cut pipe, one end of the blanking driver is hinged to the cutting table, and the other end of the blanking driver is hinged to the blanking plate and is used for driving the blanking plate to rotate.

9. The pipe cutting apparatus according to any one of claims 1 to 4, further comprising a distributing unit, wherein the distributing unit comprises a distributing box and a distributing module, the distributing box is fixed on the cutting table and located at one side of the blanking unit, at least two distributing cavities are arranged in the distributing box, and the distributing module is connected with the distributing box and used for guiding the pipe blanked by the blanking unit to one of the distributing cavities.

10. The pipe cutting apparatus of claim 9, wherein the material dividing module includes a material dividing driver and a guide frame, the guide frame is rotatably connected to the material dividing box and located below the material discharging unit, one end of the material dividing driver is hinged to the material dividing box, and the other end of the material dividing driver is hinged to the guide frame, so as to drive the guide frame to rotate, and guide the pipe discharged from the material discharging unit to one of the material dividing cavities.