CN216730605U - Section bar cutting machine - Google Patents

Abstract

The utility model discloses a section bar cutting machine which comprises a machine base, a first cutting device fixedly connected to the machine base and a second cutting device connected to the machine base in a sliding mode, wherein the first cutting device and the second cutting device respectively comprise an installation base; the swing seat is connected with a cutting assembly in a swinging mode, and a second driving device for driving the cutting assembly to do reciprocating swinging motion to complete feeding and retracting is installed on the swing seat. The section cutting machine can automatically control the cutting length, simultaneously control the cutting angle of the cutting tool, cut the section with a specific angle according to production requirements, and has strong continuous working capacity and high production efficiency.

Description

Section bar cutting machine

Technical Field

The utility model relates to the technical field of section bar processing equipment, in particular to a section bar cutting machine.

Background

The section bar is a straight strip-shaped workpiece which is formed by plastic processing of metal and has a certain section shape and size, the section bar has various varieties and specifications and wide application, most of original section bars are long, and the original section bars are cut into different length sizes by cutting so as to be suitable for different use occasions. At present, the cutting angle of current section bar cutting processing equipment is single, can only carry out perpendicular angle's cutting to the section bar, can not cut the aluminium alloy of specific angle according to the production demand, has restricted the shape and the angle of section bar processing, cuts through the section bar through the manual work generally and decides, makes the mark in predetermined length department, then uses cutting processing equipment to aim at the mark and cuts, and this mode of processing production efficiency is low, and cutting effect and cutting accuracy are poor.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to overcome the defects in the prior art, and provide the section cutting machine which can automatically control the cutting length, control the cutting angle of the cutting tool, cut the section with a specific angle according to the production requirement, and has strong continuous working capacity and high production efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a section cutting machine comprises a machine base, a first cutting device fixedly connected to the machine base and a second cutting device slidably connected to the machine base, wherein the first cutting device and the second cutting device respectively comprise an installation base, a swinging seat is connected to the installation base in a swinging mode, and a first driving device used for driving the swinging seat to do reciprocating swinging motion so as to adjust a cutting angle is installed on the installation base;

the swing seat is connected with a cutting assembly in a swingable mode, and the swing seat is provided with a second driving device which is used for driving the cutting assembly to do reciprocating swing motion so as to complete feeding and retracting.

As a further improvement of the technical scheme:

the second cutting device is connected to the base in a sliding mode through a sliding mechanism, the sliding mechanism comprises a sliding block arranged on an installation base of the second cutting device and a sliding rail arranged on the base, and the sliding block is connected to the sliding rail in a sliding mode;

the second cutting device drives the base to do reciprocating motion through a third driving device so as to adjust the distance between the second cutting device and the first cutting device, the third driving device comprises a rack arranged on the base, a driving motor arranged on an installation base of the second cutting device and a driving gear connected with the driving motor in a driving mode, and the driving gear is meshed with the rack.

Swing seat through first pivot movably connect in on the installation base, first drive arrangement including set up in first flexible driving piece on the installation base with set up in first swing arm rotation axis on the swing seat, first swing arm rotation axis with the telescopic link drive of first flexible driving piece is connected, first flexible driving piece orders about through the flexible action of telescopic link swing seat winds first pivot reciprocating swing.

The installation base is provided with a limit groove for limiting the swing angle of the swing seat to be 45 degrees and/or 90 degrees, and the first swing arm rotating shaft penetrates through the limit groove.

The cutting assembly comprises a cutting motor mounting seat, a cutting motor and a cutting tool, the cutting motor is fixedly connected to the cutting motor mounting seat, the cutting tool is in driving connection with the cutting motor, and a tool extending groove for feeding and retracting the cutting tool is formed in the swinging seat;

cutting motor mount pad through second pivot movably connect in on the swing seat, second drive arrangement including set up in the flexible driving piece of second on the swing seat with set up in second swing arm rotation axis on the cutting motor mount pad, second swing arm rotation axis with the telescopic link drive of the flexible driving piece of second is connected, the flexible driving piece of second orders about through the flexible action of telescopic link cutting motor mount pad winds the reciprocal swing of second pivot.

The mounting base is connected with a shield assembly in a swingable mode, and the mounting base is provided with a fourth driving device which is used for driving the shield assembly to do reciprocating swing motion so as to shield scraps generated during cutting.

The guard shield subassembly includes guard shield spare and swing arm spare, swing arm spare through third pivot movably connect in on the installation base, fourth drive arrangement including set up in the flexible driving piece of third on the installation base, the one end of pendulum arm spare with the telescopic link drive of the flexible driving piece of third is connected, the other end of pendulum arm spare with guard shield spare fixed connection, the flexible action of third flexible driving piece through the telescopic link orders about the pendulum arm spare winds the reciprocal swing of third pivot.

The mounting base is provided with a cutting base for supporting the section bar and facilitating the cutting of the section bar by the cutting assembly, and the mounting base is provided with a pressing assembly for positioning the section bar on the cutting base;

the material pressing assembly comprises a horizontal material pressing assembly and a vertical material pressing assembly, wherein the horizontal material pressing assembly comprises a horizontal material pressing seat fixedly connected to the mounting base, a horizontal material pressing cylinder fixedly connected to the horizontal material pressing seat and a horizontal material pressing block used for being abutted to the profile, and the horizontal material pressing block is in driving connection with the horizontal material pressing cylinder;

the vertical material pressing assembly comprises a vertical material pressing seat fixedly connected to the cutting base, a vertical material pressing cylinder fixedly connected to the vertical material pressing seat and a vertical material pressing block used for being abutted to the profile, and the vertical material pressing block is in driving connection with the vertical material pressing cylinder.

Still be provided with the height detection subassembly that is used for detecting the section bar height on the vertical pressure material seat, the height detection subassembly include sliding connection in connecting seat, fixed connection on the vertical pressure material seat in height measurement induction rod on the connecting seat and be used for ordering about connecting seat reciprocating motion's height detection cylinder.

The mounting base of the second cutting device is further provided with a bearing component for bearing the sectional materials, and the bearing component comprises a bearing bracket fixedly connected to the mounting base of the second cutting device, a plurality of groups of rollers rotatably connected to the bearing bracket and baffles arranged on the rollers and used for preventing the sectional materials from falling.

Compared with the prior art, the utility model has the advantages that:

according to the section cutting machine, the position of the second cutting device on the base is adjusted in a sliding mode, the distance between the first cutting device and the second cutting device is controlled accurately, sections with different preset lengths are cut and machined through the cutting assembly, the angle of the swinging seat on the installation base is adjusted in a swinging mode, the cutting angle of the cutting assembly can be controlled accurately before cutting machining, the sections with specific angles are cut according to production requirements, meanwhile, the cutting assembly is driven to complete feeding and retracting on the swinging seat through swinging motion in an arc-shaped motion track, the cutter is small in stress during cutting, the service life of the cutting assembly is prolonged, the cutting accuracy is improved, after machining parameters are input manually, the section cutting machine can complete accurate machining on section raw materials automatically, the continuous working capacity is high, and the working efficiency can be improved effectively.

Drawings

Fig. 1 is a schematic structural view of a profile cutting machine.

Fig. 2 is a schematic structural view of another angle of the section cutting machine.

Fig. 3 is an enlarged view of detail a in fig. 2.

Fig. 4 is a schematic structural view of the first cutting device and the second cutting device.

Fig. 5 is a schematic view of the first cutting device and the second cutting device at another angle.

FIG. 6 is a schematic view of the internal structure of the swing seat.

Fig. 7 is a schematic structural view of the mounting base.

Illustration of the drawings:

1. a machine base; 2. a first cutting device; 3. a second cutting device; 4. installing a base; 5. a swing seat; 6. a first driving device; 601. a first telescoping drive member; 602. a first swing arm rotating shaft; 7. a cutting assembly; 701. cutting the motor mounting seat; 702. cutting the motor; 703. cutting a cutter; 8. a second driving device; 801. a second telescoping drive member; 802. a second swing arm rotating shaft; 9. a sliding mechanism; 901. a slider; 902. a slide rail; 10. a third driving device; 1001. a rack; 1002. a drive motor; 1003. a driving gear; 11. a first rotating shaft; 12. a limiting groove; 13. a second rotating shaft; 14. a shroud assembly; 1401. a shield member; 1402. a swinging arm member; 15. a fourth drive device; 1501. a third telescopic driving member; 16. a third rotating shaft; 17. cutting the base; 18. a horizontal swaging assembly; 1801. a horizontal material pressing seat; 1802. a horizontal material pressing cylinder; 1803. horizontal material pressing blocks; 19. a vertical swaging assembly; 1901. a vertical pressing base; 1902. a vertical material pressing cylinder; 1903. a vertical pressing block; 20. a height detection assembly; 2001. a connecting seat; 2002. a height measurement induction rod; 2003. a height detection cylinder; 21. a holding assembly; 2101. a support bracket; 2102. a drum; 2103. a baffle plate; 22. a guide plate; 2201. a guide groove; 23. a charging chute; 24. and a center console.

Detailed Description

The utility model is described in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1 and fig. 2, the profile cutting machine of the present embodiment includes a machine base 1, a first cutting device 2 fixedly connected to the machine base 1, and a second cutting device 3 slidably connected to the machine base 1, wherein each of the first cutting device 2 and the second cutting device 3 includes a mounting base 4, a swing base 5 is connected to the mounting base 4 in a swingable manner, and a first driving device 6 for driving the swing base 5 to perform a reciprocating swing motion to adjust a cutting angle is mounted on the mounting base 4; the swing seat 5 is connected with a cutting assembly 7 in a swing mode, and the swing seat 5 is provided with a second driving device 8 which is used for driving the cutting assembly 7 to do reciprocating swing motion so as to complete feeding and retracting. The section cutting machine precisely controls the distance between the first cutting device 2 and the second cutting device 3 by adjusting the position of the second cutting device 3 on the machine base 1 in a sliding way, and sections with different preset lengths are cut and processed by the cutting assembly 7, the angle of the swinging seat 5 on the installation base 4 can be adjusted in a swinging way, so that the cutting angle of the cutting component 7 can be accurately controlled before cutting, the section bar with a specific angle is cut according to production requirements, the cutting component 7 is driven to complete feeding and retracting on the swing seat 5 in an arc-shaped motion track through swing action, the cutter is stressed slightly during cutting, the service life of the cutting component 7 is prolonged, the cutting precision is improved, after the section bar cutting machine manually inputs processing parameters, the section bar raw materials are automatically processed accurately, the continuous working capacity is strong, and the working efficiency can be effectively improved.

Preferably, as shown in fig. 3, the second cutting device 3 is slidably connected to the base 1 through a sliding mechanism 9, the sliding mechanism 9 includes a slider 901 disposed on the mounting base 4 of the second cutting device 3 and a sliding rail 902 disposed on the base 1, and the slider 901 is slidably connected to the sliding rail 902. In this embodiment, the sliding mechanism 9 is in the form of a slider 901 and a slide rail 902, and has the advantages of simple structure, convenient and fast assembly, and low cost.

Preferably, the second cutting device 3 is driven by a third driving device 10 to perform a reciprocating motion on the base 1 to adjust the distance between the second cutting device 3 and the first cutting device 2, the third driving device 10 includes a rack 1001 disposed on the base 1, a driving motor 1002 disposed on the mounting base 4 of the second cutting device 3, and a driving gear 1003 drivingly connected to the driving motor 1002, and the driving gear 1003 is engaged with the rack 1001. In this embodiment, the third driving device 10 adopts a form that the driving gear 1003 is engaged with the rack 1001, so that the assembling and disassembling processes are convenient and fast, the maintenance is convenient, and the control precision of the moving distance is high.

Preferably, as shown in fig. 5, the swing seat 5 is movably connected to the mounting base 4 through a first rotating shaft 11, the first driving device 6 includes a first telescopic driving member 601 disposed on the mounting base 4 and a first swing arm rotating shaft 602 disposed on the swing seat 5, the first swing arm rotating shaft 602 is connected to the telescopic rod of the first telescopic driving member 601 in a driving manner, the first telescopic driving member 601 drives the swing seat 5 to swing around the first rotating shaft 11 in a reciprocating manner through the telescopic action of the telescopic rod, so as to control the cutting angle of the cutting assembly 7, facilitate cutting and processing a section bar with a specific angle, and the application range is wide.

Preferably, the mounting base 4 is provided with a limiting groove 12 for limiting the swing angle of the swing seat 5 to be 45 ° and/or 90 °, and the first swing arm rotating shaft 602 is inserted into the limiting groove 12. In this embodiment, the mounting base 4 is provided with a limiting groove 12, when the angle to be processed is 90 degrees, the telescopic rod of the first telescopic driving member 601 is in an extended state, and the first swing arm rotating shaft 602 is located at the upper limit of the limiting groove 12; when the angle of required processing is 45 degrees, the telescopic link of first flexible driving piece 601 is in the indentation state, and first swing arm rotation axis 602 is located the lower spacing of spacing groove 12, and angle locking is effectual, and swing angle automatic positioning locking has solved the stability problem and the safety problem of cutting, and automatic locking can not gapped swing when the cutting, has improved operating stability and safety in utilization.

Preferably, as shown in fig. 6, the cutting assembly 7 includes a cutting motor mounting seat 701, a cutting motor 702 and a cutting tool 703, the cutting motor 702 is fixedly connected to the cutting motor mounting seat 701, the cutting tool 703 is in driving connection with the cutting motor 702, a tool extending groove for feeding and retracting the cutting tool 703 is provided on the swing seat 5, and the cutting tool 703 enters and exits in the tool extending groove to realize profile cutting.

Preferably, cutting motor mount pad 701 is movably connected on swing seat 5 through second pivot 13, second drive arrangement 8 is including setting up the flexible driving piece 801 of second on swing seat 5 and setting up second swing arm rotation axis 802 on cutting motor mount pad 701, second swing arm rotation axis 802 is connected with the telescopic link drive of the flexible driving piece 801 of second, the flexible driving piece 801 of second orders about cutting motor mount pad 701 around the reciprocal swing of second pivot 13 through the flexible action of telescopic link, cutting assembly 7 accomplishes the feed and moves back the sword with the arc motion orbit on swing seat 5, the cutter atress is little during the cutting, be favorable to prolonging cutting assembly 7's life, and the machining precision is high.

Preferably, the swing seat 5 is provided with a guide plate 22, the guide plate 22 is provided with a guide groove 2201 for the cutting motor 702 to swing through, and the output end of the cutting motor 702 penetrates through the guide groove 2201 to be connected with the cutting tool 703, so that the cutting motor 702 can swing along the arc shape of the guide groove 2201 when swinging, thereby ensuring the consistent running track and improving the cutting stability.

Preferably, as shown in fig. 4, the mounting base 4 is connected with a shield assembly 14 in a swinging manner, and the mounting base 4 is provided with a fourth driving device 15 for driving the shield assembly 14 to do reciprocating swinging motion so as to shield scraps generated during cutting.

Preferably, the hood assembly 14 includes a hood member 1401 and a swing arm member 1402, the swing arm member 1402 is movably connected to the mounting base 4 through a third rotating shaft 16, the fourth driving device 15 includes a third telescopic driving member 1501 disposed on the mounting base 4, one end of the swing arm member 1402 is drivingly connected to a telescopic rod of the third telescopic driving member 1501, the other end of the swing arm member 1402 is fixedly connected to the hood member 1401, and the third telescopic driving member 1501 drives the swing arm member 1402 to reciprocally swing around the third rotating shaft 16 through a telescopic action of the telescopic rod. In this embodiment, the shield assembly 14 is used to block the scraps generated during cutting, so as to prevent the scraps from popping out and injuring people, and before cutting, the third telescopic driving member 1501 is in a retracted state, so that one end of the swing arm 1402 connected with the shield member 1401 is in a lifted state, which is convenient for a worker to observe the state of the workpiece; during cutting, the third telescopic driving member 1501 is in an extended state, so that one end of the swing arm 1402 connected with the shield member 1401 is in a descending state, and the splash of scraps is prevented, and the use safety is improved.

Preferably, as shown in fig. 7, the installation base 4 is provided with a supporting profile, the cutting base 17 for cutting the profile by the cutting assembly 7 is convenient, the installation base 4 is provided with a pressing assembly for positioning the profile on the cutting base 17, the pressing assembly can fix the position of the profile, and the profile is prevented from vibrating to shift in the cutting process, so that the processing quality is not affected.

Preferably, the mounting base 4 is provided with a blanking groove 23 correspondingly connected with the cutting base 17, so that scraps and leftover materials after the section bar is cut are discharged through the blanking groove 23, and the influence of waste accumulation on production quality and production efficiency is avoided.

Preferably, the swaging assembly comprises a horizontal swaging assembly 18 and a vertical swaging assembly 19, wherein the horizontal swaging assembly 18 comprises a horizontal swaging seat 1801 fixedly connected to the mounting base 4, a horizontal swaging cylinder 1802 fixedly connected to the horizontal swaging seat 1801, and a horizontal swaging block 1803 for abutting against the profile, and the horizontal swaging block 1803 is in driving connection with the horizontal swaging cylinder 1802; the vertical swaging assembly 19 comprises a vertical swaging seat 1901 fixedly connected to the cutting base 17, a vertical swaging cylinder 1902 fixedly connected to the vertical swaging seat 1901, and a vertical swaging block 1903 for abutting against a profile, wherein the vertical swaging block 1903 is in driving connection with the vertical swaging cylinder 1902. In this embodiment, under the driving action of horizontal swage cylinder 1802, horizontal swage block 1803 compresses tightly the section bar in the horizontal direction, avoids the section bar to move about in the cutting process, and under the driving action of vertical swage cylinder 1902, vertical swage block 1903 compresses tightly the section bar in vertical direction, avoids the section bar to reciprocate in the cutting process, and it is effectual to press from both sides tight location.

Preferably, a height detection assembly 20 for detecting the height of the profile is further arranged on the vertical swaging seat 1901, the height detection assembly 20 comprises a connecting seat 2001 connected to the vertical swaging seat 1901 in a sliding manner, a height measurement induction rod 2002 fixedly connected to the connecting seat 2001, and a height detection cylinder 2003 for driving the connecting seat 2001 to move back and forth, and under the driving action of the height detection cylinder 2003, the connecting seat 2001 and the height measurement induction rod 2002 thereon vertically move on the vertical swaging seat 1901 until the height measurement induction rod 2002 is in contact with the profile, so that the height of the profile is detected.

Preferably, as shown in fig. 4, a supporting component 21 for supporting the profile is further disposed on the mounting base 4 of the second cutting device 3, and the supporting component 21 includes a supporting bracket 2101 fixedly connected to the mounting base 4 of the second cutting device 3, a plurality of sets of rollers 2102 rotatably connected to the supporting bracket 2101, and a baffle 2103 disposed on the rollers 2102 for preventing the profile from falling. In this embodiment, because the section bar is a strip, set up bearing subassembly 21 on the installation base 4 of second cutting device 3, can treat the section bar section of processing and bear, prevent that the section bar back end from taking place to warp under the action of gravity, cylinder 2102 is rotatable on support bracket 2101, can provide the roll effect when the section bar removes, reduce the wearing and tearing to the section bar surface, guarantee product quality, be equipped with baffle 2103 on the cylinder 2102 simultaneously, avoid the section bar to take place to shift and drop from cylinder 2102 in the removal process.

Preferably, the center console 24 is slidably connected to the machine base 1, and during cutting, the center console 24 can be moved to a position away from the first cutting device 2 and the second cutting device 3, so that the use safety is improved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-described embodiments. Modifications and variations that may occur to those skilled in the art without departing from the spirit and scope of the utility model are to be considered as within the scope of the utility model.

Claims (10)

1. The utility model provides a section bar cutting machine, includes frame (1), fixed connection first cutting device (2) on frame (1) and sliding connection second cutting device (3) on frame (1), its characterized in that, first cutting device (2) and second cutting device (3) all include installation base (4), be connected with swing seat (5) on installation base (4) with can swinging the mode, install on installation base (4) and be used for driving swing seat (5) do the reciprocal swing action, in order to adjust cutting angle's first drive arrangement (6);

the swing seat (5) is connected with a cutting assembly (7) in a swing mode, and the swing seat (5) is provided with a second driving device (8) which is used for driving the cutting assembly (7) to do reciprocating swing motion so as to complete feeding and retracting.

2. The profile cutting machine according to claim 1, characterized in that the second cutting device (3) is slidably connected to the base (1) through a sliding mechanism (9), the sliding mechanism (9) comprises a sliding block (901) arranged on the mounting base (4) of the second cutting device (3) and a sliding rail (902) arranged on the base (1), and the sliding block (901) is slidably connected to the sliding rail (902);

the second cutting device (3) is driven to do reciprocating motion on the base (1) through a third driving device (10) so as to adjust the distance between the second cutting device (3) and the first cutting device (2), the third driving device (10) comprises a rack (1001) arranged on the base (1), a driving motor (1002) arranged on the mounting base (4) of the second cutting device (3) and a driving gear (1003) in driving connection with the driving motor (1002), and the driving gear (1003) is in meshing connection with the rack (1001).

3. The profile cutting machine according to claim 1, wherein the swing seat (5) is movably connected to the mounting base (4) through a first rotating shaft (11), the first driving device (6) comprises a first telescopic driving member (601) disposed on the mounting base (4) and a first swing arm rotating shaft (602) disposed on the swing seat (5), the first swing arm rotating shaft (602) is drivingly connected to a telescopic rod of the first telescopic driving member (601), and the first telescopic driving member (601) drives the swing seat (5) to swing back and forth around the first rotating shaft (11) through telescopic action of the telescopic rod.

4. The profile cutting machine according to claim 3, characterized in that the mounting base (4) is provided with a limiting groove (12) for limiting the swing angle of the swing seat (5) to 45 ° and/or 90 °, and the first swing arm rotating shaft (602) is inserted into the limiting groove (12).

5. The profile cutting machine according to claim 1, wherein the cutting assembly (7) comprises a cutting motor mounting seat (701), a cutting motor (702) and a cutting tool (703), the cutting motor (702) is fixedly connected to the cutting motor mounting seat (701), the cutting tool (703) is in driving connection with the cutting motor (702), and a tool extending groove for feeding and retracting the cutting tool (703) is formed in the swinging seat (5);

cutting motor mount pad (701) through second pivot (13) movably connect in on swing seat (5), second drive arrangement (8) including set up in the flexible driving piece of second (801) on swing seat (5) with set up in second swing arm rotation axis (802) on cutting motor mount pad (701), second swing arm rotation axis (802) with the telescopic link drive of the flexible driving piece of second (801) is connected, flexible driving piece of second (801) orders about through the flexible action of telescopic link cutting motor mount pad (701) winds second pivot (13) reciprocal swing.

6. The profile cutting machine according to claim 1, characterized in that a shield assembly (14) is swingably connected to the mounting base (4), and a fourth driving device (15) for driving the shield assembly (14) to perform a reciprocating swing motion to shield scraps generated during cutting is installed on the mounting base (4).

7. The profile cutting machine according to claim 6, characterized in that the guard assembly (14) comprises a guard member (1401) and a swing arm member (1402), the swing arm member (1402) is movably connected to the mounting base (4) through a third rotating shaft (16), the fourth driving device (15) comprises a third telescopic driving member (1501) arranged on the mounting base (4), one end of the swing arm member (1402) is drivingly connected with the telescopic rod of the third telescopic driving member (1501), the other end of the swing arm member (1402) is fixedly connected with the guard member (1401), and the third telescopic driving member (1501) drives the swing arm member (1402) to reciprocate around the third rotating shaft (16) through the telescopic action of the telescopic rod.

8. The profile cutting machine according to claim 1, characterized in that a cutting base (17) for supporting the profile and facilitating the cutting of the profile by the cutting assembly (7) is arranged on the mounting base (4), and a pressing assembly for positioning the profile on the cutting base (17) is arranged on the mounting base (4);

the swaging assembly comprises a horizontal swaging assembly (18) and a vertical swaging assembly (19), wherein the horizontal swaging assembly (18) comprises a horizontal swaging seat (1801) fixedly connected to the mounting base (4), a horizontal swaging cylinder (1802) fixedly connected to the horizontal swaging seat (1801), and a horizontal swaging block (1803) used for abutting against a profile, and the horizontal swaging block (1803) is in driving connection with the horizontal swaging cylinder (1802);

the vertical swaging assembly (19) comprises a vertical swaging seat (1901) fixedly connected to the cutting base (17), a vertical swaging cylinder (1902) fixedly connected to the vertical swaging seat (1901), and a vertical swaging block (1903) used for abutting against a profile, wherein the vertical swaging block (1903) is in driving connection with the vertical swaging cylinder (1902).

9. The profile cutting machine according to claim 8, wherein a height detection assembly (20) for detecting the height of the profile is further arranged on the vertical blanking seat (1901), and the height detection assembly (20) comprises a connecting seat (2001) slidably connected to the vertical blanking seat (1901), a height measurement sensing rod (2002) fixedly connected to the connecting seat (2001), and a height detection cylinder (2003) for driving the connecting seat (2001) to reciprocate.

10. The profile cutting machine according to claim 1, characterized in that a supporting assembly (21) for supporting the profile is further arranged on the mounting base (4) of the second cutting device (3), said supporting assembly (21) comprising a supporting bracket (2101) fixedly connected to the mounting base (4) of the second cutting device (3), a plurality of sets of rollers (2102) rotatably connected to the supporting bracket (2101), and a baffle (2103) arranged on the rollers (2102) for preventing the profile from falling.

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