CN219358083U - All-in-one with crosscut and brush thorn function - Google Patents

Abstract

The utility model is suitable for the technical field of pipe cutting machines, and provides an integrated machine with functions of transverse cutting and brushing thorns, which comprises a machine case, a feeding assembly, a transverse cutting assembly, a hydraulic clamp and brushing thorn assemblies, wherein the machine case provides stabilization and support for the whole integrated machine; the feeding assembly can realize the function of clamping the pipe fitting, so that the pipe fitting is prevented from being stressed and shifted to affect the cutting effect when the pipe fitting is cut, the feeding assembly also plays a role of clamping the pipe fitting, and then drives the pipe fitting to slide on the first sliding rail, so that the function of driving the pipe fitting to feed is realized, and inaccuracy, time and labor consumption of manual discharging are avoided; when the feeding component feeds the pipe fitting to the hydraulic clamp, the hydraulic clamp is started to clamp the pipe fitting; the transverse cutting assembly can cut the pipe when the pipe is clamped by the hydraulic clamp; the bristle thorn component can achieve the function of brushing burrs on the cutting cross section of the pipe fitting, and the phenomenon that burrs on the cutting surface after cutting bring poor quality to the pipe fitting and prevent the burrs from scratching workers is avoided.

Description

All-in-one with crosscut and brush thorn function

Technical Field

The utility model belongs to the technical field of pipe cutting machines, and particularly relates to an integrated machine with functions of transverse cutting and brushing thorn.

Background

The principle of the pipe cutting machine is that through the mutual matching of the air pushing oil type, the electric system controls the motion direction of the air pressure system, the pushing oil way makes linear reciprocating motion, in the reciprocating motion, the signal detected from the limiting of the carriage is used as the basis, and the air oil way motion is controlled and changed, thereby reaching the expected feed route. The automatic pipe cutting machine can automatically clamp materials, feed, set size, stop the machine and measure the work.

The retrieved authorized bulletin number CN215999447U discloses a pipe cutting machine which comprises a workbench, a cutting part, a first driving part, a trimming part and a second driving part; the cutting part is arranged on the workbench, the first driving part is arranged on the cutting part, and the first driving part is used for driving the cutting part to cut the harmonica tube; the trimming part is arranged on the workbench, the trimming part is arranged on one side of the cutting part, the second driving part is arranged on the trimming part, and the second driving part is used for driving the trimming part to trim the orifice of the harmonica tube. According to the utility model, the pipe cutting machine solves the problem that after the harmonica pipe is cut in the prior art, the pipe orifice of the harmonica pipe often generates a burr or tiny deformation, so that subsequent products are not assembled well.

The above utility model also has the following disadvantages: the utility model can only realize transverse cutting of the pipe fitting, but after the pipe fitting is transversely cut, burrs are formed on the cross section of the pipe fitting, the burrs are not beneficial to workers to take and place in production, the burrs can cut workers, and meanwhile, the burrs can influence the quality of the pipe fitting; the automatic feeding of the pipe fitting after cutting cannot be realized, and the pipe fitting needs to be fed manually after each cutting, so that the workload of workers is increased, and time and labor are wasted; therefore, the utility model provides an integrated machine with functions of transverse cutting and brushing thorns, so as to solve the problems.

Disclosure of Invention

The utility model provides an integrated machine with functions of transverse cutting and brushing thorn, and aims to solve the problems set forth in the background art.

The utility model is realized in such a way that the integrated machine with the functions of transverse cutting and brushing thorn comprises a machine case, a feeding component, a transverse cutting component, a hydraulic clamp and a brushing thorn component;

the machine case is horizontally arranged, the machine case is L-shaped and is internally of a hollow structure, a first sliding rail is fixedly arranged in the middle of the top surface of the longer end of the machine case, a second sliding rail and a third sliding rail are fixedly arranged on the top surface of the shorter end of the machine case, the second sliding rail and the third sliding rail are oppositely arranged at intervals, and the second sliding rail and the third sliding rail are positioned on two sides of the first sliding rail and are perpendicular to the first sliding rail;

the feeding assembly is movably arranged on the first sliding rail, the transverse cutting assembly is movably arranged on the second sliding rail, two hydraulic clamps are arranged at intervals, the two hydraulic clamps are arranged between the second sliding rail and the third sliding rail at intervals, the hydraulic clamps are parallel to the second sliding rail, the bristle thorn assembly is movably arranged on the third sliding rail, and the transverse cutting assembly and the bristle thorn assembly are located on the same vertical plane.

Preferably, the feeding assembly comprises a base, the fixed first slider that is equipped with two relative interval distributions in base bottom surface, a plurality of edges are seted up to the top surface of base first slide rail extending direction evenly spaced distribution's constant head tank, first slider with first slide rail assorted and sliding connection, the fixed four pillars that are matrix distribution that are equipped with in base top surface, four the fixed roof that is equipped with in top surface of pillar, the fixed pneumatic cylinder that is equipped with in top surface intermediate position of roof, the pneumatic cylinder flexible end runs through roof and fixed connection clamp plate, four the pillar runs through the clamp plate and with clamp plate sliding connection, the inside pipe fitting that holds of constant head tank.

Preferably, the pipe fitting is any one of a round pipe, a square pipe and a special pipe.

Preferably, the transverse cutting assembly comprises a fixed block, two second sliding blocks which are distributed at intervals are fixedly arranged on the bottom surface of the fixed block, the second sliding blocks are matched with the second sliding rails and are in sliding connection, a cutter head gearbox is fixedly arranged on one side surface of the fixed block, the cutter head gearbox is connected with a first motor, the output end of the first motor is oppositely arranged with the feeding assembly, and a cutting knife is fixedly arranged on the output end of the first motor.

Preferably, the hydraulic clamp is fixedly arranged on the top surface of the chassis, a plurality of positioning grooves which are uniformly distributed at intervals along the extending direction of the hydraulic clamp are formed in a fixing seat of the hydraulic clamp, and the positioning grooves in the feeding assembly are in one-to-one correspondence with and coaxial with the positioning grooves in the hydraulic clamp.

Preferably, the bristle thorn assembly comprises a third sliding block, the third sliding block is matched with the third sliding rail and is in sliding connection, a sliding seat is fixedly arranged on the top surface of the third sliding block, a second motor is fixedly arranged on one side surface of the sliding seat, which is far away from the transverse cutting assembly, and the output end of the second motor penetrates through the sliding seat and is fixedly connected with the brush head.

Preferably, a waste box is arranged below the hydraulic clamp, and a storage groove is fixedly formed in one side, away from the feeding assembly, of the hydraulic clamp.

Compared with the prior art, the utility model has the beneficial effects that: in one form of the present utility model,

1. the pipe fitting cutting machine is provided with a feeding assembly, a pipe fitting to be cut is fed into a positioning groove in the feeding assembly and a positioning groove of a hydraulic clamp, a hydraulic cylinder is started to drive a pressing plate to move downwards along a support, when the pressing plate presses the pipe fitting, the pipe fitting can be firmly fixed in the positioning groove, the hydraulic clamp is started to further clamp a cutting end of the pipe fitting to be cut, a transverse cutting assembly is started to cut the pipe fitting, the hydraulic cylinder is started to drive the pressing plate to move upwards along the support after the completion, a first sliding block drives the feeding assembly to move along a first sliding rail to the opposite direction of the cutting direction, then the hydraulic cylinder is started to drive the pressing plate to move downwards along the support, and when the pressing plate presses the pipe fitting again, the first sliding block drives the feeding assembly to move along the first sliding rail to the cutting direction, so that automatic feeding of the pipe fitting is realized, and time and labor consumption of manual discharging are avoided;

2. the brush bristle assembly is arranged, when the cutting knife transects a pipe fitting to be cut, one hydraulic clamp clamps the pipe fitting which is not cut, the other hydraulic clamp clamps the pipe fitting which is cut, at the moment, the two hydraulic clamps are far away, two cutting surfaces of the pipe fitting are opposite, and when the brush head contacts the two cutting surfaces of the pipe fitting, the two cutting surfaces of the pipe fitting are subjected to deburring, and compared with the prior art, the brush head can perform deburring;

3. the advancing and retreating distance of the feeding component is controllable and is controlled by a program, so that the length of the cut pipe fitting can be adjusted at will, and the precision is good.

Drawings

FIG. 1 is a front perspective view of the overall structure of the present utility model;

FIG. 2 is a rear perspective view of the overall structure of the present utility model;

FIG. 3 is a top view of the overall structure of the present utility model;

FIG. 4 is a rear elevational view of the overall structure of the present utility model;

FIG. 5 is a side view of the overall structure of the present utility model;

FIG. 6 is a perspective view of the feed assembly of the present utility model;

fig. 7 is a front view of a bristle sub-assembly in accordance with the present utility model.

In the figure:

1. a chassis; 11. a first slide rail; 12. a second slide rail; 13. a third slide rail; 14. a waste bin; 15. a storage groove;

2. a feed assembly; 21. a base; 211. a first slider; 212. a positioning groove; 22. a support post; 23. a top plate; 24. a hydraulic cylinder; 25. a pressing plate; 26. a pipe fitting;

3. a crosscut assembly; 31. a fixed block; 311. a second slider; 32. a cutter head gearbox; 33. a first motor; 34. a cutting knife;

4. a hydraulic clamp;

5. a bristle thorn assembly; 51. a third slider; 52. a sliding seat; 53. a second motor; 54. a brush head.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown.

The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 6, the present utility model provides a technical solution: an all-in-one machine with transverse cutting and brushing thorn functions comprises a machine case 1, a feeding assembly 2, a transverse cutting assembly 3, a hydraulic clamp 4 and a brushing thorn assembly 5;

the chassis 1 is horizontally arranged, the chassis 1 is of an L-shaped hollow structure, a first sliding rail 11 is fixedly arranged in the middle of the top surface of the longer end of the chassis 1, a second sliding rail 12 and a third sliding rail 13 are fixedly arranged on the top surface of the shorter end of the chassis 1, the second sliding rail 12 and the third sliding rail 13 are oppositely arranged at intervals, and the second sliding rail 12 and the third sliding rail 13 are positioned on two sides of the first sliding rail 11 and are perpendicular to the first sliding rail 11;

the feeding assembly 2 is movably arranged on the first sliding rail 11, the transverse cutting assembly 3 is movably arranged on the second sliding rail 12, two hydraulic clamps 4 are arranged, the two hydraulic clamps 4 are distributed at intervals relatively, the hydraulic clamps 4 are arranged between the second sliding rail 12 and the third sliding rail 13, the hydraulic clamps 4 are parallel to the second sliding rail 12, the bristle thorn assembly 5 is movably arranged on the third sliding rail 13, and the transverse cutting assembly 3 and the bristle thorn assembly 5 are positioned on the same vertical plane.

In this embodiment, the chassis 1 provides stabilization and support for the entire integrated machine; the feeding component 2 can realize the function of clamping the pipe fitting 26, so that the pipe fitting 26 is prevented from being stressed and shifted to affect the cutting effect when the pipe fitting 26 is cut, the feeding component 2 also plays a role of clamping the pipe fitting 26, then driving the pipe fitting 26 to slide on the first sliding rail 11, realizing the function of driving the pipe fitting 26 to feed, and the feeding is controlled by a program, so that the pipe fitting 26 can be cut to any fixed length, and the cutting precision of the pipe fitting 26 is increased; when the feeding assembly 2 feeds the pipe 26 to the hydraulic clamp 4, the hydraulic clamp 4 is started to clamp the pipe 26; the transverse cutting assembly 3 can cut the pipe fitting 26 when the pipe fitting 26 is clamped by the hydraulic clamp 4; the bristle sub-assembly 5 may perform a bristle function on the cut cross-section of the tube 26.

Referring to fig. 6, the feeding assembly 2 includes a base 21, two first sliding blocks 211 distributed at intervals are fixedly disposed on the bottom surface of the base 21, a plurality of positioning slots 212 distributed at intervals uniformly along the extending direction of the first sliding rail 11 are provided on the top surface of the base 21, the first sliding blocks 211 are matched with the first sliding rail 11 and slidingly connected, four struts 22 distributed in matrix are fixedly disposed on the top surface of the base 21, a top plate 23 is fixedly disposed on the top surface of the four struts 22, a hydraulic cylinder 24 is fixedly disposed in the middle of the top surface of the top plate 23, the telescopic ends of the hydraulic cylinder 24 penetrate through the top plate 23 and are fixedly connected with a pressing plate 25, the four struts 22 penetrate through the pressing plate 25 and are slidingly connected with the pressing plate 25, and a pipe 26 is accommodated in the positioning slots 212.

Further, the pipe 26 is any one of a circular pipe, a square pipe and a special pipe.

In this embodiment, the feeding assembly 2 can realize the function of clamping the pipe 26, so as to avoid the influence of stress displacement of the pipe 26 on the cutting effect, and the feeding assembly 2 also plays a role of clamping the pipe 26 and then driving the pipe 26 to slide on the first slide rail 11, so as to realize the function of driving the pipe 26 to feed. The method is realized specifically as follows: when the pipe fitting 26 is placed in the positioning groove 212, the hydraulic cylinder 24 is started to drive the pressing plate 25 to move downwards along the support column 22, and when the pressing plate 25 presses the pipe fitting 26, the pipe fitting 26 can be firmly fixed in the positioning groove 212, so that the pipe fitting 26 is clamped; when the pipe 26 is clamped in the positioning groove 212, the first slider 211 drives the clamped pipe 26 to move on the first sliding rail 11 toward the transverse cutting assembly 3, so that the cutting feeding of the pipe 26 is realized. The pipe fittings 26 are placed in the inner space of the positioning groove 212, and a plurality of pipe fittings 26 can be placed in a plurality of positioning grooves 212, so that the aim of simultaneously processing a plurality of pipe fittings 26 is fulfilled; the positioning groove 212 may accommodate any one of a circular pipe, a square pipe, and a special pipe according to the shape of the pipe member 26.

Referring to fig. 1, the transverse cutting assembly 3 includes a fixed block 31, two second sliders 311 distributed at intervals are fixed on the bottom surface of the fixed block 31, the second sliders 311 are matched with the second slide rail 12 and slidingly connected, a cutter head gearbox 32 is fixed on one side surface of the fixed block 31, the cutter head gearbox 32 is connected with a first motor 33, the output end of the first motor 33 is opposite to the feeding assembly 2, and a cutter 34 is fixed on the output end of the first motor 33.

In the present embodiment, when the feeding assembly 2 feeds the pipe 26 to the hydraulic clamp 4, the hydraulic clamp 4 starts to clamp one end of the pipe 26, the second slider 311 drives the transverse cutting assembly 3 to move along the second sliding rail 12 towards the pipe 26, and meanwhile, the first motor 33 starts to drive the cutting knife 34 to rotate, so that when the cutting knife 34 contacts the pipe 26, the pipe 26 is cut.

Referring to fig. 1, a hydraulic clamp 4 is fixedly disposed on the top surface of a chassis 1, a plurality of positioning slots 212 are disposed on a fixing seat of the hydraulic clamp 4 and uniformly spaced along an extending direction of the hydraulic clamp 4, and the positioning slots 212 in the feeding assembly 2 are in one-to-one correspondence and coaxial with the positioning slots 212 in the hydraulic clamp 4.

In this embodiment, the hydraulic clamp 4 is composed of a fixed seat and a pneumatic clamping seat, and a positioning groove 212 is formed in the top surface of the fixed seat; when the pipe fitting 26 is cut, the two hydraulic clamps 4 can be closed, the feeding assembly 2 drives the pipe fitting 26 to feed in the cutting direction, the pipe fitting 26 is fed into the positioning grooves 212 of the two hydraulic clamps 4, the two hydraulic clamps 4 are started to clamp the pipe fitting 26, when the cutting end of the pipe fitting 26 is clamped by the hydraulic clamps 4, the cutting knife 34 can cut the pipe fitting 26, the cutting stress of the pipe fitting 26 can be ensured not to shift, the problems of inclination of the cutting surface of the pipe fitting 26 and the like are avoided, and after the cutting knife 34 transversely cuts the pipe fitting 26, one of the two hydraulic clamps 4 clamps the pipe fitting 26 which is not cut, and the other clamps the cut pipe fitting 26; the positioning grooves 212 in the hydraulic clamp 4 and the positioning grooves 212 in the feeding assembly 2 are in one-to-one correspondence, and the corresponding positioning grooves 212 are in coaxial relation, so that the pipe 26 can be ensured to be straight and not bent when clamped.

Referring to fig. 5, the bristle thorn assembly 5 includes a third slider 51, the third slider 51 is matched with and slidingly connected with the third sliding rail 13, a sliding seat 52 is fixedly disposed on a top surface of the third slider 51, a second motor 53 is fixedly disposed on a side surface of the sliding seat 52 away from the transverse cutting assembly 3, and an output end of the second motor 53 penetrates through the sliding seat 52 and is fixedly connected with a brush head 54.

In this embodiment, after the pipe 26 is transected by the cutter 34, one of the two hydraulic clamps 4 clamps the uncut pipe 26, and the other clamps the cut pipe 26, at this time, the two hydraulic clamps 4 are far away, so that the two cutting surfaces of the pipe 26 are opposite, the third slider 51 drives the bristle thorn assembly 5 to move along the third sliding rail 13 toward the two cutting surfaces of the pipe 26, the second motor 53 is started to drive the brush head 54 to rotate, and when the brush head 54 contacts the two cutting surfaces of the pipe 26, the two cutting surfaces of the pipe 26 are brushed.

Referring to fig. 1, a waste bin 14 is disposed below the hydraulic clamp 4, and a receiving slot 15 is fixedly disposed on a side of the hydraulic clamp 4 away from the feeding assembly 2.

In this embodiment, when the pipe 26 is placed, the cross cutting assembly 3 will cross-cut the pipe 26 with the first knife, but the pipe 26 cut by the first knife is not necessarily uniform in length due to the placement factor of the pipe 26, so that the two hydraulic clamps 4 will not be close together but separate when cutting the first knife, and after the first knife is cut, the waste will directly fall into the waste bin 14; when cutting the second sword, two hydraulic clamp 4 can draw close, and two hydraulic clamp 4 are separated after the cutting is accomplished, and brush thorn subassembly 5 can brush the burr, then feed subassembly 2 can take the pipe fitting 26 that does not cut to advance the pipe fitting 26 that finishes with processing and accomodate the inslot 15, realize accomodating of finished piece.

The working principle and the using flow of the utility model are as follows: the pipe 26 to be cut is fed into a positioning groove 212 in the feeding assembly 2 and a positioning groove 212 of one hydraulic clamp 4, one end of the pipe 26 to be cut exceeds the positioning groove 212 of one hydraulic clamp 4, the hydraulic cylinder 24 is started to drive the pressing plate 25 to move downwards along the support column 22, when the pressing plate 25 presses the pipe 26, the pipe 26 is firmly fixed inside the positioning groove 212, the hydraulic clamp 4 is started to further clamp the cutting end of the pipe 26 to be cut, the transverse cutting assembly 3 is started, the second sliding block 311 drives the transverse cutting assembly 3 to move towards the pipe 26 along the second sliding rail 12, meanwhile, the first motor 33 is started to drive the cutting knife 34 to rotate, when the cutting knife 34 contacts the pipe 26, the first knife cuts the pipe 26, and the first knife cuts the pipe 26 to fall into the waste bin 14; then the hydraulic cylinder 24 is started to drive the pressing plate 25 to move upwards along the support 22, the first sliding block 211 drives the feeding assembly 2 to move along the first sliding rail 11 in the opposite direction to the cutting direction, then the hydraulic cylinder 24 is started to drive the pressing plate 25 to move downwards along the support 22, and when the pressing plate 25 presses the pipe 26 again, the first sliding block 211 drives the feeding assembly 2 to move along the first sliding rail 11 in the cutting direction, so that feeding of the pipe 26 is realized; at this time, the two hydraulic clamps 4 can draw close to clamp the pipe 26, the cutting knife 34 can cut the pipe 26, the two hydraulic clamps 4 can be separated after cutting is completed, so that two cutting surfaces of the pipe 26 can be opposite, the third sliding block 51 drives the bristle thorn assembly 5 to move towards the two cutting surfaces of the pipe 26 along the third sliding rail 13, the second motor 53 starts to drive the brush head 54 to rotate, when the brush head 54 contacts the two cutting surfaces of the pipe 26, burrs can be brushed on the two cutting surfaces of the pipe 26, compared with the prior art, the function of brushing burrs can be realized by one brush head 54, then the feeding assembly 2 can realize automatic feeding of the pipe 26 to be cut after feeding the pipe 26 to be cut repeatedly, and the pipe 26 after cutting is completed and the burrs are brushed can be fed and pushed into the storage groove 15 to realize storage.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. An all-in-one with transection and brushing thorn function, its characterized in that: comprises a machine case (1), a feeding component (2), a transverse cutting component (3), a hydraulic clamp (4) and a bristle thorn component (5);

the machine case (1) is horizontally arranged, the machine case (1) is of an L-shaped structure and is internally of a hollow structure, a first sliding rail (11) is fixedly arranged in the middle of the top surface of the longer end of the machine case (1), a second sliding rail (12) and a third sliding rail (13) are fixedly arranged on the top surface of the shorter end of the machine case (1), the second sliding rail (12) and the third sliding rail (13) are oppositely arranged at intervals, and the second sliding rail (12) and the third sliding rail (13) are positioned on two sides of the first sliding rail (11) and are perpendicular to the first sliding rail (11);

the feeding assembly (2) is movably arranged on the first sliding rail (11), the transverse cutting assembly (3) is movably arranged on the second sliding rail (12), two hydraulic clamps (4) are arranged at two positions, which are distributed at intervals, of the hydraulic clamps (4), the hydraulic clamps (4) are arranged between the second sliding rail (12) and the third sliding rail (13), the hydraulic clamps (4) are parallel to the second sliding rail (12), the bristle thorn assembly (5) is movably arranged on the third sliding rail (13), and the transverse cutting assembly (3) and the bristle thorn assembly (5) are arranged on the same vertical plane.

2. An all-in-one machine with cross cutting and bristle punching functions as claimed in claim 1, characterized in that: the feeding assembly (2) comprises a base (21), two first sliding blocks (211) which are distributed at intervals are fixedly arranged on the bottom surface of the base (21), a plurality of positioning grooves (212) which are distributed at intervals uniformly along the extending direction of the first sliding rail (11) are formed in the top surface of the base (21), the first sliding blocks (211) are matched with the first sliding rail (11) and are in sliding connection, four supporting columns (22) which are distributed in a matrix are fixedly arranged on the top surface of the base (21), top plates (23) are fixedly arranged on the top surfaces of the supporting columns (22), hydraulic cylinders (24) are fixedly arranged in the middle of the top surfaces of the top plates (23), telescopic ends of the hydraulic cylinders (24) penetrate through the top plates (23) and are fixedly connected with pressing plates (25), the four supporting columns (22) penetrate through the pressing plates (25) and are in sliding connection with the pressing plates (25), and pipe fittings (26) are contained in the positioning grooves (212).

3. An all-in-one machine with cross cutting and bristle punching functions as claimed in claim 2, characterized in that: the pipe fitting (26) is any one of a round pipe, a square pipe and a special pipe.

4. An all-in-one machine with cross cutting and bristle punching functions as claimed in claim 1, characterized in that: the transverse cutting assembly (3) comprises a fixed block (31), two second sliding blocks (311) which are distributed at intervals are fixedly arranged on the bottom surface of the fixed block (31), the second sliding blocks (311) are matched with the second sliding rails (12) and are in sliding connection, a cutting machine head gearbox (32) is fixedly arranged on one side surface of the fixed block (31), the cutting machine head gearbox (32) is connected with a first motor (33), the output end of the first motor (33) is oppositely arranged with the feeding assembly (2), and a cutting knife (34) is fixedly arranged on the output end of the first motor (33).

5. An all-in-one machine with cross cutting and bristle punching functions as claimed in claim 1, characterized in that: the hydraulic clamp (4) is fixedly arranged on the top surface of the chassis (1), a plurality of positioning grooves (212) which are uniformly distributed at intervals along the extending direction of the hydraulic clamp (4) are formed in a fixed seat of the hydraulic clamp (4), and the positioning grooves (212) in the feeding assembly (2) are in one-to-one correspondence with and coaxial with the positioning grooves (212) in the hydraulic clamp (4).

6. An all-in-one machine with cross cutting and bristle punching functions as claimed in claim 1, characterized in that: the brush thorn subassembly (5) includes third slider (51), third slider (51) with third slide rail (13) assorted and sliding connection, third slider (51) top surface is fixed to be equipped with sliding seat (52), sliding seat (52) are kept away from fixedly on a lateral surface of transection subassembly (3) be equipped with second motor (53), second motor (53) output runs through sliding seat (52) and fixed connection brush head (54).

7. An all-in-one machine with cross cutting and bristle punching functions as claimed in claim 4, wherein: the utility model discloses a feeding device, including feeding component (2), hydraulic clamp (4), waste material case (14) are equipped with below hydraulic clamp (4), hydraulic clamp (4) keep away from one side of feeding component (2) is fixed to be equipped with accomodate groove (15).