CN216780015U

CN216780015U - Angle steel processing equipment

Info

Publication number: CN216780015U
Application number: CN202220362618.2U
Authority: CN
Inventors: 李露
Original assignee: Guangzhou Zhongyi Intelligent Equipment Co ltd
Current assignee: Guangzhou Zhongyi Intelligent Equipment Co ltd
Priority date: 2022-02-23
Filing date: 2022-02-23
Publication date: 2022-06-21
Anticipated expiration: 2032-02-23

Abstract

The utility model provides angle steel processing equipment which comprises a material rack, a machine table, a hydraulic system arranged on the machine table, a feeding and pressing mechanism, a processing machine head and a strip clamping mechanism, wherein the feeding and pressing mechanism is arranged on the machine table; wherein, the work or material rest is used for placing the angle steel of treating the processing, and the work or material rest is equipped with the material loading end, and the board is established and is connected in the material loading end of work or material rest. The processing machine head and the strip clamping mechanism are connected with a hydraulic system; and the feeding and pressing mechanism is arranged close to the feeding end of the material rack, and the processing machine head is arranged between the feeding and pressing mechanism and the strip material clamping mechanism. The angle steel processing equipment disclosed by the utility model can effectively improve the processing stability and the production efficiency and the product yield.

Description

Angle steel processing equipment

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to angle steel processing equipment.

Background

The existing angle steel processing equipment generally has the following defects:

(1) the belt material is unilateral compact structure to the unstable condition appears easily when making the belt material, the finished product error that leads to processing is great, the defective products appears easily.

(2) Pay-off and area material all are by same motor drive to lead to inefficiency, need reserve a section longer length to the length of the last section tails of angle steel moreover, lead to the waste of tails.

(3) Waste materials in the die are not easy to discharge, so that the problem of material blockage is caused, and the production efficiency is low.

The fillet and the right angle of the angle steel need to be processed by two separate processes, so that the labor intensity of workers is high, and the overall production efficiency is low.

Disclosure of Invention

The angle steel processing equipment provided by the utility model has the advantages that the material is effectively saved, the material clamping is avoided, the processing stability is improved, and the production efficiency and the product yield are improved.

The technical scheme adopted by the utility model is as follows: an angle steel processing apparatus, comprising: the device comprises a material rack, a machine table, a feeding and pressing mechanism, a machining head and a strip clamping mechanism, wherein the feeding and pressing mechanism, the machining head and the strip clamping mechanism are arranged on the machine table; the rack is used for placing angle steel to be processed, the rack is provided with a feeding end, and the machine table is connected to the feeding end of the rack; the feeding and pressing mechanism is arranged close to the feeding end of the material rack, and the processing machine head is arranged between the feeding and pressing mechanism and the strip material clamping mechanism;

a feeding rail is connected between one side of the material rack and the machine table, a first feeding roller is mounted on the feeding rail, a second feeding roller is arranged on the machine table, and the second feeding roller is arranged close to the feeding rail;

the feeding and pressing mechanism is arranged between the second feeding roller and the machining head; the feeding and compressing mechanism comprises a feeding motor, a feeding screw rod, a feeding sliding seat and a compressing assembly; the feeding motor is arranged on the machine table, one end of the feeding screw rod is mechanically connected with the feeding motor, and the other end of the feeding screw rod is arranged on the machine table; the machine table is provided with a feeding slide rail, and the feeding slide rail is arranged in parallel with the feeding screw rod; the bottom of the feeding sliding seat is provided with a first lead screw nut which is arranged on the feeding lead screw in a sliding manner; the feeding sliding seat is provided with a first sliding block, and the first sliding block is slidably arranged on the feeding sliding rail;

the pressing assembly comprises a pressing cylinder, a first pressing block and a second pressing block; the feeding sliding seat is provided with an installation plate, the compaction air cylinder is installed on the installation plate, and the first compaction block is installed on a telescopic shaft of the compaction air cylinder; the second pressing block is arranged on the feeding sliding seat and is positioned below the first pressing block.

Furthermore, the angle steel processing equipment also comprises a hydraulic system arranged on the machine table, and the strip clamping mechanism comprises a strip motor, a strip screw rod, a strip sliding seat and a clamping assembly; the belt motor is arranged on the machine table, one end of the belt screw rod is mechanically connected with the belt motor, and the other end of the belt screw rod is arranged on the machine table; the machine table is provided with a strip sliding rail, and the strip sliding rail is arranged in parallel with the strip screw rod; the bottom of the material carrying sliding seat is provided with a second lead screw nut which is arranged on the material carrying lead screw, the material carrying sliding seat is provided with a second sliding block, and the second sliding block is arranged on the material carrying sliding rail in a sliding manner;

the clamping assembly comprises a clamping oil cylinder and a clamp; the belt material sliding seat is provided with a fixed plate, the clamping oil cylinder is installed on the fixed plate and connected with the hydraulic system, and the clamp is installed on a telescopic shaft of the clamping oil cylinder.

Furthermore, the angle steel processing equipment also comprises a hydraulic system arranged on the machine table, and the processing machine head comprises a machine base, a die, a chamfering assembly, a rounding assembly and a cutting assembly; the machine base is arranged on the machine table, the machine base is provided with an installation groove, the die is arranged in the installation groove in a 45-degree rotating mode, and the die is provided with a V-shaped processing groove for placing angle steel to be processed;

the base is provided with a cover plate, the cover plate covers the mounting groove, and the cover plate comprises a first side plate, a second side plate and a top plate connected between the first side plate and the second side plate; the top plate is positioned right above the mounting groove, and the first side plate and the second side plate are both positioned above the mounting groove; the frame is equipped with feed end and discharge end, the chamfer subassembly install in first curb plate, the fillet subassembly install in the second curb plate, cut off the unit mount in the roof, just the right angle subassembly the fillet subassembly and cut off the subassembly and all locate the discharge end of frame.

Further, the chamfering assembly comprises a chamfering oil cylinder and a chamfering knife; the inverted right-angle oil cylinder is mounted on the first side plate and connected with the hydraulic system, and a telescopic shaft of the inverted right-angle oil cylinder penetrates through the first side plate and is located in the mounting groove; one end of the chamfering knife is connected with the telescopic shaft of the chamfering oil cylinder, and the other end of the chamfering knife penetrates through the die and extends into the processing groove.

Further, the rounding component comprises a rounding oil cylinder and a rounding knife; the fillet oil cylinder is arranged on the second side plate and is connected with the hydraulic system, and a telescopic shaft of the fillet oil cylinder penetrates through the second side plate and is positioned in the mounting groove; and one end of the chamfering knife is connected with the telescopic shaft of the chamfering oil cylinder, and the other end of the chamfering knife penetrates through the die and extends into the processing groove.

Further, the cutting assembly comprises a cutting oil cylinder and a cutting knife; the cutting oil cylinder is arranged on the top plate and connected with the hydraulic system, and a telescopic shaft of the cutting oil cylinder penetrates through the top plate and is positioned in the mounting groove; the cutting knife is connected with the telescopic shaft of the cutting oil cylinder and is arranged close to the die.

Furthermore, the processing machine head also comprises a small hole punching assembly, a replacing and pressing assembly and a waist hole punching assembly; the small hole punching component is arranged on the first side plate, the waist hole punching component is arranged on the second side plate, the replacing and pressing component is arranged on the top plate, and the small hole punching component, the replacing and pressing component and the waist hole punching component are arranged at the feed end of the base.

Further, the small hole punching assembly comprises a small hole punching oil cylinder and a small hole punching needle; the small hole punching oil cylinder is arranged on the first side plate and connected with the hydraulic system, and a telescopic shaft of the small hole punching oil cylinder penetrates through the first side plate and is positioned in the mounting groove; one end of the small hole punching needle is connected with a telescopic shaft of the small hole punching oil cylinder, and the other end of the small hole punching needle penetrates through the die and extends into the processing groove.

Further, the waist hole punching assembly comprises a waist hole punching oil cylinder and a waist hole punching needle; the waist hole punching oil cylinder is arranged on the second side plate and is connected with the hydraulic system, and a telescopic shaft of the waist hole punching oil cylinder penetrates through the second side plate and is positioned in the mounting groove; one end of the waist hole punching needle is connected with a telescopic shaft of the waist hole punching oil cylinder, and the other end of the waist hole punching needle penetrates through the die and extends into the processing groove.

Further, the replacement pressing assembly comprises a replacement pressing air cylinder and a replacement pressing block; the replacing compaction air cylinder is arranged on the top plate, and a telescopic shaft of the replacing compaction air cylinder penetrates through the top plate and is positioned in the mounting groove; one end of the replacing pressing block is connected with the extending shaft of the replacing pressing cylinder, and the other end of the replacing pressing block penetrates through the die and extends into the processing groove.

Compared with the prior art, the angle steel processing equipment has the advantages that the feeding pressing mechanism is provided with the pressing cylinder to be connected with the first pressing block, and the second pressing block is arranged below the first pressing block; the first pressing block is driven to press down by the pressing cylinder, so that the angle steel is pressed between the bottom pressing block and the second pressing block, bilateral pressing is achieved, the angle steel can be stably and firmly conveyed, and productivity is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings, there is shown in the drawings,

FIG. 1: the utility model relates to a perspective view of angle steel processing equipment;

FIG. 2: FIG. 1 is a partial enlarged view;

FIG. 3: another perspective view of the angle steel processing equipment of the utility model;

FIG. 4 is a schematic view of: FIG. 3 is a partial enlarged view

FIG. 5: the utility model is a three-dimensional view of a processing machine head;

FIG. 6: another perspective view of the processing head of the present invention;

FIG. 7: the utility model discloses a structural schematic diagram of a finished angle steel product.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

As shown in fig. 1 to 4, the angle steel processing equipment of the present invention includes a material rack 1, a machine table 2, a hydraulic system installed on the machine table 2, a feeding and pressing mechanism, a processing machine head, and a strip clamping mechanism; wherein, work or material rest 1 is used for placing the angle steel of treating processing, and work or material rest 1 is equipped with material loading end 101, and board 2 establishes the material loading end 101 of connecting in work or material rest 1. The processing machine head and the strip clamping mechanism are connected with a hydraulic system; and the feeding and pressing mechanism is arranged close to the feeding end 101 of the material rack 1, and the processing machine head is arranged between the feeding and pressing mechanism and the strip material clamping mechanism.

Specifically, as shown in fig. 5 and 6, the processing head includes a base 3, a die 4, a chamfering assembly, a rounding assembly, and a cutting assembly. Wherein, frame 3 is installed in board 2, and frame 3 is equipped with

mounting groove

301, and 4 rotatory 45 of mould are installed in mounting groove 301 to outside making the waste material after the processing can discharge mould 4 well, effectively avoid appearing the condition of card material, improve production efficiency. The die 4 is provided with a processing groove 401 in a V shape for placing the angle steel to be processed.

The base 3 is provided with a cover plate, the cover plate covers the mounting groove 301, and the cover plate comprises a first side plate 5, a second side plate 6 and a top plate 7 connected between the first side plate 5 and the second side plate 6. Wherein, the top plate 7 is located right above the mounting groove 301, and the first side plate 5 and the second side plate 6 are both located above the mounting groove 301. The frame 3 is equipped with feed end 302 and discharge end 303, and the corner rounding subassembly is installed in first curb plate 5, and the corner rounding subassembly is installed in second curb plate 6, cuts off the unit mount in roof 7, and the discharge end 303 of frame 3 is all located to right angle subassembly, corner rounding subassembly and cut off the subassembly.

The chamfering component comprises a chamfering oil cylinder 8 and a chamfering knife 9; wherein, the inverted right angle oil cylinder 8 is installed on the first side plate 5, and the telescopic shaft of the inverted right angle oil cylinder 8 passes through the first side plate 5 and is located in the installation groove 301. One end of the chamfering blade 9 is connected to the telescopic shaft of the chamfering cylinder 8, and the other end thereof passes through the die 4 and extends into the processing tank 401 to process a right angle on the angle steel (see fig. 7).

The fillet component comprises a fillet oil cylinder 10 and a fillet knife 11; wherein, the radius oil cylinder 10 is installed on the second side plate 6, and the telescopic shaft of the radius oil cylinder 10 passes through the second side plate 6 and is located in the installation groove 301. One end of the chamfering blade 11 is connected to the telescopic shaft of the chamfering cylinder 10, and the other end thereof passes through the die 4 and extends into the processing groove 401 to process a fillet on the angle steel (see fig. 7).

The cutting assembly comprises a cutting oil cylinder 12 and a cutting knife 13; wherein, the cutting oil cylinder 12 is installed on the top plate 7, and the telescopic shaft of the cutting oil cylinder 12 passes through the top plate 7 and is positioned in the installation groove 301. The cutting blade 13 is connected to an extension shaft of the cutting cylinder 12, and is disposed in close contact with the die 4 to cut the processed angle iron (see fig. 7).

As shown in fig. 5, further, the machining head further comprises a small hole punching assembly, a replacement pressing assembly and a waist hole punching assembly; wherein, the aperture punching component is installed in first curb plate 5, and waist hole punching component is installed in second curb plate 6, and the replacement compresses tightly the subassembly and installs in roof 7, and aperture punching component, replacement compress tightly subassembly and waist hole punching component and all locate the feed end 302 of frame 3.

The small hole punching component comprises a small hole punching oil cylinder 14 and a small hole punching needle 15; the small hole punching oil cylinder 14 is mounted on the first side plate 5, and a telescopic shaft of the small hole punching oil cylinder 14 penetrates through the first side plate 5 and is located in the mounting groove 301. One end of the small hole punching needle 15 is connected with the telescopic shaft of the small hole punching oil cylinder 14, and the other end of the small hole punching needle passes through the die 4 and extends into the processing groove 401 to process a small hole on the angle steel (see fig. 7).

The waist hole punching component comprises a waist hole punching oil cylinder 16 and a waist hole punching needle 17; the waist hole punching oil cylinder 16 is mounted on the second side plate 6, and a telescopic shaft of the waist hole punching oil cylinder 16 penetrates through the second side plate 6 and is located in the mounting groove 301. One end of the waist hole punching needle 17 is connected with the telescopic shaft of the waist hole punching oil cylinder 16, and the other end passes through the die 4 and extends into the processing groove 401 to process a waist hole on the angle steel (see fig. 7).

The replacement pressing assembly comprises a replacement pressing air cylinder 18 and a replacement pressing block 19; wherein, the replacement pressing cylinder 18 is installed on the top plate 7, and the telescopic shaft of the replacement pressing cylinder 18 penetrates through the top plate 7 and is positioned in the installation groove 301. One end of the replacing and pressing block 19 is connected with an extending shaft of the replacing and pressing cylinder 18, and the other end of the replacing and pressing block penetrates through the die 4 and extends into the processing groove 401 to press the angle steel; the angle steel is more reasonable in compression position and better in compression effect, the angle steel is effectively prevented from shifting in the processing (such as punching and chamfering) process, the processing precision is improved, and the product yield is improved. Meanwhile, the processing length of the last section of angle steel is shortened, materials are effectively saved, and waste is avoided.

As shown in fig. 1 and 2, a feeding rail 20 is connected between one side of the rack 1 and the machine table 2, and a plurality of V-shaped first feeding rollers 21 are installed on the feeding rail 20 at intervals for conveying the angle steel to be processed on the rack 1 to the feeding and pressing mechanism. A V-shaped second feeding roller 22 is arranged on the machine table 2, and the second feeding roller 22 is arranged close to the feeding rail 20.

The feeding and pressing mechanism is arranged between the second feeding roller 22 and the feeding end 302. The feeding and pressing mechanism comprises a feeding motor 23, a feeding screw rod 24, a feeding sliding seat 25 and a pressing assembly; wherein, the feeding motor 23 is installed on the machine table 2 through the installation seat, one end of the feeding screw rod 24 is mechanically connected with the feeding motor 23, and the other end is installed on the machine table 2 through the fixing block. The machine table 2 is provided with a feeding slide rail 26, and the feeding slide rail 26 is arranged in parallel with the feeding screw rod 24. The bottom of the feeding sliding seat 25 is provided with a first screw rod nut 27 which is arranged on the feeding screw rod 24 in a sliding way; and the feeding sliding seat 25 is provided with a first sliding block 28, and the first sliding block 28 is slidably arranged on the feeding sliding rail 26.

The pressing assembly comprises a pressing cylinder 29, a first pressing block 30 and a second pressing block 31; the feeding sliding seat 25 is provided with a mounting plate 32, the pressing cylinder 29 is mounted on the mounting plate 32, and the first pressing block 30 is mounted on a telescopic shaft of the pressing cylinder 29. The second pressing block 31 is mounted on the feeding sliding seat 25, and the second pressing block 31 is located below the first pressing block 30.

During feeding, firstly, the angle steel to be processed is conveyed to the pressing assembly through the plurality of first feeding rollers and the second feeding rollers of the feeding rail 20 and penetrates through the space between the first pressing block 30 and the second pressing block 31; the pressing cylinder 29 drives the first pressing block 30 to press downwards, so that the angle steel is pressed, the angle steel can be stably and firmly conveyed, and the production efficiency is improved;

then, the feeding screw rod 24 is driven to rotate by the feeding motor 23, so that the first screw rod nut 27 drives the feeding sliding seat 25 to slide along the feeding sliding rail 26, and the angle steel to be processed is pulled and conveyed into the processing groove 401 for processing;

after the operation is finished, the pressing cylinder 29 retracts, the angle steel is loosened, the feeding motor 23 drives the feeding sliding seat 25 to reset, the pressing component is driven to reset, and the actions are repeated, so that automatic feeding is realized, and the production efficiency is improved.

As shown in fig. 3 and 4, the strip clamping machine is arranged at the discharge end 303, and the strip clamping mechanism comprises a strip motor 33, a strip screw 34, a strip sliding seat 35 and a clamping assembly; wherein, take material motor 33 to install on board 2 through the fixing base, take material lead screw 34's one end and take material motor 33 mechanical connection, the other end is installed in board 2. The machine platform 2 is provided with a strip sliding rail 36, and the strip sliding rail 36 is arranged in parallel with the strip screw rod 34. The bottom of the material-carrying sliding seat 35 is provided with a second lead screw nut 37, the second lead screw nut 37 is arranged on the material-carrying lead screw 34, the material-carrying sliding seat 35 is provided with a second sliding block 38, and the second sliding block 38 is slidably arranged on the material-carrying sliding rail 36.

The clamping assembly comprises a clamping oil cylinder 39 and a clamp 40; wherein, the strip sliding seat 35 is provided with a fixing plate 43, the clamping cylinder 39 is mounted on the fixing plate 43, and the clamp 40 is mounted on the telescopic shaft of the clamping cylinder 39 for clamping the processed angle steel.

When the strip is carried, firstly, the clamping oil cylinder 39 drives the clamp 40 to clamp the angle steel, and then the strip motor 33 drives the strip lead screw 34 to rotate, so that the second lead screw nut 37 drives the strip sliding seat 35 to slide along the strip sliding rail 36, the clamping assembly is driven to slide, automatic strip is realized, and the production efficiency is effectively improved.

The hydraulic system comprises a hydraulic motor 41 and a hydraulic pump 42; the hydraulic pump 42 is connected to the hydraulic motor 41, and the hydraulic pump 42 is driven by the hydraulic motor 41. The hydraulic pump 42 is connected with the chamfering oil cylinder 8, the chamfering oil cylinder 10, the cutting oil cylinder 12, the small hole punching oil cylinder 14, the waist hole punching oil cylinder 16 and the clamping oil cylinder 39, and the hydraulic motor 41 drives the hydraulic pump 42 to supply oil to the chamfering oil cylinder 8, the chamfering oil cylinder 10, the cutting oil cylinder 12, the small hole punching oil cylinder 14, the waist hole punching oil cylinder 16 and the clamping oil cylinder 39.

In conclusion, the angle steel processing equipment disclosed by the utility model has the following advantages:

1. a pressing cylinder 29 is arranged to be connected with a first pressing block 30, and a second pressing block 31 is arranged below the first pressing block 30; the first pressing block 30 is driven to press downwards by the pressing cylinder 29, so that the angle steel is pressed between the first pressing block 30 and the second pressing block 31, bilateral pressing is achieved, the angle steel can be stably and firmly conveyed, and productivity is improved.

2. The feeding motor 23 is arranged at the feeding end 302 of the machining head for feeding, and the material-carrying motor 33 is arranged at the discharging end 303 of the machining head for carrying out material carrying, so that the production efficiency is effectively improved, the length of the last section of tailing is effectively shortened, and materials are saved.

3. Install in mounting groove 301 through rotating 45 with mould 4 to make the waste material after the processing effectively avoid appearing the condition of card material outside can discharging mould 4 well, improve production efficiency.

4. Through set up the replacement in the processing aircraft nose and compress tightly the subassembly for the replacement compresses tightly the position and is located mould 4, and it is more reasonable to compress tightly the position, and it is better to compress tightly the effect, effectively improves the machining precision, shortens the workable length of last section tails, save material.

5. Through set up chamfer subassembly and radius angle subassembly on processing machine head to effectively be in the same place twice process integration, effectively reduce workman intensity of labour, improve whole production efficiency.

Any combination of the various embodiments of the present invention should be considered as disclosed in the present invention, unless the inventive concept is contrary to the present invention; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical solution without departing from the inventive idea of the present invention shall fall within the protection scope of the present invention.

Claims

1. The utility model provides an angle steel processing equipment which characterized in that includes: the device comprises a material rack, a machine table, a feeding and pressing mechanism, a machining head and a strip clamping mechanism, wherein the feeding and pressing mechanism, the machining head and the strip clamping mechanism are arranged on the machine table; the rack is used for placing angle steel to be processed, the rack is provided with a feeding end, and the machine table is connected to the feeding end of the rack; the feeding and pressing mechanism is arranged close to the feeding end of the material rack, and the processing machine head is arranged between the feeding and pressing mechanism and the strip material clamping mechanism;

2. The angle steel processing equipment of claim 1, characterized in that: the angle steel processing equipment further comprises a hydraulic system arranged on the machine table, and the strip clamping mechanism comprises a strip motor, a strip lead screw, a strip sliding seat and a clamping assembly; the belt motor is arranged on the machine table, one end of the belt screw rod is mechanically connected with the belt motor, and the other end of the belt screw rod is arranged on the machine table; the machine table is provided with a strip sliding rail, and the strip sliding rail is arranged in parallel with the strip screw rod; the bottom of the material-carrying sliding seat is provided with a second lead screw nut which is arranged on the material-carrying lead screw, and the material-carrying sliding seat is provided with a second sliding block which is arranged on the material-carrying sliding rail in a sliding manner;

3. The angle steel processing equipment of claim 1, characterized in that: the angle steel processing equipment further comprises a hydraulic system arranged on the machine table, and the processing machine head comprises a machine base, a die, a chamfering assembly, a rounding assembly and a cutting assembly; the machine base is arranged on the machine table, the machine base is provided with an installation groove, the die is arranged in the installation groove in a 45-degree rotating mode, and the die is provided with a V-shaped processing groove for placing angle steel to be processed;

4. The angle steel processing apparatus of claim 3, wherein: the chamfering assembly comprises a chamfering oil cylinder and a chamfering knife; the inverted right-angle oil cylinder is mounted on the first side plate and connected with the hydraulic system, and a telescopic shaft of the inverted right-angle oil cylinder penetrates through the first side plate and is located in the mounting groove; one end of the chamfering knife is connected with the telescopic shaft of the chamfering oil cylinder, and the other end of the chamfering knife penetrates through the die and extends into the processing groove.

5. The angle steel processing apparatus of claim 3, wherein: the rounding component comprises a rounding oil cylinder and a rounding knife; the fillet oil cylinder is arranged on the second side plate and is connected with the hydraulic system, and a telescopic shaft of the fillet oil cylinder penetrates through the second side plate and is positioned in the mounting groove; and one end of the chamfering knife is connected with the telescopic shaft of the chamfering oil cylinder, and the other end of the chamfering knife penetrates through the die and extends into the processing groove.

6. The angle steel processing equipment of claim 3, characterized in that: the cutting-off assembly comprises a cutting-off oil cylinder and a cutting-off cutter; the cutting oil cylinder is arranged on the top plate and connected with the hydraulic system, and a telescopic shaft of the cutting oil cylinder penetrates through the top plate and is positioned in the mounting groove; the cutting knife is connected with a telescopic shaft of the cutting oil cylinder and is arranged close to the die.

7. The angle steel processing equipment of claim 3, characterized in that: the processing machine head also comprises a small hole punching assembly, a replacing and pressing assembly and a waist hole punching assembly; the small hole punching component is arranged on the first side plate, the waist hole punching component is arranged on the second side plate, the replacing and pressing component is arranged on the top plate, and the small hole punching component, the replacing and pressing component and the waist hole punching component are arranged at the feed end of the base.

8. The angle steel processing equipment of claim 7, characterized in that: the small hole punching component comprises a small hole punching oil cylinder and a small hole punching needle; the small hole punching oil cylinder is arranged on the first side plate and connected with the hydraulic system, and a telescopic shaft of the small hole punching oil cylinder penetrates through the first side plate and is positioned in the mounting groove; one end of the small hole punching needle is connected with a telescopic shaft of the small hole punching oil cylinder, and the other end of the small hole punching needle penetrates through the die and extends into the processing groove.

9. The angle steel processing equipment of claim 7, characterized in that: the waist hole punching component comprises a waist hole punching oil cylinder and a waist hole punching needle; the waist hole punching oil cylinder is arranged on the second side plate and is connected with the hydraulic system, and a telescopic shaft of the waist hole punching oil cylinder penetrates through the second side plate and is positioned in the mounting groove; one end of the waist hole punching needle is connected with a telescopic shaft of the waist hole punching oil cylinder, and the other end of the waist hole punching needle penetrates through the die and extends into the processing groove.

10. The angle steel processing equipment of claim 7, characterized in that: the replacing and pressing assembly comprises a replacing and pressing cylinder and a replacing and pressing block; the replacing compaction air cylinder is arranged on the top plate, and a telescopic shaft of the replacing compaction air cylinder penetrates through the top plate and is positioned in the mounting groove; one end of the replacing pressing block is connected with the extending shaft of the replacing pressing cylinder, and the other end of the replacing pressing block penetrates through the die and extends into the processing groove.