CN212239348U

CN212239348U - Angle bar processing agency

Info

Publication number: CN212239348U
Application number: CN202021798814.1U
Authority: CN
Inventors: 顾菁
Original assignee: Jiangsu Sha Zhou Electric Co ltd
Current assignee: Jiangsu Sha Zhou Electric Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-12-29
Anticipated expiration: 2030-08-25

Abstract

The utility model discloses an angle iron machining mechanism, which comprises a frame, a bearing component and a cutting component, wherein the bearing component and the cutting component are arranged on the frame, the bearing component comprises a first base, a positioning block and a bearing block, the positioning block is arranged on the first base, two positioning holes matched with the angle iron are arranged on the positioning block, and two bearing grooves for bearing the angle iron are arranged on the bearing block; the cutting assembly comprises a second base capable of being lifted and arranged on the rack and a cutting block arranged at the bottom of the second base, wherein the bottom of the cutting block is provided with an inward concave bending part, and tool bits are arranged on two sides of the bending part. The angle iron machining mechanism of the utility model has the advantages that by arranging the positioning block and the bearing block, when in machining, the angle iron only needs to sequentially pass through the positioning block and the bearing block and drive the cutting block to press down, so that the angle iron can be cut, and the operation is simple and convenient; two locating holes and two bearing grooves can hold two angle irons simultaneously to the tool bit that forms through the flexion both sides of cutting block is in step processed two angle irons, and machining efficiency is high.

Description

Angle bar processing agency

Technical Field

The utility model relates to an angle bar processing agency.

Background

The angle iron is a long steel bar with two perpendicular sides to form an angle, can be used for forming various stressed members according to different requirements of structures, can also be used as a connecting piece between members, and is widely applied to various building structures and engineering structures.

In the use of the angle iron, the end of one of the two sides of the angle iron needs to be cut off in some cases. At present, an operator usually uses a cutting tool to cut off the angle iron manually, the cutting speed is low, only one angle iron can be machined at a time, and the machining efficiency is low.

Disclosure of Invention

The utility model aims at overcoming the not enough of prior art, provide an angle bar processing agency that can once process two angle bars.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

an angle iron machining mechanism, wherein the angle iron is provided with two side edges which are vertical to each other, the angle iron machining mechanism comprises a frame, a bearing component arranged on the frame, and a cutting component which is arranged on the frame and is positioned above the bearing component in a lifting way,

the bearing assembly comprises a first base, a positioning block and a bearing block, wherein the positioning block and the bearing block are arranged on the first base, two positioning holes matched with the angle irons are formed in the positioning block, and two bearing grooves used for bearing the angle irons are formed in the bearing block;

the cutting assembly comprises a second base and a cutting block, the second base is arranged on the rack in a lifting mode, the cutting block is arranged at the bottom of the second base, the bottom of the cutting block is provided with an inwards concave bent portion, and tool bits are arranged on two sides of the bent portion;

the cutting block is located along the vertical direction projection on the first base is located the bearing block is kept away from one side of locating piece, two angle bars can pass two locating holes and two bearing grooves simultaneously along its axial respectively the suspension in cutting block below, two of flexion both sides the tool bit is located respectively the connecting wire top on the both sides limit of two angle bars and can the matched punching press in two angle bars on.

Preferably, the inner surfaces of the two sides of the bending part can be respectively attached to the upper surfaces of the two sides of the two angle irons which are close to each other.

Preferably, the positioning hole is in a V shape and is matched with two side edges of the angle iron, the bottom surface of the bearing groove is also in a V shape, and the bottom of the positioning hole and the bottom of the bearing groove are located on the same horizontal plane.

Preferably, the two positioning holes on the positioning block, the two bearing grooves on the bearing block and the two tool bits on two sides of the bending portion are symmetrically distributed about a central axis of the angle iron machining mechanism respectively.

Preferably, the bearing component further comprises a first limiting block arranged on the first base and located on one side, away from the positioning block, of the bearing block, and a second limiting block arranged between the first limiting block and the bearing block, the second limiting blocks are symmetrically distributed about the central axis of the angle iron machining mechanism, the first limiting block, the second limiting block and the bearing block enclose a stamping area, and the cutting block can be embedded into the stamping area in a matched mode.

Further preferably, the two second limiting blocks are slidably disposed along a direction approaching or departing from each other.

Still further preferably, the angle iron machining mechanism further comprises a sliding groove arranged along the sliding direction of the second limiting block and a driving assembly used for driving the second limiting block to slide, and a sliding block is arranged at the bottom of the second limiting block and can be clamped and embedded in the sliding groove in a matched mode.

Still further preferably, the angle iron machining mechanism further comprises a fixing bolt which penetrates through the second limiting block in the vertical direction and is used for fixing the second limiting block, and a threaded hole matched with the fixing bolt is formed in the first base.

Further preferably, the angle iron machining mechanism further comprises a guide wheel rotatably arranged between the first limiting block and the second limiting block, the rotating axis of the guide wheel is consistent with the inserting direction of the angle iron, protruding portions are arranged on two sides of the cutting block, and the guide wheel can be matched with the protruding portions to abut against the protruding portions.

Further preferably, the angle iron machining mechanism further comprises a waste bin which is arranged on the rack and located below the stamping area, and the waste bin is communicated with the stamping area.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage: the angle iron machining mechanism of the utility model has the advantages that by arranging the positioning block and the bearing block, when in machining, the angle iron only needs to sequentially pass through the positioning block and the bearing block and drive the cutting block to press down, so that the angle iron can be cut, and the operation is simple and convenient; two locating holes and two bearing grooves can hold two angle irons simultaneously to the tool bit that forms through the flexion both sides of cutting block is in step processed two angle irons, and machining efficiency is high.

Drawings

Fig. 1 is a schematic structural view of an angle iron machining mechanism in an embodiment of the present invention;

FIG. 2 is a schematic top view of a load bearing assembly in an embodiment of the present invention;

fig. 3 is a front view schematically illustrating a carrier block according to an embodiment of the present invention.

In the figure: 1. a frame; 2. a first base; 3. positioning blocks; 31. positioning holes; 4. a bearing block; 41. a bearing groove; 5. a second base; 6. cutting the block; 61. a bending section; 62. a boss portion; 7. a cutter head; 8. a first stopper; 9. a second limiting block; 91. a slider; 10. a punching area; 11. a chute; 12. a drive assembly; 12a, a driving block; 12b, a drive screw; 12c, a nut; 13. fixing the bolt; 14. a guide wheel; 15. a waste bin.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

The utility model relates to an improvement of angle iron processing, an improved angle iron processing mechanism, which is characterized in that the angle iron is cut by only sequentially passing the angle iron through a positioning block and a bearing block and driving a cutting block to press down by arranging the positioning block and the bearing block, and the operation is simple and convenient; two locating holes and two bearing grooves can hold two angle irons simultaneously to the tool bit that forms through the flexion both sides of cutting block is in step processed two angle irons, and machining efficiency is high.

Referring to fig. 1-3, there is shown an angle iron processing mechanism, the angle iron has two sides perpendicular to each other, the angle iron processing mechanism includes a frame 1, a carrying assembly disposed on the frame 1, and a cutting assembly disposed on the frame 1 and located above the carrying assembly and capable of being lifted. The cutting assembly herein may be mounted on any mechanism capable of driving the elevation, such as a ram. In this example, the cutting assembly is mounted on the punch of the press.

The bearing assembly comprises a first base 2, a positioning block 3 and a bearing block 4, the positioning block 3 and the bearing block 4 are arranged on the first base 2, two positioning holes 31 matched with the angle irons are formed in the positioning block 3, and two bearing grooves 41 used for bearing the angle irons are formed in the bearing block 4. Furthermore, the positioning hole 31 is V-shaped and fits with the two side edges of the angle iron, the bottom surface of the bearing groove 41 is also V-shaped, and the bottom of the positioning hole 31 and the bottom of the bearing groove 41 are positioned on the same horizontal plane. Therefore, two angle irons can be simultaneously placed into the corresponding positioning holes 31 and the corresponding bearing grooves 41 for processing, and the angle irons do not need to be manually held for processing.

The cutting assembly comprises a second base 5 which can be lifted and arranged on the rack 1 and a cutting block 6 which is arranged at the bottom of the second base 5, wherein the bottom of the cutting block 6 is provided with an inward concave bending part 61, and a cutter head 7 is formed on two sides of the bending part 61.

The cutting block 6 is located on one side, away from the positioning block 3, of the bearing block 4 along the projection of the vertical direction on the first base 2, the two angle irons can simultaneously penetrate through the two positioning holes 31 and the two bearing grooves 41 along the axial direction of the cutting block respectively and then are suspended below the cutting block 6, and the two tool bits 7 on the two sides of the bending portion 61 are respectively located above connecting lines on the two side edges of the two angle irons and can be stamped on the two angle irons in a matched mode. Therefore, the cutter head 7 is punched on the connecting line of two side edges of the angle iron, and the bending part 61 is punched on the side edge of the angle iron, so that the side edge of the end part of the angle iron is cut off, and the cutting is very efficient.

Preferably, the inner surfaces of the two sides of the bending portion 61 can be respectively attached to the upper surfaces of the two side edges of the two angle irons which are close to each other. Therefore, the bending part 61 can be completely abutted against the side edge of the angle iron and punched downwards, and the cutting effect is ensured.

Further, the two positioning holes 31 on the positioning block 3, the two bearing grooves 41 on the bearing block 4, and the two tool bits 7 on both sides of the bending portion 61 are symmetrically distributed about the central axis of the angle iron machining mechanism, respectively. Under the setting, the same machining size of the two angle irons synchronously machined can be ensured.

The bearing assembly further comprises a first limiting block 8 and a second limiting block 9, the first limiting block 8 is arranged on the first base 2 and located on one side, far away from the positioning block 3, of the bearing block 4, the second limiting block 9 is located between the first limiting block 8 and the bearing block 4, the second limiting block 9 is provided with two limiting blocks and symmetrically distributed about the central axis of the angle iron machining mechanism, the first limiting block 8, the two second limiting blocks 9 and the bearing block 4 enclose a stamping area 10, and the cutting block 6 can be embedded into the stamping area 10 in a matched mode.

In this example, through the setting of first stopper 8 and second stopper 9, can carry out spacing to the length and the width of angle bar, the cutting of supplementary angle bar.

Wherein the two second stoppers 9 are slidably disposed in a direction approaching or separating from each other. Further, angle bar processing agency still includes spout 11 along the slip direction setting of second stopper 9, be used for driving the gliding drive assembly 12 of second stopper 9, wear to locate the fixing bolt 13 that is used for fixed second stopper 9 on the second stopper 9 along vertical direction, and second stopper 9 bottom is equipped with slider 91, and slider 91 can the complex inlay card in spout 11, offers on the first base 2 with fixing bolt 13 matched with screw hole.

Specifically, the driving assembly 12 includes a driving block 12a slidably disposed on a side where the two second stoppers 9 are far away from each other, and a driving screw 12b screwed in the driving block 12a, the driving screw 12b is screwed with two nuts 12c, the two nuts 12c are respectively disposed on two sides of the driving block 12a, and one end of the driving screw 12b is connected to the driving block 12 a. During driving, the nut 12c is unscrewed, then the driving screw 12b is rotated, and the driving screw 12b moves in the driving block 12a to drive the second limiting block 9 to slide; meanwhile, the bottom of the driving block 12a is also provided with a sliding block, and the driving block 12a can be directly moved to drive the second limiting block 9 to slide; after the second limiting block 9 is positioned in place, the nut 12c and the fixing bolt 13 are screwed down, and the second limiting block 9 is fixed.

Through slidable second stopper 9 for the angle bar processing agency of this example can process the angle bar of different width sides, and application scope is wider.

Preferably, the second stopper 9 is provided with an inclined surface, and the outer side edge of the angle iron can be attached to the inclined surface of the second stopper 9.

In this embodiment, the first stopper 8 is detachably mounted on the first base 2 by a bolt, and when the cutting length of the angle iron needs to be changed, the first stopper 8 can be detached and remounted at a position of a larger size away from the bearing block 4.

The angle iron machining mechanism in the embodiment further comprises a guide wheel 14 which is rotatably arranged between the first limiting block 8 and the second limiting block 9, the rotating axis of the guide wheel 14 is consistent with the inserting direction of the angle iron, the two sides of the cutting block 6 are provided with protruding portions 62, and the guide wheel 14 can be matched with the protruding portions 62 in an abutting mode. Therefore, the moving direction of the cutting block 6 can be ensured, and the cutting quality is ensured.

The angle iron machining mechanism further comprises a waste bin 15 which is arranged on the rack 1 and located below the stamping area 10, and the waste bin 15 is communicated with the stamping area 10. Here, the waste bin 15 is used for collecting the waste materials after cutting, and the waste materials directly fall into the waste bin 15 from the stamping area 10 after being cut, so that the cleanness of the processing environment is ensured, and the procedure of cleaning the waste materials at the later stage is also omitted.

The following specifically explains the working process of this embodiment: two angle irons are taken and respectively inserted into the corresponding positioning hole 31 and the corresponding bearing groove 41, the two angle irons are inwards abutted against the first limiting block 8, then the cutting block 6 is driven to move downwards, the tool bits 7 on two sides of the bending part 61 are respectively stamped at the central line positions of the two angle irons, two sides of the inner surface of the bending part 61 are downwards stamped on the inner side edges of the two angle irons, and therefore the cutting of the inner side edges of the two angle irons can be synchronously realized.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides an angle bar processing agency, the angle bar has mutually perpendicular's both sides limit, its characterized in that: the angle iron machining mechanism comprises a frame (1), a bearing component arranged on the frame (1), and a cutting component which is arranged on the frame (1) and is positioned above the bearing component in a lifting way,

the bearing assembly comprises a first base (2), a positioning block (3) and a bearing block (4), wherein the positioning block (3) and the bearing block (4) are arranged on the first base (2), two positioning holes (31) matched with the angle iron are formed in the positioning block (3), and two bearing grooves (41) used for bearing the angle iron are formed in the bearing block (4);

the cutting assembly comprises a second base (5) which is arranged on the rack (1) in a lifting mode and a cutting block (6) which is arranged at the bottom of the second base (5), the bottom of the cutting block (6) is provided with an inward concave bent part (61), and tool bits (7) are formed on two sides of the bent part (61);

cutting block (6) are in along vertical direction projection on first base (2) is located bearing block (4) is kept away from one side of locating piece (3), two angle bar can pass two simultaneously along its axial respectively locating hole (31) and two bearing groove (41) back suspension in cutting block (6) below, two of flexion (61) both sides tool bit (7) are located respectively the connecting wire top on the both sides limit of two angle bars and can the matched punching press in two angle bars on.

2. The angle iron machining mechanism according to claim 1, wherein: the inner surfaces of two sides of the bending part (61) can be respectively attached to the upper surfaces of two sides of the two angle irons which are close to each other.

3. The angle iron machining mechanism according to claim 1, wherein: the positioning hole (31) is V-shaped and matched with the two side edges of the angle iron, the bottom surface of the bearing groove (41) is also V-shaped, and the bottom of the positioning hole (31) and the bottom of the bearing groove (41) are located on the same horizontal plane.

4. The angle iron machining mechanism according to claim 1, wherein: the two positioning holes (31) in the positioning block (3), the two bearing grooves (41) in the bearing block (4) and the two tool bits (7) on two sides of the bending part (61) are symmetrically distributed about the central axis of the angle iron machining mechanism respectively.

5. The angle iron machining mechanism according to claim 1, wherein: the bearing assembly further comprises a first limiting block (8) arranged on the first base (2) and located at one side, far away from the positioning block (3), of the bearing block (4), and a second limiting block (9) located between the first limiting block (8) and the bearing block (4), wherein the second limiting block (9) is provided with two limiting blocks and symmetrically distributed about the central axis of the angle iron machining mechanism, the first limiting block (8) and the two limiting blocks (9) and the bearing block (4) enclose a combined stamping area (10), and the cutting block (6) can be embedded into the stamping area (10) in a matched mode.

6. The angle iron machining mechanism according to claim 5, wherein: the two second limiting blocks (9) are arranged in a slidable manner along the directions close to or far away from each other.

7. The angle iron machining mechanism according to claim 6, wherein: the angle iron machining mechanism further comprises a sliding groove (11) arranged along the sliding direction of the second limiting block (9), and a driving assembly (12) used for driving the second limiting block (9) to slide, a sliding block (91) is arranged at the bottom of the second limiting block (9), and the sliding block (91) can be clamped and embedded in the sliding groove (11) in a matched mode.

8. The angle iron machining mechanism according to claim 6 or 7, wherein: the angle iron machining mechanism further comprises a fixing bolt (13) which penetrates through the second limiting block (9) in the vertical direction and is used for fixing the second limiting block (9), and a threaded hole matched with the fixing bolt (13) is formed in the first base (2).

9. The angle iron machining mechanism according to claim 5, wherein: angle bar processing agency still includes rotatable locating first stopper (8) with leading wheel (14) between second stopper (9), the axis of rotation of leading wheel (14) with the direction of insertion of angle bar is unanimous, cutting piece (6) both sides are equipped with bellying (62), leading wheel (14) can the complex conflict in on bellying (62).

10. The angle iron machining mechanism according to claim 5, wherein: the angle iron machining mechanism further comprises a waste box (15) arranged on the rack (1) and located below the stamping area (10), and the waste box (15) is communicated with the stamping area (10).