CN215509527U - Section steel processing host computer - Google Patents

Abstract

The utility model discloses a section steel processing host, which comprises a base bracket and is characterized in that: the base support is provided with a feed hole for a workpiece to pass through, the base support is provided with at least one set of sliding table mechanism on the side of the feed hole, the sliding table mechanism comprises a sliding table A, a sliding table B which is arranged on a sliding plate of the sliding table A and is vertical to the sliding table A, a sliding table C which is arranged on a sliding plate of the sliding table B and is vertical to the sliding table B, a cutting mechanism is arranged on a sliding plate of the sliding table C, and the cutting mechanism is a laser cutting mechanism or a plasma cutting mechanism or a flame cutting mechanism. The utility model has simple structure, can integrate hole processing, corner and limb cutting processing and cutting processing on one processing host machine, reduces the production cost, reduces the occupied area and improves the production efficiency.

Description

Section steel processing host computer

Technical Field

The utility model relates to a section steel processing host machine, and belongs to the technical field of section steel processing.

Background

In the prior art, section steel (angle steel, H-shaped steel, channel steel and steel plates) is often required to be processed by punching, typing, shearing and the like. When the existing section steel processing equipment is used for processing section steel, different processing equipment or processing units are generally needed for processing, such as punching by a hydraulic press, typing by a hydraulic typewriter, and shearing by a hydraulic shearing machine. The existing section steel processing equipment has the defects of complex structure, high equipment cost and the like: when a hydraulic typewriter is used for typing, the character heads need to be manually arranged according to different typing requirements, so that time and labor are wasted; when the hydraulic press is used for punching, different processing apertures need to correspond to different punches, the punches need to be replaced manually, the replacement is complex, the punches need to accurately correspond to corresponding female dies, and otherwise waste products can be processed; when a hydraulic shearing machine is used for cutting limbs and corners of the angle steel, corresponding corner cutters and limb cutters need to be manufactured when the shearing angles are different and the limb cutting lengths are different, and when the relevant size of the limb cutting and corner cutting is changed greatly, relevant parts of the adopted corner cutting and limb cutting die also need to be specially manufactured, so that time and labor are wasted, and the production cost is increased; when the angle steel is cut by adopting a hydraulic cutting machine, cutting waste materials can be generated, materials are wasted, and the production cost is increased.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the section steel processing main machine which is simple in structure, low in cost and convenient to process.

The utility model is realized by the following technical scheme: the utility model provides a shaped steel processing host computer, includes base support, characterized by: the base support is provided with a feed hole for a workpiece to pass through, the base support is provided with at least one set of sliding table mechanism on the side of the feed hole, the sliding table mechanism comprises a sliding table A, a sliding table B which is arranged on a sliding plate of the sliding table A and is vertical to the sliding table A, a sliding table C which is arranged on a sliding plate of the sliding table B and is vertical to the sliding table B, a cutting mechanism is arranged on a sliding plate of the sliding table C, and the cutting mechanism is a laser cutting mechanism or a plasma cutting mechanism or a flame cutting mechanism.

When the automatic cutting machine works, a workpiece to be machined is clamped by the feeding device and is fed to a position to be machined at the feeding hole, the cutting mechanism can be driven to move through the sliding table mechanism, and when the automatic cutting machine reaches the machining position, the workpiece can be machined through lettering, hole cutting, cutting and the like.

Furthermore, the sliding table mechanisms are symmetrically arranged in two sets. The structure is convenient for processing workpieces such as angle steel, channel steel and the like, and two processing surfaces of the workpieces are processed independently or simultaneously under the condition of one-time positioning of the workpieces.

Furthermore, a height adjuster is arranged on a sliding plate of the sliding table C, and the cutting mechanism is movably connected to the height adjuster. Through setting up cutting mechanism on the increaser, height between steerable cutting head and the work piece to avoid leading to cutting head and work piece to bump because of work piece surface unevenness, damage equipment.

Further, one side of the base support is fixedly provided with a slide carriage, the slide carriage is provided with a feed hole corresponding to the feed hole on the base support, and the sliding table mechanism is arranged on the slide carriage and is positioned on the side of the feed hole on the slide carriage.

Further, one side of base support is provided with rotatable carriage apron, on the carriage apron correspond to the feed port on the base support also is provided with the feed port, slip table mechanism sets up on the carriage apron and be located the side of the feed port on the carriage apron. The slide carriage can drive the sliding table mechanism and the cutting mechanism on the slide carriage to rotate together when rotating, thereby being convenient for processing different positions of the workpiece.

Furthermore, a rotatable large gear is arranged on the base support corresponding to the feeding hole on the base support, the slide carriage is fixedly connected to the end portion of the large gear, the large gear is meshed with a driving gear, and the driving gear is connected with a power mechanism arranged on the base support. The driving gear drives the driving gear to rotate through the power mechanism, and the driving gear drives the large gear to rotate through meshing with the large gear, so that the slide carriage connected with the large gear is driven to rotate.

Furthermore, two sliding tables C are arranged on the sliding plate of the sliding table B, and the cutting mechanisms are arranged on the sliding plates of the two sliding tables C. When the workpiece is large, because the power required by the processes of lettering, hole cutting and the like is different, the cutting mechanisms can be respectively arranged on the two sliding tables C according to the needs, and the two cutting mechanisms can respectively cut and lettering the workpiece.

The utility model has the beneficial effects that: the utility model has simple structure, adopts the laser cutting mechanism or the plasma cutting mechanism or the flame cutting mechanism as the cutting mechanism, and can conveniently carry out processing such as lettering, hole cutting, corner cutting, limb cutting, cutting off and the like on the workpiece. When the workpiece is engraved, numerous headers do not need to be manufactured, and the headers do not need to be manually arranged according to requirements, so that the production cost is reduced, and the processing flexibility is improved. When the workpiece is subjected to hole cutting, corner cutting, limb cutting and cutting processing, a plurality of punch female dies do not need to be manufactured according to the aperture, so that the production cost is saved, and the production efficiency is improved. The utility model can integrate hole processing, corner and limb cutting processing and cutting processing on one processing host machine, saves the limb and limb cutting host machine and the cutting host machine in the existing section steel processing equipment, reduces the production cost, reduces the occupied area and improves the production efficiency.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of FIG. 2;

FIG. 4 is a schematic left side view of FIG. 2;

FIG. 5 is a schematic right-side view of FIG. 2;

FIG. 6 is a schematic view of a slide table according to the present invention;

FIG. 7 is another schematic structural view of the present invention;

in the figure, the device comprises a base support 1, a base support 2, a slide carriage 3, sliding tables A, 4, sliding tables B, 5, sliding tables C,6, a height adjuster 7, a laser cutting head 8, a feeding hole 9, a workpiece 10, a driving gear 11, a gearwheel 12, sliding table bases 13, bearing seats 14, a servo motor mounting plate 15, a servo motor 16, a coupler 17, a screw rod 18, a sliding plate 19, bearing seats 20, a servo motor 21 and a reduction gearbox.

Detailed Description

The utility model will now be further illustrated by way of non-limiting examples in conjunction with the accompanying drawings:

as shown in the accompanying drawings, a shaped steel processing host computer, including base support 1, be provided with the feed port 8 that supplies the work piece to pass through on the base support 1, base support 1 is last feed port 8's side is provided with one set at least slip table mechanism, slip table mechanism includes slip table A3, sets up on slip table A3's slide and with slip table A3 looks vertically slip table B4, set up on slip table B4's slide and with slip table B4 looks vertically slip table C5, be provided with cutting mechanism on slip table C5's the slide, cutting mechanism is laser cutting mechanism or plasma cutting mechanism or flame cutting mechanism. The laser cutting mechanism, the plasma cutting mechanism and the flame cutting mechanism are all in the prior art.

As shown in fig. 6, the structures of the sliding table a, the sliding table B and the sliding table C in the present invention are the same, and each of the sliding table a, the sliding table B and the sliding table C includes a sliding table base 12, a lead screw 17 and a servo motor 15, two ends of the lead screw 17 are mounted on the sliding table base 12 through a bearing seat 13 and a bearing seat 19, the servo motor 15 is mounted on the sliding table base 12 through a servo motor mounting plate 14, a motor shaft of the servo motor 15 is connected with one end of the lead screw 17 through a coupler 16, and a sliding plate 18 is connected with the lead screw 17 through a nut in a matching manner. The slide plate 18 is driven by the lead screw 17 and the servo motor 15 to reciprocate.

In this embodiment, angle steel is processed as an example, the cutting mechanism is a laser cutting mechanism, and the laser cutting mechanism is in the prior art, and a laser cutting head 7 is used for processing a workpiece. In order to process two limb edges of the angle steel conveniently, one side of the base support 1 is provided with a rotatable slide carriage 2 in the embodiment, the slide carriage 2 is provided with a feeding hole 8 corresponding to the feeding hole on the base support 1, the slide carriage 2 is provided with a set of sliding table mechanism, and the sliding table mechanism is positioned on the side of the feeding hole 8. The mechanism for driving the slide carriage 2 to rotate can adopt any structure in the prior art, for example, a cylinder or an oil cylinder can provide the rotating power, and a gear driving mechanism is adopted in the embodiment. The gear driving mechanism comprises a large gear 11, a driving gear 10, a reduction box 21 connected with the driving gear 10 and a servo motor 20. The bull gear 11 corresponds to the feed port 8 on the base support 1 and rotationally installs on the base support 1 through slewing bearing, and the carriage 2 is fixed connection in the tip of bull gear 11, and reducing gear box 21 and servo motor 20 fixed mounting are on base support 1, and drive gear 10 meshes with bull gear 11 mutually.

In order to avoid collision of the laser cutting head 7 with the workpiece in consideration of unevenness of the machined surface of the workpiece, an increaser 6 is connected to the slide plate of the slide table C5 in the present embodiment, and the laser cutting head 7 is movably connected to the increaser 6. The height adjuster 6 is a conventional art, which can be obtained from market procurement, for example, the height adjuster of Wanshunxing technology Limited, Shenzhen city can be adopted.

When the angle steel cutting machine works, a workpiece to be machined enters a position to be machined of the machining host machine through the feeding hole, the control device controls the servo motor 20 to drive the slide carriage 2 to rotate, the laser cutting head 7 is driven to reach the position above one limb of the angle steel to be cut, the laser cutting head 7 is made to be vertical to each limb of the angle steel, then the sliding table A3, the sliding table B4 and the sliding table C5 are matched with each other, the laser cutting head 7 is driven to reach the machining position under the drive of each servo motor and the lead screw, the heightening device 6 is matched to perform machining such as character carving, hole cutting, corner cutting, limb cutting and cutting on the angle steel, and after one limb of the angle steel is machined, the other limb of the angle steel is machined.

The cutting mechanism in the above embodiments may also be a plasma cutting mechanism or a flame cutting mechanism.

In the above embodiment, in order to process different limbs or different positions of the angle steel, the sliding table mechanism is arranged on the rotatable slide carriage 2, and the sliding table mechanism and the cutting mechanism are driven to reach the position to be processed of the workpiece through the rotation of the slide carriage 2. As shown in the attached figure 7, in order to facilitate the processing of different limb edges of the angle steel, the utility model can also be provided with two sets of sliding table mechanisms symmetrically arranged on the base bracket 1 corresponding to the two limb edges of the angle steel on the feeding channel instead of the slide carriage 2, and each set of sliding table mechanism is provided with one cutting mechanism. The slide table mechanism and the cutting mechanism are the same as those of the above-described embodiment. The sliding table A3 of the sliding table mechanism is arranged on the base bracket 1. The two cutting mechanisms respectively process the corresponding angle steel limb edges. During operation, a workpiece to be machined enters a position to be machined of the machining host machine through the feeding hole, the control device can simultaneously or sequentially control the sliding tables A3, B4 and C5 of the two sets of sliding table mechanisms to be matched with each other according to machining requirements, the laser cutting head 7 is driven to reach the machining position, and the heightening device 6 is matched with the two limb edges of the angle steel to perform machining such as lettering, hole cutting, corner cutting, limb cutting and cutting.

The sliding table mechanism in the embodiment is arranged on the base support 1, and as another embodiment, two sets of sliding table mechanisms can also be arranged on the slide carriage 2, and the slide carriage 2 is fixed on the base support 1.

In consideration of the fact that when a workpiece is large, due to the fact that power needed for lettering, hole cutting and the like is different, the sliding plate of the sliding table B4 can be provided with two sliding tables C5, and the sliding plates of the two sliding tables C5 are provided with the cutting mechanism. And the two sliding tables C can be respectively provided with a cutting mechanism according to requirements, and the two cutting mechanisms can respectively cut and carve characters on the workpiece.

The utility model can process not only angle steel, but also channel steel, H-shaped steel, steel plate and other section steel.

The utility model has simple structure, can integrate hole processing, corner and limb cutting processing and cutting processing on one processing host machine, reduces the production cost, reduces the occupied area and improves the production efficiency.

Other parts in this embodiment are the prior art, and are not described herein again.

Claims (7)

1. The utility model provides a shaped steel processing host computer, includes base support (1), characterized by: be provided with the feed port that supplies the work piece to pass through on base support (1), be in on base support (1) the side of feed port is provided with one set at least slip table mechanism, slip table mechanism includes slip table A (3), set up on the slide of slip table A (3) and with slip table A (3) looks vertically slip table B (4), set up on the slide of slip table B (4) and with slip table B (4) looks vertically slip table C (5), be provided with cutting mechanism on the slide of slip table C (5), cutting mechanism is laser cutting mechanism or plasma cutting mechanism or flame cutting mechanism.

2. The section steel processing host machine according to claim 1, characterized in that: the sliding table mechanisms are symmetrically arranged.

3. The section steel processing host machine according to claim 1, characterized in that: a sliding plate of the sliding table C (5) is provided with a height adjuster (6), and the cutting mechanism is movably connected to the height adjuster (6).

4. A section steel processing main machine according to claim 1, 2 or 3, characterized in that: one side of base support (1) is fixed and is provided with carriage apron (2), on carriage apron (2) correspond to the feed port on base support (1) also is provided with the feed port, the setting of slip table mechanism is in on carriage apron (2) and be located the side of the feed port on carriage apron (2).

5. A section steel processing main machine according to claim 1 or 3, characterized in that: one side of base support (1) is provided with rotatable carriage apron (2), on carriage apron (2) correspond to the feed port on base support (1) also is provided with the feed port, the setting of slip table mechanism is in on carriage apron (2) and be located the side of the feed port on carriage apron (2).

6. The section steel processing host machine according to claim 5, wherein: the feed port that is corresponding to it on base support (1) is provided with rotatable gear wheel (11), carriage apron (2) fixed connection is in the tip of gear wheel (11), gear wheel (11) and drive gear (10) meshing, drive gear (10) with set up the power unit of base support (1) is connected.

7. A section steel processing main machine according to claim 1, 2 or 3, characterized in that: two sliding tables C (5) are arranged on the sliding plate of the sliding table B (4), and the cutting mechanisms are arranged on the sliding plates of the two sliding tables C (5).

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