CN218015161U - Solar aluminum frame forming and processing die - Google Patents

Abstract

The utility model discloses a solar aluminum frame forming and processing die, which comprises a frame, wherein a horizontal lower die holder is fixedly arranged at the part of the frame close to the bottom, a fixed station is fixedly arranged in the middle of the upper part of the lower die holder, a limit cavity which runs through the two ends of the fixed station and is matched with the outline of a solar aluminum frame profile is arranged in the middle of the fixed station, two slide holes are symmetrically arranged between the limit cavity and the outer side wall of the fixed station, a slide seat matched with the slide seat is respectively arranged in the two slide holes in a sliding manner, and a cutter in an inverted V shape is fixedly arranged at one end of each slide seat close to the limit cavity; the other end of each sliding seat is fixedly connected with one end of a sliding rod, and the other end of each sliding rod is fixedly connected with a moving block. The utility model discloses can realize cutting out the triangle-shaped bending groove of symmetry on solar energy aluminium frame section bar fast, degree of automation is high, does benefit to and improves production efficiency to the grooving specification is unified, does benefit to the follow-up shaping effect of buckling of assurance.

Description

Solar aluminum frame forming and processing die

Technical Field

The utility model relates to a solar energy aluminium frame processing equipment technical field especially relates to a solar energy aluminium frame forming process mould.

Background

When the solar panel is installed, an aluminum frame needs to be fixed on the periphery of the solar panel to protect the solar panel. The section bar of the solar aluminum frame is an aluminum strip with a U-shaped section before forming, isosceles triangle-shaped bending grooves are required to be cut at two sides of the aluminum strip at uniform intervals in the production process, as shown in fig. 4, and then the aluminum strip after grooving is bent into the shape shown in fig. 5 along the bending grooves, so that the primary forming of the solar aluminum frame is formed. At present, grooving operation of the aluminum bar section bar is mainly manually completed, and the low working efficiency is that on one hand, the shape and specification of the additionally cut bending groove have large difference, which affects the bending forming effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a solar energy aluminium frame shaping mold processing solves the technical problem that above-mentioned background art mentioned.

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

the utility model relates to a solar energy aluminum frame shaping mold processing, which comprises a frame, the cross-section of frame is the shape of falling U, the position that the frame is close to the bottom is fixed and is provided with horizontal die holder, the upper portion of die holder is fixed and is provided with a fixed station in the middle, set up in the middle of the fixed station and run through its both ends and with the spacing chamber of the profile looks adaptation of solar energy aluminum frame section bar, the fixed station is in spacing chamber and its lateral wall between symmetrical two slide holes of seting up, slide with its looks adaptation is provided with in two slide holes of sliding respectively, each slide is close to the one end of spacing chamber is fixed and is provided with the cutter of the shape of falling V; the other end of each sliding seat is fixedly connected with one end of a sliding rod, the other end of each sliding rod is fixedly connected with a moving block, and the upper surface of each moving block is of an inclined surface structure which is inclined downwards in the direction far away from the fixed station; the side wall of the fixed table is respectively fixedly provided with a limiting ring outside the two sliding holes, the inner diameter of each limiting ring is smaller than the outer diameter of the sliding seat, each sliding rod is in sliding fit with the corresponding limiting ring, and a spring is sleeved on the position, between the limiting ring and the moving block, of each sliding rod; the hydraulic cylinder is fixedly arranged at the top of the rack, a telescopic rod of the hydraulic cylinder penetrates through a top plate of the rack, the free end of the telescopic rod is fixedly connected with the horizontal upper die base, pressing blocks are fixedly arranged at positions, corresponding to the two moving blocks, of the lower portion of the upper die base respectively, and the lower surface of each pressing block is of an inclined surface structure parallel to the upper surfaces of the moving blocks.

Furthermore, two sliding grooves are symmetrically formed in the lower die base, and the lower portions of the two moving blocks are in sliding fit with the two sliding grooves respectively.

Furthermore, a connecting plate is fixedly arranged at the telescopic end of the hydraulic cylinder, and the connecting plate is fixedly connected with the upper part of the upper die holder through a plurality of fixing bolts uniformly arranged along the circumferential direction of the connecting plate.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model discloses can realize cutting out the triangle-shaped bending groove of symmetry on solar energy aluminium frame section bar fast, degree of automation is high, does benefit to and improves production efficiency to the grooving specification is unified, does benefit to the follow-up shaping effect of buckling of assurance.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

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

FIG. 2 is an enlarged schematic view at A in FIG. 1;

fig. 3 is a schematic view of a cutter according to the present invention;

FIG. 4 is a schematic view of a bending groove on an aluminum strip in the prior art;

FIG. 5 is a schematic view of a solar aluminum frame formed by bending in the prior art;

description of the reference numerals: 1. a frame; 2. a lower die holder; 3. a fixed table; 4. solar aluminum frame profiles; 5. a limiting cavity; 6. a slide hole; 7. a slide base; 8. a cutter; 9. a slide bar; 10. a moving block; 11. a limiting ring; 12. a spring; 13. a chute; 14. a hydraulic cylinder; 15. an upper die holder; 16. a connecting plate; 17. fixing the bolt; 18. and (7) briquetting.

Detailed Description

As shown in fig. 1-3, a solar aluminum frame forming and processing mold comprises a frame 1, wherein the cross section of the frame is in an inverted U shape. A horizontal lower die holder 2 is fixedly installed at the position, close to the bottom, of the machine frame 1, and a fixing table 3 is fixedly installed in the middle of the upper portion of the lower die holder 2. The middle of the fixed table 3 is provided with an inverted U-shaped limiting cavity 5 which penetrates through two ends of the fixed table and is matched with the outline of the solar aluminum frame profile 4, and two sliding holes 6 are symmetrically formed between the limiting cavity 5 and the outer side wall of the fixed table 3.

Two sliding seats 7 matched with the sliding holes are respectively installed in the sliding holes 6 in a sliding mode, an inverted V-shaped cutter 8 is fixedly arranged at one end, close to the limiting cavity 5, of each sliding seat 7, and an avoiding groove matched with the outline of the cutter 8 is formed in the inner wall of the limiting cavity of the fixing platform 3. The other end of each sliding seat 7 is fixedly connected with one end of a sliding rod 9, the other end of each sliding rod 9 is fixedly connected with a moving block 10, and the upper surface of each moving block 10 is an inclined surface structure which is inclined downwards in the direction away from the fixed table 3. The two moving blocks 10 are symmetrically and slidably disposed on the lower die base 2, in this embodiment, two sliding grooves 13 are symmetrically formed in the lower die base 2, and lower portions of the two moving blocks 10 are respectively in sliding fit with the two sliding grooves 13.

The side wall of the fixed platform 3 is respectively provided with a limiting ring 11 outside the two sliding holes 6, and the inner diameter of the limiting ring 11 is smaller than the outer diameter of the sliding seat 7. Each slide bar 9 is in sliding fit with the corresponding limit ring 11, and a spring 12 is sleeved on the position of each slide bar 9 between the limit ring 11 and the moving block 10.

The top of frame 1 is fixed mounting has pneumatic cylinder 14, the telescopic link of pneumatic cylinder 14 runs through the roof of frame 1 and free end and horizontally upper die base 15 fixed connection. A connecting plate 16 is fixedly mounted at the telescopic end of the hydraulic cylinder 14, and the connecting plate 16 is fixedly connected with the upper part of the upper die holder 15 through a plurality of fixing bolts 17 uniformly arranged along the circumferential direction of the connecting plate. The lower part of the upper die holder 15 is fixedly provided with a press block 18 at a position corresponding to the two moving blocks 10, and the lower surface of each press block 18 is provided with an inclined surface structure parallel to the upper surface of the moving block 10.

The utility model discloses at the during operation, insert the spacing chamber of fixed station with solar energy aluminium frame section bar according to the mode shown in figure 1, then the pneumatic cylinder extends downwards and makes the upper die base downstream, the lower surface that makes the briquetting among two briquetting downstream processes contacts with the upper surface of movable block, because the briquetting is the inclined plane structure with the contact surface of movable block, the briquetting can apply the effort of horizontal direction to the movable block, make two movable blocks along the horizontal direction motion in opposite directions, two movable block motions make the slide bar promote two slides and remove to the inside in spacing chamber, make two cutters cut out triangle-shaped's bending groove in the both sides of solar energy aluminium frame section bar. And then the hydraulic cylinder returns, the press block is not contacted with the moving block any more, and the sliding seat and the moving block are returned to the original positions under the elastic force of the spring. And after pulling the solar aluminum frame section outwards for a certain length, repeating the operation, and performing grooving processing on the next grooving position. And circulating in this way, after three bending grooves shown in fig. 4 are cut, the section bar can be bent into the shape shown in fig. 4, and the primary forming of the solar aluminum frame is completed.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (3)

1. The utility model provides a solar energy aluminium frame shaping mold processing which characterized in that: the cutting device comprises a rack, wherein the cross section of the rack is in an inverted U shape, a horizontal lower die holder is fixedly arranged at the part of the rack close to the bottom, a fixed table is fixedly arranged in the middle of the upper part of the lower die holder, a limiting cavity which penetrates through the two ends of the fixed table and is matched with the profile of a solar aluminum frame profile is arranged in the middle of the fixed table, two sliding holes are symmetrically formed in the fixed table between the limiting cavity and the outer side wall of the fixed table, a sliding seat matched with the sliding hole is respectively arranged in the two sliding holes in a sliding manner, and an inverted V-shaped cutter is fixedly arranged at one end of each sliding seat close to the limiting cavity; the other end of each sliding seat is fixedly connected with one end of a sliding rod, the other end of each sliding rod is fixedly connected with a moving block, and the upper surface of each moving block is of an inclined surface structure which is inclined downwards in the direction far away from the fixed table; the side wall of the fixed table is respectively fixedly provided with a limiting ring outside the two sliding holes, the inner diameter of each limiting ring is smaller than the outer diameter of the sliding seat, each sliding rod is in sliding fit with the corresponding limiting ring, and a spring is sleeved on the position, between the limiting ring and the moving block, of each sliding rod; the hydraulic cylinder is fixedly arranged at the top of the rack, a telescopic rod of the hydraulic cylinder penetrates through a top plate of the rack, the free end of the telescopic rod is fixedly connected with the horizontal upper die base, pressing blocks are fixedly arranged at positions, corresponding to the two moving blocks, of the lower portion of the upper die base respectively, and the lower surface of each pressing block is of an inclined surface structure parallel to the upper surfaces of the moving blocks.

2. The solar aluminum frame forming and processing mold according to claim 1, wherein: two sliding grooves are symmetrically formed in the lower die base, and the lower portions of the two moving blocks are in sliding fit with the two sliding grooves respectively.

3. The solar aluminum frame forming and processing mold according to claim 1, wherein: the telescopic end of the hydraulic cylinder is fixedly provided with a connecting plate, and the connecting plate is fixedly connected with the upper part of the upper die base through a plurality of fixing bolts uniformly arranged along the circumferential direction of the connecting plate.

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