CN220698176U - Folding sliding door processing die - Google Patents

Abstract

The utility model discloses a folding sliding door processing die which comprises a groove die and a cover film, wherein the groove die comprises a shell groove, groove walls and first fastening plates, the back surface of the shell groove is provided with the first fastening plates extending towards two sides, two sides of the first fastening plates are provided with outward limiting slide bars, shaft lever columns are arranged in the shell groove close to the bottom end, the cover film comprises a cover groove, a module and second fastening plates, the bottom wall of the cover groove is provided with the module, the notch of the cover groove is provided with the second fastening plates extending towards two sides, the second fastening plates are provided with rod holes matched with the limiting slide bars, the first fastening plates and the second fastening plates are fastened by fastening pieces, and the groove die and the cover film are vertically arranged. The groove mold and the cover film are vertically arranged, the air exhaust body is easy to be arranged when the mold is poured after being covered, air bubbles are not easy to be generated, the cover film is pushed out after molding and cooling, the ejector rod piece is utilized to eject the section bar, the section bar can be pushed out from the shell groove to fall, the demolding efficiency is high, and the demolding is convenient.

Description

Folding sliding door processing die

Technical Field

The utility model relates to the technical field of door and window frame section bar processing dies, in particular to a folding type sliding door processing die.

Background

The door frame section bar of the folding sliding door is similar or basically the same as the section bar of the sliding door, and the structural difference is that the upper frame section bar and the lower frame section bar are structurally designed into a structure for installing a rotating shaft, the structure is required to be fastened and can be inserted into the rotating shaft or fastened the rotating shaft, and the folding sliding door is not easy to deform in the rotating process, and is more stable and is not easy to deform in the rotating position than the traditional sliding door. Because the material wall of the section frame of the sliding door is thinner, the structure is provided with a notch, a strip edge and the like, if the processing mould is horizontally arranged, the injection casting liquid is difficult to discharge bubbles and is difficult to form, and the section is troublesome to demold after the injection casting liquid is formed and cooled.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems in the related art to some extent. Therefore, one purpose of the utility model is to provide a processing die for a folding sliding door, which solves the problems that a pouring die of the sliding door is easy to foam, and the demoulding is troublesome after molding.

According to the folding sliding door processing mold provided by the utility model, the folding sliding door processing mold comprises a groove mold and a cover film, wherein the groove mold comprises a shell groove, groove walls and a first fastening plate, the back of the shell groove is provided with the first fastening plate extending towards two sides, two sides of the first fastening plate are provided with outward limiting slide bars, the end parts of the limiting slide bars are provided with anti-drop blocks, the groove walls at the top of the shell groove are provided with liquid injection holes, shaft posts are arranged in the shell groove close to the bottom end positions, the cover film comprises a cover groove, a module and a second fastening plate, the cover groove is buckled outside the shell groove in a seamless mode, the bottom wall of the cover groove is provided with the module, a gap is reserved between the surface of the module and the groove bottom wall of the shell groove, the notch of the cover groove is provided with the second fastening plate extending towards two sides, the second fastening plate is provided with a rod hole matched with the limiting slide bars, the top wall of the cover groove is provided with notches corresponding to the liquid injection holes at the notch positions, the module is provided with sleeve holes corresponding to the shaft posts, a gap is reserved between the inner walls of the sleeve holes and the outer walls of the sleeve posts, the gap is reserved between the first fastening plate and the second fastening plate are arranged vertically.

In some embodiments of the present utility model, after the cover groove is seamlessly fastened outside the shell groove, when the notch of the groove wall of the groove mold is abutted against the bottom wall of the cover groove, a gap is left between the first fastening plate and the second fastening plate.

In other embodiments of the utility model, four outwardly extending slots are provided around the circumference of the sleeve bore in the module, and a plurality of parallel fastening baffle slots are provided in the module.

In other embodiments of the present utility model, the bottom wall of the slot die is provided with a plurality of ejector rods, each ejector rod comprises an ejector rod, a displacement frame and a rotating rod, one end of each ejector rod is provided with an ejector block, the other end of each ejector rod is provided with a plurality of inserted rotating rods, the ejector rods penetrate through the bottom wall of the slot die and are embedded on the bottom wall of the inner side of the slot die, the displacement frame is mounted on the outer wall of the bottom wall of the slot die, and the rotating rods penetrate through the displacement frame in a spiral manner.

In other embodiments of the present utility model, the length of the stop slide is more than twice the depth of the shell groove.

In other embodiments of the utility model, the fastener comprises two clamping plates and a bolt-and-nut secured by the clamping plates.

In the utility model, the slot die and the cover film are vertically arranged, the air exhaust body is easy to be arranged when the die is poured after being covered, air bubbles are not easy to be generated, the cover film is pushed out after being formed and cooled, the ejector rod piece is utilized to eject the section bar, the section bar can be pushed out from the shell slot to fall, the demolding efficiency is high, and the demolding is convenient.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

fig. 1 is a schematic structural diagram (disassembled) of a mold for processing a folding sliding door according to the present utility model.

Fig. 2 is a schematic structural diagram of a mold for processing a folding sliding door (under a cover film) according to the present utility model.

Fig. 3 is a schematic structural diagram of a mold for processing a folding sliding door (after film covering) according to the present utility model.

Fig. 4 is a schematic cross-sectional view of the module position after membrane covering according to the present utility model.

Fig. 5 is a schematic structural view of a ejector pin member (not ejected) according to the present utility model.

Fig. 6 is a schematic structural view of a ejector pin member (under ejection) according to the present utility model.

In the figure: 1. a slot die; 2. a shell groove; 20. a groove wall; 201. a liquid injection port; 21. a shaft post; 3. a first fastening plate; 31. a limit slide bar; 311. an anti-falling block; 4. covering a film; 5. a cover groove; 51. a module; 6. a second fastening plate; 61. a rod hole; 7. a sleeve hole; 71. a strip groove; 8. fastening the baffle plate groove; 9. a push rod; 90. a displacement frame; 91. a top block; 92. and (5) rotating the rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Examples of the embodiments are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements throughout or elements having like or similar functionality. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1-6, a folding sliding door processing mold comprises a slot mold 1 and a cover film 4, wherein the slot mold 1 comprises a shell slot 2, slot walls 20 and a first fastening plate 3, the back of the shell slot 2 is provided with the first fastening plate 3 extending towards two sides, two sides of the first fastening plate 3 are provided with outward limiting slide bars 31, the end parts of the limiting slide bars 31 are provided with anti-falling blocks 311, the slot walls 20 at the top of the shell slot 2 are provided with liquid injection ports 201, shaft posts 21 are arranged at positions close to the bottom ends in the shell slot 2, the cover film 4 comprises a cover slot 5, a module 51 and a second fastening plate 6, the cover slot 5 is seamlessly buckled outside the shell slot 2, the bottom wall of the cover slot 5 is provided with the module 51, gaps are reserved between the surface of the module 51 and the bottom wall of the shell slot 2, the notch of the cover slot 5 is provided with the second fastening plate 6 extending towards two sides, the second fastening plate 6 is provided with rod holes 61 matched with the limiting slide bars 31, the top wall of the cover slot 5 is provided with a gap hole 201 corresponding to the liquid injection port 201 at the notch position, the gap hole 21 is reserved between the cover slot 5 and the corresponding to the second fastening plate 7 and the shaft posts 21, and the vertical fastening plate 4 is provided with the gap hole 1 corresponding to the gap hole 7.

Before pouring the cover film, cleaning the inside of the shell groove 2 and the cover groove 5 to prevent dust or particle impurities, pushing the cover film 4 to the groove mold 1 after cleaning, moving along the limit sliding rod 31, sleeving the cover groove 5 on the groove wall 20 of the shell groove 2, clamping the first fastening plate 3 and the second fastening plate 6 by using a fastener after covering, preventing displacement of the first fastening plate and the second fastening plate, injecting casting liquid into the liquid injection port 201 from the notch 41, waiting for a few minutes after filling, waiting for casting liquid to be molded but not cooled, spraying water outside the groove mold 1 and the cover film 4, and leaving the mold to cool, thereby rapidly achieving the cooling effect. After cooling, the fastener is disassembled, the cover film 4 is moved outwards to prop against the anti-falling block 311, and then the demoulding is formed. Waiting for subsequent processing.

After the cover groove 5 is seamlessly buckled outside the shell groove 2, when the notch position of the groove wall 20 of the groove mold 1 is propped against the bottom wall of the cover groove 5, a gap is reserved between the first fastening plate 3 and the second fastening plate 6.

When leaving the clearance between first fastening plate 3 and the second fastening plate 6, can guarantee that when the fastener is fastened, first fastening plate 3 can not shift with second fastening plate 6, prevent that the die cover from pressing not tightly to lead to leaking the liquid phenomenon to take place.

Four outwards extending strip grooves 71 are formed in the circumference of the sleeve hole 7 of the module 51, and a plurality of parallel fastening baffle grooves 8 are formed in the module 51. In order to cover the rotating rod or the shaft rod at the pouring position (realizing folding and pushing of the folding sliding door), the pouring cylinder is arranged between the sleeve hole 7 and the shaft rod column 21, but the cylinder needs stability, and four outwards extending strip grooves 71 are used for pouring four connecting plates to be connected with the cylinder so as to increase the stability. And the door frame section bar needs to increase both sides stability, sets up the connecting strip in the middle, adopts fastening baffle groove 8 to form.

Be equipped with a plurality of ejector pins on the groove mould 1 diapire, the ejector pin includes ejector pin 9, displacement frame 90 and rotary rod 92, ejector pin 9 one end is equipped with ejector block 91, the other end is equipped with a plurality of rotary rods 92 of pegging graft, ejector pin 9 runs through groove mould 1 diapire and ejector block 91 is embedded on groove mould 1 inboard diapire, displacement frame 90 installs on the outer wall of groove mould 1 diapire, rotary rod 92 spiral runs through displacement frame 90.

After casting molding, for convenience in demolding, the rotary rod 92 is rotated, the ejector rod is rotationally displaced on the displacement frame 90, the ejector block 91 is pushed to push the molded section out of the shell groove 2, demolding is completed, and the ejector rods are synchronously rotated or are displaced one by a small section to complete synchronization, so that demolding is realized.

The length of the limit sliding rod 31 is more than twice the depth of the shell groove 2. The demolding profile is guaranteed to fall off from a gap between the groove die 1 and the cover film 4, and profile collection is achieved.

The fastener comprises two clamping plates and a bolt and a nut fastened by the clamping plates. And clamping the two clamping plates on the outer sides of the first fastening plate 3 and the second fastening plate 6, and fastening the two clamping plates by bolts through the bolts until the clamping plates clamp the first fastening plate 3 and the second fastening plate 6, so as to finish fixation. The disassembly is also convenient.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. A folding push-and-pull door mold processing, its characterized in that: including groove mould (1) and plastic film (4), groove mould (1) includes shell groove (2), cell wall (20) and first fastening plate (3), the shell groove (2) back is equipped with first fastening plate (3) to both sides extension, both sides be equipped with spacing slide bar (31) outwards on first fastening plate (3), spacing slide bar (31) tip is equipped with anticreep piece (311), be equipped with on top cell wall (20) of shell groove (2) annotate liquid mouth (201), be equipped with axostylus axostyle (21) near the bottom position in shell groove (2), plastic film (4) include lid groove (5), module (51) and second fastening plate (6), lid groove (5) seamless buckle is outside shell groove (2), be equipped with module (51) on the diapire of lid groove (5), leave the clearance between module (51) surface and shell groove (2) diapire, the notch of lid groove (5) is equipped with second fastening plate (6) that extend to both sides, be equipped with on second fastening plate (6) and be equipped with on the top wall (6) and correspond to be equipped with on the top wall (1) and fill a groove (1) and corresponding to be equipped with notch (21) and plastic film (1) mouth (1), a gap is reserved between the inner wall of the sleeve hole (7) and the outer wall of the shaft rod column (21), the first fastening plate (3) and the second fastening plate (6) are fastened by a fastening piece, and the slot die (1) and the cover film (4) are vertically arranged.

2. The mold for processing a folding sliding door according to claim 1, wherein: after the cover groove (5) is seamlessly buckled outside the shell groove (2), when the notch position of the groove wall (20) of the groove die (1) is propped against the bottom wall of the cover groove (5), a gap is reserved between the first fastening plate (3) and the second fastening plate (6).

3. The mold for processing a folding sliding door according to claim 1, wherein: four outwards extending strip grooves (71) are formed in the circumference of the sleeve hole (7) in the module (51), and a plurality of parallel fastening baffle grooves (8) are formed in the module (51).

4. The mold for processing a folding sliding door according to claim 1, wherein: be equipped with a plurality of ejector pins on groove mould (1) diapire, ejector pin spare includes ejector pin (9), displacement frame (90) and rotary rod (92), ejector pin (9) one end is equipped with ejector block (91), the other end is equipped with a plurality of rotary rods (92) of pegging graft, ejector pin (9) run through groove mould (1) diapire and ejector block (91) are embedded on the inboard diapire of groove mould (1), displacement frame (90) are installed on the outer wall of groove mould (1) diapire, rotary rod (92) spiral runs through displacement frame (90).

5. The mold for processing a folding sliding door according to claim 1, wherein: the length of the limit sliding rod (31) is more than twice the depth of the shell groove (2).

6. The mold for processing a folding sliding door according to claim 1, wherein: the fastener comprises two clamping plates and a bolt and a nut fastened by the clamping plates.