CN218110013U - Blow mold supports half anchor clamps for processing - Google Patents

Abstract

The utility model relates to a blowing mould supports anchor clamps for half mould processing. It includes the bottom plate, and the bottom plate is the rectangle, and its characteristics are: the middle and two ends of the bottom plate are respectively connected with a middle cushion block and an edge cushion block, the cross sections of the middle cushion block and the edge cushion block are rectangular, and the lengths of the middle cushion block and the edge cushion block are matched with the width of the bottom plate. The middle cushion block and the side cushion block are respectively provided with a middle rib plate and a side rib plate, the middle rib plate and the side rib plate are in the same height and are parallel, and the upper ends of the middle rib plate and the side rib plate are connected with a top plate vertical to the middle rib plate and the side rib plate. The middle cushion blocks on two sides of the middle rib plate are provided with positioning pins, the supporting half module is arranged between the positioning pins and the adjacent side rib plate, and two sides of the supporting half module are respectively arranged on the side cushion block on the inner side of the side rib plate and the middle cushion block on one side of the adjacent positioning pins. The side rib plates corresponding to the positioning pins are provided with screw holes and bolts, and the inner ends of the bolts are propped against the corresponding sides of the supporting half module. And a pressing mechanism for pressing the supporting half mold is arranged below the top plate corresponding to the supporting half mold. Adopt the utility model discloses, production efficiency and product quality can be improved.

Description

Blow mold supports half anchor clamps for processing

Technical Field

The utility model relates to a clamp. Specifically, the jig for processing a supporting mold half of a blow mold is used for fixing the supporting mold half when the supporting mold half of the blow mold is processed.

Background

It is known in the field of machine manufacturing that when machining machine parts, the parts need to be fixed. The machining of the blow mold support halves is no exception and requires the use of clamps to hold them. Currently, a common fixture for machining a supporting half mold of a blow mold comprises an arched base with the same radian as that of the supporting half mold and two sets of jacking mechanisms. During machining, the arch base is fixed on the workbench, the machined supporting half mold is buckled on the arch base, and then the two sets of jacking mechanisms are used for jacking the machined supporting half mold on the arch base from two sides of the arch base respectively. The support mold halves can then be machined. Although the supporting half mould can be machined by adopting the clamp, the radian of the arched base of the clamp is the same as that of the machined supporting half mould, so that one set of clamp can only be used for machining the supporting half mould with one specification, and the application range is limited. And because the clamp consists of an arched base with the same radian as the supporting half mould and two sets of jacking mechanisms, only the outer side surface of the supporting half mould can be processed, and the inner side surface of the supporting half mould cannot be processed. The inner side surface of the supporting half mold needs to be processed, and a clamp needs to be additionally arranged, so that the equipment investment is more, and the production cost is higher.

SUMMERY OF THE UTILITY MODEL

The to-be-solved problem of the utility model is to overcome above-mentioned not enough, provide a blowing mould supports anchor clamps for half-module processing. The utility model discloses, application scope is unrestricted. Adopt the utility model discloses, reducible equipment investment, reduction in production cost.

The utility model discloses the above-mentioned problem that solves is realized by following technical scheme:

the utility model discloses a blowing mould supports anchor clamps for half mould processing includes the bottom plate, and the bottom plate is the rectangle, and its characteristics are: the middle and two ends of the bottom plate are respectively connected with a middle cushion block and an edge cushion block, the cross sections of the middle cushion block and the edge cushion block are rectangular, and the lengths of the middle cushion block and the edge cushion block are matched with the width of the bottom plate. The middle cushion block and the side cushion block are respectively provided with a middle rib plate and a side rib plate, the middle rib plate and the side rib plate are in the same height and are parallel, and the upper ends of the middle rib plate and the side rib plate are connected with a top plate vertical to the middle rib plate and the side rib plate. The middle cushion blocks on two sides of the middle rib plate are respectively provided with a positioning pin, the positioning pin and the edge rib plate on the adjacent side are respectively provided with a supporting half-module, and two sides of the supporting half-module are respectively arranged on the edge cushion block on the inner side of the edge rib plate and the middle cushion block on one side of the adjacent positioning pin. The side rib plates corresponding to the positioning pins are provided with screw holes and bolts, and the inner ends of the bolts are propped against the corresponding sides of the supporting half module. And a pressing mechanism for pressing the supporting half mold is arranged below the top plate corresponding to the supporting half mold.

The lower edge of the middle rib plate is connected to the middle of the middle cushion block, the middle cushion blocks on the two sides of the middle rib plate are respectively provided with a middle supporting block, and the middle supporting blocks are respectively provided with the positioning pin. The lower edge of the edge rib plate is connected to the outer side of the upper surface of the edge cushion block, and edge supporting blocks are arranged on the edge cushion block on the inner side of the edge rib plate. The supporting half module is arranged between the adjacent side supporting block and the middle supporting block, and two sides of the supporting half module are respectively arranged on the side supporting block and the supporting block at one side of the positioning pin adjacent to the side supporting block.

The pressing mechanism comprises at least two vertical holes which are uniformly distributed on a top plate corresponding to the longitudinal center of the supporting half module, threaded sleeves are arranged in the vertical holes, and screw rods are arranged in the threaded sleeves. The upper end of the screw rod extends out of the top plate, and the lower end of the screw rod extends out of the lower part of the top plate and is connected with a pressing seat. And the top plates corresponding to the opposite sides of the pressing seat are provided with sliding holes, guide rods are arranged in the sliding holes, and the lower ends of the guide rods are connected to the corresponding sides of the pressing seat. Even there is the clamp plate below pressing the seat, with both sides all link to have the pressure head below supporting the corresponding clamp plate of half mould, and the lower adjacent side of this two pressure heads all has the arcwall face that suits with supporting the half mould lateral surface.

The two adjacent ends of the side rib plate are provided with inclined holes with high outside and low inside, and the supporting half mould corresponding to the inner end of the inclined hole is provided with a reserved hole. The inclined hole is internally provided with a bolt, the outer end of the bolt extends out of the outer end of the inclined hole, and the inner end of the bolt extends out of the inner end of the inclined hole and then is inserted into a reserved hole in the supporting half mold.

Both ends of the edge rib plate are provided with openings, and the openings are connected with the pin bosses. The pin seat is in a block shape, the thickness of the pin seat is larger than that of the side rib plate, an inclined hole with a high outer part and a low inner part is arranged on the pin seat, and a reserved hole is arranged on the supporting half module corresponding to the inner end of the inclined hole. The outer end of the bolt extends out of the outer end of the inclined hole, and the inner end of the bolt extends out of the inner end of the inclined hole and then is inserted into a reserved hole in the supporting half mold.

According to the scheme, the middle cushion block and the side cushion blocks are respectively connected to the middle and the two ends of the bottom plate, the cross sections of the middle cushion block and the side cushion blocks are rectangular, and the lengths of the middle cushion block and the side cushion blocks are matched with the width of the bottom plate. The middle cushion block and the side cushion block are respectively provided with a middle rib plate and a side rib plate, the middle rib plate and the side rib plate are in the same height and are parallel, and the upper ends of the middle rib plate and the side rib plate are connected with a top plate vertical to the middle rib plate and the side rib plate. The middle cushion blocks on two sides of the middle rib plate are provided with positioning pins, the supporting half module is arranged between the positioning pins and the adjacent side rib plate, and two sides of the supporting half module are respectively arranged on the side cushion block on the inner side of the side rib plate and the middle cushion block on one side of the adjacent positioning pins. The side rib plates corresponding to the positioning pins are provided with screw holes and bolts, and the inner ends of the bolts are propped against the corresponding sides of the supporting half-moulds. And a pressing mechanism for pressing the supporting half mold is arranged below the top plate corresponding to the supporting half mold. When the positioning device is used for machining, the two machined supporting half moulds are respectively arranged on the adjacent side supporting blocks and the adjacent middle supporting block, and then the machined supporting half moulds are clamped between the screws and the adjacent positioning pins by screwing the screws, so that the machined supporting half moulds are positioned laterally. Then, the inner ends of the pins in the inclined holes on the two side rib plates or the pin bases extend into the reserved holes on the adjacent processed supporting half moulds. And finally, screwing the bolt to enable the pressing seat at the lower end of the bolt, the pressing plate connected with the pressing seat and the pressing head to move downwards together until the pressing head is pressed on the processed supporting half die, so that the vertical positioning of the processed supporting half die is realized. Through revolving wrong bolt, interval between adjustable bolt inner end and adjacent locating pin, the support half-mould of applicable different specifications step up, fix a position, thereby enlarged the utility model discloses an application scope. And because the utility model discloses the support half-module of applicable different specifications adds steps up, fixes a position, and application scope is big to reduce equipment investment, reduced manufacturing cost.

Drawings

FIG. 1 is a schematic structural view of a blow mold supporting half mold processing fixture according to the present invention;

fig. 2 isbase:Sub>A schematic sectional viewbase:Sub>A-base:Sub>A of fig. 1.

Detailed Description

As shown in fig. 1 and 2, the blow mold supporting half mold processing jig of the present invention includes a base plate 3. The bottom plate 3 is rectangular, a middle cushion block 5 is arranged in the longitudinal middle of the bottom plate, side cushion blocks 6 are arranged at two ends of the bottom plate respectively, the cross sections of the middle cushion block and the side cushion blocks are rectangular, the lengths of the middle cushion block and the side cushion blocks are matched with the width of the bottom plate 3, and the middle cushion block and the side cushion blocks are fixed with the bottom plate 3 by means of fasteners. The middle cushion block 5 is provided with a middle rib plate 14, the two side cushion blocks 6 are both provided with side rib plates 11, the middle rib plate 14 and the two side rib plates 11 are at the same height and are parallel to each other, and the upper ends of the middle rib plate 14 and the two side rib plates 11 are provided with a top plate 15 vertical to the middle rib plate. The top plate 15, the middle rib plate 14 and the upper edges of the two edge rib plates 11 are connected together through bolts. The middle cushion blocks 5 on two sides of the middle rib plate 14 are respectively provided with a positioning pin 8, a processed supporting half die 21 is arranged between the positioning pin 8 and the edge rib plate 11 on the adjacent side, and two sides of the supporting half die 21 are respectively arranged on the edge cushion block 6 on the inner side of the edge rib plate 11 and the middle cushion block 5 on one side of the adjacent positioning pin 8. The side rib plates 11 corresponding to the positioning pins 8 are all provided with screw holes and screws 4, and the inner ends of the screws are propped against the corresponding sides of the supporting half-mould 21. A pressing mechanism for pressing the support mold half 21 is provided under each of the top plates 15 corresponding to the support mold half 21.

The lower edge of the middle rib plate 14 is connected to the middle of the upper surface of the middle cushion block 5, the middle cushion blocks 5 on the two sides of the middle rib plate are respectively provided with a middle supporting block 7, and the two middle supporting blocks 7 are respectively provided with the positioning pin 8. The lower edge of the side rib plate 11 is connected with the outer side of the upper surface of the side cushion block 6, and the side cushion blocks 6 on the inner side are provided with side supporting blocks 71. The supporting half module 21 is arranged between the adjacent side supporting block 71 and the middle supporting block 7, and two sides of the supporting half module 21 are respectively arranged on the side supporting block 71 and the supporting block 7 at one side of the positioning pin 8 adjacent to the side supporting block 71.

The pressing mechanism comprises three vertical holes which are uniformly distributed on the top plate 15 corresponding to the longitudinal center of the supporting half-mold 21, threaded sleeves 17 are arranged in the three vertical holes, and screw rods 19 are arranged in the threaded sleeves 17. The upper end of the screw rod 19 extends out of the top plate 15, and the lower end thereof extends out of the bottom plate 15 and is connected with a pressure seat 18. The top plate 15 corresponding to the opposite side of the press seat 18 is provided with a sliding hole, and a guide rod 16 in sliding fit with the sliding hole is arranged in each sliding hole. The lower ends of the guide rods 16 are connected to corresponding edges of the press base 18. The lower surface of the pressure seat 18 is connected with a pressure plate 12 by a bolt, the two sides of the lower surface of the pressure plate 12 corresponding to the supporting half mold 21 are connected with pressure heads 13, and the adjacent sides of the lower surfaces of the two pressure heads 13 are processed with arc surfaces 131 matched with the outer side surfaces of the supporting half mold 21.

In order to further position the processed supporting half mold 21, inclined holes with outer ends higher than inner ends are processed at two adjacent ends of the side rib plate 11, and the supporting half mold 21 corresponding to the inner ends of the inclined holes is provided with a reserved hole. The inclined holes are internally provided with bolts 10, the outer ends of the bolts 10 extend out of the outer ends of the inclined holes, and the inner ends of the bolts extend out of the inner ends of the inclined holes and then are inserted into the reserved holes in the supporting half mold 21.

Openings are machined at two ends of each edge rib plate 11, and pin bosses 9 are fixed in the openings by means of bolts. The pin boss 9 is block-shaped, the thickness of the pin boss is larger than that of the side rib plate 11, and the inclined hole with the outer end higher than the inner end of the pin boss is positioned on the pin boss 9. A preformed hole is processed on the supporting half-mould 21 corresponding to the inner end of the inclined hole. The inclined hole is internally provided with a bolt 10, the outer end of the bolt 10 extends out of the outer end of the inclined hole, and the inner end of the bolt extends out of the inner end of the inclined hole and then is inserted into a reserved hole in the supporting half mold 21.

During processing, two processed supporting half moulds 21 are respectively placed on the adjacent side supporting block 71 and the middle supporting block 7, and then the processed supporting half moulds 21 are clamped between the screws 4 and the adjacent positioning pins 8 by screwing the screws 4, so that the processed supporting half moulds 21 are laterally positioned. Then, the inner ends of the pins 10 in the inclined holes on the two side rib plates 11 or the pin bases extend into the reserved holes on the adjacent processed supporting half moulds 21. Finally, the bolts 19 are screwed to move the pressing base 18 at the lower end thereof downwards together with the pressing plate 12 and the pressing head 13 connected with the pressing base 18 until the pressing head 13 is pressed against the processed supporting half die 21, thereby realizing the vertical positioning of the processed supporting half die 21. The support mold half 21 may then be machined.

Claims (5)

1. Blow mold supports anchor clamps for half-module machining, including bottom plate (3), bottom plate (3) are rectangle, its characterized in that: the middle and two ends of the bottom plate (3) are respectively connected with a middle cushion block (5) and an edge cushion block (6), the cross sections of the middle cushion block and the edge cushion block are rectangular, and the lengths of the middle cushion block and the edge cushion block are matched with the width of the bottom plate (3); the middle cushion block (5) and the side cushion block (6) are respectively provided with a middle rib plate (14) and a side rib plate (11), the middle rib plate and the side rib plate are in the same height and are parallel, and the upper ends of the middle rib plate and the side rib plate are connected with a top plate (15) vertical to the middle rib plate and the side rib plate; the middle cushion blocks (5) on two sides of the middle rib plate (14) are respectively provided with a positioning pin (8), a supporting half die (21) is arranged between each positioning pin (8) and the adjacent side rib plate (11), and two sides of each supporting half die (21) are respectively arranged on the side cushion block (6) on the inner side of the side rib plate (11) and the middle cushion block (5) on one side of the adjacent positioning pin (8); the edge reinforcing plates (11) corresponding to the positioning pins (8) are provided with screw holes and bolts (4), and the inner ends of the bolts are propped against the corresponding edges of the supporting half molds (21); and a pressing mechanism for pressing the supporting half mold (21) is arranged below the top plate (15) corresponding to the supporting half mold (21).

2. The blow mold support mold half-machining fixture of claim 1, wherein: the lower edge of the middle rib plate (14) is connected to the middle of the middle cushion block (5), the middle cushion blocks (5) on the two sides of the middle rib plate are respectively provided with a middle supporting block (7), and the middle supporting blocks (7) are respectively provided with the positioning pin (8); the lower edge of the side rib plate (11) is connected to the outer side of the upper surface of the side cushion block (6), and the side cushion blocks (6) on the inner side are provided with side supporting blocks (71); the supporting half-moulds (21) are arranged between the adjacent side supporting blocks (71) and the middle supporting block (7), and two sides of each supporting half-mould (21) are respectively arranged on the supporting blocks (7) on one sides of the side supporting blocks (71) and the positioning pins (8) adjacent to the side supporting blocks (71).

3. The blow mold support mold half-machining fixture of claim 1, wherein: the pressing mechanism comprises at least two vertical holes which are uniformly distributed on a top plate (15) corresponding to the longitudinal center of the supporting half mold (21), threaded sleeves (17) are arranged in the vertical holes, and screw rods (19) are arranged in the threaded sleeves (17); the upper end of the screw rod (19) extends out of the top plate (15), and the lower end of the screw rod extends out of the bottom plate (15) and is connected with a pressure seat (18); the top plate (15) corresponding to the opposite side of the pressure seat (18) is provided with a sliding hole, a guide rod (16) is arranged in the sliding hole, and the lower ends of the guide rods (16) are connected to the corresponding sides of the pressure seat (18); even have clamp plate (12) below pressure seat (18), with both sides all link pressure head (13) below supporting clamp plate (12) that half mould (21) is corresponding, and the lower adjacent side of this two pressure heads (13) all has arcwall face (131) that suit with supporting half mould (21) lateral surface.

4. The blow mold support mold half-machining fixture according to claim 1, 2 or 3, wherein: two adjacent ends of the side rib plate (11) are provided with inclined holes with high outside and low inside, and a reserved hole is formed in the supporting half mold (21) corresponding to the inner end of each inclined hole; a bolt (10) is arranged in the inclined hole, the outer end of the bolt (10) extends out of the outer end of the inclined hole, and the inner end of the bolt extends out of the inner end of the inclined hole and then is inserted into a reserved hole in the supporting half mold (21).

5. The jig for processing a blow mold-supporting half mold according to claim 1, 2 or 3, wherein: both ends of the side rib plate (11) are provided with openings, and the openings are connected with pin bosses (9); the pin seat (9) is in a block shape, the thickness of the pin seat is larger than that of the side rib plate (11), an inclined hole with a high outer part and a low inner part is arranged on the pin seat, and a reserved hole is arranged on a supporting half mold (21) corresponding to the inner end of the inclined hole; a bolt (10) is arranged in the inclined hole, the outer end of the bolt (10) extends out of the outer end of the inclined hole, and the inner end of the bolt extends out of the inner end of the inclined hole and then is inserted into a reserved hole in the supporting half mold (21).

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