CN220092962U - Aluminum substrate forming die - Google Patents

Abstract

The utility model provides an aluminum substrate forming die, and relates to the technical field of forming dies; the problem that the existing aluminum substrate forming die is time-consuming and labor-consuming to carry and inconvenient to rapidly switch the thickness of a casting is solved; comprises a mounting support part; the mounting support part is fixedly connected with a lifting upper die part; the mounting support part is fixedly connected with a mounting lower die part; the mounting support part is fixedly connected with a pushing ejection piece; the pushing ejection piece is aligned with the mounting lower die part; a row of conveying rollers are fixedly connected to the mounting support plate; the utility model discloses a casting processing flexibility has been guaranteed to transport running roller both ends fixedly connected with running roller limiting plate respectively, and the film about also need not complicated switching simultaneously, and the practicality is stronger, has effectually guaranteed whole machining efficiency, guarantees gradual production parameterization and adjusts, no longer is limited to single thickness data.

Description

Aluminum substrate forming die

Technical Field

The utility model belongs to the technical field of forming dies, and particularly relates to an aluminum substrate forming die.

Background

In actual aluminum substrate processing production work, auxiliary production is often carried out in a casting mode, fine processing is carried out after an aluminum plate is produced through a casting molding process, and the quality of the whole processing process of the aluminum plate is related, so that a good aluminum substrate molding die is particularly important; the existing aluminum substrate forming die cannot realize auxiliary labor-saving demolding and aluminum plate conveying, is time-consuming and labor-consuming to carry, is not provided with a plate thickness adjusting structure, is inconvenient to rapidly switch casting thickness, and affects machining efficiency and machining flexibility.

Disclosure of Invention

In order to solve the technical problems, the utility model provides an aluminum substrate forming die which solves the problems that the existing aluminum substrate forming die is time-consuming and labor-consuming to carry and is inconvenient to rapidly switch the thickness of a casting.

The purpose and the effect of the aluminum substrate forming die are achieved by the following specific technical means:

an aluminum substrate forming die comprises an installation supporting part; the mounting support part is fixedly connected with a lifting upper die part; the mounting support part is fixedly connected with a mounting lower die part; the mounting support part is fixedly connected with a pushing ejection piece; the pushing ejection piece is aligned with the mounting lower die part; the mounting support includes: the device comprises an installation support plate, conveying rollers and roller limiting plates, wherein a row of conveying rollers are fixedly connected to the installation support plate; and two ends of the conveying roller are respectively and fixedly connected with a roller limiting plate.

Further, the mounting lower die part further includes: the height pushing hydraulic cylinder is fixedly connected to the lower mounting die; the output shaft of the height pushing hydraulic cylinder is fixedly connected with a lifting control sliding plate; two stable sliding blocks are fixedly connected to the lifting control sliding plate and are respectively and slidably connected to the lower mounting die.

Further, the push-out member includes: the propelling mounting plate is fixedly connected to the mounting support plate; and the propulsion mounting plate is fixedly connected with a propulsion hydraulic cylinder.

Further, the mounting support portion further includes: the support legs are arranged, and the four support legs are respectively and fixedly connected with the installation support plate.

Further, the mounting lower die portion includes: the lower mounting die and the lifting control slide plate are fixedly connected to the mounting support plate; and the lower installation die is connected with a lifting control sliding plate in a sliding manner.

Further, the push-out member further includes: the pushing-in connecting plate and the pushing-out limiting groove are fixedly connected to the pushing-in hydraulic cylinder; the bottom of the propulsion connecting plate is attached to the mounting supporting plate; the pushing-out limiting groove is formed in the pushing-out connecting plate.

Further, the lifting upper die part comprises: the lifting installation upper die is fixedly connected with four upper die driving hydraulic cylinders, and output shafts of the four upper die driving hydraulic cylinders are respectively and fixedly connected to the installation support plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model can realize auxiliary and rapid adjustment of the thickness of the casting by adopting the arranged lower die part, has simpler and more practical overall structure, ensures the processing flexibility of the casting, simultaneously does not need to switch the upper film and the lower film in a complex way, has stronger practicability, effectively ensures the overall processing efficiency, ensures gradual production parameterized adjustment, is not limited to single thickness data, can realize auxiliary and rapid pushing of the casting, is convenient for demoulding of the casting, and can drive the lifting control slide plate to lift and adjust under the drive of the highly pushed hydraulic cylinder.

2. The utility model can realize auxiliary labor-saving demolding and casting conveying by adopting the pushing ejection piece, is more labor-saving in integral use, can effectively ensure working efficiency and more quickly discharge castings, and is safer by adopting the pushing ejection piece at the same time, and particularly, the problem that the surface temperature of a model is too high after processing and potential safety hazards exist in manual auxiliary conveying demolding is avoided.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a cross-sectional view of the internal structure of the present utility model.

Fig. 3 is a schematic structural diagram of the pressure regulating device of the present utility model.

Fig. 4 is a schematic structural diagram of the pressure regulating device of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. mounting a supporting part; 101. mounting a supporting plate; 102. a conveying roller; 1021. roller limit plate; 103. support legs; 2. lifting the upper die part; 201. lifting and installing an upper die; 202. the upper die drives a hydraulic cylinder; 3. installing a lower die part; 301. installing a lower die; 302. a lifting control slide plate; 303. a hydraulic cylinder is pushed out at a high speed; 304. stabilizing the sliding block; 4. pushing the ejection member; 401. advancing the mounting plate; 402. pushing the hydraulic cylinder; 403. pushing in the connecting plate; 404. pushing out the limit groove.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 4:

the utility model provides an aluminum substrate forming die, which comprises an installation supporting part 1; the mounting support part 1 is fixedly connected with a lifting upper die part 2; the mounting support part 1 is fixedly connected with a mounting lower die part 3; the mounting support part 1 is fixedly connected with a pushing ejection piece 4; the push-out member 4 is aligned with the mounting lower die portion 3; the mounting support 1 includes: the device comprises an installation support plate 101, conveying rollers 102 and roller limiting plates 1021, wherein a row of conveying rollers 102 are fixedly connected to the installation support plate 101; roller limit plates 1021 are fixedly connected to two ends of the conveying roller 102 respectively.

Wherein, the installation support portion 1 further comprises: the four support legs 103 are arranged, and the four support legs 103 are fixedly connected to the mounting support plate 101 respectively; the lifting upper die part 2 includes: the lifting installation upper die 201 and the upper die driving hydraulic cylinder 202 are fixedly connected with four upper die driving hydraulic cylinders 202 on the lifting installation upper die 201, and output shafts of the four upper die driving hydraulic cylinders 202 are respectively and fixedly connected to the installation support plate 101; the mounting lower die portion 3 includes: a mounting lower die 301 and a lifting control slide plate 302, the mounting lower die 301 being fixedly connected to the mounting support plate 101; a lifting control sliding plate 302 is connected on the lower mounting die 301 in a sliding manner; the mounting lower die portion 3 further includes: a height pushing hydraulic cylinder 303 and a stable sliding block 304, the height pushing hydraulic cylinder 303 being fixedly connected to the mounting lower die 301; the output shaft of the height pushing hydraulic cylinder 303 is fixedly connected with a lifting control sliding plate 302; the lifting control slide plate 302 is fixedly connected with two stable slide blocks 304, and the two stable slide blocks 304 are respectively and slidably connected to the lower installation die 301, through adopting the lower installation die part 3 that sets up, can realize assisting quick thickness of adjusting the foundry goods, the overall structure is simpler practical, the processing flexibility of foundry goods is guaranteed, the membrane about also need not complicated switching simultaneously, the practicality is stronger, the effectual whole machining efficiency of having guaranteed, guarantee gradual production parameterized adjustment, no longer be limited to single thickness data, can realize assisting quick propulsion foundry goods, be convenient for foundry goods drawing of patterns, through highly release pneumatic cylinder 303 drive down, can drive lifting control slide plate 302 lift adjustment.

Wherein the push-out member 4 comprises: a propulsion mounting plate 401 and a propulsion hydraulic cylinder 402, the propulsion mounting plate 401 being fixedly connected to the mounting support plate 101; a propulsion hydraulic cylinder 402 is fixedly connected to the propulsion mounting plate 401; the push-out member 4 further includes: a pushing connection plate 403 and a pushing limit groove 404, wherein the pushing connection plate 403 is fixedly connected to the pushing hydraulic cylinder 402; the bottom of the pushing connection plate 403 is attached to the mounting support plate 101; the push-out limiting groove 404 is formed in the push-out connecting plate 403, the push-out limiting groove 4 is arranged, auxiliary labor-saving demolding and casting conveying can be achieved, labor is saved in overall use, working efficiency can be effectively guaranteed, castings are discharged more rapidly, meanwhile, the push-out limiting groove 404 is used for pushing out the castings, safety is guaranteed, the problem that potential safety hazards exist in manual auxiliary conveying demolding after the mold is too high in surface temperature after machining is avoided, the structure is stronger in practicality, the structure is simple, the push-out connecting plate 403 can be driven through the push-out limiting groove 404, the castings are pushed to the conveying roller 102, labor-saving conveying of the castings is achieved, and the whole structure is simpler and more practical.

Specific use and action of the embodiment:

in the utility model, firstly, the lifting control sliding plate 302 can be driven to lift and adjust under the driving of the height pushing hydraulic cylinder 303, the lifting upper die 201 can be driven to lift and adjust by the upper die driving hydraulic cylinder 202, then the upper die 201 is installed in a lifting manner for slip casting, meanwhile, after the casting is cooled, the casting is pushed out by the height pushing hydraulic cylinder 303, the pushing connecting plate 403 can be driven by the pushing hydraulic cylinder 402 to push the casting to the conveying roller 102 through the pushing limiting groove 404, and labor-saving conveying work of the casting is realized.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (7)

1. An aluminum substrate forming die, which is characterized in that: comprises a mounting support part (1); the mounting support part (1) is fixedly connected with a lifting upper die part (2); the mounting support part (1) is fixedly connected with a mounting lower die part (3); the mounting support part (1) is fixedly connected with a pushing ejection piece (4); the pushing ejection piece (4) is aligned with the mounting lower die part (3); the mounting support (1) comprises: the conveying device comprises an installation supporting plate (101), conveying rollers (102) and roller limiting plates (1021), wherein a row of conveying rollers (102) are fixedly connected to the installation supporting plate (101); roller limit plates (1021) are fixedly connected to two ends of the conveying roller (102) respectively.

2. The aluminum substrate molding die as claimed in claim 1, wherein: the mounting support (1) further comprises: the support legs (103), the support legs (103) are provided with four, and the four support legs (103) are respectively fixedly connected with the installation support plate (101).

3. The aluminum substrate molding die as claimed in claim 1, wherein: the lifting upper die part (2) comprises: the lifting installation upper die (201) and the upper die driving hydraulic cylinder (202), wherein the four upper die driving hydraulic cylinders (202) are fixedly connected to the lifting installation upper die (201), and output shafts of the four upper die driving hydraulic cylinders (202) are respectively and fixedly connected to the installation support plate (101).

4. The aluminum substrate molding die as claimed in claim 1, wherein: the lower die part (3) comprises: the lower mounting die (301) and the lifting control sliding plate (302) are arranged, and the lower mounting die (301) is fixedly connected to the mounting support plate (101); and the lower installation die (301) is connected with a lifting control sliding plate (302) in a sliding manner.

5. The aluminum substrate molding die as claimed in claim 4, wherein: the mounting lower die part (3) further includes: a height pushing hydraulic cylinder (303) and a stable sliding block (304), wherein the height pushing hydraulic cylinder (303) is fixedly connected to the lower mounting die (301); an output shaft of the height pushing hydraulic cylinder (303) is fixedly connected with a lifting control sliding plate (302); two stable sliding blocks (304) are fixedly connected to the lifting control sliding plate (302), and the two stable sliding blocks (304) are respectively and slidably connected to the lower mounting die (301).

6. The aluminum substrate molding die as claimed in claim 1, wherein: the push-out member (4) includes: the device comprises a propulsion mounting plate (401) and a propulsion hydraulic cylinder (402), wherein the propulsion mounting plate (401) is fixedly connected to a mounting support plate (101); and a pushing hydraulic cylinder (402) is fixedly connected to the pushing mounting plate (401).

7. The aluminum substrate molding die as claimed in claim 6, wherein: the push-out member (4) further comprises: the pushing-in connecting plate (403) and the pushing-out limiting groove (404), wherein the pushing-in connecting plate (403) is fixedly connected to the pushing-in hydraulic cylinder (402); the bottom of the pushing connecting plate (403) is attached to the mounting supporting plate (101); the push-out limit groove (404) is formed in the push-out connecting plate (403).