CN216801285U - Mould suitable for automatic use - Google Patents

Abstract

The utility model provides a mold suitable for automatic use, which comprises: the die comprises a die main body, a fixing plate, a hydraulic cylinder and guide sleeves, wherein the fixing plate is arranged above the die main body, the hydraulic cylinder is arranged in the middle of the upper surface of the fixing plate, the guide sleeves are respectively arranged at four corners of the lower surface of the fixing plate, and a guide pillar is respectively arranged below each of the four guide sleeves. Through setting up four cylinders and singlechip, the singlechip can the automatic control relay, then relay control current flows through four cylinders, and four cylinders start, and four cylinders drive the kicking block through two piston rods and rise, and four kicking blocks of being convenient for are ejecting with the inside shaping article of die simultaneously, make its automated usage of being convenient for, and through setting up the backup pad, four cylinder bottoms can be supported to the backup pad, in the time of in-service use, more are fit for mould technical field.

Description

Mould suitable for automatic use

Technical Field

The utility model belongs to the technical field of dies, and particularly relates to a die suitable for automatic use.

Background

The mold is a variety of molds and tools for obtaining required products by injection molding, blow molding, extrusion, die casting or forging molding, smelting, stamping and other methods in industrial production, in short, the mold is a tool for manufacturing molded articles, the tool is composed of various parts, different molds are composed of different parts, and the processing of the shapes of the articles is mainly realized through the change of the physical states of the molded materials.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a mold suitable for automatic use, and solves the problems in the background technology.

The utility model is realized by the following technical scheme: a mold suitable for automated use, comprising: the die comprises a die main body, a fixing plate, a hydraulic cylinder and guide sleeves, wherein the fixing plate is arranged above the die main body, the hydraulic cylinder is arranged in the middle of the upper surface of the fixing plate, the guide sleeves are respectively arranged at four corners of the lower surface of the fixing plate, guide pillars are respectively arranged below the four guide sleeves, a connecting plate is arranged below the fixing plate, a lower pressing plate is arranged below the connecting plate, four male dies are arranged on the lower surface of the lower pressing plate, a processing groove is arranged below the lower pressing plate, four female dies are arranged in the processing groove, a top block groove is respectively arranged in the middle of the four female dies, a top block is respectively arranged in the four top block grooves, a base is arranged below the die main body, an access door is arranged in the middle of the front of the base, a controller is arranged on the left side of the front of the access door, and four cylinders are arranged above the interior of the base, four the cylinder below is provided with the backup pad, backup pad right side below is provided with integrated circuit board, integrated circuit board openly right side is provided with the accumulator, the accumulator left side is provided with the singlechip, the singlechip left side is provided with the relay.

As a preferred embodiment, the connecting plate is connected with the hydraulic cylinder through a first piston rod in actual use, the lower pressing plate is fixed with the connecting plate in actual use, and the four male dies are connected with the lower pressing plate in actual use.

As a preferred embodiment, the four guide sleeves are fixed to the fixing plate in actual use, the four guide pillars are respectively connected to the guide sleeves in actual use, the base is fixed to the lower ends of the four guide pillars in actual use, and the four male dies are symmetrically mounted above the four female dies in actual use.

As a preferred embodiment, the inside of the base is fixed with the supporting plate in the actual use, the supporting plate is set to be a rectangular structure in the actual use, and the four jacking blocks are respectively connected with the four cylinders through the second piston rods in the actual use.

As a preferred embodiment, four kicking blocks laminate with kicking block inslot wall respectively in the time of in-service use, four the kicking block sets up to the rectangle structure in the time of in-service use, the base is inside sets up to the cavity structure in the time of in-service use, the cylinder is selected as electric cylinder in actually selecting.

As a preferred embodiment, the input end of the storage is connected with the output end of the controller in actual use, the input end of the single chip microcomputer is connected with the output end of the storage in actual use, the output end of the single chip microcomputer is connected with the input end of the relay in actual use, and the input ends of the four cylinders are connected with the output end of the relay in actual use.

After the technical scheme is adopted, the utility model has the beneficial effects that: through setting up four cylinders and singlechip, the singlechip can the automatic control relay, then relay control current flows through four cylinders, and four cylinders start, and four cylinders drive the kicking block through two piston rods and rise, and four kicking blocks of being convenient for are ejecting with the inside shaping article of die simultaneously, make its automated usage of being convenient for, and through setting up the backup pad, four cylinder bottoms can be supported to the backup pad, in the time of in-service use, more are fit for mould technical field.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of the overall structure of a mold suitable for automated use according to the present invention.

Fig. 2 is a schematic bottom view of a lower platen of a mold suitable for automated use in accordance with the present invention.

Fig. 3 is a schematic top view of a processing groove in a mold suitable for automated use in accordance with the present invention.

Fig. 4 is a schematic diagram of a front cross-section of a base in a mold suitable for automated use in accordance with the present invention.

Fig. 5 is a block diagram of a work flow of a mold suitable for automated use in accordance with the present invention.

In the drawing, 1-a mould main body, 2-a fixed plate, 3-a hydraulic cylinder, 4-a guide sleeve, 5-a first piston rod, 6-a connecting plate, 7-a lower pressing plate, 8-a processing groove, 9-a base, 10-an access door, 11-a controller, 12-a male die, 13-a female die, 14-a top block groove, 15-a top block, 16-an air cylinder, 17-a supporting plate, 18-an integrated circuit board, 19-a storage, 20-a single chip microcomputer, 21-a relay, 22-a second piston rod and 23-a guide post.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: a mold suitable for automated use, comprising: the die comprises a die body 1, a fixing plate 2, a hydraulic cylinder 3 and guide sleeves 4, wherein the fixing plate 2 is arranged above the die body 1, the hydraulic cylinder 3 is arranged in the middle of the upper surface of the fixing plate 2, the guide sleeves 4 are respectively arranged at four corners of the lower surface of the fixing plate 2, a guide post 23 is respectively arranged below the four guide sleeves 4, a connecting plate 6 is arranged below the fixing plate 2, a lower pressing plate 7 is arranged below the connecting plate 6, four male dies 12 are arranged on the lower surface of the lower pressing plate 7, a processing groove 8 is arranged below the lower pressing plate 7, four female dies 13 are arranged in the processing groove 8, a top block groove 14 is respectively arranged in the middle of each of the four female dies 13, a top block 15 is respectively arranged in each of the four top block grooves 14, a base 9 is arranged below the die body 1, an access door 10 is arranged in the middle of the front of the base 9, a controller 11 is arranged on the left side of the front of the access door 10, and four cylinders 16 are arranged above the inside the base 9, supporting plates 17 are arranged below the four air cylinders 16, an integrated circuit board 18 is arranged below the right side of the supporting plates 17, a storage 19 is arranged on the right side of the front face of the integrated circuit board 18, a single chip microcomputer 20 is arranged on the left side of the storage 19, a relay 21 is arranged on the left side of the single chip microcomputer 20, the storage 19 can store time data, and the guide pillars 23 and the guide sleeves 4 can support the fixing plate 2.

The connecting plate 6 is connected with the hydraulic cylinder 3 through the piston rod I5 in actual use, the lower pressing plate 7 is fixed with the connecting plate 6 in actual use, the four male dies 12 are connected with the lower pressing plate 7 in actual use, and the hydraulic cylinder 3 can drive the connecting plate 6 to descend through the piston rod I5.

The four guide sleeves 4 are fixed with the fixing plate 2 in actual use, the four guide pillars 23 are respectively connected with the guide sleeves 4 in actual use, the base 9 is fixed with the lower ends of the four guide pillars 23 in actual use, and the four male dies 12 are symmetrically arranged above the four female dies 13 in actual use.

The base 9 is fixed with the supporting plate 17 in the actual use, the supporting plate 17 is set to be a rectangular structure in the actual use, the four ejector blocks 15 are respectively connected with the four air cylinders 16 through the two piston rods 22 in the actual use, and the air cylinders 16 can drive the ejector blocks 15 to ascend through the two piston rods 22.

Four kicking blocks 15 laminate with 14 inner walls in the kicking block groove respectively in the time of in-service use, and four kicking blocks 15 set up to the rectangle structure in the time of in-service use, and base 9 is inside to set up to the cavity structure in the time of in-service use, and cylinder 16 selects in the reality to be electric cylinder, and base 9 can make mould main part 1 more stable.

The input end of the storage 19 is connected with the output end of the controller 11 in the actual use process, the input end of the single chip microcomputer 20 is connected with the output end of the storage 19 in the actual use process, the output end of the single chip microcomputer 20 is connected with the input end of the relay 21 in the actual use process, the input ends of the four cylinders 16 are connected with the output end of the relay 21 in the actual use process, and the relay 21 can control the starting and stopping of the cylinders 16.

As an embodiment of the present invention: in actual use, a material to be processed is placed inside a processing groove 8, a hydraulic cylinder 3 is started, the hydraulic cylinder 3 drives a connecting plate 6 to descend through a piston rod one 5, the connecting plate 6 descends while driving four male dies 12 to descend through a lower pressing plate 7, the four male dies 12 descend into a female die 13 to be die-cast and formed, after die-casting is completed, the hydraulic cylinder 3 drives the connecting plate 6 to ascend through the piston rod one 5, the connecting plate 6 ascends while driving the four male dies 12 to ascend through the lower pressing plate 7, the four male dies 12 return to the original positions, the starting time of an air cylinder 16 can be input into a storage 19 through a controller 11 in advance, when the die-casting die, a single chip microcomputer 20 controls a relay 21 to control current to flow through the four air cylinders 16, the four air cylinders 16 are started to drive four ejector blocks 15 to ascend through piston rods two 22, the four ejector blocks 15 respectively, the four ejector blocks 15 eject formed articles inside the four female dies 13 simultaneously, after the ejection is finished, the four air cylinders 16 respectively drive the four ejector blocks 15 to return through the second piston rods 22, and after the processing is finished, the working personnel take out the processed and molded article in the processing groove 8.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. A mold suitable for automated use, comprising: mould main part (1), fixed plate (2), pneumatic cylinder (3) and guide pin bushing (4), its characterized in that: a fixed plate (2) is arranged above the die main body (1), a hydraulic cylinder (3) is arranged in the middle of the upper surface of the fixed plate (2), four corners of the lower surface of the fixed plate (2) are respectively provided with a guide sleeve (4), a guide post (23) is arranged below four guide sleeves (4), a connecting plate (6) is arranged below the fixed plate (2), a lower pressing plate (7) is arranged below the connecting plate (6), four male dies (12) are arranged on the lower surface of the lower pressing plate (7), a processing groove (8) is arranged below the lower pressing plate (7), four female dies (13) are arranged inside the processing groove (8), a top block groove (14) is respectively arranged in the middle of each of the four female dies (13), a top block (15) is respectively arranged inside each of the four top block grooves (14), and a base (9) is arranged below the die main body (1), the improved air conditioner is characterized in that an access door (10) is arranged in the middle of the front face of the base (9), a controller (11) is arranged on the left side of the front face of the access door (10), four air cylinders (16) and four supporting plates (17) are arranged above the inner portion of the base (9), an integrated circuit board (18) is arranged below the right side of the supporting plates (17), a storage (19) is arranged on the right side of the front face of the integrated circuit board (18), a single chip microcomputer (20) is arranged on the left side of the storage (19), and a relay (21) is arranged on the left side of the single chip microcomputer (20).

2. A mold suitable for automated use according to claim 1, wherein: the hydraulic cylinder (3) is connected with a connecting plate (6) through a first piston rod (5), the connecting plate (6) is fixed with a lower pressing plate (7), and the lower pressing plate (7) is connected with four male dies (12).

3. A mold suitable for automated use according to claim 1, wherein: the fixing plate (2) is fixed with four guide sleeves (4), the four guide sleeves (4) are respectively connected with guide pillars (23), the lower ends of the four guide pillars (23) are fixed with the base (9), and the four male dies (12) are symmetrically arranged above the four female dies (13).

4. A mold suitable for automated use according to claim 1, wherein: the supporting plate (17) is fixed with the inner part of the base (9), the supporting plate (17) is of a rectangular structure, and the four air cylinders (16) are connected with the four ejector blocks (15) through the piston rods II (22) respectively.

5. A mold suitable for automated use according to claim 1, wherein: the four ejector blocks (15) are respectively attached to the inner wall of the ejector block groove (14), the ejector blocks (15) are of a rectangular structure, the air cylinder (16) is an electric air cylinder, and the base (9) is internally provided with a cavity structure.

6. A mold adapted for automated use according to claim 1, wherein: the controller is characterized in that the output end of the controller (11) is connected with the input end of the storage (19), the output end of the storage (19) is connected with the input end of the single chip microcomputer (20), the output end of the single chip microcomputer (20) is connected with the input end of the relay (21), and the output end of the relay (21) is connected with the input ends of the four cylinders (16).

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