CN212144462U - Upper core-pulling multi-die casting equipment - Google Patents

Abstract

The utility model relates to a casting equipment, in particular to go up multimode casting equipment of loosing core. The technical scheme is as follows: the utility model provides an on loose core multimode casting equipment, including the organism, locate the mould mounting platform on the organism, erect mould subassembly and the mould pressing subassembly on the mould mounting platform, the mould subassembly is including die body and the piece of loosing core down, the piece of loosing core is located die body department through lifting unit and implements the lift down, be equipped with on the lifting unit and close the mould driving piece, be equipped with the mount on the mould mounting platform, lifting unit is including erectting the lift driving source on the mount, this lift driving source sets up with the mount is perpendicular, the lift driving source has erection site and the drive end fixed with the mount, close the piece of loosing core mount pad and the divide the mould driving source that the drive end that divides the mould driving piece to link up with perpendicularly with the. By adopting the technical scheme, the upper core-pulling multi-die casting equipment is safe and intelligent, and the processing efficiency is improved.

Description

Upper core-pulling multi-die casting equipment

Technical Field

The utility model relates to a casting equipment, in particular to go up multimode casting equipment of loosing core.

Background

The casting equipment is important equipment in metal smelting and processing, and different products are cast according to different moulds by putting medium raw materials into moulds of the casting equipment for casting.

Traditional casting equipment mainly comprises the organism, locate the mould mounting platform on the organism and erect on the organism and with mould mounting platform, erect the mould subassembly on the mould mounting platform and correspond the mould pressing subassembly that sets up the reciprocal lift of mould subassembly and constitute, the top of organism is equipped with the support that is used for supplying the mould pressing subassembly to implement the installation.

The mould assembly in the mould mounting platform comprises a lower mould body and core-pulling pieces positioned at two sides of the lower mould body. The core pulling piece is positioned at the lower die body through the lifting assembly to lift, and the lifting assembly is provided with a mold closing and separating driving piece which is positioned at two sides of the lower die body and moves towards the lower die body in a reciprocating mode.

In a traditional casting device, a mold is lifted from the lower part of a machine body to the upper part of a mold mounting platform, and the lifting is called a lower core pulling mode. The casting material in the mold is usually poured into the mold from one lateral side of the body by a pouring tool.

As shown in fig. 1, the lifting assembly of the core pulling element is erected on the machine body through the supporting frame, a sliding seat is arranged between the supporting frame and the machine body, the sliding seat is fixedly connected with the machine body through a fixing seat, the lifting assembly is a hydraulic oil cylinder or an air cylinder erected on the supporting frame, an installation part of the hydraulic oil cylinder or the air cylinder is fixedly connected with the supporting frame, and a driving shaft of the hydraulic oil cylinder or the air cylinder is arranged towards the die installation platform and is lifted from top to bottom. The sliding seat, the fixed seat and the bracket are positioned on the machine body and occupy more longitudinal height space. Therefore, the manipulator gets into and this department can receive blockking of each part, and the watering of pouring liquid can only go on through artifical handheld watering instrument, not only has great potential safety hazard, and the efficiency of artifical watering is lower moreover.

Disclosure of Invention

Not enough to prior art exists, the utility model provides a safe, intelligent, improve machining efficiency's multimode casting equipment of loosing core on.

In order to achieve the above purpose, the utility model provides a following technical scheme: upper loose core

Multimode casting equipment, including the organism, locate the mould mounting platform on the organism, erect the mould subassembly on the mould mounting platform and correspond the mould pressing subassembly that sets up towards mould subassembly reciprocal lift, the organism top is equipped with the support that supplies mould pressing subassembly to erect, the mould subassembly including lower die body and the piece of loosing core that is located lower die body both sides, the piece of loosing core is located down die body department through lifting unit and implements the lift, be equipped with on the lifting unit when the piece of loosing core is located lower die body both sides and towards the mould driving piece that divides of closing of lower die body reciprocating motion, its characterized in that: the mould mounting platform on be equipped with the mount, lifting unit including set up the lift driving source on the mount, this lift driving source sets up with the mount is perpendicular, the axial one end of lift driving source is the installation end, the other end is the drive end, its installation end and mount fixed connection, the divide and shut mould driving piece including the part mount pad of loosing core that links up perpendicularly and supply the installation of part of loosing core with the drive end of lift driving source and erect and make the part of loosing core implement the divide-shut mould driving source of deciliter towards lower die body on the frame mount pad of loosing core.

By adopting the technical scheme, the axial fixed end of the lifting driving source in the lifting assembly is connected with the fixed frame, the driving end drives the core-pulling piece mounting seat vertically connected with the driving end from bottom to top to lift, and meanwhile, the core-pulling piece is mounted on the core-pulling piece mounting seat, so that the occupancy rate of the longitudinal space on the machine body is greatly reduced, the space is vacated for the manipulator to enter the lower die body from the position, and a bedding is provided for intelligent production. And after the manipulator is adopted to carry out feeding, the potential safety hazard generated by manual feeding can be eliminated. But also can improve the production efficiency.

The utility model discloses further set up to: the support comprises a supporting column connected with the machine body and a mounting platform connected with the supporting column, and the mould pressing assembly is fixedly arranged on the mounting platform; the machine body is characterized in that two sides of the machine body transversely centering on the die assembly are respectively a feeding area and an installation area, the supporting column is positioned in the installation area, the installation platform is provided with an extension part extending to the upper part of the die assembly, and the die pressing assembly is fixedly arranged at the extension part and corresponds to the die assembly.

By adopting the technical scheme, the machine body is positioned above the die mounting platform and is divided into the mounting area and the feeding area by taking the die assembly as a center, and the support for mounting the die pressing assembly is arranged in the mounting area, so that the feeding area can be further ensured to have no parts, and the mechanical arm can conveniently enter the die mounting platform.

The utility model discloses further set up to: a finished product extracting device and a finished product cooling device are arranged at the corresponding position of one longitudinal side of the machine body on the die assembly, and the finished product extracting device comprises a lifting seat erected on the machine body and clamping claws erected on the lifting seat and capable of reciprocating between the finished product cooling device and the die assembly.

Wherein, the finished product cooling device comprises a finished product cooling box used for placing a cooling medium.

By adopting the technical scheme, the finished product extracting device can automatically take out the cast piston from the die assembly and put into the finished product cooling device for cooling without manual operation, so that intelligent production is realized.

The present invention will be further described with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of the prior art;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

fig. 3 is a schematic view of fig. 2 taken along direction a.

Detailed Description

As shown in fig. 2 and fig. 3, the up-drawing core multi-mold casting apparatus includes an apparatus body 1, a mold mounting platform 2 disposed on the apparatus body 1, a mold assembly 3 erected on the mold mounting platform 2, and a mold pressing assembly 4 correspondingly disposed and capable of lifting and lowering back and forth toward the mold assembly 3, a support 11 disposed above the apparatus body 1 for erecting the mold pressing assembly 4, the mold assembly 3 includes a lower mold body 31 and core-drawing members 5 disposed at two sides of the lower mold body 31, the core-drawing members 5 are lifted and lowered at the lower mold body 31 by a lifting assembly 51, a mold closing and separating driving member 6 disposed on the lifting assembly 51 and capable of moving back and forth toward the lower mold body 31 when the core-drawing members 5 are disposed at two sides of the lower mold body 31, a fixing frame 7 is disposed on the mold mounting platform 2, the lifting assembly 51 includes a lifting driving source 512 disposed on the fixing frame 7, the lifting driving source 512 is disposed, the other end is a driving end 5122, the mounting end 5121 of the driving part is fixedly connected with the fixed frame 7, and the mold closing and opening driving part 6 comprises a core pulling part mounting seat 61 vertically connected with the driving end 5122 of the lifting driving source 512 and used for mounting the core pulling part 5, and a mold closing and opening driving source 62 erected on the core pulling frame mounting seat 61 and used for urging the core pulling part 5 to close and open the lower mold body 31. In the above scheme, the axial fixed end 5121 of the lifting driving source 512 in the lifting assembly 51 is connected to the fixed frame 7, the driving end 5122 drives the core-pulling piece mounting seat 61 vertically connected to the driving end from bottom to top to lift, and meanwhile, the core-pulling piece 5 is mounted on the core-pulling piece mounting seat 61, so that the occupancy rate of the longitudinal space on the machine body 1 is greatly reduced, a space is vacated for the manipulator to enter the lower mold body 31 from the position, and a cushion is provided for intelligent production. And after the manipulator is adopted to carry out feeding, the potential safety hazard generated by manual feeding can be eliminated. But also can improve the production efficiency. The lifting drive source 512 and the mold opening/closing drive source 62 may be a hydraulic cylinder or an air cylinder, respectively.

In the embodiment of the present invention, the support 11 includes a supporting pillar 111 connected to the machine body 1 and a mounting platform 112 connected to the supporting pillar 111, and the molding assembly 4 is fixedly disposed on the mounting platform 112; the body 1 is laterally centered on the mold assembly 3 and has two sides respectively serving as a feeding area 12 and a mounting area 13, the supporting column 111 is located in the mounting area 13, the mounting platform 112 has an extending portion 1121 extending above the mold assembly 3, and the molding assembly 4 is fixedly disposed at the extending portion 1121 and is disposed corresponding to the mold assembly 3. The machine body 1 is positioned above the die mounting platform 2, the die assembly 3 is divided into a mounting area 13 and a feeding area 12, the support 11 for mounting the die assembly 4 is arranged in the mounting area 13, and the feeding area 12 can be further ensured to be free of any part, so that a manipulator can conveniently enter the feeding area. Of course, it should be noted that the support 11 may also be disposed on one longitudinal side of the machine body 1, for example, the support is configured as a cylindrical body, the top of the cylindrical body is bent towards the corresponding position of the die assembly, and then the mounting platform is disposed at the bent position. Again without taking up lateral space on the body 1.

The embodiment of the utility model provides an in, the vertical one side of organism 1 is located the department of correspondence of mould subassembly 3 and is equipped with finished product extraction element 8 and finished product cooling device 9, and this finished product extraction element 8 can reciprocate the gripper jaw 83 between finished product cooling device 9 and mould subassembly 3 on erectting the lift seat 82 that goes up and down through finished product lift cylinder 81 drive on organism 1, erectting on lift seat 82. The lifting seat 82 is provided with a driving wheel and a conveying belt, the clamping claw 83 is linked with the conveying belt through a sliding block 84, and the driving wheel is driven by a motor 85 arranged on the lifting seat 82. Of course, the displacement of the gripping claws 83 on the lifting base 82 can also be driven by chain belts and chain wheels, and is also possible. The product cooling device 9 comprises a product cooling box 91 for placing a cooling medium. The finished product extraction device 8 can automatically take out the cast piston from the die assembly 3 and put into the finished product cooling device 9 for cooling, manual operation is not needed, and intelligent production is realized.

Claims (4)

1. The upper core-pulling multi-mold casting equipment comprises a machine body and a mold arranged on the machine body

Dress platform, erect the mould subassembly on mould mounting platform and correspond the mould pressing subassembly that sets up and to move up and down towards mould subassembly is reciprocal, the organism top is equipped with the support that supplies the mould pressing subassembly to erect, the mould subassembly including lower die body and the piece of loosing core that is located lower die body both sides, the piece of loosing core is located die body department through lifting unit and implements the lift down, last being equipped with of lifting unit when the piece of loosing core is located lower die body both sides and moves down mould driving piece, its characterized in that of closing of reciprocating motion of die body under towards: the mould mounting platform on be equipped with the mount, lifting unit including set up the lift driving source on the mount, this lift driving source sets up with the mount is perpendicular, the axial one end of lift driving source is the installation end, the other end is the drive end, its installation end and mount fixed connection, the mould mounting platform on be equipped with the mount, lift subassembly including set up the lift driving source on the mount, this lift driving source sets up with the mount is perpendicular, the axial

The mold closing and separating driving part comprises a core pulling part mounting seat which is vertically connected with the driving end of the lifting driving source and used for mounting the core pulling part and a mold closing and separating driving source which is erected on the core pulling frame mounting seat and used for urging the core pulling part to close and open towards the lower mold body.

2. The core-pulling up multi-mold casting apparatus according to claim 1, wherein: the support comprises a support column connected with the machine body and an installation platform connected with the support column, and the mould pressing assembly is fixedly arranged on the installation platform; the machine body is characterized in that two sides of the machine body transversely centering on the die assembly are respectively a feeding area and an installation area, the supporting column is positioned in the installation area, the installation platform is provided with an extension part extending to the upper part of the die assembly, and the die pressing assembly is fixedly arranged at the extension part and corresponds to the die assembly.

3. The core-pulling up multi-die casting apparatus according to claim 1 or 2, wherein: the finished product extracting device comprises a lifting seat erected on the machine body and clamping jaws erected on the lifting seat and capable of reciprocating between the finished product cooling device and the die assembly.

4. The core-pulling up multi-mold casting apparatus according to claim 3, wherein: the finished product cooling device comprises a finished product cooling box for placing a cooling medium.

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