CN218192493U - Phosphorus copper alloy shaping is with high-efficient system of pouring - Google Patents

Abstract

The utility model discloses a phosphorus copper alloy shaping is with high-efficient pouring system, including the casting ladle, the casting ladle comprises casting ladle main part and upper cover, surface mounting has a plurality of pouring nozzle under the upper cover, the outer wall parcel of casting ladle main part has the cooling shell, the cooling shell links to each other with the casting ladle main part and forms sealed cavity, the staving inner bottom wall of casting ladle main part is equipped with the spacing post that is used for grafting movable post, the both sides of movable post all are connected with movable half module through the connecting rod, every movable half module all corresponds a fixed half module of fixed mounting on casting ladle main part inside wall, fixed half module upper surface is equipped with the plug hole that is used for butt joint pouring nozzle, this device has increased the cooling shell with the pouring device among the prior art, cooling liquid in the cooling shell can be changed as required, plays the effect for the casting ladle cooling, guarantees that the casting is in the pouring process quick all-round cooling, and is energy-concerving and environment-protective, improves the casting shaping speed, casting effect, quality, the pouring of being convenient for pouring.

Description

Phosphorus copper alloy shaping is with high-efficient system of pouring

Technical Field

The utility model relates to a shaping of phosphorus copper alloy is with high-efficient pouring system.

Background

The phosphorus copper alloy is an excellent deoxidizing agent, has very important function in the field of colored casting, can effectively remove oxygen particles in molten metal, and effectively improve the quality and yield of castings, wherein the phosphorus copper is formed by adding 0.03-0.35% of phosphorus P and 5-8% of tin as a degassing agent to bronze, and other trace elements such as iron Fe, zinc Zn and the like, have good ductility and fatigue resistance, can be used for electrical and mechanical materials, and have higher reliability than common copper alloy products.

When the existing phosphorus-copper alloy pouring forming device is used, the poured substances cannot be cooled quickly, the material is formed slowly, the formed materials are loaded down with trivial details, the development of subsequent processes is influenced, meanwhile, the maintenance, the replacement and the disassembly are troublesome due to the complex structure of the existing pouring forming device, and the processes are complex in the pouring operation process, so that the efficient pouring system for forming the phosphorus-copper alloy is produced at the right moment.

Disclosure of Invention

The utility model aims at solving the defects of the prior art, and providing a high-efficiency pouring system for forming phosphorus-copper alloy.

The utility model provides a phosphorus copper alloy shaping is with high-efficient pouring system, includes the casting ladle, and the casting ladle comprises casting ladle main part and upper cover, and surface mounting has a plurality of pouring nozzle under the upper cover, its characterized in that, the outer wall parcel of casting ladle main part has the cooling shell, and the cooling shell links to each other with the casting ladle main part and forms sealed cavity, the staving inner bottom wall of casting ladle main part is equipped with the spacing post that is used for pegging graft movable post, the both sides of movable post all are connected with movable half module through the connecting rod, and every movable half module all corresponds a fixed half module of fixed mounting on casting ladle main part inside wall, fixed half module upper surface is equipped with the plug hole that is used for butt joint pouring nozzle.

As further improvement, a plurality of water filling port has been seted up to the upper surface of cooling shell, has seted up a plurality of delivery port on the lateral wall of cooling shell, before the pouring work begins, pours into cooling liquid into the cooling shell through the water filling port, and after the pouring work begins, the pouring liquid has certain cooling effect to the temperature that the pouring produced, guarantees the normal clear of pouring process, improves pouring quality, and when the pouring work ended or cooling liquid can't cool down, opens the delivery port and discharges cooling liquid to pour into cooling liquid again.

As a further improvement, the upper surface of the upper cover is provided with a plurality of handles, and the upper cover is taken down by utilizing the handles, so that the purposes of convenient replacement and overhaul are achieved.

As a further improvement, the limiting column and the movable column are connected in a rotatable splicing manner, the movable column rotates to drive the movable half mold to rotate, the movable half mold is abutted with the fixed half mold to form a complete casting mold, then casting liquid is injected into the casting mold from the casting hole to realize final casting, when the movable half mold connected to the movable column is damaged, the spliced movable column and the movable half mold can be taken out integrally, a new movable column is replaced, the replacement and the maintenance are simple and convenient, and the whole casting system is not required to be maintained for pouring temporarily.

As further improvement, the top of activity post links to each other with the trinity motor of fixing at the upper cover surface, and is rotatory on spacing post through motor control activity post for activity half mould and fixed half mould butt guarantee the leakproofness of complete pouring mould, improve the pouring quality.

As a further improvement, a label is fixed on the outer side wall of the cooling shell, and the specification, the weight, the use degree and the like of the whole casting system are marked.

Has the advantages that:

this device compares with the pouring device among the prior art and has increased the cooling shell, and the cooling liquid in the cooling shell can be changed as required, plays the effect for the casting ladle cooling, guarantees the quick all-round cooling of pouring member in the pouring process, and is energy-concerving and environment-protective, improves the casting shaping speed, effect, the quality of pouring member, and the pouring of being convenient for drawing of patterns improves production work efficiency.

This device is inside detachable design, and the movable column is separable with spacing post, simple structure, and convenient operation when the pouring half-die takes place to damage, need not to overhaul whole equipment, changes, only needs to take out the movable column and overhauls or change, dismantles simply, has shortened the repair time, has improved production efficiency.

The outside formula design as an organic whole of this device, simple structure, the transport is convenient, convenient to use, cooperation motor realize the opening and shutting of pouring half mould, play the effect of pouring, easy operation can pour into a mould one or more pouring pieces simultaneously, reduces occupation of land space, and production pouring quantity and pouring speed improve greatly, are fit for large-scale production.

Drawings

FIG. 1 is a schematic view of the internal structure of a casting ladle;

FIG. 2 is a schematic view of the general construction of the ladle body;

1. the casting device comprises a casting barrel 2, a cooling shell 3, a fixed half mould 4, a movable half mould 5, a movable column 6, a connecting rod 7, a water injection port 8, a limiting column 9, a casting nozzle 10, an upper cover 11 and a casting hole.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, and the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

As a specific embodiment of the present invention shown in fig. 1-2, a high-efficiency pouring system for forming phosphor-copper alloy includes a pouring ladle 1, a cooling shell 2, a stationary half-mold 3, a movable half-mold 4, a movable column 5, a connecting rod 6, a water filling port 7, a spacing column 8, a pouring nozzle 9, an upper cover 10, and a pouring hole 11.

The utility model provides a phosphorus copper alloy shaping is with high-efficient pouring system, including pouring ladle 1, pouring ladle 1 comprises pouring ladle main part and upper cover 10, surface mounting has a plurality of pouring nozzle 9 under the upper cover 10, a serial communication port, the outer wall parcel of pouring ladle main part has cooling shell 2, cooling shell 2 links to each other with the pouring ladle main part and forms sealed cavity, the staving inner bottom wall of pouring ladle main part is equipped with the spacing post 8 that is used for grafting activity post 5, the both sides of activity post 5 all are connected with movable half module 4 through connecting rod 6, every movable half module 4 all corresponds a fixed half module 3 of fixed mounting on pouring ladle main part inside wall, 3 upper surfaces of fixed half module are equipped with the plug hole 11 that is used for butt joint pouring nozzle 9.

A plurality of water filling port 7 has been seted up to the upper surface of cooling shell 2, a plurality of delivery port has been seted up on the lateral wall of cooling shell 2, before the pouring work begins, pour into cooling liquid into cooling shell 2 through water filling port 7, after the pouring work begins, the pouring liquid has certain cooling effect to the temperature that the pouring produced, guarantee the normal clear of pouring process, improve pouring quality, when pouring work finishes or cooling liquid can't cool down, open the delivery port and discharge cooling liquid, and pour into cooling liquid again.

The upper surface of the upper cover 10 is provided with a plurality of handles, and the upper cover 10 can be taken down by utilizing the handles, so that the purposes of convenient replacement and overhaul are achieved.

Spacing post 8 and activity post 5 link to each other for rotatable grafting, activity post 5 is rotatory to drive movable half mould 4 and is rotated, movable half mould 4 forms complete casting mould with fixed half mould 3 looks butt, then pour into casting liquid and realize final pouring into the casting mould from pouring hole 11, movable half mould 4 that connects appears when damaging on activity post 5 can be with the movable post 5 of pegging graft together with movable half mould 4 whole take out to change new movable post 5, it is simple and convenient to change, it overhauls whole the gating system to need not to suspend pouring.

The top of activity post 5 links to each other with the trinity motor of fixing on upper cover 10 surface, and it is rotatory on spacing post 8 to move about post 5 through motor control for activity half module 4 and fixed half module 3 butt guarantee the leakproofness of complete pouring mould, improve the pouring quality.

The outer side wall of the cooling shell 2 is fixed with a label, and the specification, the weight, the use degree and the like of the whole casting system are marked.

During the use, before beginning the pouring, through the cooling water injection port in the sealed cavity that forms after cooling shell links to each other with the pouring ladle main part, cooling liquid is full of back with the water injection port closure, then the pouring nozzle on the inspection upper cover, trinity motor, confirm the back that finishes, install the upper cover, make pouring nozzle and pouring hole butt joint, then pour into the pouring liquid through pouring nozzle in the complete pouring mould that forms behind movable half mould and the fixed half mould butt joint, forward rotation movable column before the pouring, make movable half mould and fixed half mould butt joint, after the pouring is accomplished, reverse rotation movable column, make movable half mould and fixed half mould separation, take out the pouring member afterwards and accomplish the pouring, single or a plurality of pouring member of this device pouring in one shot, effectively improve pouring efficiency.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a phosphorus copper alloy shaping is with high-efficient pouring system, includes the casting ladle, and the casting ladle comprises casting ladle main part and upper cover, and surface mounting has a plurality of pouring nozzle under the upper cover, its characterized in that, the outer wall parcel of casting ladle main part has the cooling shell, and the cooling shell links to each other with the casting ladle main part and forms sealed cavity, the staving inner bottom wall of casting ladle main part is equipped with the spacing post that is used for pegging graft movable post, the both sides of movable post all are connected with movable half module through the connecting rod, and every movable half module all corresponds a fixed half module of fixed mounting on casting ladle main part inside wall, fixed half module upper surface is equipped with the plug hole that is used for butt joint pouring nozzle.

2. The efficient pouring system for forming the phosphorus-copper alloy as claimed in claim 1, wherein a plurality of water injection ports are formed in the upper surface of the cooling shell, and a plurality of water outlet ports are formed in the side wall of the cooling shell.

3. The high-efficiency pouring system for forming the phosphorus-copper alloy as claimed in claim 1, wherein a plurality of handles are arranged on the upper surface of the upper cover.

4. The efficient pouring system for forming the phosphorus-copper alloy as claimed in claim 1, wherein the limiting column and the movable column are rotatably connected in an inserted manner.

5. The high-efficiency pouring system for forming the phosphor-copper alloy as claimed in claim 1 or 3, wherein the top end of the movable column is connected with a three-in-one motor fixed on the surface of the upper cover.

6. The efficient pouring system for forming the phosphorus-copper alloy as claimed in claim 1, wherein a label is fixed on the outer side wall of the cooling shell.

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