CN109373755A - A kind of device of gold element and antimony element composite material - Google Patents

Abstract

The invention discloses the devices of a kind of gold element and antimony element composite material, including raw material cabin, high-temperature melting furnace, high-temperature stirring furnace and molding die, the raw material cabin includes the major ingredient storehouse for storing gold element and the auxiliary material storehouse for storing antimony element, the bottom in the auxiliary material storehouse and major ingredient storehouse is provided with the leak hole of connection high-temperature melting furnace, the high-temperature melting furnace includes the main furnace for melting gold element and the auxiliary furnace for melting antimony element, the oral area of the auxiliary furnace is connect with the leak hole of auxiliary bin bottom, the oral area of the main furnace is connect with the leak hole of main bin bottom, the bottom of the main furnace and auxiliary furnace is provided with perfusion tube, the perfusion tube is located at the oral area of high-temperature stirring furnace.The present invention is novel in design, structure is simple, easy to use, can produce the gold element composite material of different components and different proportion, for studying, convenient for selecting wherein optimal composite material.

Description

A kind of device of gold element and antimony element composite material

Technical field

The present invention relates to the devices of metal field more particularly to a kind of gold element and antimony element composite material.

Background technique

The bianry alloy of auri addition antimony, 360 DEG C of eutectic temperature.Micro-antimony can substantially reduce fusing point, and be able to maintain good Good plasticity, corrosion resistance and electric conductivity.

The multi-purpose constituent element for making other alloys of antimony, can increase its hardness and strength.Such as accumulator plate, bearing metal, printing All contain antimony in alloy (font), solder, cable sheathing and bullet.Pewter can make sheet stamping die.High purity antimony is half The doped chemical of conductor silicon and germanium.Stibium trioxide (antimony oxide) is one of main application of antimony, and stibium trioxide is the white of enamel, paint The important source material of pigment and fire retardant.Antimony trisulfide (antimony pentasulfide) is the red pigment of rubber.Raw antimony (antimonous sulfide) is used In production match and fumicants.

Industrial use many unique perfect characteristics since gold has, there is unique use in many industries On the way.For example, it has high corrosion resistance；There are good electric conductivity and thermal conductivity；The atomic nucleus of gold has biggish capture The effective cross-section of neutron, to the albedo of infrared ray close to 100%；There are various catalyst properties in the alloy of gold；Have good Good craftsmanship, is easily processed into ultra-thin goldleaf, micron spun gold and bronze；Gold is easy to be plated to other metals and pottery and glass Surface on；Gold is easy by melting welding and smithwelding under a certain pressure；Gold can be made into superconductor and organic gold etc..Specifically, golden The purposes of alloy includes that instrument industry, electronics industry, aerospace, lubriation material, chemical material, optical application and medicine are answered With.

With the development of science and technology, the purposes of billon is more more and more universal, the electronic component of gold element composition is widely available to be answered With still, due to not knowing that how many proper, it is optimal can to play electronic component for the ratio of gold or other complex elements Performance, it would be desirable to gold or other complex elements studied and be transformed, so that it is promoted its best performance, therefore we A manufacture gold or the model machine of other complex element alloys are needed, the gold or other complex elements for studying different proportion close Gold, to select the gold or other complex element alloys of best performance.

Currently, there are many types for the product of billon, still, also compares lack such production equipment on the market, be based on This, it is necessary to study the device of a kind of gold element and antimony element composite material.

Summary of the invention

It is an object of the invention to overcome problem above of the existing technology, a kind of gold element is provided and antimony element is compound The device of material, the present invention is novel in design, structure is simple, easy to use, can produce different components and different proportion Gold element composite material, for studying, convenient for selecting wherein optimal composite material.

To realize above-mentioned technical purpose and the technique effect, the invention is realized by the following technical scheme:

A kind of device of gold element and antimony element composite material, including raw material cabin, high-temperature melting furnace, high-temperature stirring furnace and shaping mould Tool, the raw material cabin include the major ingredient storehouse for storing gold element and the auxiliary material storehouse for storing antimony element, the auxiliary material storehouse and major ingredient storehouse Bottom be provided with connection high-temperature melting furnace leak hole, the high-temperature melting furnace include melt gold element main furnace and fusing The oral area of the auxiliary furnace of antimony element, the auxiliary furnace is connect with the leak hole of auxiliary bin bottom, the oral area and main bin bottom of the main furnace Leak hole connection, the bottom of the main furnace and auxiliary furnace is provided with perfusion tube, and the perfusion tube is located at the oral area of high-temperature stirring furnace, institute The bottom for stating high-temperature stirring furnace is provided with feed pipe, and the feed pipe is connect with the sprue gate on molding die, the shaping mould Tool includes upper die and lower die, and the upper mold is connect with fixed plate, and the lower die is connect with elevating mechanism, and the upgrading mechanism includes Bottom plate and the support plate connecting with lower die, the support plate are connect by guide rod and driving device with bottom plate.Using this skill Art scheme, gold element enter main furnace by the leak hole of main bin bottom, and antimony element enters auxiliary furnace by the leak hole of auxiliary bin bottom, Auxiliary furnace is used to antimony element being fused into metal water, and main furnace is used to gold element being fused into metal water, metal water in main furnace and auxiliary Metal water in furnace passes through perfusion tube respectively and is transported in high-temperature stirring furnace, then, is carried out by the stirring wheel in high-temperature stirring furnace It stirs evenly, metal water after mixing evenly is entered in molding die by the feed pipe of high-temperature stirring furnace bottom, by shaping mould Template required for tool forms.Wherein, driving device is used to drive the lower die and Ccope closing machine or die sinking in support plate.

Preferably, the gold element is set as the gold bullion that purity is 99.99% or gold goal or bronze, the antimony element are set It is set to the antimony powder or antimony regulus or antimony ball that purity is 99.99%.

Preferably, the ratio setting of the gold element in the composite material is in 51%-90%, the ratio setting of antimony element In 49%-10%.

Preferably, being provided with stirring wheel in the high-temperature stirring furnace, the stirring wheel is connect with driving motor.Using this Technical solution drives stirring wheel Stirring in high-temperature stirring furnace by driving motor.

Preferably, the high-temperature melting furnace is set as resistance furnace or electric radiation furnace.

Preferably, being provided with switching control pilot on the leak hole and/or perfusion tube and/or feed pipe.Using this skill Art scheme controls opening or closing for leak hole and/or perfusion tube and/or feed pipe by switching control pilot.

Preferably, the type chamber of multiple formed templates is provided between the upper die and lower die, on the type chamber and upper mold The sprue gate of setting connects, and is carved with one of element term, model, weight or specification or a variety of in the type chamber.Using This technical solution facilitates template after molding and is managed.

Preferably, the driving device is set as hydraulic-driven bar, the hydraulic-driven bar and hydraulic control system connect It connects.It adopts this technical solution, hydraulic-driven bar is driven by the hydraulic oil in hydraulic control system, makes the piston rod of hydraulic-driven bar It is flexible.

It is easy to use the beneficial effects of the present invention are: the present invention is novel in design, structure is simple, can produce it is different at The gold element composite material of part and different proportion, for studying, convenient for selecting wherein optimal composite material；Dress of the invention Set can by based on gold element, supplemented by antimony element, producing the gold element composite material of tens kinds of different proportions, in order to Scientific research.

The above description is only an overview of the technical scheme of the present invention, in order to better understand the technical means of the present invention, And can be implemented in accordance with the contents of the specification, with presently preferred embodiments of the present invention and attached drawing is cooperated to be described in detail below.This hair Bright specific embodiment is shown in detail by following embodiment and its attached drawing.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is structural schematic diagram of the present invention；

Fig. 2 is high-temperature stirring furnace top view of the present invention；

Fig. 3 is lower die schematic diagram of the present invention；

Fig. 4 is die sinking schematic diagram of the present invention.

Figure label explanation: raw material cabin 1, high-temperature melting furnace 2, high-temperature stirring furnace 3, molding die 4, major ingredient storehouse 5, auxiliary material storehouse 6, leak hole 7, main furnace 8, auxiliary furnace 9, perfusion tube 10, feed pipe 11, sprue gate 12, upper mold 13, lower die 14, fixed plate 15, bottom plate 16, Support plate 17, driving device 18, stirring wheel 19, driving motor 20, switching control pilot 21, type chamber 22, guide rod 23.

Specific embodiment

The invention will be further described with reference to the accompanying drawing:

Referring to figs. 1 to 4, the device of a kind of gold element and antimony element composite material, including raw material cabin 1, high-temperature melting furnace 2, high-temperature stirring furnace 3 and molding die 4, the raw material cabin 1 is including storing the major ingredient storehouse 5 of gold element and storing the auxiliary of antimony element The bottom in feed bin 6, the auxiliary material storehouse 6 and major ingredient storehouse 5 is provided with the leak hole 7 of connection high-temperature melting furnace 2, the high-temperature melting furnace 2 include the main furnace 8 for melting gold element and the auxiliary furnace 9 for melting antimony element, the oral area of the auxiliary furnace 9 and the leakage of 6 bottom of auxiliary material storehouse Hole 7 connects, and the oral area of the main furnace 8 is connect with the leak hole 7 of 5 bottom of major ingredient storehouse, and the bottom of the main furnace 8 and auxiliary furnace 9 is provided with Perfusion tube 10, the perfusion tube 10 are located at the oral area of high-temperature stirring furnace 3, and the bottom of the high-temperature stirring furnace 3 is provided with feed pipe 11, the feed pipe 11 is connect on molding die 4 sprue gate 12, and the molding die 4 includes upper mold 13 and lower die 14, institute Upper mold 13 is stated to connect with fixed plate 15, the lower die 14 is connect with elevating mechanism, the upgrading mechanism include bottom plate 16 and with The support plate 17 that lower die 14 connects, the support plate 17 are connect by guide rod 23 and driving device 18 with bottom plate 16.Using this Technical solution, gold element enter main furnace 8 by the leak hole 7 of 5 bottom of major ingredient storehouse, and antimony element is entered by the leak hole 7 of 6 bottom of auxiliary material storehouse To auxiliary furnace 9, auxiliary furnace 9 is used to for antimony element being fused into metal water, and main furnace 8 is used to for gold element being fused into metal water, in main furnace 8 Metal water in metal water and auxiliary furnace 9 passes through perfusion tube 10 respectively and is transported in high-temperature stirring furnace 3, then, by high-temperature stirring furnace 3 In stirring wheel 19 be stirred uniformly, metal water after mixing evenly is entered by the feed pipe 11 of 3 bottom of high-temperature stirring furnace In molding die 4, required template is formed by molding die 4.Wherein, driving device 18 is under driving in support plate 17 Mould 14 and upper mold 13 are molded or are opened.

Preferably, the gold element is set as the gold bullion that purity is 99.99% or gold goal or bronze, the antimony element are set It is set to the antimony powder or antimony regulus or antimony ball that purity is 99.99%.

Preferably, the ratio setting of the gold element in the composite material is in 51%-90%, the ratio setting of antimony element In 49%-10%.

Preferably, being provided with stirring wheel 19 in the high-temperature stirring furnace 3, the stirring wheel 19 connects with driving motor 20 It connects.It adopts this technical solution, the Stirring in high-temperature stirring furnace 3 of stirring wheel 19 is driven by driving motor 20.

Preferably, the high-temperature melting furnace 2 is set as resistance furnace or electric radiation furnace.

Preferably, being provided with switching control pilot 21 on the leak hole 7 and/or perfusion tube 10 and/or feed pipe 11.It adopts With this technical solution, opening or closing for leak hole 7 and/or perfusion tube 10 and/or feed pipe 11 is controlled by switching control pilot 21.

Preferably, the type chamber 22 of multiple formed templates is provided between the upper mold 13 and lower die 14, the type chamber 22 It is connect with the sprue gate 12 being arranged in upper mold 13, one be carved in the type chamber 22 in element term, model, weight or specification Kind is a variety of.It adopts this technical solution, facilitates template after molding and be managed.

Preferably, the driving device 18 is set as hydraulic-driven bar, the hydraulic-driven bar and hydraulic control system Connection.It adopts this technical solution, hydraulic-driven bar is driven by the hydraulic oil in hydraulic control system, makes the piston of hydraulic-driven bar Bar is flexible.

Specific embodiment:

In actual use, gold element enters main furnace by the leak hole of main bin bottom, antimony element by auxiliary bin bottom leak hole Enter auxiliary furnace, auxiliary furnace is used to for antimony element being fused into metal water, and main furnace is used to for gold element being fused into metal water, in main furnace Metal water in metal water and auxiliary furnace passes through perfusion tube respectively and is transported in high-temperature stirring furnace, then, by high-temperature stirring furnace Stirring wheel is stirred uniformly, and metal water after mixing evenly is input to shaping mould by the feed pipe of 3 bottom of high-temperature stirring furnace again Tool, by the set-iron of the mold cavity forming uniform specification specification in molding die.Then, it is tested by scientific research personnel, to grind Study carefully the performance of its gold element composite material.

Wherein, by adjusting the ratio of gold element and antimony element, can produce tens kinds it is compound based on gold element Material is used for research.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. the device of a kind of gold element and antimony element composite material, it is characterised in that: including raw material cabin (1), high-temperature melting furnace (2), high-temperature stirring furnace (3) and molding die (4), the raw material cabin (1) include major ingredient storehouse (5) and the storage for storing gold element The auxiliary material storehouse (6) of antimony element, the bottom of the auxiliary material storehouse (6) and major ingredient storehouse (5) are provided with the leakage of connection high-temperature melting furnace (2) Hole (7), the high-temperature melting furnace (2) includes the auxiliary furnace (9) for melting the main furnace (8) and fusing antimony element of gold element, described auxiliary The oral area of furnace (9) is connect with the leak hole (7) of auxiliary material storehouse (6) bottom, the oral area of the main furnace (8) and the leakage of major ingredient storehouse (5) bottom The bottom of hole (7) connection, the main furnace (8) and auxiliary furnace (9) is provided with perfusion tube (10), and the perfusion tube (10) is stirred positioned at high temperature The oral area of furnace (3) is mixed, the bottom of the high-temperature stirring furnace (3) is provided with feed pipe (11), the feed pipe (11) and shaping mould Sprue gate (12) connection of (4) on tool, the molding die (4) includes upper mold (13) and lower die (14), the upper mold (13) and Fixed plate (15) connection, the lower die (14) connect with elevating mechanism, and the upgrading mechanism includes bottom plate (16) and and lower die (14) support plate (17) connected, the support plate (17) are connected by guide rod (23) and driving device (18) and bottom plate (16) It connects.

2. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: the gold dollar Element is set as the gold bullion or gold goal or bronze that purity is 99.99%, the antimony element be set as the antimony powder that purity is 99.99% or Antimony regulus or antimony ball.

3. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: described compound The ratio setting of gold element in material is in 51%-90%, and the ratio setting of antimony element is in 49%-10%.

4. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: the high temperature It is provided with stirring wheel (19) in rabble furnace (3), the stirring wheel (19) connect with driving motor (20).

5. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: the high temperature Melting furnace (2) is set as resistance furnace or electric radiation furnace.

6. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: the leak hole (7) and/or on perfusion tube (10) and/or feed pipe (11) switching control pilot (21) are provided with.

7. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: the upper mold (13) it is provided with the type chamber (22) of multiple formed templates between lower die (14), is arranged on the type chamber (22) and upper mold (13) Sprue gate (12) connects, and is carved with one of element term, model, weight or specification or a variety of in the type chamber (22).

8. the device of a kind of gold element and antimony element composite material according to claim 1, it is characterised in that: the driving Device (18) is set as hydraulic-driven bar, and the hydraulic-driven bar is connect with hydraulic control system.