CN208787502U - A kind of split type molten cup of laser reinforcing for casting - Google Patents

Abstract

The utility model discloses a kind of split type molten cup of the laser reinforcing for casting, is formed by connecting by two cylindric first molten glass ontologies and a second molten glass ontology；Described first molten glass ontology includes the proximal end with injection punch head cooperation；Described second molten glass ontology includes the distal end equipped with cast gate opening；Described first molten glass ontology and a second molten glass inner body wall surface are machined with laser hardening layer.Compared with prior art, the bond strength of wearability, erosion resisting and strengthening layer and matrix can be improved in the split type molten cup strengthening region of laser reinforcing disclosed by the utility model, after having the distal end of gate portions to reach fatigue life, distal portions can be directly replaced, and do not have to replacement proximal part.

Description

A kind of split type molten cup of laser reinforcing for casting

Technical field

The utility model relates to be machined, and in particular to a kind of split type molten cup of laser reinforcing.

Background technique

It is called injection chamber, barrel, material cylinder, material cup etc. in molten cup, almag casting field is used for, is that consumption is biggish Consumptive material.The working principle of molten cup is that injection plunger and molten cup cooperate, and is connected to the proximal end of molten cup ontology.It is poured in molten cup body distal end When mouth casting almag, injection plunger enables aluminum alloy to liquid solidification forming in the aluminum alloy melt push-in casting die of molten condition For the part of design.During the work time due to molten cup, friction repeatedly, and pouring in high temperature aluminium alloys liquid not only to be born It pours down, cast gate lower inner wall surface is easy to abrasion and erosion, life of product are lower.The service life of molten cup is for working efficiency Very big influence is suffered from cost consumption.

In the prior art, in order to improve to molten cup, a variety of solutions are proposed, such as develop unlike material Molten cup, high-performance H13 steel and 3cr2w8v steel are the most common materials.In order to improve the performance of molten cup, molten cup surface is carried out strong Change the method for processing to improve the molten cup service life.Such as common heat treatment, quenched, quenching, nitriding etc..Quenched quenching hardness is HRC40-45, nitridation depth are 0.2mm-0.3mm, and nitridation hardness is HRC62-65.

The problem of above-mentioned improvement maximum is that matrix hardness is not high, and resistance to molten aluminum erosion is not strong.After surface carburization processing, nitriding Layer is too thin, too crisp, and nitriding layer and matrix are physical bond, in conjunction with insecure, be hit and be easy to fall off.It falls off in nitriding layer Afterwards, performance sharply declines.

Therefore, the utility model consideration improves molten cup in the prior art, to solve prior art surface treatment The technical issues of erosion property of resistance to molten aluminum is poor afterwards, seriously affects molten cup service life.

Utility model content

In view of the deficiencies of the prior art, the utility model provides a kind of split type molten cup of the laser reinforcing for casting, Not high, the at high cost problem of molten cup service life in the prior art can be improved.

In order to solve the above technical problems, the utility model provides a kind of molten cup of the laser reinforcing fission for casting, by Two cylindric first molten glass ontologies and a second molten glass ontology are formed by connecting；

Described first molten glass ontology includes the proximal end with injection punch head cooperation；

Described second molten glass ontology includes the distal end equipped with cast gate opening；

Described first molten glass ontology and a second molten glass inner body wall surface are machined with laser hardening layer.

Preferably, the laser hardening layer is the laser alloy-layer for being covered with inner wall surface completely.

Preferably, the laser alloy-layer for being covered with inner wall surface completely with a thickness of 0.5mm-0.8mm.

Preferably, the laser alloy-layer for being covered with inner wall surface completely is that very multi-stripe laser alloy strip is formed by overlapping.

Preferably, overlapped the laser alloy bandwidth is 3mm-6mm.

Preferably, the overlapping rate of the laser alloy strip is the 15%-50% of alloy bandwidth.

Preferably, the molten cup is proximally and distally partially to be bolted.

Compared with prior art, the split type molten cup strengthening region of laser reinforcing disclosed by the utility model can be improved wear-resisting Property, the bond strength of erosion resisting and strengthening layer and matrix can be direct after having the distal end of gate portions to reach fatigue life Distal portions are replaced, and do not have to replacement proximal part.To save product cost.The shape of molten cup proximally and distally portion connection Formula is the form that plush copper and concave head are docked.

Detailed description of the invention

Fig. 1 is the main view of the split type molten cup of laser reinforcing in the utility model；

Fig. 2 is the left view of the split type molten cup of laser reinforcing in the utility model.

Specific embodiment

In order to make those skilled in the art more fully understand the technical solution of the utility model, with reference to the accompanying drawing and have The utility model is described in further detail for body embodiment.

Attached drawing 1, attached drawing 2 are referred to, is the schematic diagram of the split type molten cup of laser reinforcing provided by the utility model, including circle The molten glass ontology of the first of tubular and the second molten glass ontology, the first molten glass ontology include melting a glass ontology with the proximal end 2, second of cooperation to have The distal end 4 of cast gate opening；Cup body cylinder inner wall surface, which is melted, in described two parts is machined with laser hardening layer, the laser hardening Layer is alloying layer being covered with completely, being formed by overlapping by a plurality of alloying band.

According to the utility model, the position of the laser hardening layer is the inner wall of the first molten glass ontology and the second molten glass ontology Surface, thin hardened layer 0.5mm-0.8mm.

Can be used by mach method and process to obtain according to design size for the molten cup according to the utility model, For specific process for machining, the utility model is not particularly limited, and can be handled with vehicle, milling, plane or casting, as long as Design size can be gone out according to dimensioned.

Can be steel for melting the material of cup, preferably metal material according to the utility model, for example, carbon steel or Steel alloy, the specific example of carbon steel can be mild steel well known to those skilled in the art, medium carbon steel, high-carbon steel, wherein low Carbon steel refers to carbon content≤0.25wt% carbon steel；The phosphorus content of medium carbon steel meets: 0.25wt% < phosphorus content < 0.6wt%, High-carbon steel refers to phosphorus content >=0.6wt% carbon steel.Steel alloy may include alloying element content≤5wt% low-alloy steel, Alloying element content is medium alloy steel, the alloying element content >=10wt% high-alloy steel of 5wt%~10wt%, steel alloy Specific example can be manganese steel, chrome-molybdenum steel, chrome-vanadium steel, chromium-manganese-titanium steel, S2 tool steel, but not limited to this.

According to the utility model, when carrying out Laser Alloying Treatment to laser hardening layer, first by metal ceramic powder, viscous Knot agent and solvent are mixed to get metal ceramic powder coating, then form metal ceramic powder coating coating on the surface Coating, coating layer thickness are preferably 200 μm~400 μm, and more preferably 220 μm~380 μm, more preferably 240 μm~350 μm, more Preferably 260 μm~320 μm, after forming powder metallurgy layer, dried powder alloy-layer.For drying means, the utility model is simultaneously It is not particularly limited, can dry naturally at normal temperature, can be placed in drying oven and be dried.

Can be used by Cr, V, W, Mo, Ti etc. and generate stone carbide for alloy powder according to the utility model Aluminium oxide, TiN, TiB2, TiO2, CrN, zirconium oxide, SiC, TiC etc. also can be used as conjunction in the metal of (MC system carbide) Bronze end.For binder, can be used being capable of cured phthalic resin system, alkyd resin under resin, such as room temperature The resin of system.The alcohols of water, toluene, dimethylbenzene or methanol, ethyl alcohol, propyl alcohol etc., one of above-mentioned solvent can be used in solvent Or a variety of mixture.Alloy powder and binder are preferably 90~99: 10~1 according to weight ratio, and more preferably 92~99: 8 ~1, more preferably 92~98: 8~2.

According to the utility model, absorbent can also be added in metallized ceramic coating, preferably absorb laser processing effect Graphite powder can be used in fruit, absorbent.Addition for absorbent, can also be after dry by above-mentioned coating, by absorbent It is mixed and made into absorbent coating with solvent, then absorbent dope layer is coated in coating surface, can be realized the utility model Effect.

After alloy powder coating drying, pulse or continuous laser beam scan line rooved face, laser output power are used Preferably 3.5~4.5KW, more preferably 3.1~4.1KW, hot spot can be circular light spot or rectangular light spot, round hot spot it is straight Diameter is preferably 2.5~4.2mm of Ф, more preferably 2.8~3.8mm of Ф, and scanning speed is preferably 1.5~2.5m/min, more preferably For 1.6~2.4m/min, more preferably 1.8~2.2m/min.

First alloy powder, binder and solvent are mixed to get when carrying out laser alloying processing according to the utility model Then the alloy powder coating is coated on machined surface and forms coating by alloy powder coating, coating layer thickness is preferably 200 μm ~400 μm, more preferably 220 μm~380 μm, more preferably 240 μm~350 μm, more preferably 260 μm~320 μm, form powder After last alloy-layer, dried powder alloy-layer.

When carrying out laser alloying, for laser processing technology, laser output power is preferably 3.5~4.5KW, more preferably For 3.1~4.1KW, hot spot can be circular light spot or rectangular light spot, and the diameter of round hot spot is preferably 2.5~4.2mm of Ф, more Preferably 2.8~3.8mm of Ф, the overlap joint of two alloying bands are the 15%~50%, preferably 20%~40% of spot diameter, More preferably 25%~35%.

Embodiment

It machines to obtain molten cup according to size, molten cup material is H13: molten cup is heat-treated, quenched, quenching etc. mentions High overall material performance.Homemade laser alloying coating, paint thickness 0.35mm are coated in molten cup inner wall surface.Processing swashs Photo-hardening layer region, power 3200W, spot diameter 3.8mm, scanning speed 450mm/min, overlapping rate 26%, into Row laser alloying processing improves molten cup inner wall surface performance.

The utility model discloses a kind of split type molten cup of the laser reinforcing for casting, comprising: two parts are columned molten Cup ontology, described molten cup ontology a part is the proximal end being cooperatively connected with injection plunger, another part is the distal end for having cast gate to be open； The molten cup inner body wall surface is machined with laser hardening layer, and the laser hardening layer is covered with molten cup inner wall surface completely, by more Laser alloy strip is formed by overlapping.

Compared with prior art, the split type molten cup of laser reinforcing disclosed by the utility model is promoted instead of Nitrizing Treatment The not wellability of molten aluminum and molten cup contact surface, corrosion-resistant property are stronger；Laser Surface Treatment is metallurgical bonding, the object with nitriding Reason is combined and is compared, and bond strength is higher, and impact resistance is higher；Alloying layer and nitriding layer compare, and thickness is thicker, abrasion resistance Can be more preferable, service life dramatically increases.

Described is only preferred embodiments of the present invention, it is noted that for the ordinary skill people of the art For member, molten cup inner wall surface is processed using laser, it is molten using different Laser Surface Modification Technologies, such as laser It covers, laser transformation hardening etc., without departing from the principle of this utility model, several improvements and modifications can also be made, this A little improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (7)

1. a kind of split type molten cup of laser reinforcing for casting, which is characterized in that by two cylindric first molten glass ontologies It is formed by connecting with a second molten glass ontology；

Described first molten glass ontology includes the proximal end with injection punch head cooperation；

Described second molten glass ontology includes the distal end equipped with cast gate opening；

Described first molten glass ontology and a second molten glass inner body wall surface are machined with laser hardening layer.

2. the split type molten cup of laser reinforcing according to claim 1, which is characterized in that the laser hardening layer is complete cloth The laser alloy-layer of full inner wall surface.

3. the split type molten cup of laser reinforcing according to claim 2, which is characterized in that described to be covered with inner wall surface completely Laser alloy-layer with a thickness of 0.5mm-0.8mm.

4. the split type molten cup of laser reinforcing according to claim 3, which is characterized in that described to be covered with inner wall surface completely Laser alloy-layer is that very multi-stripe laser alloy strip is formed by overlapping.

5. the split type molten cup of laser reinforcing according to claim 4, which is characterized in that overlapped the laser alloy bandwidth Degree is 3mm-6mm.

6. the split type molten cup of laser reinforcing according to claim 5, which is characterized in that the overlapping rate of the laser alloy strip For the 15%-50% of alloy bandwidth.

7. the split type molten cup of laser reinforcing according to claim 6, which is characterized in that the molten cup proximally and distally part To be bolted.