CN106270455A - A kind of preparation method of large-scale vertical-parting self-curing mo(u)ld - Google Patents

Abstract

The invention discloses the preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld, foundry goods cross section is chosen as vertical-parting face according to foundry goods profile, casting mold is divided into left and right two parts, the left and right mould with positioner is designed according to foundry goods parting surface structure, by mould and sandbox, left and right sand mold is carried out flash mould, completed the mould positioner corresponding sand mold assembling detent mechanism left on rear left and right sand mold by moulding, the left and right sand mold of molding is carried out the casting mold cavity needed for mould assembling fastening is formed.Described invention is applied to the modeling process of large aluminum alloy resin sand low pressure casting, has the advantages that precision is high, efficiency is high and easy to use.

Description

A kind of preparation method of large-scale vertical-parting self-curing mo(u)ld

Technical field

The invention belongs to casting technology field, be specifically related to the preparation method of a kind of large-scale vertical branch mailbox self-curing mo(u)ld, special It it not the preparation method of the self-curing mo(u)ld being applied to aluminum alloy low-pressure casting.

Background technology

In the cast product being applied to Aeronautics and Astronautics field, often product size precision and internal soundness are had relatively High requirement.For meeting the related request of Complex Aluminum Alloy product, gap running channel low-pressure casting process is typically taked to produce. For common cylinder class foundry goods, use casting mold prepared by traditional profile apperance, often due to withdrawing pattern needs existence to pull out Mould gradient.Meanwhile, using conventional flat typing multiple mould, mould dimension precision is limited to the position error of sandbox, produces effect Rate is relatively low.Above-mentioned factor all makes foundry goods overall dimensions precision cannot meet requirement, the most also the inside matter to foundry goods Amount control impacts.

Use requirement, construction features and the technological requirement of comprehensive product, fast in conjunction with self-hardening sand technical field in recent years Speed development and application, explore a kind of self-curing mo(u)ld preparation method with high dimensional accuracy and high preparation efficiency, is that solution is above-mentioned The key point of problem.

Summary of the invention

The invention aims to provide the preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld.

The present invention be use following technical solution to realize above-mentioned purpose, a kind of large-scale vertical-parting self-curing mo(u)ld Preparation method, chooses foundry goods cross section as vertical-parting face according to foundry goods profile, casting mold is divided into left and right two parts, according to casting Part parting surface structure designs the left and right mould with positioner, by mould and sandbox, to left and right sand mold Carrying out flash mould, the mould positioner corresponding sand mold assembling completing to leave on rear left and right sand mold by moulding is fixed Position mechanism, carries out the casting mold cavity needed for mould assembling fastening is formed by the left and right sand mold of molding.Left and right sand mold have after completing with The sand mold assembling detent mechanism that mould positioner adapts, assembles detent mechanism by sand mold, and left and right sand mold can essence Really positioning combination forms casting mold cavity.

The maximum cross-section choosing foundry goods cross section is vertical-parting face.

Mould forming surface is provided with anti-runout structure.

Wherein the positioner on a mould is alignment pin, the corresponding positioner on another mould For positioning hole, or carry out core head structure location according to cast shape.

Anti-runout structure is designed as lenticular anti-runout structure or beveled structure.

Anti-runout concaveconvex structure width is 10mm～50mm, uses matched in clearance, and fit clearance is 0.5mm～1mm.

Anti-runout beveled structure knuckle height is 10mm～20mm.

Mould is provided with side plate, location-plate, baffle plate and wearing plate, and side plate is positioned at baffle plate symmetry two ends, location Plate is positioned at baffle plate two further pairs and claims end.

Wearing plate is arranged on the corner of mould die joint, and in the inner of location-plate Yu side plate, and at the bottom of high depanning Sheet metal forming face 0.5mm～1mm.

Side plate utilizes location-plate and baffle plate jointly to position, and side plate and sandbox end clearance are 0.5mm～1mm.

The present invention uses above-mentioned technical solution can reach to provide the benefit that:

1, the present invention can efficiently solve the problem that mould dimension precision is the highest, casting quality is unstable.

2, using mould on end and rational Position Design, the assembling of disposable location assembles, and can efficiently solve Original method is by the gap between case inspection and adjustment casting mold and core.

3, the present invention can be effectively improved the preparation efficiency of casting mold simultaneously, effectively reduces and depends on operative's technical merit Rely, it is adaptable to the mass production of foundry goods.

Accompanying drawing explanation

Fig. 1 is the horizontal sectional view (omitting core) of part of the present invention large-scale self-hardening resin sand mold；

Fig. 2 is casting mold of the present invention location assembling structure；

Fig. 3 is the mould for preparing right side casting mold of the present invention；

Fig. 4 is wearing plate location structure enlarged drawing of the present invention；

Fig. 5 is anti-runout schematic enlarged-scale view of the present invention；

Fig. 6 is the top view of modeling process sandbox of the present invention and mould installation diagram；

Fig. 7 is the right pseudosection of modeling process sandbox of the present invention and mould installation diagram；

Fig. 8 is that sandbox of the present invention assembles schematic diagram；

Wherein, 1-left-hand mold, casting mold on the right side of 2-, 3-vertical-parting face, 4-core print, 5-side plate, 6-location-plate, at the bottom of 7-mould Plate, 8-anti-runout structure, 9-wearing plate, 10-screw, 11-casting mold die joint, the lenticular anti-runout structure of 12-, 13-sandbox, The left sandbox of 14-, the right sandbox of 15-, 16-clamp device, 17 casting mold assembling guiders, 18-mould.

Detailed description of the invention

It is described in further detail below in conjunction with the accompanying drawings and by way of example to the present invention.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld, chooses foundry goods cross section as vertical point according to foundry goods profile Profile 3, typically chooses the maximum cross-section of foundry goods as vertical-parting face 3, easy typing, casting mold is divided into left and right two parts, root The mould 18 with positioner is designed, by mould 18 and sandbox 13, to left and right according to foundry goods parting surface structure Sand mold carries out flash mould, and the corresponding sand mold of mould positioner completing to leave on rear left and right sand mold by moulding fills Join detent mechanism, the left and right sand mold of molding is carried out the casting mold cavity needed for mould assembling fastening is formed.Described herein with location dress The positioner on mould 18 put can be alignment pin or hole, location, it is possible to as in figure 2 it is shown, according to the spy of foundry goods itself Different structure carries out location i.e. core print 4 and positions.Owing to being affected by positioner on mould 18 when casting sand type, sand mold Define the sand mold assembling detent mechanism adapted with mould positioner, it is thus possible to carry out left and right sand mold accurately Assembling.

Mould forming surface is provided with anti-runout structure 8, and when preventing from casting, aluminum liquid goes out to overflow from die joint, runs away Problem.Its principle be metal in flow process due to the appearance of knuckle, flow resistance increases, it is to avoid liquid metal enter one Step flowing.Anti-runout structure 8 can be lenticular anti-runout structure 12 or beveled structure.

Anti-runout concaveconvex structure 12 width is 10mm～50mm, uses matched in clearance, and fit clearance is 0.5mm～1mm.

Anti-runout beveled structure knuckle height is 10mm～20mm.

Some baroque sand casting also need under casing and top box, and after the combination of left and right sand mold, upper and lower surface is due to also Need to assembling with top box and under casing, so also requiring that parallel to each other, and keeping vertical with vertical-parting face.Therefore at mould Arranging side plate 5, location-plate 6, baffle plate 7 on 18, side plate 5 is positioned at the symmetrical two ends of baffle plate 7, and location-plate 6 is positioned at baffle plate 7 additionally Two symmetrical ends, the effect of location-plate 6 is contemplated to ensure that side plate 5 keeps vertically and horizontally.Location-plate 6, side plate 5 are equal with sandbox 13 Not contacting, side plate 5 relies on location-plate 6 and baffle plate 7 to position (positioning boss of side plate positions), side plate with the locating slot of baffle plate 5 with sandbox 13 end clearance be 0.5mm～1mm.Wearing plate 9 is arranged on the corner of mould 18 die joint, and in location Plate 6 and the inner of side plate 5, and exceed baffle plate 7 forming surface 0.5mm～1mm, wearing plate 9 is used for lifting sandbox 13, makes sand face slightly Higher than sandbox face, during the assembling of left and right casting mold, sand face is relied on to coordinate.

After the left and right casting mold made processes, utilizing assembling structure in casting mold location to be accurately positioned, sandbox is provided with casting mold assembling The guider 17 assembling when casting mold combines guides, and it can position with baffle plate 7 when moulding, it is achieved 13, sandbox The accurate placement put.Sandbox is i.e. ready for cast with the mould assembling such as under casing, top box fastening.

The preparation method of sand mold Fig. 1 shown in is presented herein below, as follows:

Step 1 is according to the construction features of casting structure, it is first determined the vertical-parting face 3 of casting mold.Vertical-parting face 3 is general Choose at casting mold maximum cross-section, it is ensured that being convenient in demoulding of left and right casting mold.Choose at external arc maximum cross-section as left and right casting mold Die joint.For reducing the number of core, inner circle forming surface is arranged in left-hand mold, such as Fig. 1.

Step 2, according to die joint position determined by step 1, analyzes the construction features of casting mold, the dress of appropriate design casting mold Join location structure such as core print 4 to position, as shown in Figure 2.

Step 3, according to casting mold structure determined by step 2, appropriate design mould 18, mould 18 by side plate 5, Location-plate 6, baffle plate 7 (dead head apperance etc.), wearing plate 9 and other supplementary structure etc. form, as shown in Figure 3.Wearing plate 9 Being arranged on the corner of baffle plate 7, use screw to be fixed on baffle plate 7, upper surface exceeds die joint 0.5mm, such as Fig. 4 institute Show.Anti-runout structure 8 is arranged on the die joint of baffle plate forming surface both sides, and this example uses lenticular structure, and Breadth Maximum is 20mm, uses matched in clearance, and fit clearance is 0.5mm, as shown in Figure 5.

Step 4, according to casting mold structure, mould 18, sandbox 13 determined by step 3, positions sandbox 13 and fastens On baffle plate 7, side plate 5 utilizes location-plate 6 and baffle plate 7 position and fasten, now, deposit between side plate 5 and sandbox 13 end face Gap at 0.5mm.Air-set mold resin sand consolidation is inserted toward sandbox 13, molding after self-hardening sand solidifies, concrete such as figure Shown in 6-7.

Step 5, the left and right casting mold made by step 4 is processed after, utilize assembling structure in casting mold location to be accurately positioned, sandbox 13 are i.e. ready for cast with the mould assembling such as under casing, top box fastening.

The invention is not limited in above-mentioned embodiment, any those skilled in the art can do numerous modifications and variations, Without departing from the spirit of the present invention, all in scope of the claimed of the present invention.

Claims (10)

1. a preparation method for large-scale vertical-parting self-curing mo(u)ld, chooses foundry goods cross section as vertical-parting according to foundry goods profile Face, is divided into left and right two parts by casting mold, designs the left and right mould with positioner according to foundry goods parting surface structure, By mould and sandbox, left and right sand mold is carried out flash mould, by making that moulding completes to leave on rear left and right sand mold Section mould plate positioner corresponding sand mold assembling detent mechanism, needed for carrying out mould assembling fastening formation by the left and right sand mold of molding Casting mold cavity.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 1, it is characterised in that choose casting The maximum cross-section in part cross section is vertical-parting face.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 1, it is characterised in that moulding mould Sheet metal forming face is provided with anti-runout structure.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 1, it is characterised in that Qi Zhongyi Positioner on mould is alignment pin, and the corresponding positioner on another mould is hole, location, or root Core head structure location is carried out according to cast shape.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 3, it is characterised in that anti-runout Structure is designed as lenticular anti-runout structure or beveled structure.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 5, it is characterised in that anti-runout Concaveconvex structure width is 10mm～50mm, uses matched in clearance, and fit clearance is 0.5mm～1mm.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 5, it is characterised in that anti-runout Beveled structure knuckle height is 10mm～20mm.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 1, it is characterised in that moulding mould Plate is provided with side plate, location-plate, baffle plate and wearing plate, and side plate is positioned at baffle plate symmetry two ends, and it is another that location-plate is positioned at baffle plate Outer two symmetrical ends.

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 8, it is characterised in that wearing plate Be arranged on the corner of mould die joint, and in the inner of location-plate Yu side plate, and exceed baffle plate forming surface 0.5mm～ 1mm。

The preparation method of a kind of large-scale vertical-parting self-curing mo(u)ld the most according to claim 8, it is characterised in that side plate Utilizing location-plate and baffle plate jointly to position, side plate and sandbox end clearance are 0.5mm～1mm.