CN110496937A - Sorting system - Google Patents

Abstract

The present invention provides a kind of sorting equipment, sorting equipment quickly sorts filling sand mixed in together and casting microspheres product, improves sorting efficiency.There is the first and second sieve in rack, first and second sieve is diagonally disposed, the wire side of second sieve is arranged in the lower section of the first sieve, vibration excitor drives the vibration of the first and second sieve, the mesh of first sieve is less than the diameter of microballoon to be sorted, is greater than sand particle size, the aperture of second sieve is less than sand particle size, and the discharge end of first and second sieve, which misplaces, to be arranged.By the first and second screen cloth vibrating screen point, casting microspheres product comes with sand separation, is even contaminated with casting waste materials in casting microspheres product, is also a small amount of and is easy to sort with microballoon casting, the present invention, which has, significantly improves sorting efficiency, and picks phenomenon without leakage.

Description

Sorting system

Technical field

The invention belongs to casting fields, and in particular to a kind of sorting system using overlay film sand casting microballoon.

Background technique

It is general using husky vacuum-assist pouring mode is buried using small pieces such as overlay film sand mold production microballoons, i.e., it will be an appropriate number of Unit mould is sticked together by end plate and the pull rod of connection board and to be fixed as fixture as one group of casting moulds, which pours Injection molding constitutes overlay film sand mold and is placed in cabinet, then buries filling sand, and the common outer molding sand of filling sand, filling sand landfill arrives Thin film is set up at cabinet case open height position and at case mouth, the fixed film of some sand can be dispensed on film.

In practical casting process, casting complete and will clamp after cooling down the fixture connection overlay film sand mold of overlay film sand mold together from It hangs out and is placed on ground in sandbox, a large amount of casting is also hung out together, the overlay film sand mold made due to high temperature to resin Ablation, the fracture phenomena of overlay film sand mold is inevitable, therefore there are also part microballon castings to be retained in sandbox in filling sand, Microballon casting region will likely be lost by additionally needing is shoveled out the filling sand in the region with tools such as spade classes together, by artificial Operation is to sort out the microballon casting that loses in filling sand, and sorting efficiency is low, large labor intensity.

After the completion of casting, a large amount of outer molding sand is to fill sand, the overlay film sand mold relic that charing falls off and press mold sand to mix Together, outer molding sand is difficult to recycling and reusing, increases the manufacturing cost of product.

It needs to empty sandbox before casting vanning again, generally uses electric block or driving, tangle sandbox with steel wire hook The side of hanging ring or mounting pivot pin lifting sandbox on outer wall makes sandbox tumble, and posture is difficult to control during one side sandbox is tumbled It makes, there are serious security risks；On the other hand；Mix sand also to need largely to clear workload.

Summary of the invention

The object of the present invention is to provide a kind of sorting system, sorting system is to filling sand mixed in together and casting microballoon Product quickly sorts, and improves sorting efficiency.

To achieve the goals above, present invention employs following technical solutions:

A kind of sorting system, it is characterised in that: resilient support has the first sieve, the oblique cloth of the wire side of the first sieve in rack It sets, vibration excitor drives the vibration of the first sieve, and the mesh of first sieve is less than the diameter of microballoon to be sorted, is greater than grains of sand grain Diameter.

In above scheme, in view of having selected suitable mesh aperture and by sand mixed in together, cast article and overlay film Sand tail antiquated sand is poured on sieve together, and by the first screen cloth vibrating screen point, casting microspheres product comes with sand separation, even Casting waste materials are contaminated in casting microspheres product, is also a small amount of and is easy to sort with microballoon casting, the present invention has aobvious Work improves sorting efficiency, and picks phenomenon without leakage.

Detailed description of the invention

Fig. 1,2 be this system schematic diagram；

Fig. 3,4 are the perspective view in the screening portion in this system respectively.

Specific embodiment

A kind of sorting system, resilient support has the first sieve 20 in rack 10, and the wire side of the first sieve 20 is diagonally disposed, swashs The device that shakes drives the vibration of the first sieve 20, and the mesh of first sieve 20 is less than the diameter of microballoon to be sorted, is greater than grains of sand grain Diameter.Merely from the perspective of sorting, above scheme has been realized in the separation of casting microballoon and sand grains.

Due to being also contaminated in sand, particle size difference is big and soot particle component, it is necessary to make further centrifugation, it is excellent Selecting scheme is to add one layer of sieve again in the first sieve 20, i.e., flexibly supporting in rack 10 has the first and second sieve 20,30, first, The wire side of two sieves 20,30 is diagonally disposed, and the wire side connected of the second sieve 30 is arranged in the lower section of the first sieve 20, vibration excitor The first and second sieve 20,30 is driven to vibrate, the mesh of first sieve 20 is less than the diameter of microballoon to be sorted, is greater than the grains of sand Partial size, the aperture of the second sieve 30 are less than sand particle size, and the discharge end of first and second sieve 20,30, which misplaces, to be arranged.

In above scheme, there is support the first and second sieve 20,30 of connection of spring 1 in rack 10, vibration excitor 2,3 is respectively set On the first and second sieve 20,30, as shown in Figure 3,4.

It filling sand in sandbox in the prior art and is mingled in cast product therein and is poured directly on the ground, it is cold to its But manual sorting after waits the time-consuming being cooled to room temperature very long, generally starts temperature when sorting also above environment temperature, so Manual work physical demands is huge, this awkward contradiction is difficult to solve simultaneously.The present invention is cooled to room temperature shape without waiting for sand body State can be directly poured on Screening Network, and by the sorting of the first and second sieve 20,30, microballoon casting is blocked by the first sieve 20 It cuts and is directed in feed basin 4.The material of relatively small particle including filling sand passes through and drops down onto from 20 mesh of the first sieve On the wire side of second sieve 30, is intercepted and guided from low order end by the second sieve 30 to fill the biggish grains of sand of partial size based on sand Discharge, it can be seen that, material mixed in together pass through the first and second sieve 20,30 screening, cast product, foundry sand and Soot particle is rapidly separated.

In order to improve efficiency, sandbox is overturn by turnover device, in material directly toppled over, the present invention increase If protective net 40, i.e. protective net 40 is disposed with above the first sieve 20, the mesh of protective net 40 passes through, blocks for microballoon to be sorted Cut runner scrap, the wire side of protective net 40 and the first sieve 20 are in consistent reversed or lateral diagonally disposed.

The protective net 40 being arranged above the first sieve 20 can use the appropriate steel plate production of thickness to carry energy to improve it Power, and the machining accuracy of its mesh is without excessively high, while the casting waste materials that can intercept casting waste materials such as running channel position again are The task of bar shaped, such first sieve 20 just merely intercepts microballoon, and the bearing strength of the first sieve 20 requires also significant at this time It reduces, selects the production of thin-walled steel plate, since the mesh aperture of the first sieve 20 is more demanding, the can be significantly reduced in this way The processing capacity of one sieve 20, while in view of the protective action of protective net 40, the service life of the first sieve 20 is also extended.

After due to casting, there are also precoated sands to be mingled in filling sand, and partial size is less than filling sand and partial size is smaller Ash content, therefore added in the lower section of the second sieve 30 and hold hawk 50, that is, the plate face connected for holding hawk 50 is arranged in the second sieve The plate face of hawk 50 and the second sieve 30 are held in consistent reversed or lateral diagonally disposed in the lower section of net 30.Holding hawk 50 is Ash bucket splicing is placed in guide chute structure, lower end exit side lower section.

The dust fallen by the second sieve 30 can be collected in this way, the mesh size of certain second sieve 30 It can satisfy when setting appropriate and whether need precoated sand and filling sand sieve separating demand, because precoated sand can also be returned individually It receives and utilizes.Concrete scheme is that one layer of sieve can be added below the second sieve 30 to intercept precoated sand and separate dust.

First sieve 20 is connected with the peripheral part of protective net 40 and two tilting direction is consistent, the first sieve of low order end 20 are separated from each other arrangement with protective net 40.It can be convenient the collection of microballoon casting in this way, also facilitate the collection of bulk foundry scrap Cleaning.

First sieve 20 has coaming plate 60, coaming plate 60 with the rear end of high-order side of protective net 40 and the peripheral part at two sides position Extend up to the two sides of protective net 40 and the top of back.Setting coaming plate 60 can both guarantee that material protected certainly when sandbox is tumbled The side position of net 40 is passed into others' hands, and the effect of the first sieve 20 and protective net 40 is also functioned to while connecting, and reduces vibration excitor The quantity of setting.It is found that the first sieve 20 is linked together with protective net 40, the shared vibration excitor 2 of the two in this way is above scheme Can, if the two uses non-integral connection type, vibration excitor can be individually arranged for protective net 40.

In order to facilitate the collection of screening materials carrying, the first sieve 20, the second sieve 30 wire side in consistent or lateral oblique Arrangement is preferably turned back to arrangement, and space utilization rate, reduction plane up and down can be improved to arrangement in as shown in Figure 3,4 turning back Area occupied.

It is already mentioned above in foregoing teachings, sandbox material is integrally poured in sieve unit to improve efficiency, in addition, Sieve drives its vibration by vibration excitor 2,3 in screening process, so, flue gas, the winged phenomenon of dust ease are inevitable, to reduce environment Pressure, the rack 10 and the first and second sieve 20,30 are placed in cabinet 70, and 70 top of cabinet is gathered dust with 70 side of cabinet Case 100 is connected.Thus flue dust collection cover is got up so as to subsequent dedusting operation.

In order to recycle filling sand and precoated sand, the discharging end of the second sieve 30 and the chute 71 for passing through 70 tank wall of cabinet Linking, the discharge end of chute 71 extend at the splicing of bucket elevator 80, the discharge end of bucket elevator 80 and the pan feeding of sandbox feed bin 90 Mouth linking.

The present invention not only solves the sorting work of microballoon casting first, also solves dedusting and time of foundry sand together Receive Utilizing question.

Claims (9)

1. a kind of sorting system, it is characterised in that: there is the first sieve (20) resilient support in rack (10), the first sieve (20) Wire side is diagonally disposed, and vibration excitor drives the first sieve (20) vibration, and the mesh of first sieve (20) is less than to be sorted micro- The diameter of ball is greater than sand particle size.

2. sorting system according to claim 1, it is characterised in that: resilient support has the first and second sieve in rack (10) The wire side of (20,30), the first and second sieve (20,30) is diagonally disposed, and the wire side connected of the second sieve (30) is arranged in the first sieve The lower section of net (20), vibration excitor drive the first and second sieve (20,30) vibration, and the aperture of the second sieve (30) is less than sand particle size, The discharge end of first and second sieve (20,30), which misplaces, to be arranged.

3. sorting system according to claim 1 or 2, it is characterised in that: be disposed with protective net above the first sieve (20) (40), the mesh of protective net (40) passes through for microballoon to be sorted, intercepts runner scrap, the wire side and the first sieve of protective net (40) (20) in consistent reversed or lateral diagonally disposed.

4. sorting system according to claim 1 or 2, it is characterised in that: the plate face connected for holding hawk (50) is arranged in The lower section of second sieve (30), the plate face for holding hawk (50) and the second sieve (30) are in consistent reversed or lateral oblique cloth It sets.

5. sorting system according to claim 3, it is characterised in that: the peripheral portion of the first sieve (20) and protective net (40) Position is connected and two tilting direction is consistent, and the first sieve (20) of low order end and protective net (40) are separated from each other arrangement.

6. sorting system according to claim 5, it is characterised in that: the high-order side of the first sieve (20) and protective net (40) Rear end and the peripheral part at two sides position have coaming plate (60), coaming plate (60) extends up to the two sides and back of protective net (40) Top.

7. sorting system according to claim 2, it is characterised in that: the wire side of the first sieve (20), the second sieve (30) In consistent or laterally diagonally disposed, preferably folding reversed arrangement.

8. sorting system according to claim 2, it is characterised in that: the rack (10) and the first and second sieve (20, 30) it is placed in cabinet (70), cabinet (70) top is connected with the dust collecting box (100) of cabinet (70) side by air draft pipeline (101).

9. sorting system according to claim 1 or 8, it is characterised in that: the discharging end of the second sieve (30) and pass through machine The chute (71) of case (70) tank wall is connected, and the discharge end of chute (71) extends at the splicing of bucket elevator (80), bucket elevator (80) Discharge end be connected with the feeding inlet of sandbox feed bin (90).