CN110184480A - Molten aluminum filter device and casting system - Google Patents

Abstract

The present invention discloses a kind of molten aluminum filter device and casting system, wherein the molten aluminum filter device includes: base, base include the first mounting plane and with the first mounting plane be in drop setting the second mounting plane；Degasification mechanism is set to the first mounting plane, and degasification mechanism is provided with accommodating cavity and is connected to melt entrance and the melt outlet of accommodating cavity, and melt entrance is arranged adjacent to the notch of accommodating cavity, and the bottom that melt exports neighbouring accommodating cavity is arranged；Filter mechanism is set to the second mounting plane, and is disposed adjacent with degasification mechanism, and filter mechanism is provided with filter chamber and is connected to the liquid inlet and liquid outlet of filter chamber；And every liquid mechanism, be set between degasification mechanism and filter mechanism, be connected to every one end of liquid mechanism with liquid inlet, every the other end and melt outlet of liquid mechanism, is exported every liquid mechanism for melt and be connected to or block with liquid inlet.Molten aluminum filter device of the present invention avoids toppling over degasification mechanism, improves production efficiency.

Description

Molten aluminum filter device and casting system

Technical field

The present invention relates to aluminum production plant technical field, in particular to a kind of molten aluminum filter device and the application molten aluminum filter The casting system of device.

Background technique

Before batch micro operations aluminum products, the equipment production sample by miniaturization is needed, is to survey the proportion of alloy molten solution It is no accurate.Common, metal is melted using smelting furnace and obtains alloy molten solution, then alloy molten solution is transferred to degasification mechanism, getter Structure will transfer to filter mechanism after the gas removal in alloy molten solution.Due to common degasification mechanism pairing gold melt degasification Afterwards, it needs to be poured onto alloy molten solution after chute and imports filter mechanism again.In this way, causing affected difficulty big, production efficiency is influenced.

Above content is only used for the technical solution that auxiliary understands the application, does not represent and recognizes that above content is existing skill Art.

Summary of the invention

The main object of the present invention is to propose a kind of molten aluminum filter device, it is intended to how to reduce the step of manufacture aluminum product Suddenly, the technical issues of improving production efficiency.

To achieve the above object, molten aluminum filter device proposed by the present invention includes:

Base, the base include the first mounting plane and the second installation with first mounting plane in drop setting Plane；

Degasification mechanism, is set to first mounting plane, and the degasification mechanism is provided with accommodating cavity and the connection accommodating The melt entrance and melt of chamber export, and the melt entrance is arranged adjacent to the notch of the accommodating cavity, and the melt outlet is neighbouring The bottom of the accommodating cavity is arranged；

Filter mechanism is set to second mounting plane, and is disposed adjacent with the degasification mechanism, and the filter mechanism is set It is equipped with the liquid inlet and liquid outlet of filter chamber and the connection filter chamber；And

Every liquid mechanism, be set between the degasification mechanism and the filter mechanism, described one end every liquid mechanism with it is described Liquid inlet connection, the other end every liquid mechanism and the melt outlet, it is described to go out every liquid mechanism for the melt Mouth is connected to or blocks with the liquid inlet.

In embodiments of the present invention, the degasification mechanism includes the degasification main body for being set to first mounting plane, degasification Lid, driving motor and the body of rod, the degasification main body is provided with the accommodating cavity and the melt of the connection accommodating cavity enters Mouth and melt outlet；

The degasification cover cap is together in the notch of the accommodating cavity, and the driving motor is set on the degasification lid backwards to institute Degasification body side face is stated, one end of the body of rod passes through the output axis connection of the degasification lid and the driving motor, institute The body of rod other end is stated across the degasification lid and is protruded into the accommodating cavity.

In embodiments of the present invention, the filter mechanism includes the Rose Box for being set to second mounting plane, heating plate Body and heating pole, the Rose Box are provided with the filter chamber, the liquid inlet and the liquid outlet, and the heating plate body lid closes In the notch of the filter chamber, the heating pole is arranged in the heating plate body, and protrudes into the filter chamber.

In embodiments of the present invention, the one side of heating plate body towards the Rose Box is additionally provided at least one and adds Hot body, the calandria and the heating pole interval are arranged.

In embodiments of the present invention, it is described every liquid mechanism include the installation being connect with the degasification main body and the Rose Box Seat and plug, the mounting base are provided with the runner and locating slot for being connected to the liquid inlet and melt outlet, the positioning In the mounting base adjacent to one end that the melt exports, the plug is detachably arranged in the locating slot slot position.

In embodiments of the present invention, the base further includes that the third installation being disposed adjacent with first mounting plane is put down Face and chute part, the chute part are set between the third mounting plane and first mounting plane；

The molten aluminum filter device further includes the hot-melting mechanism set on the third mounting plane, the hot-melting mechanism setting There is melting trough to correspond to the chute part setting, the melt entrance pair with the discharge gate of the melting trough, the discharge gate is connected to The other end of the chute part is answered to be arranged.

In embodiments of the present invention, the hot-melting mechanism includes the hot melt case and at least one set on the third mounting plane A driving cylinder, the hot melt case are provided with the melting trough and discharge gate, and the hot melt case is close to the side of the chute part It is rotatably connected with the chute part, one end of the driving cylinder is rotatably connected with the base, the other end and the heat The outer surface of molten case is rotatably connected；

The driving cylinder drives the hot melt case to rotate around the junction of the hot melt case and the chute part.

In embodiments of the present invention, the base corresponds to the hot melt case and is additionally provided with slow pressure component, the slow pressure component It is arranged with chute part interval.

The embodiment of the present invention also proposes a kind of casting system, comprising: molding die and the molten aluminum filter device, it is described Molding die is disposed adjacent with the filter mechanism, and the molding die is located at the liquid outlet.

In embodiments of the present invention, the casting system further includes the hoisting mechanism set on the base, the hoisting machine Structure is disposed adjacent with the degasification mechanism and the filter mechanism.

Technical solution of the present invention is by using the first mounting plane and the second peace being provided on base in drop setting Fill plane, and by degasification mechanism be set to first mounting plane, filter mechanism be set to second mounting plane, it is described enter liquid Mouth and the melt outlet.It is to be appreciated that degasification mechanism and the second mounting plane are arranged in drop, so that the accommodating Intracavitary alloy molten solution can be exported via the melt to flow out, and flows to feeding inlet, avoids toppling over degasification mechanism, reduce mechanical Loss improves working efficiency.On the other hand, described to be closed every liquid mechanism by that will be connect every liquid mechanism with the degasification mechanism Or it opens wide the melt outlet and improves the controllability of processing flow in order to control alloy molten solution outflow.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of molten aluminum filter device of the present invention；

Fig. 2 is the partial enlarged view in Fig. 1 at A；

Fig. 3 is the partial enlarged view in Fig. 1 at B；

Fig. 4 is the structural schematic diagram of another state of molten aluminum filter device in Fig. 1；

Fig. 5 is the structural schematic diagram of one embodiment of casting system of the present invention.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that if relating to directionality instruction (such as up, down, left, right, before and after ...) in the embodiment of the present invention, Then directionality instruction be only used for explain under a certain particular pose (as shown in the picture) between each component relative positional relationship, Motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, being somebody's turn to do " first ", " second " etc. if relating to the description of " first ", " second " etc. in the embodiment of the present invention Description be used for description purposes only, be not understood to indicate or imply its relative importance or implicitly indicate indicated skill The quantity of art feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.In addition, the meaning of the "and/or" occurred in full text is, including three schemes arranged side by side, by " A and/or B for ", including A The scheme that scheme or B scheme or A and B meet simultaneously.In addition, the technical solution between each embodiment can be combined with each other, It but must be based on can be realized by those of ordinary skill in the art, when conflicting or nothing occurs in the combination of technical solution Method realize when will be understood that the combination of this technical solution is not present, also not the present invention claims protection scope within.

The present invention proposes that a kind of molten aluminum filter device, the molten aluminum filter device are used to be filtered alloy molten solution, with Remove the impurity in alloy molten solution.With specific reference to Fig. 1 is the structural schematic diagram of one embodiment of molten aluminum filter device of the present invention；Fig. 2 For the partial enlarged view at A in Fig. 1；Fig. 3 is the partial enlarged view in Fig. 1 at B；Fig. 4 is another shape of molten aluminum filter device in Fig. 1 The structural schematic diagram of state；Fig. 5 is the structural schematic diagram of one embodiment of casting system of the present invention.

In embodiments of the present invention, as shown in Figure 1, simultaneously as shown in connection with fig. 2, the molten aluminum filter device, comprising: base 1 removes Mechanism of qi structure 2, filter mechanism 3 and every liquid mechanism 4.It is to be appreciated that degasification mechanism 2 is used to carry out degasification operation to alloy molten solution.

Base 1 includes the first mounting plane 11 and is in the second mounting plane 12 that drop is arranged with the first mounting plane 11. That is, the structure of stepped setting is provided on base 1, so that the surface of a ladder is the first mounting plane 11, The surface of another ladder is the second mounting plane 12.

Degasification mechanism 2 is set to the first mounting plane 11, and degasification mechanism 2 is provided with accommodating cavity 211 and connection accommodating cavity 211 Melt entrance 212 and melt outlet 213, melt entrance 212 be arranged adjacent to the notch of accommodating cavity 211, melt outlet is 213 neighbouring The bottom of accommodating cavity 211 is arranged.That is, melt entrance 212 and melt outlet 213 are to be arranged in horizontal highland drop, such as: Melt outlet 213 is defined as close to the opening of base 1, then melt entrance 212 is the opening far from base 1.

Filter mechanism 3 is set to the second mounting plane 12, and is disposed adjacent with degasification mechanism 2, and filter mechanism 3 is provided with filtering Chamber 3111 and the liquid inlet 3112 and liquid outlet 3113 for being connected to filter chamber 3111.It is to be appreciated that liquid inlet 3112 and liquid outlet 3113 are arranged in horizontally disposed or liquid inlet 3112 and liquid outlet 3113 in drop.That is, liquid inlet 3112 and liquid outlet 3113 are set to the both ends of filter chamber 3111, and alloy molten solution is flowed by liquid inlet 3112, after filter chamber 3111, then via liquid out Mouth 3113 is discharged；Further, liquid inlet 3112 and liquid outlet 3113 may make to be arranged in horizontal drop, that is to say, that enter liquid Mouth 3112 is set to the one end of filter chamber 3111 far from the second mounting plane 12, and liquid outlet 3113 is set to filter chamber 3111 close to second One end of mounting plane 12.

It is set between degasification mechanism 2 and filter mechanism 3 every liquid mechanism 4, connects every one end of liquid mechanism 4 and 3112 liquid inlets It is logical, it is connected to every the other end of liquid mechanism with melt outlet 213, every company of the liquid mechanism 4 for melt outlet 213 and liquid inlet 3112 Logical or blocking.On the other hand, based on the demand of processing flow, 213 can also be exported to melt every liquid mechanism 4 and is closed or is opened It opens.

In the present embodiment, it is installed using the first mounting plane 11 and second being provided on base 1 in drop setting Plane 12, and degasification mechanism 2 is set to the first mounting plane 11, filter mechanism 3 is set to the second mounting plane 12, liquid inlet 3112 It is connected to melt outlet 213.It is to be appreciated that degasification mechanism 2 and the second mounting plane 12 are arranged in drop, so that accommodating cavity Alloy molten solution in 211 can export 213 outflows via melt, and flow to feeding inlet, avoid toppling over degasification mechanism 2, reduce machine Tool loss, improves working efficiency.On the other hand, it by that will be connect every liquid mechanism 4 with degasification mechanism 2, closes or opens every liquid mechanism 4 Melt outlet 213 is opened, in order to control alloy molten solution outflow, improves the controllability of processing flow.

In order to realize the work of control degasification mechanism 2 and other mechanisms, base 1 can be include structure with control device. Control device can be industrial computer or terminal device, etc..

In order to realize the filter effect of enhancing filter mechanism 3, filter mechanism 3 further includes filter plate, setting in filter chamber 3111 There is the card holding structure for clamping filter plate, card holding structure is arranged adjacent to liquid outlet 3113.That is, filter plate cover is closed in liquid outlet At 3113, so that flowing through the alloy molten solution of filter chamber 3111 can be filtered again.It is to be appreciated that card holding structure can be card It holds slot structure or card holding structure can be buckle structure.

It is to be appreciated that filter plate can be foamed ceramic filter plate；Or, filter plate can be glass fiber filter cotton.

In order to enhance the flowing of alloy molten solution, so that the first mounting plane 11 and the second mounting plane 12 are arranged in drop, So that the liquid inlet 3112 of filter mechanism 3 is in flush setting with the melt entrance 212 of degasification mechanism 2.

In practical applications, degasification mechanism 2 is provided with the stirring structure for stirring alloy molten solution in accommodating cavity 211, leads to Stirring structure stirring alloy molten solution is crossed, so that the gas in alloy molten solution oozes out.It is to be appreciated that in order to avoid stirring alloy is molten Liquid leads to heat consumption, and degasification mechanism 2 may also include heating structure, and heating structure is arranged in accommodating cavity 211, to realize heating Alloy molten solution.Under the premise of achievable degasification mechanism 2 realizes degasification to alloy molten solution, the unlimited tool for determining accommodating cavity 211 herein Shape.

In embodiments of the present invention, degasification mechanism 2 includes the degasification main body 21 for being set to the first mounting plane 11, degasification lid 221, driving motor 222 and the body of rod 223, degasification main body 21 are provided with accommodating cavity 211 and are connected to the melt entrance of accommodating cavity 211 212 and melt outlet 213；Degasification lid 221 is covered on the notch of accommodating cavity 211, and driving motor 222 is set to degasification lid 221 Backwards to 21 one side of degasification main body, one end of the body of rod 223 passes through the output axis connection of degasification lid 221 and driving motor 222, bar The body other end passes through degasification lid 221 and protrudes into accommodating cavity 211.

In the present embodiment, the body of rod 223 is driven to rotate by using driving motor 222, so that the body of rod 223 stirs alloy Melt, so that the gas in alloy molten solution is discharged.On the other hand, driving motor 222 can be direct driving motor, so that straight drive electricity Machine directly drives the body of rod 223 to rotate, and improves the stirring efficiency of the body of rod 223.Another aspect, the body of rod 223 is far from driving motor 222 One end is provided with paddle blade structure, to increase the contact area of the body of rod 223 Yu alloy molten solution, improves the efficiency of stirring alloy molten solution.

It is to be appreciated that degasification main body 21 and degasification lid 221 are carbon steel material.

In embodiments of the present invention, filter mechanism 3 includes Rose Box 311, the heating plate body set on the second mounting plane 12 312 and heating pole 313, Rose Box 311 is provided with filter chamber 3111, liquid inlet 3112 and liquid outlet 3113, and heating plate body 312 covers Together in the notch of filter chamber 3111, heating pole 313 is arranged in heating plate body 312, and protrudes into filter chamber 3111.

In the present embodiment, by the way that heating pole 313 to be set on heating plate body 312；Filter chamber is closed in the heating lid of plate body 312 When 3111, heating pole 313 is protruded into and is located in filter chamber 3111, to keep temperature of the alloy molten solution in filtering process one Determine in range.Wherein, which is that alloy molten solution is kept to keep fluid state.

It is to be appreciated that the side of heating plate body 312 towards filter chamber 3111 may be provided with holding tank, when heating plate body When 312 lids close filter chamber 3111, the wall surface of 3111 notch of filter chamber is contained in holding tank.

In embodiments of the present invention, the one side for heating plate body 312 towards Rose Box 311 is additionally provided at least one heating Body 3121, calandria 3121 and the interval of heating pole 313 are arranged.

In the present embodiment, heating plate body 312 is arranged in towards the side of Rose Box 311 at least one calandria 3121 Face, when heating the lid conjunction filter chamber 3111 of plate body 312, calandria 3121 can add the alloy molten solution in filter chamber 3111 Heat.It is to be appreciated that calandria 3121 can be thermal resistance wire, thermal resistance wire is powered, so that thermal resistance wire converts electrical energy into thermal energy.

In embodiments of the present invention, every liquid mechanism 4 include the mounting base 41 being connect with degasification main body 21 and Rose Box 311 and Plug 42, mounting base 41 are provided with the runner 411 and locating slot 412 of connection liquid inlet 3112 and melt outlet 213, locating slot 412 are located at mounting base 41 adjacent to one end of melt outlet 213, and plug 42 is detachably arranged in locating slot 412.

In the present embodiment, alloy molten solution is flowed to using the guiding of runner 411 to entering via 213 outflow of melt outlet Liquid mouth 3112；On the other hand, in mounting base 41 adjacent to the structure of one end setting locating slot 412 of melt outlet 213, so that stifled First 42 insertion detaches locating slot 412, to realize closing or open melt outlet 213, realizes filtering alloy molten solution process Controllability.

It is to be appreciated that the size of locating slot 412 and the size of plug 42 match, so that plug 42 is inserted into locating slot After 412, the cell wall of plug 42 and locating slot 412 is interference fitted, and plug 42 blocks melt outlet 213.

In embodiments of the present invention, plug 42 can be the structure of tapered setting, and the plug 42 includes ontology and cladding In the asbestos layer of outer body.It is to be appreciated that ontology can be carbon steel material.

In embodiments of the present invention, in conjunction with shown in Fig. 1, Fig. 3 and Fig. 4, base 1 further includes adjacent with the first mounting plane 11 The third mounting plane 13 and chute part 14 of setting, chute part 14 be set to third mounting plane 13 and the first mounting plane 11 it Between；It is to be appreciated that third mounting plane 13 can be the planar structure with 11 parallel arranged of the first mounting plane.

Molten aluminum filter device further includes the hot-melting mechanism 5 set on third mounting plane 13, and hot-melting mechanism 5 is provided with melting trough 511 are arranged with the discharge gate 512 that is connected to melting trough 511, the corresponding chute part 14 of discharge gate 512, the corresponding chute part of melt entrance 212 14 other end setting.

In the present embodiment, hot-melting mechanism 5 is arranged and is disposed adjacent on base 1, and with degasification mechanism 2, so that hot Molten mechanism 5 can melt metal and form alloy molten solution, and then be directed into degasification mechanism 2, improve the production efficiency of equipment.

In embodiments of the present invention, hot-melting mechanism 5 includes set on the hot melt case 51 of third mounting plane 13 and at least one Cylinder 52 is driven, hot melt case 51 is provided with melting trough 511 and discharge gate 512, side and stream of the hot melt case 51 close to chute part 14 Slotware 14 is rotatably connected, and one end of driving cylinder 52 is rotatably connected with base 1, and the outer surface of the other end and hot melt case 51 can Rotation connection；

Drive cylinder 52 that hot melt case 51 is driven to rotate around the junction of hot melt case 51 and chute part 14.

In the present embodiment, drive hot melt case 51 around the connection of hot melt case 51 and chute part 14 by using driving cylinder 52 The structure for locating rotation, so that the alloy molten solution in melting trough 511 is directed to chute part 14 by discharge gate 512.

It is to be appreciated that the two sides of the hot melt case 51 are convexly equipped with pivot structure, hot-melting mechanism 5 includes two driving gas Cylinder 52, each driving cylinder 52 is rotatably connected by pivot structure with hot melt case 51, so that two driving cylinders 52 drive simultaneously Dynamic hot melt case 51 is rotated relative to chute part 14, improves the stationarity that hot melt case 51 is rotated relative to chute part 14.

In embodiments of the present invention, the corresponding hot melt case 51 of base 1 is additionally provided with slow pressure component 15, delays pressure component 15 and chute The setting of the interval of part 14.It is to be appreciated that slow pressure component 15 can be the mechanism for including spring and elastic plate, one end of spring and base 1 connection, the other end of spring are connect with elastic plate, and the one side of elastic plate is arranged towards hot melt case 51.When hot melt case 51 is multiple When third mounting plane 13 is arrived in position, hot melt case 51 is compressed with elastic plate, and spring is compressed, and is avoided between hot melt case 51 and base 1 Hard collision is generated, the job stability of equipment is improved.

The present invention also proposes a kind of casting system, and as shown in connection with fig. 5, which includes molding die and molten aluminum filter Device, the specific structure of the molten aluminum filter device is referring to above-described embodiment, since this casting system uses above-mentioned all implementations Whole technical solutions of example, therefore at least all beneficial effects brought by the technical solution with above-described embodiment, herein not It repeats one by one again.Wherein, the molding die is disposed adjacent with the filter mechanism 3, and the molding die is located at the liquid out At mouth 3113.

In embodiments of the present invention, the casting system further includes the hoisting mechanism 6 set on the base 1, the lifting Mechanism 6 is disposed adjacent with the degasification mechanism 2 and the filter mechanism 3.

In the present embodiment, the hoisting mechanism 6 includes the structure of boom and hook.The hook is for slinging molding Mold or other process equipments.

The foregoing is merely alternative embodiments of the invention, are not intended to limit the scope of the invention, all at this Under the concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly It is included in other related technical areas in scope of patent protection of the invention.

Claims (10)

1. a kind of molten aluminum filter device characterized by comprising

Base, the base include the first mounting plane and put down with first mounting plane in the second installation of drop setting Face；

Degasification mechanism, is set to first mounting plane, and the degasification mechanism is provided with accommodating cavity and is connected to the accommodating cavity Melt entrance and melt outlet, the melt entrance are arranged adjacent to the notch of the accommodating cavity, and the melt outlet is neighbouring described The bottom of accommodating cavity is arranged；

Filter mechanism is set to second mounting plane, and is disposed adjacent with the degasification mechanism, and the filter mechanism is provided with The liquid inlet and liquid outlet of filter chamber and the connection filter chamber；And

Every liquid mechanism, be set between the degasification mechanism and the filter mechanism, described one end every liquid mechanism and it is described enter liquid Mouthful connection, the other end every liquid mechanism and the melt outlet, it is described every liquid mechanism for melt outlet and The liquid inlet connection blocks.

2. molten aluminum filter device as described in claim 1, which is characterized in that the degasification mechanism includes being set to first peace Degasification main body, degasification lid, driving motor and the body of rod of plane are filled, the degasification main body is provided with the accommodating cavity and connection The melt entrance of the accommodating cavity and melt outlet；

Together in the notch of the accommodating cavity, the driving motor is set to the degasification lid and removes backwards to described the degasification cover cap The one side of gas main body, the output axis connection of one end of the body of rod and the driving motor, the other end of the body of rod pass through The degasification lid simultaneously protrudes into the accommodating cavity.

3. molten aluminum filter device as claimed in claim 2, which is characterized in that the filter mechanism includes being set to second peace Fill Rose Box, the heating plate body and heating pole of plane, the Rose Box be provided with the filter chamber, the liquid inlet and it is described go out Liquid mouth, the heating plate body are covered on the notch of the filter chamber, and the heating pole is arranged in the heating plate body, and protrudes into institute It states in filter chamber.

4. molten aluminum filter device as claimed in claim 3, which is characterized in that the heating plate body is towards the one of the Rose Box Side is additionally provided at least one calandria, and the calandria and the heating pole interval are arranged.

5. molten aluminum filter device as claimed in claim 4, which is characterized in that described to include and the degasification main body every liquid mechanism The mounting base and plug connected with the Rose Box, the mounting base be provided be connected to the liquid inlet and the melt outlet Runner and locating slot, the locating slot are located at the mounting base adjacent to one end that the melt exports, and the plug is removably In the locating slot.

6. the molten aluminum filter device as described in any one of claim 1 to 5, which is characterized in that the base further include with The third mounting plane and chute part that first mounting plane is disposed adjacent, the chute part are set to the third mounting plane Between first mounting plane；

The molten aluminum filter device further includes the hot-melting mechanism set on the third mounting plane, and the hot-melting mechanism is provided with molten Hopper corresponds to the chute part setting with the discharge gate for being connected to the melting trough, the discharge gate, and the melt entrance corresponds to institute State the other end setting of chute part.

7. molten aluminum filter device as claimed in claim 6, which is characterized in that the hot-melting mechanism includes being set to the third to pacify The hot melt case and at least one driving cylinder, the hot melt case for filling plane are provided with the melting trough and discharge gate, the hot melt Case is rotatably connected close to the side of the chute part with the chute part, and one end of the driving cylinder can turn with the base Dynamic connection, the other end and the outer surface of the hot melt case are rotatably connected；

The driving cylinder drives the hot melt case to rotate around the junction of the hot melt case and the chute part.

8. molten aluminum filter device as claimed in claim 7, which is characterized in that the base corresponds to the hot melt case and is additionally provided with Slow pressure component, the slow pressure component and chute part interval are arranged.

9. a kind of casting system characterized by comprising molding die and molten aluminum as claimed in any one of claims 1 to 8 filter Makeup is set, and the molding die is disposed adjacent with the filter mechanism, and the molding die is located at the liquid outlet.

10. casting system as claimed in claim 9, which is characterized in that the casting system further includes being set to the base Hoisting mechanism, the hoisting mechanism are disposed adjacent with the degasification mechanism and the filter mechanism.