CN206956134U - Two-way foaming aluminum aluminum ingot casting tinuous production - Google Patents

Abstract

The utility model provides two-way foaming aluminum aluminum ingot casting tinuous production, it sets mixing component in the discharge end of hot melting furnace, parallel the first foudry line and the second foudry line are set in the both sides of mixing component, sufficiently stirring foaming is carried out to the aluminium liquid containing foaming agent using mixing component, after the completion of stirring, first casting aluminum dipping form injection aluminium liquid of the mixing component to the first foudry line, it is subsequently agitated for component automatic switchover aluminium liquid outflow direction, to the second casting aluminum dipping form injection aluminium liquid on the second foudry line, switching direction injects aluminium liquid to mixing component to the first casting aluminum dipping form of the first foudry line once again afterwards, such alternation, solves the two-way quantity-produced technical problem of foaming aluminum, realize the continuously casting of two foaming aluminum aluminium ingot production lines.

Description

Two-way foaming aluminum aluminum ingot casting tinuous production

Technical field

Foaming aluminum aluminum ingot casting technical field is the utility model is related to, more particularly to two-way foaming aluminum aluminum ingot casting is continuously given birth to Producing line.

Background technology

Because aluminium density is low, rigidity is high, corrosion-resistant and processing forming is good so that the application of aluminium continues to increase, this Kind of trend is in auto industry, and household electrical appliance and building industry are particularly evident, in these fields to complex shape and more high-strength The aluminium of degree has huge demand, however, the production equipment and system of foaming aluminum of the prior art can not there is foaming Control, the defects of production is discontinuous, production capacity is low, high energy consumption, production cost are big and process is cumbersome, the qualification rate of product is low, and raw The problems such as safety coefficient is low in production.

In Patent No. CN103993194B Chinese patent, the production system and producer of a kind of foaming aluminum are disclosed Method, it includes the intermediate frequency furnace of two continuous melting aluminium, and each intermediate frequency furnace branch is connected with mix stove by mobile running channel, and every is mixed The corresponding two foaming aluminum production lines of stove are closed, four production lines is realized while is produced, but two corresponding to its every mix stove Bar production line is that homonymy is collinearly set, and topples over mode using original crucible due to the unit output of its aluminium liquid and realize, can not Bidirectional output is realized, carries out the production of two-way continous way.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, there is provided two-way foaming aluminum aluminum ingot casting is continuously given birth to Producing line, it sets mixing component in the discharge end of hot melting furnace, and parallel the first foudry line and the are set in the both sides of mixing component Two foudry lines, sufficiently stirring foaming, after the completion of stirring, mixing component are carried out to the aluminium liquid containing foaming agent using mixing component To the first casting aluminum dipping form injection aluminium liquid of the first foudry line, component automatic switchover aluminium liquid outflow direction is subsequently agitated for, is cast to second The second casting aluminum dipping form injection aluminium liquid on line is made, switching direction casts aluminium to mixing component to the first of the first foudry line once again afterwards It is molded into aluminium liquid, such alternation, solves the two-way quantity-produced technical problem of foaming aluminum, realize two foaming aluminums The continuously casting of aluminium ingot production line.

To achieve the above object, the utility model provides following technical scheme：

Two-way foaming aluminum aluminum ingot casting tinuous production, including hot melting furnace, in addition to：

Mixing component, the mixing component are arranged at the discharge end of the hot melting furnace and its connection, and it is used for the hot melt The aluminium liquid of stove output is stirred；

First foudry line, first foudry line are arranged at the side of the hot melting furnace, equidistant along its length thereon Some first casting aluminum dipping forms are provided with, the first casting aluminum dipping form is used to carry the aluminium liquid of the mixing component output and casts aluminium Ingot；

Second foudry line, second foudry line are arranged at the another of the hot melting furnace relative to first foudry line Side, it be arranged in parallel with first foudry line, and has been placed equidistant some second casting aluminum dipping forms along its length thereon, should Second casting aluminum dipping form is used to carry the aluminium liquid of the mixing component output and casts aluminium ingot.

As an improvement, the first casting aluminum dipping form is staggeredly arranged at intervals with the described second casting aluminum dipping form, two neighboring first The second casting aluminum dipping form is provided between casting aluminum dipping form.

As an improvement, first foudry line also includes with second foudry line：

Carriage, the carriage Parallel Symmetric are arranged at the both sides of the hot melting furnace；

Some waggons, the waggon be may be contained within the carriage, and it is moved along the carriage, and is carried thereon There are the first casting aluminum dipping form or the second casting aluminum dipping form；

Rack assembly, the rack assembly may be contained within the waggon close to the side of the hot melting furnace, and it includes setting The first rack unit for being placed in the waggon rear end and the second rack unit for being arranged at the waggon front end, and described first Rack unit is collinearly set with the second rack unit.

As an improvement, first rack unit includes with second rack unit：

Horizontal rack, the horizontal rack are symmetricly set in the front and back end of the waggon, its teeth opening direction direction The hot melting furnace；

Vertical rack, the vertical rack are vertically arranged with the horizontal rack, and its teeth opening direction is vertical upward.

As an improvement, the mixing component includes：

Mounting bracket, the mounting bracket are arranged at the discharge end of the hot melting furnace；

Agitating unit, the agitating unit are arranged on the mounting bracket, and it passes through pipeline communication with the hot melting furnace；

Temporary storage location, the temporary storage location are arranged on the mounting bracket, and it is located at the rear side of the agitating unit, its with The agitating unit passes through pipeline communication.

As an improvement, the agitating unit includes：

First agitator tank, first agitator tank are fixedly connected with the mounting bracket, and it is connected with the hot melting furnace, in it Rotation is provided with the first agitating paddle, and first agitating paddle stirs the aluminium liquid in first agitator tank；

Second agitator tank, mounting bracket described in second agitator tank are fixedly connected, and it is connected with first agitator tank, its Interior rotation is provided with the second agitating paddle, and second agitating paddle stirs the aluminium liquid in second agitator tank；

First valve group, first valve group are respectively arranged at the pipe that first agitator tank connects with the hot melting furnace On the pipeline that road and second agitator tank connect with first agitator tank, it is used to controlling the hot melting furnace and described the The connection of one agitator tank and the connection of second agitator tank and first agitator tank；

Stirring motor, the stirring motor pass through the first agitating paddle and second described in sprocket wheel chain transmission mode synchronous drive Agitating paddle synchronous axial system.

As an improvement, first valve group includes：

First ball valve, first ball valve are arranged on the pipeline that first agitator tank connects with the hot melting furnace；

Second ball valve, second ball valve are arranged at the pipeline that second agitator tank connects with second agitator tank On；

First gear, the first gear symmetrically rotate the both sides for being arranged at the mounting bracket, and it is joined by sprocket wheel chain Dynamic mode is connected with first ball valve and the second ball valve respectively.

As an improvement, the temporary storage location includes：

First temporary storing bin, first temporary storing bin are disposed in proximity to the side of first foudry line, and its end pipeline hangs Sky is arranged at the top of the first casting aluminum dipping form；

Second temporary storing bin, second temporary storing bin are disposed in proximity to the side of the second foudry line, and its end pipeline is vacantly set It is placed in the top of the second casting aluminum dipping form；

Second valve group, second valve group are arranged at first temporary storing bin and the second temporary storing bin and the stirring On the three-way pipeline of unit connection, it is used for the connection and described second for controlling first temporary storing bin and the agitating unit The connection of temporary storing bin and the agitating unit；

3rd valve group, the 3rd valve group are respectively arranged on the pipeline of the first temporary storing bin end and described On the pipeline of second temporary storing bin end.

As an improvement, second valve group includes：

3rd ball valve, the 3rd ball valve are arranged at the infall of the three-way pipeline；

Second gear, the second gear rotate and are arranged at the mounting bracket close to the side of the first foudry line, and it passes through The mode of sprocket wheel chain linkage is connected with the 3rd ball valve.

As an improvement, the 3rd valve group includes：

4th ball valve, the 4th ball valve are respectively arranged at temporary with described second on the pipeline of the first temporary storing bin end On the pipeline of storage end；

3rd gear, the 3rd gear are symmetricly set in the both ends of the mounting bracket, and it is located at the 4th ball valve Lower section, and it is connected with the 4th ball valve.

The beneficial effects of the utility model are：

(1) the utility model sets mixing component by the discharge end in hot melting furnace, is set in the both sides of mixing component flat Capable the first foudry line and the second foudry line, sufficiently stirring foaming is carried out to the aluminium liquid containing foaming agent using mixing component, After the completion of stirring, mixing component is subsequently agitated for component automatic switchover to the first casting aluminum dipping form injection aluminium liquid on the first foudry line Aluminium liquid flows out direction, to the second casting aluminum dipping form injection aluminium liquid on the second foudry line, mixing component switching direction pair once again afterwards First casting aluminum dipping form injection aluminium liquid of the first foudry line, such alternation, realizes the first foudry line and the second foudry line simultaneously It is carried out continuously aluminum ingot casting；

(2) the utility model sets agitator tank by being classified, aluminium liquid is sufficiently stirred when setting mixing component Foaming, and after the aluminium liquid output in the second agitator tank, the aluminium liquid in the first agitator tank can be automatically flowed into the second agitator tank, And hot melting furnace can then carry out aluminium liquid supplement to the first agitator tank automatically, realize aluminium liquid and be sufficiently stirred and the technology of automatic feeding Effect；

(3) the utility model sets the second valve group on the three-way pipeline of the second stirring box back, and passes through the first casting Make line to be controlled second valve group with the rack assembly on the second foudry line, allow it in the first assembly line and second When foudry line operates, the discharging direction of aluminium liquid in automatic switchover mixing component, realize that it casts to the first foudry line and second successively Make the technique effect that line carries out aluminium liquid discharging；

(4) the utility model is set on pipeline of the corresponding first casting aluminum dipping form of mixing component with the second casting aluminum dipping form end 3rd valve group, using rack assembly and the 3rd valve group coordinate and realize that the first casting aluminum dipping form casts aluminum dipping form with second Automatic material taking and the automatic technique effect for closing material taking mouth；

(5) the utility model is when setting the second valve group with three valve groups, by controlling the second valve group and the 3rd The time that valve group is opened to shut-in time section is identical, and controls the second valve group and the flow velocity of the pipeline of the 3rd valve group setting It is identical, realize the quantitative injection of the first casting aluminum dipping form and the second casting aluminum dipping form aluminium liquid；

The first casting aluminum dipping form on (6) first foudry lines is staggered with the second casting aluminum dipping form on the second foudry line, is Since it is considered that the aluminium ingot at the first foudry line and the second foudry line casting when exporting in the later stage, it is necessary to using same output line, Exported, spaced first casting aluminum dipping form and the second casting aluminum dipping form, the time difference can be provided for the transfer conveying of aluminium ingot；

In summary, the utility model have the advantages that continuous production, automatically control, aluminium liquid stirring foaming it is abundant, especially Suitable for foaming aluminum quantity-produced technical field.

Brief description of the drawings

It is required in being described below to embodiment for the technical scheme of clearer explanation the utility model embodiment The accompanying drawing used is briefly described, it should be apparent that, drawings discussed below is only some embodiments of the utility model, For one of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings Obtain other accompanying drawings.

Fig. 1 is overall structure diagram of the present utility model；

Fig. 2 is the first foudry line part-structure schematic diagram；

Fig. 3 is structure enlargement diagram at A in Fig. 2；

Fig. 4 is the second foudry line part-structure schematic diagram；

Fig. 5 is structure enlargement diagram at B in Fig. 4；

Fig. 6 is agitating unit structural representation；

Fig. 7 is structure enlargement diagram at C in Fig. 6；

Fig. 8 is structure enlargement diagram at D in Fig. 6；

Fig. 9 is structure enlargement diagram at E in Fig. 6；

Figure 10 is structure enlargement diagram at F in Fig. 6；

Figure 11 is structure enlargement diagram at G in Fig. 6；

Figure 12 is agitating unit structural representation；

Figure 13 is temporary storage location schematic cross-sectional view；

Figure 14 is structure enlargement diagram at H in Figure 13；

Figure 15 is aluminium liquid flow schematic diagram in mixing component.

Embodiment

The technical scheme in the embodiment of the utility model is clearly and completely illustrated below in conjunction with the accompanying drawings.

Embodiment：

Embodiment is illustrated referring to the drawings, embodiments illustrated below is not to the practicality described in claim New content plays any restriction effect, in addition, the full content of the composition represented by example below is not limited to want as right Necessary to the solution for seeking described utility model.

As shown in figure 1, two-way foaming aluminum aluminum ingot casting tinuous production, including hot melting furnace 1, in addition to：

Mixing component 2, the mixing component 2 are arranged at the discharge end of the hot melting furnace 1 and its connection, and it is used for the heat The aluminium liquid that smelting furnace 1 exports is stirred；

First foudry line 3, first foudry line 3 are arranged at the side of the hot melting furnace 1, thereon along its length etc. Away from some first casting aluminum dipping forms 31 are provided with, the first casting aluminum dipping form 31 is for carrying the aluminium liquid of the output of mixing component 2 simultaneously Cast aluminium ingot 6；

Second foudry line 4, second foudry line 4 are arranged at the another of the hot melting furnace 1 relative to first foudry line 3 Side, it be arranged in parallel with first foudry line 3, and has been placed equidistant some second casting aluminum dipping forms along its length thereon 41, the second casting aluminum dipping form 41 is used to carry the aluminium liquid that the mixing component 2 exports and casts aluminium ingot 6.

Wherein, the first casting aluminum dipping form 31 is staggeredly arranged at intervals with the described second casting aluminum dipping form 41, and two neighboring first The second casting aluminum dipping form 41 is provided between casting aluminum dipping form 31.

Need to illustrate, the aluminium liquid containing foaming agent that hot melting furnace 1 exports is input in mixing component 2, is stirred Component 2 to aluminium liquid carry out sufficiently stirring foaming after by aluminium liquid be output on the first foudry line 3 first casting aluminum dipping form 31 in And in second the second casting aluminum dipping form 41 on foudry line 4.

Further illustrate, the first casting aluminum dipping form 31 is staggeredly arranged at intervals with the described second casting aluminum dipping form 41, when first After the previous first casting aluminum dipping form 31 of foudry line 3 completes aluminium liquid feeding, the discharging direction of the switching aluminium liquid of mixing component 2, second Foudry line 4 second casting aluminum dipping form 41 then carries out aluminium liquid feeding work, afterwards mixing component 2 switch again discharge direction, and by First casting aluminum dipping form 31 of the first foudry line 3 carries out aluminium liquid feeding work, such alternation, realizes the first foudry line 3 and the Two foudry lines 4 are carried out continuously aluminum ingot casting simultaneously.

Illustrate further, it is consistent with the transporting velocity of the second foudry line 4 by adjusting the first foudry line 3, make the One casting aluminum dipping form 31 and second casts the aluminium liquid feeding time consistency of aluminum dipping form 41.

As shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 5, as a preferred embodiment, first foudry line 3 and described the Two foudry lines 4 also include：

Carriage 32, the Parallel Symmetric of carriage 32 are arranged at the both sides of the hot melting furnace 1；

Some waggons 33, the waggon 33 be may be contained within the carriage 32, and it is moved along the carriage 32, and The first casting aluminum dipping form 31 or second is carried thereon casts aluminum dipping form 41；

Rack assembly 34, the rack assembly 34 may be contained within the waggon 33 close to the side of the hot melting furnace 1, Its first rack unit 341 for including being arranged at the rear end of waggon 33 and the second rack for being arranged at the front end of waggon 33 Unit 342, and first rack unit 341 is collinearly set with the second rack unit 342.

Further, first rack unit 341 includes with second rack unit 342：

Horizontal rack 3411, the horizontal rack 3411 are symmetricly set in the front and back end of the waggon 33, and its teeth is opened Mouthful direction is towards the hot melting furnace 1；

Vertical rack 3412, the vertical rack 3412 are vertically arranged with the horizontal rack 3411, its teeth opening Direction is vertical upward.

As shown in fig. 6, as a preferred embodiment, the mixing component 2 includes：

Mounting bracket 21, the mounting bracket 21 are arranged at the discharge end of the hot melting furnace 1；

Agitating unit 22, the agitating unit 22 are arranged on the mounting bracket 21, and it passes through pipe with the hot melting furnace 1 Road connects；

Temporary storage location 23, the temporary storage location 23 are arranged on the mounting bracket 21, and it is located at the agitating unit 22 Rear side, it passes through pipeline communication with the agitating unit 22.

As shown in Fig. 6, Fig. 7, Fig. 8 and Fig. 9, wherein, the agitating unit 22 includes：

First agitator tank 221, first agitator tank 221 are fixedly connected with the mounting bracket 21, itself and the hot melting furnace 1 Connection, its interior rotation are provided with the first agitating paddle 222, and first agitating paddle 222 stirs the aluminium in first agitator tank 221 Liquid；

Second agitator tank 223, mounting bracket 21 described in second agitator tank 223 are fixedly connected, itself and described first stirring Case 221 connects, and its interior rotation is provided with the second agitating paddle 224, and second agitating paddle 224 is stirred in second agitator tank 223 Aluminium liquid；

First valve group 225, first valve group 225 are respectively arranged at first agitator tank 221 and the hot melt On the pipeline that the pipeline and second agitator tank 223 that stove 1 connects connect with first agitator tank 221, it is used to control Connection and second agitator tank 223 and first agitator tank 221 of the hot melting furnace 1 with first agitator tank 221 Connection；

Stirring motor 226, the stirring motor 226 pass through the first agitating paddle described in sprocket wheel chain transmission mode synchronous drive 222 and the synchronous axial system of the second agitating paddle 224.

Further, first valve group 225 includes：

First ball valve 2251, first ball valve 2251 are arranged at first agitator tank 221 and connected with the hot melting furnace 1 Pipeline on；

Second ball valve 2252, second ball valve 2252 are arranged at second agitator tank 221 and second agitator tank On the pipeline of 223 connections；

First gear 2253, the first gear 2253 symmetrically rotate the both sides for being arranged at the mounting bracket 21, and it passes through The mode of sprocket wheel chain linkage is connected with the ball valve 2252 of the first ball valve 2251 and second respectively.

It should be noted that the first agitator tank 221, which is accessed after the aluminium liquid from hot melting furnace 1 is stirred foaming, is output to the Foaming is stirred in two agitator tanks 23, and original aluminium liquid is then output to the first foudry line 3 and second in the second agitator tank 23 Casting aluminium ingot is carried out on foudry line 4.

Further illustrate, second in the first agitating paddle 222 and the second agitator tank 223 in the first agitator tank 221 Agitating paddle 224 carries out foaming processing by the rotation of the synchronous drive of stirring motor 226 to aluminium liquid.

Illustrate further, the first ball valve 2251 controls the pipe that the first agitator tank 221 connects with the hot melting furnace 1 Road, the pipeline that the second ball valve 2252 the second agitator tank 223 of control connects with first agitator tank 221, and first gear 2253 Cooperation then is engaged with vertical rack 3412, when the vertical rack 3412 in the first rack unit 341 of the rear end of waggon 33 and When one gear 2253 engages, linked by sprocket wheel chain, the first ball valve 2251 is rotated by 90 ° with the second ball valve 2252, and first stirs Mix the pipeline that case 221 connects with the hot melting furnace 1 and the pipeline that the second agitator tank 223 connects with first agitator tank 221 It is opened, the aluminium liquid in hot melting furnace 1 is entered in the first agitator tank 221, and original aluminium liquid is then entered in the first agitator tank 221 Enter into the second agitator tank 223 and second agitator tank 223 is supplemented, the vertical rack 3412 in the second rack unit 342 When being engaged with first gear 2253, the first ball valve 2251 is rotated by 90 ° again with the second ball valve 2252, the first agitator tank 221 with The pipeline and the second agitator tank 223 that the hot melting furnace 1 connects are closed with the pipeline that first agitator tank 221 connects.

As shown in Figure 10, Figure 11, Figure 12, Figure 13 and Figure 14, as a preferred embodiment, the temporary storage location 23 Including：

First temporary storing bin 231, first temporary storing bin 231 are disposed in proximity to the side of first foudry line 3, its end Pipeline is vacantly arranged at the top of the first casting aluminum dipping form 31；

Second temporary storing bin 232, second temporary storing bin 232 are disposed in proximity to the side of the second foudry line 4, its end pipeline Vacantly it is arranged at the top of the second casting aluminum dipping form 41；

Second valve group 233, second valve group 233 are arranged at the temporary storing bin of the first temporary storing bin 231 and second On 232 three-way pipelines 235 connected with the agitating unit 22, it is used to control first temporary storing bin 231 and the stirring The connection of unit 22 and the connection of second temporary storing bin 232 and the agitating unit 22；

3rd valve group 234, the 3rd valve group 234 are respectively arranged at the pipeline of the end of the first temporary storing bin 231 On the pipeline of the upper and described end of second temporary storing bin 232.

Further, second valve group 233 includes：

3rd ball valve 2331, the 3rd ball valve 2331 are arranged at the infall of the three-way pipeline 235；

Second gear 2332, the second gear 2332 rotate and are arranged at the mounting bracket 21 close to the first foudry line 3 Side, it is connected by way of sprocket wheel chain links with the 3rd ball valve 2311.

Further, the 3rd valve group 234 includes：

4th ball valve 2341, the 4th ball valve 2341 are respectively arranged on the pipeline of the end of the first temporary storing bin 231 With on the pipeline of the end of the second temporary storing bin 232；

3rd gear 2342, the 3rd gear 2342 are symmetricly set in the both ends of the mounting bracket 21, and it is positioned at described The lower section of 4th ball valve 2341, and it is connected with the 4th ball valve 2341.

It should be noted that by rotating the 3rd ball valve 2331 in the second valve group 223, mixing component 21 can be controlled Connected with the first temporary storing bin 231 or the second temporary storing bin 232, make mixing component 21 that aluminium liquid is output into the first temporary storing bin 231 or the In two temporary storing bins 232, the just enough one first casting aluminum dipping forms of aluminium liquid are filled with the first temporary storing bin 231 or the second temporary storing bin 232 31 or one second casting the feeding of aluminum dipping form 41.

As shown in figure 15, further explanation, when initial, the first tooth of the rear end of waggon 33 in the first foudry line 3 Horizontal rack 3412 in bar unit 341 engages with second gear 2332, and the 3rd ball valve 2331 is by 180 ° of rotation, the second stirring Case 223 connects with the first temporary storing bin 231, aluminium liquid is full of in the first temporary storing bin 231, before the waggon 33 in the first foudry line 3 When horizontal rack 3412 in second rack unit 342 at end engages with second gear 2332, the 3rd ball valve 2331 is rotated again 180 °, the second agitator tank 223 connects with the second temporary storing bin 232, and aluminium liquid is flowed into the second temporary storing bin 232 from the second agitator tank 223, And be full of the second temporary storing bin 232, while the aluminium liquid in the first temporary storing bin 231 is flowed into the first casting aluminum dipping form 31, when next When horizontal rack 3412 in first rack unit 341 of the rear end of waggon 33 engages with second gear 2332, the 3rd ball valve 2331 are rotated 180 °, and the second agitator tank 223 is connected with the first temporary storing bin 231 again, and the first temporary storing bin 231 is full of into aluminium liquid, And now the aluminium liquid in the second temporary storing bin 232 is flowed into the second casting aluminum dipping form 41, so repeat.

Illustrate further, the time that the first temporary storing bin 231 connects with the second agitator tank 223 and the second temporary storing bin 232 is identical with the time of the second agitator tank 223 connection, is the overall time Jing Guo second gear 2332 of waggon 33.

Need to illustrate, the 3rd valve group 234 can control on the pipeline of the end of the first temporary storing bin 231 with it is described The folding of the pipeline of the end of second temporary storing bin 232.

Further illustrate, the waggon in the 3rd gear 2342 and the first foudry line 3 on the first temporary storing bin 231 When horizontal rack 3412 in first rack unit 341 of 33 rear ends engages, the 4th ball valve 2341 on the first temporary storing bin 231 It is rotated by 90 °, the pipeline of the end of the first temporary storing bin 231 is opened, and aluminium liquid injection is carried out to the first casting aluminum dipping form 31, when the first temporary storing bin Horizontal teeth in second rack unit 342 of the front end of waggon 33 in the 3rd gear 2342 and the first foudry line 3 on 231 When bar 3412 engages, the 4th ball valve 2341 on the first temporary storing bin 231 is rotated by 90 °, and the pipeline of the end of the first temporary storing bin 231 closes Close.

Illustrate further, when the 3rd gear 2342 on the second temporary storing bin 232 with it is defeated in the second foudry line 4 When sending the engagement of horizontal rack 3412 in the first rack unit 341 of the rear end of car 33, the 4th ball valve on the second temporary storing bin 232 2341 are rotated by 90 °, and the pipeline of the end of the second temporary storing bin 232 is opened, and aluminium liquid injection is carried out to the second casting aluminum dipping form 41, when second temporary Water in second rack unit 342 of the front end of waggon 33 in the 3rd gear 2342 and the second foudry line 4 in storage 232 When flat tooth bar 3412 engages, the 4th ball valve 2341 on the second temporary storing bin 231 is rotated by 90 °, the pipe of the end of the second temporary storing bin 231 Road is closed.

It should be noted that the time of the first temporary storing bin 231 and the feeding of the second temporary storing bin 232 is that a waggon 33 is whole Body passes through the time of the 3rd gear 2342, time that its time connects with the first temporary storing bin 231 with the second agitator tank 223 and Second temporary storing bin 232 is identical with the time that the second agitator tank 223 connects, and the flow rate of aluminium liquid of corresponding pipeline is also identical, therefore second The aluminium liquid that agitator tank 223 inputs every time to the first temporary storing bin 231 has been transported in the first casting aluminum dipping form 31, the second agitator tank The aluminium liquid that 223 pair of second temporary storing bin 232 inputs every time has been transported in the second casting aluminum dipping form 41, realizes the first casting aluminum dipping form 31 and second casting aluminum dipping form 41 quantitative aluminium liquid export.

What deserves to be explained is the first agitator tank 221 being previously mentioned in the present embodiment, the second agitator tank 223, the first temporary storing bin 231st, the second temporary storing bin 232 and the pipeline connected between it manufacture using high insulation material, can effectively ensure Temperature of aluminum liquid.

The course of work is as follows：

First foudry line 3 operates, and waggon 33 thereon drives the first casting aluminum dipping form 31 to be delivered to the first temporary storing bin 231 Place, by the horizontal rack 3412 of the rear end of waggon 33 and engaging for the 3rd gear 2342, the on the first temporary storing bin 231 of rotation Four ball valves 2341, open the pipeline of the end of the first temporary storing bin 231 and aluminium liquid is injected to the first casting aluminum dipping form 31, pass through conveying afterwards The horizontal rack 3412 of the front end of car 33 engages with the 3rd gear 2342, rotates the 4th ball valve on the first temporary storing bin 231 2341, make the closedown of pipeline of the end of the first temporary storing bin 231, now the second foudry line 4 operates, and the second casting aluminum dipping form 41 thereon is proper It is transported to well at the second temporary storing bin 232, passes through the horizontal rack 3412 of the rear end of waggon 33 and engaging for the 3rd gear 2342, rotation Turn the 4th ball valve 2341 on the second temporary storing bin 232, the pipeline of the end of the second temporary storing bin 232 is opened to the second casting aluminum dipping form 41 Aluminium liquid is injected, it is temporary by the horizontal rack 3412 of the front end of waggon 33 and engaging for the 3rd gear 2342, rotation second afterwards The 4th ball valve 2341 on storehouse 232, make the closedown of pipeline of the end of the second temporary storing bin 232, circulating repetition said process, make the first casting The run-in synchronism of 3 and second foudry line of line 4 is made, realizes continuous production.

In the utility model, it is to be understood that：Term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time The orientation or position relationship of the instruction such as pin ", " counterclockwise " are based on orientation shown in the drawings or position relationship, merely to just In description the utility model and simplify description, rather than indicate or imply signified equipment or the specific side that element must have Position, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or implying relative important Property or the implicit quantity for indicating indicated technical characteristic.Therefore, define " first ", the feature of " second " can be expressed or Person implicitly includes one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than individual, unless otherwise specifically defined.

It is described above, the only preferable embodiment of utility model, but the scope of protection of the utility model not office It is limited to this, any one skilled in the art can readily occur in the technical scope that the utility model discloses Change or replacement, it should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model should be with The protection domain of claims is defined.

Claims (10)

1. two-way foaming aluminum aluminum ingot casting tinuous production, including hot melting furnace (1), it is characterised in that also include：

Mixing component (2), the mixing component (2) are arranged at the discharge end of the hot melting furnace (1) and its connection, and it is used for this The aluminium liquid of hot melting furnace (1) output is stirred；

First foudry line (3), first foudry line (3) are arranged at the side of the hot melting furnace (1), thereon along its length Some first casting aluminum dipping forms (31) are placed equidistant, the first casting aluminum dipping form (31) is used to carry the mixing component (2) output Aluminium liquid and cast aluminium ingot (6)；

Second foudry line (4), second foudry line (4) are arranged at the hot melting furnace (1) relative to first foudry line (3) Opposite side, it be arranged in parallel with first foudry line (3), and be placed equidistant along its length thereon it is some second casting Aluminum dipping form (41) is made, the second casting aluminum dipping form (41) is used to carry the aluminium liquid of the mixing component (2) output and casts aluminium ingot (6).

2. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 1, it is characterised in that the first casting aluminium Mould (31) is staggeredly arranged at intervals with the described second casting aluminum dipping form (41), and one is provided between two neighboring first casting aluminum dipping form (31) The individual second casting aluminum dipping form (41).

3. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 1, it is characterised in that first foudry line (3) also included with second foudry line (4)：

Carriage (32), carriage (32) Parallel Symmetric are arranged at the both sides of the hot melting furnace (1)；

Some waggons (33), the waggon (33) be may be contained within the carriage (32), and it is moved along the carriage (32) It is dynamic, and the first casting aluminum dipping form (31) or the second casting aluminum dipping form (41) are carried thereon；

Rack assembly (34), the rack assembly (34) may be contained within the waggon (33) close to the one of the hot melting furnace (1) Side, it includes being arranged at the first rack unit (341) of waggon (33) rear end and is arranged at waggon (33) front end The second rack unit (342), and first rack unit (341) and the second rack unit (342) are collinearly set.

4. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 3, it is characterised in that the first rack list First (341) include with second rack unit (342)：

Horizontal rack (3411), the horizontal rack (3411) are symmetricly set in the front and back end of the waggon (33), its teeth Opening direction is towards the hot melting furnace (1)；

Vertical rack (3412), the vertical rack (3412) are vertically arranged with the horizontal rack (3411), and its teeth is opened Mouth direction is vertical upward.

5. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 1, it is characterised in that the mixing component (2) include：

Mounting bracket (21), the mounting bracket (21) are arranged at the discharge end of the hot melting furnace (1)；

Agitating unit (22), the agitating unit (22) are arranged on the mounting bracket (21), and it passes through with the hot melting furnace (1) Pipeline communication；

Temporary storage location (23), the temporary storage location (23) are arranged on the mounting bracket (21), and it is located at the agitating unit (22) rear side, it passes through pipeline communication with the agitating unit (22).

6. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 5, it is characterised in that the agitating unit (22) include：

First agitator tank (221), first agitator tank (221) are fixedly connected with the mounting bracket (21), itself and the hot melt Stove (1) connects, and its interior rotation is provided with the first agitating paddle (222), and first agitating paddle (222) stirs first agitator tank (221) aluminium liquid in；

Second agitator tank (223), second agitator tank (223) mounting bracket (21) are fixedly connected, and it is stirred with described first Case (221) connection is mixed, its interior rotation is provided with the second agitating paddle (224), second agitating paddle (224) stirring, second stirring Aluminium liquid in case (223)；

First valve group (225), first valve group (225) are respectively arranged at first agitator tank (221) and the heat On the pipeline that the pipeline and second agitator tank (223) of smelting furnace (1) connection connect with first agitator tank (221), its For control the hot melting furnace (1) and first agitator tank (221) connection and second agitator tank (223) with it is described The connection of first agitator tank (221)；

Stirring motor (226), the stirring motor (226) pass through the first agitating paddle described in sprocket wheel chain transmission mode synchronous drive (222) with the second agitating paddle (224) synchronous axial system.

7. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 6, it is characterised in that first valve group (225) include：

First ball valve (2251), first ball valve (2251) are arranged at first agitator tank (221) and the hot melting furnace (1) On the pipeline of connection；

Second ball valve (2252), second ball valve (2252) are arranged at second agitator tank (221) and the described second stirring On the pipeline of case (223) connection；

First gear (2253), the first gear (2253) symmetrically rotate the both sides for being arranged at the mounting bracket (21), and it is logical The mode for crossing the linkage of sprocket wheel chain is connected with first ball valve (2251) and the second ball valve (2252) respectively.

8. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 5, it is characterised in that the temporary storage location (23) include：

First temporary storing bin (231), first temporary storing bin (231) are disposed in proximity to the side of first foudry line (3), its end End pipe road is vacantly arranged at the top of the first casting aluminum dipping form (31)；

Second temporary storing bin (232), second temporary storing bin (232) are disposed in proximity to the side of the second foudry line (4), its tip tube Road is vacantly arranged at the top of the second casting aluminum dipping form (41)；

Second valve group (233), second valve group (233) are arranged at first temporary storing bin (231) and second temporary On the three-way pipeline (235) that storehouse (232) connects with the agitating unit (22), it is used to control first temporary storing bin (231) Connection and second temporary storing bin (232) and the connection of the agitating unit (22) with the agitating unit (22)；

3rd valve group (234), the 3rd valve group (234) are respectively arranged at the pipe of the first temporary storing bin (231) end On road and on the pipeline of second temporary storing bin (232) end.

9. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 8, it is characterised in that second valve group (233) include：

3rd ball valve (2331), the 3rd ball valve (2331) are arranged at the infall of the three-way pipeline (235)；

Second gear (2332), the second gear (2332), which rotates, is arranged at the mounting bracket (21) close to the first foudry line (3) side, it is connected by way of sprocket wheel chain links with the 3rd ball valve (2311).

10. two-way foaming aluminum aluminum ingot casting tinuous production as claimed in claim 8, it is characterised in that the 3rd valve Group (234) includes：

4th ball valve (2341), the 4th ball valve (2341) are respectively arranged at the pipeline of the first temporary storing bin (231) end On the upper pipeline with the second temporary storing bin (232) end；

3rd gear (2342), the 3rd gear (2342) are symmetricly set in the both ends of the mounting bracket (21), and it is located at institute The lower section of the 4th ball valve (2341) is stated, and it is connected with the 4th ball valve (2341).