CN114799125A - Automatic soup feeding device during magnesium-aluminum alloy die-casting - Google Patents

Abstract

The invention discloses an automatic soup feeding device during die casting of magnesium-aluminum alloy, which relates to the technical field of die casting machines and comprises a die casting machine and a material dissolving box, wherein one side of the die casting machine is fixedly connected with a case, one side of the case is provided with a mechanical rod, one end of the mechanical rod is provided with a soup feeding spoon, one side of the case and one side of the material dissolving box are fixedly connected with a protection plate together, and the top of the material dissolving box is fixedly connected with a material discharging assembly and a material scraping assembly for skimming metal impurities. According to the discharging component with the reasonable structure, when the soaking hopper is immersed into the magnesium-aluminum alloy solution, the arc plate is driven to be immersed into the magnesium-aluminum alloy solution along with the slow falling of the soaking hopper, then the magnesium-aluminum alloy solution flows into the feeding spoon through the chute and the discharging pipe, so that metal impurities floating on the surface of the magnesium-aluminum alloy solution can be taken out, the metal solution extracted from the feeding spoon can be more pure, and the quality of die-cast parts can be improved.

Description

Automatic soup feeding device during magnesium-aluminum alloy die-casting

Technical Field

The invention relates to the technical field of die casting machines, in particular to an automatic soup feeding device during die casting of magnesium aluminum alloy.

Background

The die casting machine is exactly the machine that is used for pressure casting, including hot-pressing room and cold-pressing room two kinds, all divide into straight type and horizontal two kinds of types again afterwards, and the die casting machine sprays the molten metal hydraulic pressure to the mould under the pressure effect and cools off the shaping in, can obtain the solid metal foundry goods after the die sinking, is used for the die-casting type originally, and the die casting machine all will use when die-casting at every turn and carry out the pay-off for hot water device, uses in order to ensure next die-casting.

But when automatic for hot water device use during present magnadure die-casting, because the surface of the magnadure liquid that melts has many metallic impurity, when making for hot water device get the material at every turn, the metallic impurity on magnadure liquid surface all will enter into for the soup ladle in, the metal parts that leads to the die-casting can have many impurity, thereby influence the quality of product, the metallic surface of die-casting can influence the product to use because of the adnexion of impurity moreover, consequently, this application provides automatic for hot water device when magnadure die-casting and satisfies the demand.

Disclosure of Invention

The utility model provides an automatic for hot water device during magnadure die-casting, can effectively solve the problem that provides among the above-mentioned background art.

In order to achieve the above purpose, the present application provides the following technical solutions: an automatic soup feeding device during magnesium aluminum alloy die casting comprises a die casting machine and a dissolving box, wherein one side of the die casting machine is fixedly connected with a case, one side of the case is provided with a mechanical rod, one end of the mechanical rod is provided with a soup feeding spoon, the case and one side of the dissolving box are fixedly connected with a protection plate together, and the top of the dissolving box is fixedly connected with a discharging assembly and a scraping assembly for skimming metal impurities;

the discharging assembly comprises two sliding groove blocks, first connecting rods are fixedly arranged in the two sliding groove blocks, first supporting rods are slidably arranged on the outer surfaces of the two first connecting rods and positioned in the sliding groove blocks, first springs are sleeved on the outer surfaces of the two first connecting rods and positioned at the bottoms of the first supporting rods, the bottom of the first supporting rod is fixedly connected with a supporting plate, the bottom of the supporting plate is fixedly connected with a leaching hopper, the outer surface of the leaching hopper is fixedly connected with an arc plate, the outer surface of the leaching hopper is positioned below the arc plate and is provided with a chute, a discharging pipe for discharging magnesium-aluminum alloy solution is fixedly arranged in the chute, an inner hopper for preventing the magnesium-aluminum alloy solution from flowing into the bottom of the leaching hopper is arranged in the leaching hopper, a first clamping groove is formed in the outer surface of the inner bucket, and two rotating blocks are fixedly connected to one side of the first supporting rod.

Preferably, the scraping component comprises two fixed plates, second connecting rods are fixedly connected inside the two fixed plates, second springs are sleeved on the outer surfaces of the two second connecting rods, sliding plates are slidably connected on the outer surfaces of the two second connecting rods, second supporting rods are fixedly connected on the tops of the two sliding plates, a clamping frame is fixedly connected between the two second supporting rods, a second clamping groove is formed in the top of the clamping frame, a rectangular plate is arranged inside the second clamping groove, a handle is fixedly connected to the top of the rectangular plate, a plurality of round rods are fixedly connected to one side of the rectangular plate and are distributed at equal intervals, temperature-resistant plates are commonly arranged on the outer surfaces of the round rods, one side of each temperature-resistant plate penetrates through the second clamping groove and is slidably connected with the second clamping groove, and rotating rods are fixedly connected to the tops of the two second supporting rods, the outer surfaces of the two rotating rods are rotatably connected with supporting rods.

Preferably, the two fixing plates are fixedly connected with the material dissolving box, and the two supporting rods are rotatably connected with the rotating block.

Preferably, the two sliding groove blocks are fixedly connected with the material dissolving box, and a fifteen-degree included angle is formed between the two sliding groove blocks and the material dissolving box.

Preferably, the middle part of the first supporting rod is arc-shaped, and the soaking hopper is positioned at the middle lower part of the first supporting rod.

Preferably, the chute is arranged on the outer surface of the leaching hopper in a wedge shape, and the chute can prevent the magnesium-aluminum alloy solution on the raised surface of the leaching hopper from flowing into the discharge pipe.

Preferably, the discharge pipe penetrates through a first clamping groove, and the first clamping groove can ensure that the inner hopper is drawn out from the leaching hopper.

Preferably, the included angle between the arc plate and the soaking hopper is forty-five degrees, and the arc plate prevents metal impurities on the surface of the magnesium-aluminum alloy solution from flowing into the discharge pipe through the chute.

In conclusion, the technical effects and advantages of the invention are as follows:

1. the feeding assembly is reasonable in structure, the soup ladle extends into the inner bucket, the first supporting rod slides in the sliding groove block along with pressure caused by continuous downward movement of the soup ladle, the first connecting rod arranged for stable sliding of the first supporting rod assists the first supporting rod to slide, when the soaking bucket is immersed in the magnesium-aluminum alloy solution, the soaking bucket slowly falls down along with the soaking bucket to drive the arc plate to be immersed in the magnesium-aluminum alloy solution, then the magnesium-aluminum alloy solution flows into the soup ladle through the chute and the discharge pipe, metal impurities floating on the surface of the magnesium-aluminum alloy solution can be taken out, the metal solution extracted from the soup ladle can be purer, and the quality of die-cast parts can be improved;

2. according to the invention, the first support rod slides downwards through the arranged scraping component, so that the rotation of the support rod is driven by the rotating block, the support rod drives the sliding plate to slide on the outer surface of the second connecting rod through the rotating rod and the second support rod, the clamping frame is driven to slide to one side far away from the discharging component along with the movement of the second support rod, the clamping frame pushes the temperature-resistant plate to clean the metal solution on the surface of the magnesium-aluminum alloy solution, and the temperature-resistant plate extends into the magnesium-aluminum alloy solution, so that the surface of the magnesium-aluminum alloy solution is scraped by the temperature-resistant plate along with the pushing of the temperature-resistant plate, other metal impurities on the surface of the magnesium-aluminum alloy solution are skimmed off, the magnesium-aluminum alloy solution flowing into the soaking hopper is mainly ensured not to contain other metal impurities, the quality of the whole die-casting part can be improved, the qualification rate of a die-casting product can be improved, and the manual cleaning of the metal impurities is not required, thereby saving a large amount of manpower.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of an automatic feeding device for magnesium aluminum alloy during die casting;

FIG. 2 is a schematic partial perspective view of an automatic soup feeder during die casting of magnesium-aluminum alloy;

FIG. 3 is an exploded view of a three-dimensional connection structure of the discharge assembly;

FIG. 4 is an exploded view of a partial three-dimensional connection structure of the emptying assembly;

FIG. 5 is a sectional view showing a three-dimensional coupling structure of the leaching hopper;

FIG. 6 is an exploded perspective view of the scraper assembly;

fig. 7 is an exploded view of a partial perspective connection structure of the scraper assembly.

In the figure: 1. die casting machine; 2. a chassis; 3. a mechanical lever; 4. feeding a soup ladle; 5. a protection plate; 6. a discharging component; 61. a chute block; 62. a first connecting rod; 63. a first support bar; 64. a first spring; 65. rotating the block; 66. a support plate; 67. a leaching hopper; 68. an arc plate; 69. an inner bucket; 611. a first card slot; 612. a chute; 613. a discharge pipe; 7. a scraping component; 71. a fixing plate; 72. a second spring; 73. a second connecting rod; 74. a slide plate; 75. a second support bar; 76. rotating the rod; 77. a strut; 78. clamping a frame; 79. a grip; 711. a temperature resistant plate; 712. a second card slot; 713. a rectangular plate; 714. a round bar; 8. a dissolving box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1-7, the automatic soup feeding device for die casting of magnesium aluminum alloy comprises a die casting machine 1 and a material dissolving tank 8, wherein one side of the die casting machine 1 is fixedly connected with a case 2, one side of the case 2 is provided with a mechanical rod 3, one end of the mechanical rod 3 is provided with a soup feeding spoon 4, one side of the case 2 and one side of the material dissolving tank 8 are fixedly connected with a protection plate 5, and the top of the material dissolving tank 8 is fixedly connected with a material discharging assembly 6 and a material scraping assembly 7 for skimming metal impurities;

it should be noted that, when in use, the numerical control device in the case 2 is used to operate the movement of the mechanical rod 3, and both the machine 3 and the case 2 belong to the prior art, the details are not repeated, the movement of the mechanical rod 3 drives the feeding spoon 4 to move, in order to take out the magnesium-aluminum alloy solution without other metal impurities, the feeding spoon 4 moves to the inside of the discharging component 6, the discharging component 6 moves to drive the scraping component 7 to skim off the floating metal residues or the solidified metal impurities on the surface of the magnesium-aluminum alloy solution, and blowing subassembly 6 can filter magnalium solution once more, will not contain the magnalium solution of other metallic impurity and extract for in the soup ladle 4, not only make the magnalium solution who draws for soup ladle 4 not contain impurity, but also can improve the whole quality of product to improve the qualification rate of whole product.

As shown in fig. 3-5, the discharging assembly 6 includes two sliding groove blocks 61, first connecting rods 62 are fixedly mounted inside the two sliding groove blocks 61, first supporting rods 63 are slidably mounted inside the sliding groove blocks 61 and outside the two first connecting rods 62, first springs 64 are sleeved on the bottom of the first supporting rods 63 and outside the two first connecting rods 62, a supporting plate 66 is fixedly connected to the bottom of the first supporting rods 63, a soaking hopper 67 is fixedly connected to the bottom of the supporting plate 66, an arc plate 68 is fixedly connected to the outside of the soaking hopper 67, a chute 612 is formed below the arc plate 68 and outside the soaking hopper 67, a discharging pipe 613 for discharging a magnesium-aluminum alloy solution is fixedly mounted inside the chute 612, an inner hopper 69 for preventing the magnesium-aluminum alloy solution from flowing into the bottom of the soaking hopper 67 is disposed inside the soaking hopper 67, a first clamping groove 611 is formed on the outside of the inner hopper 69, two rotating blocks 65 are fixedly connected to one side of the first supporting rod 63, two sliding groove blocks 61 are fixedly connected with the material dissolving box 8, a fifteen-degree included angle is formed between the two sliding groove blocks 61 and the material dissolving box 8, the middle of the first supporting rod 63 is in an arc shape, the material soaking hopper 67 is located at the middle lower part of the first supporting rod 63, the chute 612 is cut on the outer surface of the material soaking hopper 67 in a wedge shape, the chute 612 can prevent magnesium-aluminum alloy solution on the raised back surface of the material soaking hopper 67 from flowing into the discharging pipe 613, the discharging pipe 613 penetrates through the first clamping groove 611, the first clamping groove 611 can ensure that the inner hopper 69 is drawn out of the material soaking hopper 67, the included angle between the arc plate 68 and the material soaking hopper 67 is forty-five degrees, and the arc plate 68 can prevent metal impurities on the surface of the magnesium-aluminum alloy solution from flowing into the discharging pipe 613 through the chute 612.

Further, in order to extract the magnesium-aluminum alloy solution without other metal impurities, the soup ladle 4 is extended into the inner hopper 69, the first support rod 63 slides inside the sliding groove block 61 along with the pressure caused by the continuous downward movement of the soup ladle 4, the first connecting rod 62 arranged for the stable sliding of the first support rod 63 assists the sliding of the first support rod 63, when the dipping hopper 67 is dipped into the magnesium-aluminum alloy solution, the dipping hopper 67 slowly falls along with the dipping hopper 67 to drive the arc plate 68 to be dipped into the magnesium-aluminum alloy solution, then the magnesium-aluminum alloy solution flows into the soup ladle 4 through the chute 612 and the discharge pipe 613, and because the arc plate 68 is lower than the surface of the magnesium-aluminum alloy solution, most of the metal impurities floating on the surface of the magnesium-aluminum alloy solution can be blocked when the magnesium-aluminum alloy solution flows to the discharge pipe 613, after the metal solution is extracted from the soup ladle 4, the first spring 64 pushes the first support rod 63 to slowly lift, so that the leaching hopper 67 is taken out of the magnesium-aluminum alloy solution, and the metal solution on the surface of the leaching hopper 67 flows downwards from the place of the slope when flowing into the chute 612 because the chute 612 is wedge-shaped, and can rapidly block the metal solution from entering the discharging pipe 613, and since the discharging pipe 613 is also disposed obliquely, so that excessive magnesium-aluminum alloy solution in the dipping hopper 67 can be prevented from flowing into the feeding spoon 4 in the lifting process, the metal solution in the feeding spoon 4 is prevented from overflowing too much, and in order to prevent the metal solution from dropping into the leaching hopper 67, the inner hopper 69 is arranged to have a good protection effect, thereby guaranteed to soak hopper 67 and can not pile up a large amount of magnalium residues, the first draw-in groove 611 that sets up moreover can make interior fill 69 not receive the blockking of discharging pipe 613 when taking out from soaking hopper 67.

Further, be fifteen degrees contained angles between the spout piece 61 that sets up and the material dissolving box 8, mainly can accord with the movement track of mechanical lever 3 to in the entering into interior fill 69 that guarantees to give soup ladle 4 can be smooth, at the in-process of the operation of reality, the user can change the mounted position and the mounted distance of spout piece 61 according to the height of material dissolving box 8 and the distance with quick-witted case 2 till now, thereby can guarantee the normal use of device.

As shown in fig. 6-7, the scraping component 7 includes two fixing plates 71, second connecting rods 73 are fixedly connected inside the two fixing plates 71, second springs 72 are sleeved on outer surfaces of the two second connecting rods 73, sliding plates 74 are slidably connected on outer surfaces of the two second connecting rods 73, second supporting rods 75 are fixedly connected on tops of the two sliding plates 74, a clamping frame 78 is fixedly connected between the two second supporting rods 75, a second clamping groove 712 is formed on a top of the clamping frame 78, a rectangular plate 713 is arranged inside the second clamping groove 712, a handle 79 is fixedly connected on a top of the rectangular plate 713, a plurality of round rods 714 distributed at equal intervals are fixedly connected on one side of the rectangular plate 713, a temperature-resistant plate 711 is arranged on outer surfaces of the plurality of round rods 714, one side of the temperature-resistant plate 711 penetrates through the second clamping groove 712 and is slidably connected with the second clamping groove 712, rotating rods 76 are fixedly connected on tops of the two second supporting rods 75, the outer surfaces of the two rotating rods 76 are rotatably connected with supporting rods 77, the two fixing plates 71 are fixedly connected with the material dissolving box 8, and the two supporting rods 77 are rotatably connected with the rotating block 65.

It should be noted that when the magnesium-aluminum alloy solution without impurities is provided for the spoon 4, along with the downward sliding of the first support rod 63, the rotation of the support rod 77 is driven by the rotation block 65, the support rod 77 drives the sliding plate 74 to slide on the outer surface of the second support rod 73 by the rotation rod 76 and the second support rod 75, along with the movement of the second support rod 75, the clamping frame 78 is driven to slide to the side away from the emptying assembly 6, and the clamping frame 78 pushes the temperature-resistant plate 711 to clean the metal solution on the surface of the magnesium-aluminum alloy solution, because the temperature-resistant plate 711 extends into the magnesium-aluminum alloy solution, the surface of the magnesium-aluminum alloy solution is scraped by the temperature-resistant plate 711 along with the pushing of the temperature-resistant plate 711, so as to skim off other metal impurities on the surface of the magnesium-aluminum alloy solution, mainly to ensure that the magnesium-aluminum alloy solution flowing into the dipping hopper 67 does not contain other metal impurities, which not only can improve the quality of the whole die-cast part, but also can improve the qualification rate of die-casting products to need not the manual work and clear up metallic impurity, thereby save a large amount of manpowers.

The working principle of the invention is as follows: when the feeding spoon is used, the feeding spoon 4 extends into the inner hopper 69, the pressure caused by continuous downward movement of the feeding spoon 4 slides in the sliding groove block 61 through the first supporting rod 63, the first connecting rod 62 arranged for stable sliding of the first supporting rod 63 assists the first supporting rod 63 to slide, when the leaching hopper 67 is immersed in the magnesium-aluminum alloy solution, the leaching hopper 67 slowly falls along with the leaching hopper 67 to drive the arc plate 68 to be immersed in the magnesium-aluminum alloy solution, then the magnesium-aluminum alloy solution flows into the feeding spoon 4 through the chute 612 and the discharging pipe 613, when the magnesium-aluminum alloy solution without impurities is extracted from the feeding spoon 4, the feeding spoon 4 slides downward along with the first supporting rod 63 to drive the supporting rod 77 to rotate through the rotating block 65, the supporting rod 77 drives the sliding plate 74 to slide on the outer surface of the second connecting rod 73 through the rotating rod 76 and the second supporting rod 75, and drives the clamping frame 78 to slide towards the side far away from the discharging assembly 6 along with the movement of the second supporting rod 75, and card frame 78 will promote temperature-resistant plate 711 and clear up the metal solution on magnalium alloy solution surface, because temperature-resistant plate 711 stretches into in the magnalium alloy solution, so along with temperature-resistant plate 711 promote magnalium alloy solution surface will be scraped by temperature-resistant plate 711, with other metallic impurity skimming in magnalium alloy solution surface, guarantee mainly that the magnalium alloy solution that flows into in the leaching hopper 67 can not contain other metallic impurity, not only can improve the quality of whole die-casting part, but also can improve the qualification rate of die-casting product, and need not the manual work and clear up metallic impurity, thereby save a large amount of manpowers.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still make modifications to the technical solutions described in the foregoing embodiments, or make equivalent substitutions and improvements to part of the technical features of the foregoing embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides an automatic hot water device of giving during magnadure die-casting, includes die casting machine (1) and solution case (8), one side fixedly connected with machine case (2) of die casting machine (1), one side of machine case (2) is provided with mechanical rod (3), the one end of mechanical rod (3) is provided with for soup ladle (4), its characterized in that: one side of the case (2) and one side of the material dissolving tank (8) are fixedly connected with a protection plate (5) together, and the top of the material dissolving tank (8) is fixedly connected with a material discharging component (6) and a material scraping component (7) for skimming metal impurities;

the discharging assembly (6) comprises two sliding groove blocks (61), first connecting rods (62) are fixedly installed inside the two sliding groove blocks (61), first supporting rods (63) are slidably installed on the outer surfaces of the two first connecting rods (62) and located inside the sliding groove blocks (61), first springs (64) are sleeved on the outer surfaces of the two first connecting rods (62) and located at the bottoms of the first supporting rods (63), a supporting plate (66) is fixedly connected to the bottom of the first supporting rod (63), a soaking hopper (67) is fixedly connected to the bottom of the supporting plate (66), an arc plate (68) is fixedly connected to the outer surface of the soaking hopper (67), a chute (612) is formed in the position, below the arc plate (68), and a discharging pipe (613) for discharging magnesium-aluminum alloy solution is fixedly installed inside the chute (612), an inner hopper (69) for preventing magnesium-aluminum alloy solution from flowing into the bottom of the leaching hopper (67) is arranged in the leaching hopper (67), a first clamping groove (611) is formed in the outer surface of the inner hopper (69), and two rotating blocks (65) are fixedly connected to one side of the first supporting rod (63).

2. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 1, wherein: the scraping component (7) comprises two fixing plates (71), wherein second connecting rods (73) are fixedly connected inside the two fixing plates (71), second springs (72) are sleeved on the outer surfaces of the two second connecting rods (73), sliding plates (74) are slidably connected on the outer surfaces of the two second connecting rods (73), second supporting rods (75) are fixedly connected on the tops of the two sliding plates (74), a clamping frame (78) is fixedly connected between the two second supporting rods (75) together, a second clamping groove (712) is formed in the top of the clamping frame (78), a rectangular plate (713) is arranged inside the second clamping groove (712), a handle (79) is fixedly connected on the top of the rectangular plate (713), a plurality of round rods (714) distributed at equal intervals are fixedly connected on one side of the rectangular plate (713), and a temperature-resistant plate (711) is arranged on the outer surface of each round rod (714) together, one side of the temperature-resistant plate (711) penetrates through the second clamping groove (712) and is in sliding connection with the second clamping groove (712), the top of the second supporting rod (75) is fixedly connected with a rotating rod (76), and the outer surface of the rotating rod (76) is rotatably connected with a supporting rod (77).

3. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 2, wherein: two fixed plate (71) all with solution case (8) fixed connection, two branch (77) all rotates with turning block (65) and is connected.

4. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 1, wherein: two the spout piece (61) all with dissolve workbin (8) fixed connection, two be fifteen degrees contained angles between spout piece (61) and dissolve workbin (8).

5. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 1, wherein: the middle part of the first supporting rod (63) is arc-shaped, and the soaking hopper (67) is positioned at the middle lower part of the first supporting rod (63).

6. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 1, wherein: the chute (612) is arranged on the outer surface of the leaching hopper (67) in a wedge shape, and the chute (612) can prevent the magnesium-aluminum alloy solution on the surface of the raised leaching hopper (67) from flowing into the discharge pipe (613).

7. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 1, wherein: the discharge pipe (613) penetrates through a first clamping groove (611), and the first clamping groove (611) can ensure that the inner bucket (69) is drawn out of the soaking bucket (67).

8. The automatic soup feeding device during the die casting of the magnesium aluminum alloy according to claim 1, wherein: the included angle between the arc plate (68) and the leaching hopper (67) is forty-five degrees, and the arc plate (68) prevents metal impurities on the surface of the magnesium-aluminum alloy solution from flowing into the discharging pipe (613) through the chute (612).

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