CN217452046U - Be used for aluminum alloy ingot casting apparatus for producing - Google Patents

Abstract

The utility model discloses a production device for aluminum alloy ingot casting, which comprises a supporting frame, a heating box is fixedly connected with the top end of the supporting frame, a heating assembly is fixedly connected with the side wall of the heating box, a box opening is arranged at the top part of the heating box, the bottom part of the heating box is fixedly and communicated with a conveying pipe, a cooling box is arranged below the conveying pipe, a mold is contained in the cooling box, the mold is positioned under the conveying pipe, a plurality of first vibrating parts are fixedly connected with the bottom part of the supporting frame, the same bottom plate is fixedly connected with the plurality of first vibrating parts, the bottom plate is positioned below the cooling box and is in sliding connection with the cooling box, second vibrating parts are respectively and fixedly connected with the two sides of the supporting frame, the second vibrating parts are in sliding connection with the side wall of the cooling box, and the cooling box is fixedly connected with a control part; a cooling component is arranged in the cooling box; the utility model discloses simple structure, the simple operation can the multi-angle vibrate the cooler bin, fully eliminate the inside bubble of ingot casting, improve the quality.

Description

Be used for aluminum alloy ingot casting apparatus for producing

Technical Field

The utility model relates to an aluminum alloy ingot production technical field especially relates to a be used for aluminum alloy ingot production device.

Background

The aluminum alloy is a general term for aluminum-based alloys, the main alloying elements include copper, silicon, magnesium, zinc and manganese, the secondary alloying elements include nickel, iron, titanium, chromium, lithium and the like, the aluminum alloy is a non-ferrous metal structural material which is most widely applied in industry, and the aluminum alloy is widely applied in aviation, aerospace, automobiles, mechanical manufacturing, ships and chemical industry. With the development and construction of society and the diversity of requirements on materials, aluminum alloys are widely used in various industrial fields due to the unique properties of the aluminum alloys, so that aluminum alloy ingot production devices are more and more important. The existing device has no structure for eliminating bubbles in the production process, so that more bubbles are produced in the aluminum alloy ingot casting, the product quality is influenced, and the aluminum alloy ingot casting production device capable of fully eliminating the bubbles is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be used for aluminum alloy ingot production device to solve the problem that above-mentioned prior art exists.

In order to achieve the above object, the utility model provides a following scheme: the utility model provides a production device for aluminum alloy ingot casting, which comprises a supporting frame, the supporting frame top fixedly connected with heating cabinet, fixedly connected with heating element on the heating cabinet lateral wall, the heating cabinet top has seted up the case mouth, the heating cabinet bottom is fixed and the intercommunication has the conveyer pipe, be provided with the cooler bin below the conveyer pipe, the mould has been held in the cooler bin, the mould is located under the conveyer pipe, the supporting frame bottom is fixedly connected with a plurality of first vibration portions, a plurality of first vibration portions are fixedly connected with same bottom plate, the bottom plate is located the cooler bin below and with the cooler bin sliding connection, the supporting frame both sides are fixedly connected with second vibration portion respectively, the second vibration portion with the cooler bin lateral wall sliding connection, the cooler bin fixedly connected with control portion; and a cooling assembly is arranged in the cooling box.

Preferably, the first vibration part includes a first housing fixedly connected to the bottom of the support frame, the first housing is slidably connected to a first sliding plate, the first sliding plate is fixedly connected to a first connecting rod, the first connecting rod penetrates through the top of the first housing and is fixedly connected to the bottom plate, and a first spring is fixedly connected between the first sliding plate and the bottom of the first housing.

Preferably, the second vibration part includes a second housing fixedly connected to the support frame, a second sliding plate is fixedly connected to the inside of the second housing, a second connecting rod is fixedly connected to the second sliding plate, the second connecting rod penetrates through the side wall of the second housing and is fixedly connected to a sliding block, the sliding block is slidably connected to the side wall of the cooling box, and a second spring is fixedly connected between one side of the second sliding plate, which is far away from the second connecting rod, and the inner wall of the second housing.

Preferably, the control part include with support frame fixed connection's driving motor, driving motor output shaft fixedly connected with cam, the cam upper surface is the inclined surface, cooler bin lateral wall fixedly connected with dog, the confession has been seted up to the dog cam pivoted holding tank, the holding tank bottom be with the inclined surface of cam looks adaptation.

Preferably, the cooling assembly comprises a water tank fixedly connected with the support frame, a cooling groove is formed in the side wall of the cooling tank, the water tank is communicated with the cooling groove through a water pipe, the water pipe is communicated with a water pump, and a water control valve is arranged on the water pipe.

Preferably, the heating assembly comprises a heating groove formed in the side wall of the heating box, an electric heating plate is fixedly mounted in the heating groove, the electric heating plate is communicated with a power supply, and a groove cover is mounted at the notch of the heating groove.

Preferably, a control valve is fixedly installed on the delivery pipe.

Preferably, a first dovetail groove is longitudinally formed in the side wall of the cooling box, the sliding block is matched with the first dovetail groove and is in sliding connection with the first dovetail groove, a plurality of second dovetail grooves are formed in the bottom of the cooling box along the motion direction of the second connecting rod, and a plurality of sliding protrusions matched with the second dovetail grooves are fixedly connected to the bottom plate.

The utility model discloses a following technological effect: the utility model discloses can drive the cooler bin motion through the control part, then under the effect of first vibration portion and second vibration portion, the vibration that the cooler bin can the multi-angle reduces inside bubble, then cools off the ingot casting through cooling module, makes the aluminum alloy ingot casting finished product bubble that obtains few, and the quality is high. The utility model discloses simple structure, the simple operation can the multi-angle vibrate the cooler bin, fully eliminate the inside bubble of ingot casting, improve the quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic view of the structure of the production apparatus of the present invention;

FIG. 2 is a schematic view of the cooling box and the sliding block of the present invention;

FIG. 3 is a schematic view of the cooling box and the bottom plate of the present invention;

fig. 4 is a three-dimensional schematic view of the cam of the present invention;

fig. 5 is a front view of the cam of the present invention;

fig. 6 is a top view of the cam of the present invention;

wherein: 1-support frame, 2-heating box, 3-box opening, 4-conveying pipe, 5-cooling box, 6-mould, 7-bottom plate, 8-first shell, 9-first sliding plate, 10-first connecting rod, 11-first spring, 12-second shell, 13-second sliding plate, 14-second connecting rod, 15-sliding block, 16-second spring, 17-driving motor, 18-cam, 19-stop block, 20-holding tank, 21-water tank, 22-cooling tank, 23-water pump, 24-water control valve, 25-heating tank, 26-electric heating plate, 27-tank cover, 28-control valve, 29-first dovetail groove and 30-second dovetail groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1-6, the utility model provides a production device for aluminum alloy ingot casting, including support frame 1, the top of support frame 1 is fixedly connected with heating cabinet 2, fixedly connected with heating element on the side wall of heating cabinet 2, the top of heating cabinet 2 has been seted up case mouth 3, the bottom of heating cabinet 2 is fixed and communicated with conveyer pipe 4, be provided with cooler bin 5 below conveyer pipe 4, mould 6 is held in cooler bin 5, mould 6 is located under conveyer pipe 4, the bottom of support frame 1 is fixedly connected with a plurality of first vibrating parts, a plurality of first vibrating parts are fixedly connected with same bottom plate 7, bottom plate 7 is located below cooler bin 5 and is connected with cooler bin 5 in a sliding manner, the both sides of support frame 1 are fixedly connected with the second vibrating part respectively, the second vibrating part is connected with cooler bin 5 side wall in a sliding manner, cooler bin 5 is fixedly connected with the control part; a cooling assembly is provided in the cooling box 5. Heating element through in the heating cabinet 2 heats and keeps warm inside solution, then carry the cooler bin 5 in through conveyer pipe 4, the drive division drives the motion of cooler bin 5, and then realizes the vibration of multi-angle under the effect of first vibration portion and second vibration portion, makes 5 inside solution bubbles of cooler bin disappear, then cools off under the effect of cooling element, obtains high-quality aluminum alloy ingot casting.

Further optimize the scheme, first vibration portion include with 1 bottom fixed connection's of support frame first casing 8, sliding connection has first sliding plate 9 in first casing 8, first sliding plate 9 fixedly connected with first connecting rod 10, first connecting rod 10 runs through first casing 8 top and bottom plate 7 fixed connection, first sliding plate 9 and first casing 8 bottom between the first spring 11 of fixedly connected with. After driving motor 17 drove the motion of cooler bin 5, cooler bin 5 drives the motion of first connecting rod 10 through bottom plate 7, and then drives first sliding plate 9 compression first spring 11, then kick-backs under the spring action of first spring 11, has realized the longitudinal vibration of cooler bin 5, and cooler bin 5 and bottom plate 7 sliding connection can guarantee cooler bin 5 at the normal operating of transverse movement process.

Further optimize the scheme, the second vibration portion includes the second casing 12 with support frame 1 fixed connection, fixedly connected with second sliding plate 13 in second casing 12, second sliding plate 13 fixedly connected with second connecting rod 14, second connecting rod 14 runs through second casing 12 lateral wall fixedly connected with sliding block 15, sliding block 15 and cooling box 5 lateral wall sliding connection, fixedly connected with second spring 16 between one side that second connecting rod 14 was kept away from to second sliding plate 13 and second casing 12 inner wall. After the driving motor 17 drives the cooling box 5 to move, the cooling box 5 pushes the second sliding plate 13 to compress the second spring 16 through the second connecting rod 14, and then rebounds under the elastic force action of the second spring 16 to realize transverse vibration, and the sliding block 15 is connected with the cooling box 5 in a sliding manner, so that the cooling box 5 is not interfered when vibrating longitudinally.

Further optimize the scheme, the control part includes with 1 fixed connection's of support frame driving motor 17, driving motor 17 output shaft fixedly connected with cam 18, the cam 18 upper surface is the inclined surface, 5 lateral wall fixedly connected with dogs 19 of cooler bin, dog 19 has seted up and has supplied cam 18 pivoted holding tank 20, the 20 tank bottoms of holding tank be with the inclined surface of cam 18 looks adaptation.

Further, the receiving groove 20 has the same size as that of the cam 18 formed along the rotation of the output shaft of the driving motor 17. Guarantee cam 18 can drive dog 19 and can carry out horizontal and fore-and-aft motion simultaneously at the pivoted in-process, and then drive cooler bin 5 and can also carry out longitudinal vibration in the lateral vibration, and the vibration of multi-angle can be abundant eliminate the bubble, improves the ingot casting quality.

Further optimization scheme, cooling unit includes and support frame 1 fixed connection's water tank 21, and cooling tank 22 has been seted up to 5 lateral walls of cooler bin, and water tank 21 leads to pipe and cooling tank 22 to be linked together, and the water pipe intercommunication has water pump 23, is provided with water control valve 24 on the water pipe. After the cooling box 5 finishes the bubble removal work, the water control valve 24 is opened, the water pump 23 is started, and the cooling water in the water tank 21 can be conveyed into the cooling tank 22 to cool the workpiece in the cooling box 5.

Further optimize the scheme, heating element is including seting up in the heating tank 2 lateral wall heating groove 25, and fixed mounting has electric plate 26 in the heating groove 25, and electric plate 26 intercommunication has the power, and the notch department of heating groove 25 installs capping 27. The electric heating plate 26 is installed in the heating tank 25, so that the solution in the heating box 2 can be heated and insulated, and the electric heating plate 26 can be conveniently detached by installing the tank cover 27.

In a further optimized scheme, a control valve 28 is fixedly arranged on the conveying pipe 4. The amount of solution poured into the mould 6 can be controlled.

According to a further optimized scheme, a first dovetail groove 29 is longitudinally formed in the side wall of the cooling box 5, the sliding block 15 is matched with the first dovetail groove 29 and is in sliding connection with the first dovetail groove 29, a plurality of second dovetail grooves 30 are formed in the bottom of the cooling box 5 along the moving direction of the second connecting rod 14, and a plurality of sliding protrusions matched with the second dovetail grooves 30 are fixedly connected to the bottom plate 7. Through first dovetail 29 and sliding block 15 cooperation, guarantee that cooling box 5 continues with sliding block 15 joint at longitudinal movement's in-process for second connecting rod 14 can drive cooling box 5 lateral vibration through sliding block 15, and second dovetail 30 and the protruding looks adaptation of sliding on the bottom plate can guarantee that cooling box 5 can continue to receive the elasticity of second spring 16 through bottom plate 7 at lateral vibration in-process simultaneously, thereby realizes longitudinal vibration.

The utility model discloses a working process: pouring solution into the heating box 2 from the box opening 3, opening the electric heating plate 26 arranged on the heating box 2 to heat and preserve heat of the solution, then opening the control valve 28 to make the solution fall into the mould, then closing the control valve 28, starting the driving motor 17, driving the cam 18 to rotate by the driving motor 17, further driving the stop block 19 to move longitudinally and transversely, further driving the cooling box 5 to move, wherein the cooling box 5 pushes the first connecting rod 10 by the bottom plate, further pushes the first sliding plate 9 to compress the first spring 11, then rebounds under the action of the first compression spring 11 to realize longitudinal vibration, meanwhile, the cooling box 5 pushes the second sliding plate 13 to compress the second spring 16 by the second connecting rod 14, then rebounds under the action of the second spring 16 to realize transverse vibration of the cooling box 5, can fully eliminate internal bubbles through multi-angle full vibration, and then opens the water control valve 24, the water pump 23 is started to introduce the cooling water in the water tank 21 into the cooling tank 22 to cool the inside of the cooling tank 5.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. The utility model provides a be used for aluminum alloy ingot production device which characterized in that: comprises a supporting frame (1), a heating box (2) is fixedly connected to the top end of the supporting frame (1), a heating assembly is fixedly connected to the side wall of the heating box (2), a box opening (3) is formed in the top of the heating box (2), a conveying pipe (4) is fixed and communicated to the bottom of the heating box (2), a cooling box (5) is arranged below the conveying pipe (4), a mold (6) is contained in the cooling box (5), the mold (6) is positioned under the conveying pipe (4), a plurality of first vibration parts are fixedly connected to the bottom of the supporting frame (1), a plurality of first vibration parts are fixedly connected to the same bottom plate (7), the bottom plate (7) is positioned below the cooling box (5) and is in sliding connection with the cooling box (5), second vibration parts are respectively fixedly connected to the two sides of the supporting frame (1), and are in sliding connection with the side wall of the cooling box (5), the cooling box (5) is fixedly connected with a control part; and a cooling component is arranged in the cooling box (5).

2. The aluminum alloy ingot production device of claim 1, wherein: the first vibration part comprises a first shell (8) fixedly connected with the bottom of the support frame (1), a first sliding plate (9) is connected in the first shell (8) in a sliding mode, a first connecting rod (10) is fixedly connected with the first sliding plate (9), the first connecting rod (10) penetrates through the top of the first shell (8) and is fixedly connected with the bottom plate (7), and a first spring (11) is fixedly connected between the first sliding plate (9) and the bottom of the first shell (8).

3. The aluminum alloy ingot production device of claim 2, wherein: the second vibration part comprises a second shell (12) fixedly connected with the support frame (1), a second sliding plate (13) is fixedly connected in the second shell (12), a second connecting rod (14) is fixedly connected with the second sliding plate (13), the second connecting rod (14) penetrates through a sliding block (15) fixedly connected with the side wall of the second shell (12), the sliding block (15) is slidably connected with the side wall of the cooling box (5), and a second spring (16) is fixedly connected between one side, away from the second connecting rod (14), of the second sliding plate (13) and the inner wall of the second shell (12).

4. The aluminum alloy ingot production device of claim 1, wherein: the control part include with support frame (1) fixed connection's driving motor (17), driving motor (17) output shaft fixedly connected with cam (18), cam (18) upper surface is the inclined surface, cooler bin (5) lateral wall fixedly connected with dog (19), the confession has been seted up in dog (19) cam (18) pivoted holding tank (20), holding tank (20) tank bottom be with the inclined surface of cam (18) looks adaptation.

5. The aluminum alloy ingot production device of claim 1, wherein: the cooling assembly comprises a water tank (21) fixedly connected with the support frame (1), a cooling groove (22) is formed in the side wall of the cooling box (5), the water tank (21) is communicated with the cooling groove (22) through a water pipe, the water pipe is communicated with a water pump (23), and a water control valve (24) is arranged on the water pipe.

6. The aluminum alloy ingot production device of claim 1, wherein: heating element is including seting up in heating tank (2) lateral wall heating groove (25), heating groove (25) internal fixed mounting has electric plate (26), electric plate (26) intercommunication has the power, heating groove (25) notch department installs capping (27).

7. The aluminum alloy ingot production device of claim 1, wherein: and a control valve (28) is fixedly arranged on the conveying pipe (4).

8. The aluminum alloy ingot production device of claim 3, wherein: first dovetail (29) have vertically been seted up to cooler bin (5) lateral wall, sliding block (15) with first dovetail (29) looks adaptation and with first dovetail (29) sliding connection, cooler bin (5) bottom is followed a plurality of second dovetails (30) have been seted up to second connecting rod (14) direction of motion, fixedly connected with on bottom plate (7) a plurality of with the slip arch of second dovetail (30) looks adaptation.

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