CN220574687U - Aluminum alloy ingot casting mold - Google Patents

Abstract

The utility model relates to the technical field of metallurgy, in particular to an aluminum alloy ingot casting die which comprises a device body, an ingot casting cavity, an ingot casting plate and a demolding assembly, wherein the demolding assembly comprises a pressing plate, a first inner plate, a second inner plate, a slot and a fixing mechanism; pouring aluminum alloy liquid into the cavity of the ingot to be cooled and formed, cooling the cavity of the ingot through a water inlet pipe between the shell and the cavity of the ingot, then discharging water from a water outlet pipe, drawing out a first inner plate and a second inner plate to the outer side of the cavity of the ingot when demolding is carried out, forming a gap between the cavity of the ingot and the formed aluminum alloy, conveniently taking out the aluminum alloy, fixing a pressing plate at one place through a fixing mechanism, conveniently taking out the first inner plate and the second inner plate, and carrying out stress points when the aluminum alloy is taken out along with the first inner plate, and knocking out the aluminum alloy to a space surrounded by the first inner plate and the second inner plate.

Description

Aluminum alloy ingot casting mold

Technical Field

The utility model relates to the technical field of metallurgy, in particular to an aluminum alloy ingot casting mold.

Background

The ingot mould is a manufacturing process of casting molten metal into a casting mould, and obtaining parts with required shapes and performances through cooling and solidification. Casting is a common manufacturing method, has low manufacturing cost and great process flexibility, can obtain castings with complex shapes and large sizes, and occupies great specific weight in mechanical manufacturing.

The utility model provides an existing aluminum alloy ingot casting mould, including the ingot plate, the ingot cavity, a housing, the connecting rod, outlet pipe and inlet tube, square groove has been seted up to the ingot plate, ingot cavity and ingot plate fixed connection, and with the square groove intercommunication on the ingot plate, connecting rod and ingot cavity bottom fixed connection, shell and connecting rod fixed connection, and with ingot plate fixed connection, and be located ingot cavity bottom, inlet tube and outlet pipe are connected respectively to the both sides of shell, the ingot plate is used for mounting device structure, wait in pouring the aluminum alloy liquid into the ingot cavity and wait the cooling shaping, can cool down to the ingot cavity through between inlet tube to shell and the ingot cavity for quick cooling, then water flows by the outlet pipe.

However, when the utility model is used, the aluminum alloy liquid is easy to adhere to a part of the cavity of the cast ingot in the cooling process, so that the demolding is difficult.

Disclosure of Invention

The utility model aims to provide an aluminum alloy ingot casting mold, which aims to solve the problem that when the aluminum alloy ingot casting mold is used, aluminum alloy is easy to adhere to a part of an ingot casting cavity in the cooling process of aluminum alloy liquid, so that demolding is difficult.

In order to achieve the above purpose, the utility model provides an aluminum alloy ingot casting mold, which comprises a device body, an ingot casting cavity, an ingot casting plate and a demolding assembly, wherein the demolding assembly comprises a pressing plate, a first inner plate, a second inner plate, a slot and a fixing mechanism;

the pressing plate is fixedly connected with the ingot casting plate, and is located on one side of the ingot casting plate, the slot is fixedly connected with the ingot casting cavity, and is located on the inner side of the ingot casting cavity, the first inner plate is slidably connected with the slot, and is located on the inner side of the slot, the second inner plate is slidably connected with the first inner plate, and is located on one side of the first inner plate, and the fixing mechanism is arranged on the pressing plate.

The fixing mechanism comprises a through hole, a bolt and a nut, wherein the through hole is formed in the pressing plate, the bolt is in sliding connection with the through hole and is located on one side of the pressing plate, and the nut is in threaded connection with the bolt and is located on one side of the bolt.

The demolding assembly further comprises a handle, wherein the handle is fixedly connected with the first inner plate and is positioned at the top of the first inner plate.

The demolding assembly further comprises a first graphene plate and a second graphene plate, wherein the first graphene plate is fixedly connected with the first inner plate and is located on one side of the first inner plate, and the second graphene plate is fixedly connected with the second inner plate and is located on one side of the second inner plate.

The demolding assembly further comprises a cover plate and a second bolt, the cover plate is rotationally connected with the ingot plate and located on one side of the ingot plate, and the second bolt is in threaded connection with the cover plate and located on one side of the cover plate.

According to the aluminum alloy ingot casting mold disclosed by the utility model, aluminum alloy liquid is poured into the ingot casting cavity for waiting for cooling forming, the device body is used for cooling the ingot casting cavity through the water inlet pipe between the shell and the ingot casting cavity, then water flows out from the water outlet pipe, when demolding is carried out, the first inner plate and the second inner plate are pulled out to the outer side of the ingot casting cavity, so that a gap is formed between the ingot casting cavity and the formed aluminum alloy, the aluminum alloy is conveniently taken out, the pressing plate is fixed at one position through the fixing mechanism, stress points are conveniently taken out, and if the aluminum alloy is taken out along with the first inner plate, the aluminum alloy is knocked out to the space surrounded by the first inner plate and the second inner plate, so that the problem that the aluminum alloy liquid is easy to adhere to a part of the ingot casting cavity in the cooling process during use, and the demolding is difficult is solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model 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.

Fig. 1 is a sectional view of an aluminum alloy ingot mold according to a first embodiment of the present utility model.

Fig. 2 is a top view of an aluminum alloy ingot mold according to a first embodiment of the utility model.

Fig. 3 is a top view of an aluminum alloy ingot mold according to a second embodiment of the utility model.

The device comprises a device body, a 102-ingot casting cavity, a 103-ingot casting plate, a 104-demolding assembly, a 105-pressing plate, a 106-first inner plate, a 107-second inner plate, a 108-slot, a 109-fixing mechanism, a 110-through hole, a 111-bolt, a 112-nut, a 113-handle, a 114-first graphene plate, a 115-second graphene plate, a 201-cover plate and a 202-second bolt.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

First embodiment

Referring to fig. 1 to 2, fig. 1 is a cross-sectional view of an aluminum alloy ingot casting mold according to a first embodiment of the present utility model, and fig. 2 is a plan view of an aluminum alloy ingot casting mold according to a first embodiment of the present utility model.

The utility model provides an aluminum alloy ingot casting mold, which comprises: the device comprises a device body 101, an ingot cavity 102, an ingot plate 103 and a demolding assembly 104, wherein the demolding assembly 104 comprises a pressing plate 105, a first inner plate 106, a second inner plate 107, a slot 108, a fixing mechanism 109, a through hole 110, bolts 111, nuts 112, a handle 113, a first graphene plate 114 and a second graphene plate 115. The problem that the aluminum alloy is easy to adhere to a part of the ingot cavity 102 in the cooling process of the aluminum alloy liquid in use, so that demolding is difficult is solved by the scheme, and it can be understood that the scheme can be used for providing a stress point scene and can also be used for providing a stress point through the handle 113 so as to facilitate taking out the first inner plate 106 and the second inner plate 107.

In this embodiment, the aluminum alloy liquid is poured into the ingot cavity 102 for cooling and molding, the device body 101 cools the ingot cavity 102 through the water inlet pipe between the housing and the ingot cavity 102, and then water flows out from the water outlet pipe.

The pressing plate 105 is fixedly connected with the ingot plate 103 and is located on one side of the ingot plate 103, the slot 108 is fixedly connected with the ingot cavity 102 and is located on the inner side of the ingot cavity 102, the first inner plate 106 is slidably connected with the slot 108 and is located on the inner side of the slot 108, the second inner plate 107 is slidably connected with the first inner plate 106 and is located on one side of the first inner plate 106, the fixing mechanism 109 is arranged on the pressing plate 105, during demolding, the first inner plate 106 and the second inner plate 107 are pulled out towards the outer side of the ingot cavity 102, a gap is formed between the ingot cavity 102 and the formed aluminum alloy, the aluminum alloy is conveniently taken out, the pressing plate 105 is fixed on one place through the fixing mechanism 109, a stress point is formed when the aluminum alloy is conveniently taken out of the first inner plate 106 and the second inner plate 107, if the aluminum alloy is taken out along with the first inner plate 106, the aluminum alloy is bound to the first inner plate 106 and the second inner plate 106, and the aluminum alloy can be easily cooled in a space, and the problem of the ingot cavity 102 is difficult to be solved in a cooling process.

Next, the through hole 110 is disposed on the pressing plate 105, the bolt 111 is slidably connected with the through hole 110, and is located on one side of the pressing plate 105, the nut 112 is in threaded connection with the bolt 111, and is located on one side of the bolt 111, the pressing plate 105 and the placement frame are penetrated through the bolt 111, and then the nut 112 is in threaded connection with the bolt 111 for position fixing.

Again, the handle 113 is fixedly connected to the first inner plate 106 and is located at the top of the first inner plate 106, and the handle 113 is used to provide a stress point to facilitate the removal of the first inner plate 106 and the second inner plate 107.

Finally, the first graphene plate 114 is fixedly connected with the first inner plate 106 and is located at one side of the first inner plate 106, the second graphene plate 115 is fixedly connected with the second inner plate 107 and is located at one side of the second inner plate 107, and the adhesion of the aluminum alloy of the first graphene plate 114 and the second graphene plate 115 is poor, so that the first inner plate 106 and the second inner plate 107 are more convenient to take out.

When the aluminum alloy ingot casting mold is used, aluminum alloy liquid is poured into the ingot casting cavity 102 to wait for cooling and forming during use, the device body 101 cools the ingot casting cavity 102 through the water inlet pipe between the shell and the ingot casting cavity 102, then water flows out from the water outlet pipe, during demolding, the first inner plate 106 and the second inner plate 107 are pulled out to the outer side of the ingot casting cavity 102, a gap is formed between the ingot casting cavity 102 and the formed aluminum alloy, the aluminum alloy is conveniently taken out, the pressing plate 105 is fixed at one place through the fixing mechanism 109, stress points are conveniently taken out when the first inner plate 106 and the second inner plate 107 are stressed, if the aluminum alloy is taken out along with the first inner plate 106, the aluminum alloy is knocked out from a space enclosed by the first inner plate 106 and the second inner plate 107, and the problem that during use, the aluminum alloy liquid is easy to adhere to the ingot casting cavity 102 in a part during cooling process, and demolding is difficult is solved.

Second embodiment

Referring to fig. 3, fig. 3 is a top view of an aluminum alloy ingot mold according to a second embodiment of the utility model. On the basis of the first embodiment, the demoulding assembly 104 of the aluminium alloy ingot mould according to the utility model further comprises a cover plate 201 and a second bolt 202.

The cover plate 201 is rotationally connected with the ingot casting plate 103 and is located on one side of the ingot casting plate 103, the second bolt 202 is in threaded connection with the cover plate 201 and is located on one side of the cover plate 201, the cover plate 201 and the ingot casting plate 103 are rotationally closed, dust is prevented from falling into the ingot casting cavity 102 after ingot casting to affect the quality of aluminum alloy, and the second bolt 202 is used for fixing the position of the cover plate 201 and preventing the cover plate 201 from rotating randomly.

The foregoing disclosure is only illustrative of a preferred embodiment of an aluminum alloy ingot mold, and it is not intended to limit the scope of the utility model, as it is understood by those skilled in the art that all or part of the above-described embodiments may be practiced with equivalent changes, which are encompassed by the present utility model.

Claims (5)

1. An aluminum alloy ingot casting mold comprises a device body, an ingot casting cavity and an ingot casting plate, wherein the ingot casting cavity is arranged at the bottom of the ingot casting plate, the device body is arranged at the outer side of the ingot casting cavity, and is characterized in that,

the device comprises a die assembly, a die assembly and a die assembly, wherein the die assembly comprises a pressing plate, a first inner plate, a second inner plate, a slot and a fixing mechanism;

the pressing plate is fixedly connected with the ingot casting plate, and is located on one side of the ingot casting plate, the slot is fixedly connected with the ingot casting cavity, and is located on the inner side of the ingot casting cavity, the first inner plate is slidably connected with the slot, and is located on the inner side of the slot, the second inner plate is slidably connected with the first inner plate, and is located on one side of the first inner plate, and the fixing mechanism is arranged on the pressing plate.

2. An aluminum alloy ingot mold according to claim 1, wherein,

the fixing mechanism comprises a through hole, a bolt and a nut, wherein the through hole is formed in the pressing plate, the bolt is in sliding connection with the through hole and is positioned on one side of the pressing plate, and the nut is in threaded connection with the bolt and is positioned on one side of the bolt.

3. An aluminum alloy ingot mold as set forth in claim 2, wherein,

the demolding assembly further comprises a handle, wherein the handle is fixedly connected with the first inner plate and is positioned at the top of the first inner plate.

4. An aluminum alloy ingot mold according to claim 3,

the demolding assembly further comprises a first graphene plate and a second graphene plate, wherein the first graphene plate is fixedly connected with the first inner plate and is located on one side of the first inner plate, and the second graphene plate is fixedly connected with the second inner plate and is located on one side of the second inner plate.

5. An aluminum alloy ingot mold as set forth in claim 4, wherein,

the demolding assembly further comprises a cover plate and a second bolt, the cover plate is rotationally connected with the ingot plate and located on one side of the ingot plate, and the second bolt is in threaded connection with the cover plate and located on one side of the cover plate.