A rapidly cooling aluminum liquid forming mold
By designing an aluminum liquid forming mold with a detachable mold body and a fan and water pump system, the problems of mold applicability and low cooling efficiency were solved, enabling rapid cooling and convenient replacement of the mold, thus improving production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 长葛中福金属有限公司
- Filing Date
- 2025-06-06
- Publication Date
- 2026-07-03
Smart Images

Figure CN224444566U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of forming mold technology, specifically a rapidly cooling aluminum liquid forming mold. Background Technology
[0002] In the production process of aluminum products, forming molds are required to fill molten aluminum into the forming molds for cooling and shaping. However, natural cooling takes a long time and can easily delay the production schedule. Therefore, a rapid cooling molten aluminum forming mold is needed.
[0003] Chinese patent CN221161264U discloses a rapid cooling molding die, belonging to the field of molding dies. It includes a bottom mold with a mold cover mounted on top, hinged to the bottom mold. A molding chamber is formed on the bottom mold, and a cooling mechanism is movably mounted thereon. The cooling mechanism includes a cold water chamber, a first water pipe, a second water pipe, a water pump, an open water tank, an air chamber, connectors, and a blower. Through the cooling mechanism, the water pump fills the cold water chamber with cooling water from the open water tank and extracts it through the second water pipe, causing the cooling water to circulate between the open water tank and the cold water chamber, cooling the bottom surface of the molding chamber. The blower fills the air chamber with cold air, which flows around the molding chamber and exits from the other side, cooling the sides of the molding chamber. This results in better cooling of the molding chamber, and the foamed polyurethane inside the molding chamber cools quickly, leading to faster molding.
[0004] In the above technical solution, the cooling mechanism is located at the bottom of the bottom mold, which means that the device can only cool one type of mold. However, in the production process, different molds are used due to different types of finished products. The device makes it inconvenient to change the mold, thereby reducing the practicality of the device.
[0005] Based on this, this application proposes a rapidly cooling aluminum liquid forming mold. Utility Model Content
[0006] To address the aforementioned technical problems, this utility model proposes a rapidly cooling aluminum liquid forming mold. The mold body can be separated from the outer shell via a handle, facilitating mold body replacement and thus improving the practicality of the device. A fan, in conjunction with an air inlet pipe, accelerates airflow, achieving a cooling effect. A water pump, in conjunction with a cooling pipe, utilizes rapidly flowing water to absorb heat, thereby achieving a rapid cooling effect.
[0007] The technical solution to achieve the purpose of this utility model is: a rapidly cooling aluminum liquid forming mold, including a shell, a groove is provided inside the shell, a ventilation slot one and a ventilation slot two are provided inside the shell, and three air outlets are provided inside the shell, and also includes;
[0008] The outer shell has two grooves, and a mold body is slidably connected in the grooves. Two handles are fixedly connected to the mold body, and the two handles are respectively movably inserted into the two grooves. A mold cover is hinged to the outer shell.
[0009] Preferably, three air inlet pipes are fixedly connected to the outer casing, two of which are connected to ventilation slot one, and one of which is connected to ventilation slot two.
[0010] Preferably, a connecting pipe is fixedly connected to each of the three air inlet pipes, and a fan is fixedly connected to each connecting pipe.
[0011] Preferably, a partition is fixedly connected inside the outer shell, a cooling chamber is provided inside the outer shell, and a cooling pipe is fixedly connected inside the cooling chamber.
[0012] Preferably, one end of the cooling pipe is fixedly connected to a water inlet pipe, and the other end of the cooling pipe is fixedly connected to a water outlet pipe.
[0013] Preferably, a water pump is fixedly connected to the inlet pipe, a water tank is fixedly connected to the outlet pipe, and a water pump is fixedly connected to the water tank.
[0014] Compared with existing technologies, the significant advantages of this invention are:
[0015] Firstly, in this utility model, the mold body and handle are combined to facilitate the installation and replacement of the mold body, which makes the device more widely applicable and improves its practicality. It also makes it easier to disassemble and clean the mold body, thus improving the device's practicality.
[0016] Secondly, in this utility model, the ventilation slot 1, ventilation slot 2, air inlet pipe, fan, connecting pipe and air outlet are combined to accelerate the air flow at the bottom of the mold body, thereby cooling the aluminum liquid inside the mold body. The cooling chamber, cooling pipe, water inlet pipe, water outlet pipe, water tank and water pump are combined to drive the water to flow rapidly in the cooling pipe, absorbing heat and thus achieving rapid cooling. Attached Figure Description
[0017] The present invention will be further explained below with reference to the accompanying drawings and embodiments:
[0018] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;
[0019] Figure 2 This is a schematic diagram of the internal three-dimensional structure of this utility model;
[0020] Figure 3 This is a cross-sectional view of the outer shell of this utility model;
[0021] Figure 4 It is a three-dimensional structural schematic diagram of the cooling pipe in the present utility model.
[0022] Explanation of reference numerals in the drawings:
[0023] 1. Outer shell; 2. Groove; 3. Pulling groove; 4. Mold body; 5. Handle; 6. Mold cover; 7. First ventilation groove; 8. Second ventilation groove; 9. Air inlet pipe; 10. Fan; 11. Connecting pipe; 12. Air outlet; 13. Partition board; 14. Cooling cavity; 15. Cooling pipe; 16. Water inlet pipe; 17. Water outlet pipe; 18. Water tank; 19. Water pump. Specific implementation manners
[0024] The present utility model will be described in detail below. The technical solutions in the embodiments of the present utility model are clearly and completely described. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the embodiments. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present utility model without creative efforts shall fall within the protection scope of the present utility model.
[0025] The present utility model provides an aluminum liquid forming mold with rapid cooling by improvement. The technical solution of the present utility model is as follows:
[0026] As Figures 1-4 shown, an aluminum liquid forming mold with rapid cooling includes an outer shell 1. A groove 2 is provided inside the outer shell 1. The cross-section of the groove 2 is in a "convex" shape. A first ventilation groove 7 and a second ventilation groove 8 are provided inside the outer shell 1. The diameter of the first ventilation groove 7 is larger than that of the second ventilation groove 8. Three air outlets 12 are provided inside the outer shell 1. It further includes;
[0027] Pulling grooves 3. Two pulling grooves 3 are provided on the outer shell 1. A mold body 4 is slidably connected inside the groove 2. Two handles 5 are fixedly connected to the mold body 4. The two handles 5 are respectively movably inserted into the two pulling grooves 3. Through the cooperation of the groove 2, the pulling grooves 3, the mold body 4 and the handles 5, the mold body 4 is convenient to install and replace, making the application range of the device wider, improving the practicability of the device, and facilitating the disassembly and cleaning of the mold body 4, thus improving the practicability of the device. A mold cover 6 is hinged on the outer shell 1.
[0028] Furthermore, as Figure 2 and Figure 3 shown, three air inlet pipes 9 are fixedly connected to the outer shell 1. Two of the air inlet pipes 9 are communicated with the first ventilation groove 7, and one of the air inlet pipes 9 is communicated with the second ventilation groove 8. The cross-section of the first ventilation groove 7 is in a closed ring shape. The two air inlet pipes 9 communicated with the first ventilation groove 7 are symmetrical about the other air inlet pipe 9.
[0029] Furthermore, as Figures 1-3 As shown, connecting pipes 11 are fixedly connected to the three air inlet pipes 9, and fans 10 are fixed to the connecting pipes 11 by bolts. The fans 10 accelerate the airflow at the bottom of the mold body 4, thereby cooling the aluminum liquid inside the mold body 4.
[0030] Furthermore, such as Figure 3 and Figure 4 As shown, a partition 13 is fixedly connected inside the outer shell 1. The partition 13 is located between the air inlet pipe 9 and the cooling chamber 14. The outer shell 1 is provided with a cooling chamber 14. A cooling pipe 15 is fixedly connected inside the cooling chamber 14. The cooling pipe 15 is coiled inside the cooling chamber 14.
[0031] Furthermore, such as Figures 1-4 As shown, one end of the cooling pipe 15 is fixedly connected to the water inlet pipe 16, and the other end of the cooling pipe 15 is fixedly connected to the water outlet pipe 17. Water flows rapidly inside the cooling pipe 15, absorbing heat and thus achieving a cooling effect.
[0032] Furthermore, such as Figures 1-4 As shown, a water pump 19 is fixed to the inlet pipe 16 by bolts, and a water tank 18 is fixedly connected to the outlet pipe 17. The water pump 19 is fixed to the water tank 18 by bolts. The water pump 19 is used to pump the water in the water tank 18 into the inlet pipe 16. The top of the water tank 18 has an opening to facilitate cooling and heat dissipation of the water.
[0033] The specific working method is as follows: Open the mold cover 6, place the corresponding mold body 4 into the groove 2, so that the handles 5 at both ends of the mold body 4 are respectively embedded in the two pull grooves 3. Then, pour the aluminum liquid into the mold body 4, close the mold cover 6, start the fan 10, the fan 10 draws air into the connecting pipe 11, and enters the air inlet pipe 9 through the connecting pipe 11. Through the air inlet pipe 9, it enters the ventilation slot 1 7 and the ventilation slot 2 8, which accelerates the air flow at the bottom of the mold body 4 and achieves the cooling effect. Start the water pump 19, and its output shaft draws the water in the water tank 18 into the water inlet pipe 16, and then into the cooling pipe 15 through the water inlet pipe 16. The water flows rapidly in the cooling pipe 15, absorbs heat, and thus achieves the effect of rapid cooling, so that the aluminum liquid in the mold body 4 can be cooled quickly.
[0034] The technical means disclosed in this utility model are not limited to those described above, but also include technical solutions composed of equivalent substitutions of the above technical features. Matters not covered in this utility model are common knowledge to those skilled in the art.
Claims
1. A rapid-cooling mold for forming a molten aluminum, comprising a housing (1) having a recess (2) formed therein, characterized in that: The outer casing (1) is provided with a ventilation slot one (7) and a ventilation slot two (8), and the outer casing (1) is provided with three air outlets (12), and also includes; The two grooves (3) are opened on the outer shell (1). The mold body (4) is slidably connected in the groove (2). Two handles (5) are fixedly connected on the mold body (4). The two handles (5) are respectively movably inserted into the two grooves (3). The mold cover (6) is hinged on the outer shell (1).
2. The aluminum liquid forming mold for rapid cooling according to claim 1, characterized in that: Three air inlet pipes (9) are fixedly connected to the outer shell (1), two of which are connected to ventilation slot one (7), and one of which is connected to ventilation slot two (8).
3. A rapid-cooling mold for forming a molten aluminum product as set forth in claim 2, characterized in that: A connecting pipe (11) is fixedly connected to each of the three air inlet pipes (9), and a fan (10) is fixedly connected to each connecting pipe (11).
4. The rapid-cooling mold for forming a molten aluminum product according to claim 1, characterized by: A partition (13) is fixedly connected inside the outer shell (1), and a cooling chamber (14) is provided inside the outer shell (1). A cooling pipe (15) is fixedly connected inside the cooling chamber (14).
5. A rapid-cooling mould for forming a mass of liquid aluminium according to claim 4, characterised in that: One end of the cooling pipe (15) is fixedly connected to a water inlet pipe (16), and the other end of the cooling pipe (15) is fixedly connected to a water outlet pipe (17).
6. A rapid-cooling mold for forming a molten aluminum product as defined in claim 5, wherein: A water pump (19) is fixedly connected to the inlet pipe (16), a water tank (18) is fixedly connected to the outlet pipe (17), and a water pump (19) is fixedly connected to the water tank (18).