CN217018572U - Pouring, cooling and shell vibrating integrated equipment - Google Patents
Pouring, cooling and shell vibrating integrated equipment Download PDFInfo
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- CN217018572U CN217018572U CN202123154143.2U CN202123154143U CN217018572U CN 217018572 U CN217018572 U CN 217018572U CN 202123154143 U CN202123154143 U CN 202123154143U CN 217018572 U CN217018572 U CN 217018572U
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- bearing frame
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- die holder
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Abstract
The utility model discloses pouring, cooling and shell vibrating integrated equipment, and relates to the technical field of metal product equipment. The die cover comprises a bearing frame, wherein a die holder is arranged on the bearing frame, at least two vertical guide rods are fixedly arranged on the bearing frame, the two guide rods are connected with a die cover in a sliding mode along the axial direction of the two guide rods, the two guide rods are provided with the same fixing plate, and a driving piece acting on the die cover is arranged on the fixing plate. The utility model can accelerate the cooling speed of the metal solution in the mould after the solution is poured into the mould, and simultaneously can lead the mould to vibrate so as to separate the metal product in the mould from the mould, thereby being convenient for taking out the mould product in the mould, saving time and labor, greatly reducing the workload of workers, greatly improving the working efficiency of the workers and being beneficial to the popularization and the use of equipment.
Description
Technical Field
The utility model relates to the technical field of metal product equipment, in particular to pouring, cooling and shell vibrating integrated equipment.
Background
The metal product industry comprises the manufacture of structural metal products, the manufacture of metal tools, the manufacture of containers and metal packaging containers, the manufacture of stainless steel and similar daily metal products, and the like, along with the progress of society and the development of science and technology, the metal products are more and more widely applied in various fields of industry, agriculture and people's life, and more values are created for the society, wherein, the pouring, cooling and shell shaking are indispensable processes in the metal product process, at present, most metal product pouring equipment for metal products does not have the functions of cooling and shell shaking for the metal products, after the metal solution is poured into a mould, the metal solution is required to be naturally cooled, and simultaneously, the cooled metal products are not convenient to take out, time and labor are wasted, the workload of workers is greatly increased, and the work efficiency of the workers is greatly reduced, therefore, we propose a casting, cooling and shell-shaking integrated device.
SUMMERY OF THE UTILITY MODEL
The utility model aims to: the utility model provides a casting, cooling and shell-shaking integrated device, which aims to solve the problem that the existing casting device for metal products does not have the functions of cooling and shell-shaking the metal products, so that the working efficiency of workers is greatly reduced.
The utility model specifically adopts the following technical scheme for realizing the purpose:
the utility model provides a pouring, cooling, shake shell integration equipment, includes bears the frame, bear and install the die holder on the frame, bear and set firmly two at least guide bars that are vertical to, and two follow two on the guide bar the axis direction sliding connection of guide bar has the die cover, installs same fixed plate on two guide bars, install on the fixed plate and act on the piece of ordering about of die cover, it is used for so that the die cover slides or stops sliding on the guide bar, install on the die cover and act on the cooling body of die holder, bear and install on the frame and act on the vibrations mechanism of die holder.
Furthermore, the driving piece comprises an air cylinder fixedly arranged on the fixing plate, and a piston rod of the air cylinder is fixedly connected with the die cover.
Furthermore, the cooling mechanism is a cooling water pipe, and two ends of the cooling water pipe are respectively communicated with an external cold water source and an external water collecting tank.
Further, the vibrations mechanism is including installing bear the mounting panel on the frame, the die holder is installed on the mounting panel, the mounting panel is kept away from one side of die holder is constructed flutedly, sliding connection has the fly leaf in the recess, fixed mounting has vibrating motor on the fly leaf.
Further, the die holder is fixedly installed on the installation plate through screws.
Further, the mounting plate is rotatably mounted on the bearing frame, and the bearing frame is provided with a driving member acting on the mounting plate, so that the mounting plate can rotate or stop rotating on the bearing frame.
Further, the driving member comprises an electric motor fixedly mounted on the bearing frame, and an output shaft of the electric motor is connected with the mounting plate through a bevel gear assembly.
Furthermore, a rubber plate is fixedly mounted on the bearing frame and below the mounting plate.
The utility model has the following beneficial effects: according to the utility model, the bearing frame, the die holder, the guide rod, the die cover, the fixed plate, the driving piece, the cooling mechanism and the vibrating mechanism are arranged, so that the cooling speed of the metal solution in the die can be accelerated after the solution is poured into the die, and the die can be vibrated to separate the metal product in the die from the die, so that the die product in the die can be conveniently taken out, the time and the labor are saved, the workload of workers is greatly reduced, the working efficiency of the workers is greatly improved, and the popularization and the use of equipment are facilitated.
Drawings
FIG. 1 is a perspective view of the structure of the present invention;
FIG. 2 is a front view of the present invention;
FIG. 3 is a right side view of the present invention;
FIG. 4 is a cross-sectional view taken in the direction A-A of FIG. 3 of the present invention;
reference numerals are as follows: 1. a carrier; 2. a die holder; 3. a guide rod; 4. a mold cover; 5. a fixing plate; 6. an actuating member; 601. a cylinder; 7. a cooling mechanism; 701. a cooling water pipe; 8. a vibration mechanism; 801. mounting a plate; 802. a groove; 803. a movable plate; 804. a vibration motor; 9. a drive member; 901. an electric motor; 902. a bevel gear assembly; 10. a rubber plate.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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.
As shown in fig. 1 to 4, an integrated pouring, cooling and shaking device provided by an embodiment of the present invention includes a carrier 1, a die holder 2 is installed on the carrier 1, at least two vertical guide rods 3 are fixedly installed on the carrier 1, and a die cover 4 is slidably connected to the two guide rods 3 along an axial direction of the two guide rods 3, where: the die cover 4 is provided with an injection port, when the die cover 4 is jointed with the die holder 2, the injection port on the die cover 4 is communicated with the die groove on the die holder 2, the same fixing plate 5 is arranged on the two guide rods 3, the driving piece 6 acting on the die cover 4 is arranged on the fixing plate 5 and used for enabling the die cover 4 to slide or stop sliding on the guide rods 3, the cooling mechanism 7 acting on the die holder 2 is arranged on the die cover 4, the vibration mechanism 8 acting on the die holder 2 is arranged on the bearing frame 1, when in use, the die cover 4 slides on the two guide rods 3 along the direction of the die holder 2 through the driving piece 6, the die cover 4 is jointed with the die holder 2, at the moment, the metal solution flows into the die groove on the die holder 2 from the injection port on the die cover 4, because the cooling mechanism 7 is arranged on the die holder 2, the cooling mechanism 7 is used for cooling the die cover 4, and because the die cover 4 is jointed with the die holder 2, therefore, the cooling of the metal solution in the die groove on the die holder 2 can be accelerated, after the cooling of the metal solution in the die groove in the die holder 2 is completed, the die holder 2 is vibrated through the vibration mechanism 8, so that the metal product in the die holder 2 is separated from the die holder 2, and in conclusion, after the solution is poured into the die, the cooling speed of the metal solution in the die can be accelerated, and meanwhile, the die can be vibrated, so that the metal product in the die is separated from the die, the taking out of the die product in the die is facilitated, the time and the labor are saved, the workload of workers is greatly reduced, the working efficiency of the workers is greatly improved, and the popularization and the use of equipment are facilitated.
As shown in fig. 1 and fig. 2, in some embodiments, the actuating member 6 includes a cylinder 601 fixed on the fixing plate 5, a piston rod of the cylinder 601 is fixedly connected to the mold cover 4, and when in use, by controlling the piston rod of the cylinder 601 to slide outwards or inwards along the cylinder body thereof, the piston rod of the cylinder 601 is fixedly connected to the mold cover 4, so as to drive the mold cover 4 to slide on the guide rod 3, and the practicability is high.
As shown in fig. 1 and fig. 4, in some embodiments, the cooling mechanism 7 is a cooling water pipe 701, and two ends of the cooling water pipe 701 are respectively communicated with an external cold water source and an external water collecting tank, where: in this embodiment, the mold cover 4 includes an upper cover and a lower cover both slidably connected to the guide rod 3, and the upper cover and the lower cover are fixed by screws, a slot is formed on each of the opposite sides of the upper cover and the lower cover, the cooling water pipe 701 is located in the slot between the opposite sides of the upper cover and the lower cover and is connected to the upper cover and the lower cover in a clamping manner, and an injection pipe penetrating through the upper cover and used for injecting a metal solution is fixedly arranged on the lower cover, specifically, as shown in fig. 4, when the mold cover is used, an external cooling water source switch is turned on to enable an external cooling water source to flow into the cooling water pipe 701, and then the external cooling water source flows into an external water collecting tank from the other end of the cooling water pipe 701, and along with the continuous injection of the cooling water source into the cooling water pipe 701, so that the mold cover 4 can be cooled, and the practicability is high.
As shown in fig. 2 and fig. 4, in some embodiments, the vibration mechanism 8 includes a mounting plate 801 mounted on the supporting frame 1, the die holder 2 is mounted on the mounting plate 801, a groove 802 is formed on a side of the mounting plate 801 away from the die holder 2, a movable plate 803 is slidably connected in the groove 802, and a vibration motor 804 is fixedly mounted on the movable plate 803.
As shown in fig. 1, 2 and 4, in some embodiments, the die holder 2 is fixedly mounted on the mounting plate 801 by screws, and in this embodiment, the die holder 2 is fixedly mounted on the mounting plate 801 by screws, so that the die holder 2 is convenient to detach, the die holder 2 is convenient to replace on the mounting plate 801, and the practicability of the device is improved.
As shown in fig. 4, in some embodiments, the mounting plate 801 is rotatably mounted on the carrier 1, the carrier 1 is mounted with a driving member 9 acting on the mounting plate 801, which is used to rotate or stop the mounting plate 801 on the carrier 1, when in use, the mounting plate 801 can be rotated on the carrier 1 through the driving member 9 to make the open end of the die cavity on the die holder 2 face downward, at this time, the vibration motor 804 is controlled to be turned on, and when the metal product is separated from the die holder 2, the metal product can directly fall on the carrier 1, so as to be more convenient for the operator to use, thereby improving the practicability of the device.
As shown in fig. 4, in some embodiments, the driving member 9 includes a motor 901 fixedly mounted on the carriage 1, and an output shaft of the motor 901 is connected with the mounting plate 801 through a bevel gear assembly 902, which is illustrated as follows: the bevel gear assembly 902 comprises two bevel gears which are meshed with each other, wherein one bevel gear is fixedly connected with an output shaft of the motor 901, the other bevel gear is fixedly connected with a rotating shaft of the mounting plate 801 on the bearing frame 1 in a coaxial mode, when the bevel gear assembly is used, the motor 901 is controlled to be started, the output shaft of the motor 901 rotates, therefore, the mounting plate 801 can be driven to rotate on the bearing frame 1 through the bevel gear assembly 902, and the practicability is high.
As shown in fig. 1 and 4, in some embodiments, a rubber plate 10 is fixedly mounted on the carrier 1 below the mounting plate 801, and in this embodiment, through the design of the rubber plate 10, when the metal product falls on the carrier 1 after being separated from the die holder 2, the metal product contacts the rubber plate 10 first, so as to effectively avoid the situation that the metal product directly falls on the carrier 1 and the metal product collides with the carrier 1 to be damaged.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (8)
1. A casting, cooling and shell shaking integrated device is characterized by comprising a bearing frame (1), the die holder (2) is arranged on the bearing frame (1), at least two guide rods (3) which are vertical are fixedly arranged on the bearing frame (1), and the two guide rods (3) are connected with a die cover (4) in a sliding way along the axial direction of the two guide rods (3), the two guide rods (3) are provided with the same fixed plate (5), the fixed plate (5) is provided with an actuating piece (6) acting on the die cover (4), for sliding or stopping sliding of the mould cover (4) on the guide rod (3), a cooling mechanism (7) acting on the die holder (2) is arranged on the die cover (4), and a vibration mechanism (8) acting on the die holder (2) is arranged on the bearing frame (1).
2. A casting, cooling and vibrating shell integrated equipment according to claim 1, wherein the actuating member (6) comprises a cylinder (601) fixed on the fixing plate (5), and a piston rod of the cylinder (601) is fixedly connected with the mold cover (4).
3. The integrated pouring, cooling and vibrating equipment according to claim 1, wherein the cooling mechanism (7) is a cooling water pipe (701), and two ends of the cooling water pipe (701) are respectively communicated with an external cold water source and an external water collecting tank.
4. The integrated pouring, cooling and vibrating equipment as claimed in claim 1, wherein the vibrating mechanism (8) comprises a mounting plate (801) mounted on the bearing frame (1), the die holder (2) is mounted on the mounting plate (801), a groove (802) is formed in one side, away from the die holder (2), of the mounting plate (801), a movable plate (803) is slidably connected in the groove (802), and a vibrating motor (804) is fixedly mounted on the movable plate (803).
5. A pouring, cooling and vibrating shell integrated equipment according to claim 4, wherein the die holder (2) is fixedly installed on the installation plate (801) through screws.
6. A pouring, cooling and seismic shell integrated equipment according to claim 4, characterized in that the mounting plate (801) is rotatably mounted on the carrier (1), and the carrier (1) is mounted with a driving member (9) acting on the mounting plate (801) for rotating or stopping the mounting plate (801) on the carrier (1).
7. A casting, cooling and seismic shell integrated equipment according to claim 6, characterized in that the driving member (9) comprises an electric motor (901) fixedly mounted on the bearing frame (1), and the output shaft of the electric motor (901) is connected with the mounting plate (801) through a bevel gear assembly (902).
8. A pouring, cooling and shaking integrated equipment according to claim 7, wherein a rubber plate (10) is fixedly mounted on the bearing frame (1) below the mounting plate (801).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123154143.2U CN217018572U (en) | 2021-12-14 | 2021-12-14 | Pouring, cooling and shell vibrating integrated equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123154143.2U CN217018572U (en) | 2021-12-14 | 2021-12-14 | Pouring, cooling and shell vibrating integrated equipment |
Publications (1)
Publication Number | Publication Date |
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CN217018572U true CN217018572U (en) | 2022-07-22 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202123154143.2U Active CN217018572U (en) | 2021-12-14 | 2021-12-14 | Pouring, cooling and shell vibrating integrated equipment |
Country Status (1)
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CN (1) | CN217018572U (en) |
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2021
- 2021-12-14 CN CN202123154143.2U patent/CN217018572U/en active Active
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