CN-224222718-U - Shakeout core shakeout unit

Abstract

The utility model discloses a vibrating core shakeout unit, which comprises a closed vibrating core shakeout room with a sound insulation effect, wherein a first waste sand collecting belt conveyor and a second waste sand collecting belt conveyor which are connected end to end and are vertically arranged are arranged in the vibrating core shakeout room, a piece feeding sliding table and a piece discharging sliding table are arranged in front of the vibrating core shakeout room in parallel, a vibrating core robot is arranged between the piece feeding sliding table and the first waste sand collecting belt conveyor, a first vibrating core shakeout machine and a hammering machine close to the piece feeding sliding table are arranged on one side, far away from the vibrating core robot, of the second waste sand collecting belt conveyor, a second vibrating core shakeout machine is arranged on one side, far away from the vibrating core robot, of the first waste sand collecting belt conveyor, and the piece feeding sliding table and the piece discharging sliding table are all located in the maximum rotation radius of the vibrating core robot. According to the island-type production line structure arranged in the closed shakeout room, the auxiliary frame is transferred by the robot, sand cores in the cavity of the auxiliary frame are removed by the hammering machine and the two groups of shakeout machines, the scattered sand cores are transferred by the waste sand collecting belt conveyor, the production closed loop of shakeout is realized, the operation environment is improved, and preparation is made for the follow-up cutting unit.

Inventors

• WU YANZHEN
• SUN YUANXUE
• LUO MING

Assignees

• 卡斯特铝(重庆)科技有限公司

Dates

Publication Date

20260512

Application Date

20250609

Claims (7)

1. 1. The utility model provides a shake core knockout unit, including closed shake core knockout room (1) that has the sound insulation effect, a serial communication port, shake core knockout room (1) in be provided with first waste sand collection belt feeder (2) and second waste sand collection belt feeder (3) that end to end and set up perpendicularly, shake core knockout room (1) the place ahead and be provided with last slip table (5) and play piece slip table (6) side by side, go up and install shake core robot (4) between slip table (5) and first waste sand collection belt feeder (2), one side that shake core robot (4) was kept away from to second waste sand collection belt feeder (3) is provided with first shake core knockout machine (7) and is close to hammering machine (9) of last slip table (5), one side that shake core robot (4) was kept away from to first waste sand collection belt feeder (2) is provided with second shake core knockout machine (8), go up piece (5) and play piece (6) and shake core knockout machine (4) and all are located big gyration radius of shaking machine (4).
2. 2. Vibrating core shakeout unit according to claim 1, characterized in that at least half of the upper part sliding table (5) and the lower part sliding table (6) extend into the vibrating core shakeout chamber (1), and the other half is located outside the vibrating core shakeout chamber (1).
3. 3. Vibrating core shakeout unit according to claim 1, characterized in that the vibrating core robot (4) is provided with a gripper structure corresponding to the sub-frame type.
4. 4. Vibrating core shakeout unit according to claim 1, characterized in that the first vibrating core shakeout machine (7) is mounted in the edge position of the second waste sand collecting belt conveyor (3) and the second vibrating core shakeout machine (8) is mounted in the edge position of the first waste sand collecting belt conveyor (2).
5. 5. Vibrating core shakeout unit according to claim 1, characterized in that the hammering machine (9) is mounted directly above the second waste sand collecting belt conveyor (3).
6. 6. Vibrating core shakeout unit according to claim 5, characterized in that the end of the second waste sand collecting belt conveyor (3) on the side remote from the first waste sand collecting belt conveyor (2) passes through the vibrating core shakeout house (1) and is arranged outside the vibrating core shakeout house (1).
7. 7. The shakeout unit of claim 1, wherein an isolation door coaxial with the first waste sand collecting belt conveyor (2) is arranged on the side face of the shakeout core room (1), the shakeout core robot (4) is independently controlled by a robot electric control cabinet (11) arranged on the side face of the isolation door, and the whole shakeout core unit is controlled to automatically operate by an electric control cabinet (12) arranged on the side face of the robot electric control cabinet (11).

Description

Shakeout core shakeout unit Technical Field The utility model relates to the technical field of aluminum alloy casting processing, in particular to a vibrating core shakeout unit. Background The aluminum alloy auxiliary frame is generally produced by adopting a low-pressure casting process containing sand cores. The aluminum alloy casting needs to be cleaned out of a sand mold inside the casting after casting and forming, and the existing method for removing sand from the aluminum alloy casting has two defects of high labor intensity and low production efficiency because of manual sand removal and manual in-situ sand removal in a common casting shop. The other is mechanical shakeout, and mechanical equipment is usually adopted for shakeout, namely, a cast aluminum alloy part is placed on a vibration shakeout machine, and the shakeout is caused to fall through vibration. The existing hammer core machine and vibrating core machine have large noise due to the mechanical processing mode, the material transfer between the hammer core machine and the vibrating core machine depends on the traditional manual transfer mode, scattered sand cores need to be additionally provided with manual resources for periodic cleaning, and production efficiency is affected. Disclosure of utility model According to the technical problem to be solved, the vibrating core shakeout unit is provided. In order to achieve the purpose, the utility model discloses a vibrating core shakeout unit, which comprises a closed vibrating core shakeout room with a sound insulation effect, wherein a first waste sand collecting belt conveyor and a second waste sand collecting belt conveyor which are connected end to end and are vertically arranged are arranged in the vibrating core shakeout room, an upper sliding table and a lower sliding table are arranged in parallel in front of the vibrating core shakeout room, a vibrating core robot is arranged between the upper sliding table and the first waste sand collecting belt conveyor, a first vibrating core shakeout machine and a hammering machine close to the upper sliding table are arranged on one side, far away from the vibrating core robot, of the second waste sand collecting belt conveyor, a second vibrating core shakeout machine is arranged on one side, far away from the vibrating core robot, of the hammering machine, the first vibrating core shakeout machine, the second vibrating core shakeout machine, the upper sliding table and the lower sliding table are all located in the maximum turning radius of the vibrating core robot. Further, at least one half of the upper piece sliding table and the lower piece sliding table extend to the inside of the shake-core shakeout room, and the other half of the upper piece sliding table and the lower piece sliding table are positioned outside the shake-core shakeout room. Further, a gripper structure corresponding to the auxiliary frame model is mounted on the vibrating core robot. Still further, the first shakeout machine is installed at the edge position of the second waste sand collecting belt conveyor, and the second shakeout machine is installed at the edge position of the first waste sand collecting belt conveyor. Still further, the hammer is mounted directly above the second waste sand collection belt conveyor. Still further, the second waste sand collection belt feeder is kept away from the tip of first waste sand collection belt feeder one side and is passed shakeout core knockout room and set up in shakeout core knockout room outside. Still further, shake core shakeout room side be provided with the isolation door of first waste sand collection belt feeder coaxial line, isolation door side is provided with the automatically controlled cabinet of robot individual control shake core robot, the automatically controlled cabinet of robot side is provided with the automatically controlled unit automatic operation that shakes core. Compared with the prior art, the utility model has the beneficial effects that the utility model discloses the vibrating core shakeout unit, the island-type production line structure arranged in the closed vibrating core shakeout room utilizes the robot to transfer the auxiliary frame, the sand cores in the auxiliary frame cavity are removed through the hammering machine and the two groups of vibrating core shakeout machines, the scattered sand cores are transferred by the waste sand collecting belt conveyor, the closed loop of the production of vibrating core shakeout is realized, the operation environment is improved, and the preparation is made for the subsequent cutting unit. Drawings The utility model will be described in further detail with reference to the drawings and the detailed description. Fig. 1 is an overall layout of the present utility model in a top view. In the drawing, the machine is characterized in that a vibrating core shakeout room is 1, a robot electric cabinet is 11, an electric cabinet is 12, a first waste