Patent ID: 11970424
Assignee: CNBM TECHNOLOGY INNOVATION ACADEMY (SHANDONG) CO., LTD.
Field: Chemical engineering (Chemistry)
Classification: CPC B  C  F | IPC C  F

Claim 0:
1. An apparatus for preparing an aerogel thermal insulation mortar for a high-temperature kiln, comprising a top box (1), a support frame platform (2), a processing mechanism (3), an agitation mechanism (4), a receiving mechanism (5) and a docking mechanism (6), wherein the top box (1) is mounted on the top of the support frame platform (2); the top box (1) is provided with a partition frame (11) capable of respectively dividing an inner space thereof into a first material discharge cavity (7), a second material discharge cavity (8), a third material discharge cavity (9) and a fourth material discharge cavity (10); the processing mechanism (3) is provided on the top of the top box (1) and the bottom of the processing mechanism (3) is provided in the top box (1); the agitation mechanism (4) is mounted on the partition frame (11) and is located at an inner bottom of the top box (1); the receiving mechanism (5) is mounted on an inner top of the support frame platform (2) and docked with the top box (1); the docking mechanism (6) is mounted on the receiving mechanism (5); the inner bottom of the support frame platform (2) is provided with a collection box (12) docked with the receiving mechanism (5); and one side of the top box (1) is provided with a door panel (13); the processing mechanism (3) comprises a lifting assembly (31), a material storage assembly (32) and a filter screen (33), wherein the lifting assembly (31) is mounted at the top of the top box (1); the material storage assembly (32) is arranged at an inner top of the third material discharge cavity (9) and is docked with the filter screen (33); the filter screen (33) is of a semi-spherical structure and is slidably mounted on a side wall of the partition frame (11); and the filter screen (33) is located in the fourth material discharge cavity (10); the lifting assembly (31) comprises a driving cylinder (311), a mounting plate (312), a connecting plate (313), a driving motor (314) and a hemispherical grinding body (315), wherein the mounting plate (312) is fixed on the top of the top box (1); the driving cylinder (311) is fixed on the top of the mounting plate (312); the top of the mounting plate (312) is connected to an output end of the driving cylinder (311); the driving motor (314) is fixed on the connecting plate (313); and an output end of the driving motor (314) is connected to the top of the hemispherical grinding body (315); the material storage assembly (32) comprises a material storage guide box (321), a rotating plate (322) and a rotating motor (323), wherein the top of the top box (1) is provided with a material port in communication with the material storage guide box (321); one side of the material storage guide box (321) is provided with a docking port; the rotating plate (322) is rotatably arranged at the docking port; the rotating motor (323) is mounted on one side wall of the material storage guide box (321); and an output end of the rotating motor (323) is connected to the rotating plate (322); the agitation mechanism (4) comprises a rotating blade (41), a connecting shaft (42), a connecting seat (43), a driven bevel gear (44), a driving bevel gear (45) and a stepping motor (46), wherein the stepping motor (46) is located in the third material discharge cavity (9) and is fixed on the partition frame (11); the driving bevel gear (45) is located in the fourth material discharge cavity (10) and is connected to an output end of the stepping motor (46); the driven bevel gear (44) is fixed on the top end of the connecting shaft (42); the driven bevel gear (44) meshes with the driving bevel gear (45); and the rotating blade (41) is fixed at a bottom end of the connecting shaft (42); the receiving mechanism (5) comprises an outer cylinder (51), a transmission assembly (52), an inner cylinder (53) and two bearing seats (54), wherein the two bearing seats (54) are mounted on the support frame platform (2) at intervals; the transmission assembly (52) is fixed on the support frame platform (2) and extends to the inner cylinder (53) for arrangement; two ends of the outer cylinder (51) are respectively connected to the two bearing seats (54); the inner cylinder (53) is arranged within the outer cylinder (51); the inner cylinder (53) is of a hollow structure; and an outer side wall of the outer cylinder (51) is provided with an agent inlet pipe (56) in communication with the inner cylinder (53); the transmission assembly (52) comprises an L-shaped plate (521), a driving toothed disc (522), a transmission motor (523), a driven toothed disc (524) and a transmission shaft (525), wherein the L-shaped plate (521) is fixed on an inner side wall of the support frame platform (2); the transmission motor (523) is fixed on the L-shaped plate (521) and an output end of the transmission motor (523) is connected to the driving toothed disc (522); the transmission shaft (525) is rotatably arranged on the outer cylinder (51); one end of the transmission shaft (525) is connected to the driven toothed disc (524); the driven toothed disc (524) meshes with the driving toothed disc (522); a rotary vane (526) is provided on the transmission shaft (525); one end of the rotary vane (526) is in contact with an inner side wall of the inner cylinder (53); both ends of the outer cylinder (51) are provided with an exhaust mesh (511); and both the outer cylinder (51) and the inner cylinder (53) are provided with an upper inlet and a lower outlet; the docking mechanism (6) comprises a guide pipe (61), a control valve (62), an upper control assembly (63) and a lower control assembly (64), wherein two ends of the guide pipe (61) are respectively in communication with the top box (1) and the upper inlet; the control valve (62) is fixed on the guide pipe (61); the upper control assembly (63) and lower control assembly (64) have the same structure; and the upper control assembly (63) is fixed on an inner top of the support frame platform (2) and cooperates with the upper inlet, and the lower control assembly (64) is fixed on the support frame platform (2) and cooperates with the lower outlet; the upper control assembly (63) comprises an arc-shaped plate (631), a boss (632), a guide wheel (633), a bearing plate (634) and a linkage motor (635), wherein the arc-shaped plate (631) is arranged in the inner cylinder (53); the boss (632) is fixed on an outer side wall of the arc-shaped plate (631); the bearing plate (634) is fixed on the support frame platform (2); the linkage motor (635) is fixed on the bearing plate (634) and an output end of the linkage motor (635) is connected to the guide wheel (633); and an outer side wall of the guide wheel (633) is provided with a linkage block (636) connected thereto and one end of the linkage block (636) is connected to the boss (632); the upper control assembly (63) comprises an arc-shaped plate (631), a boss (632), a guide wheel (633), a bearing plate (634) and a linkage motor (635), wherein the arc-shaped plate (631) is arranged in the inner cylinder (53); the boss (632) is fixed on an outer side wall of the arc-shaped plate (631); the bearing plate (634) is fixed on the support frame platform (2); the linkage motor (635) is fixed on the bearing plate (634) and an output end of the linkage motor (635) is connected to the guide wheel (633); and the outer side wall of the guide wheel (633) is provided with a linkage block (636) connected thereto, and one end of the linkage block (636) is connected to the boss (632).