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CN-118321150-B - Step-by-step filtering mechanism with automatic discharging function for soybean phospholipid

CN118321150BCN 118321150 BCN118321150 BCN 118321150BCN-118321150-B

Abstract

The invention discloses a step-by-step filtering mechanism with an automatic discharging function for soybean phospholipids, which relates to the technical field of filtering and comprises the following steps: the soybean phospholipid filtering device comprises a filtering shell, wherein a discharge hopper is fixed below the filtering shell, a discharge assembly is arranged below the discharge hopper and comprises an automatic discharge piece, a multidirectional discharge piece, an anti-stacking piece and a supporting piece, and the automatic discharge piece is used for controlling soybean phospholipid to be discharged out of the filtering shell. According to the invention, the discharging direction of the guide hopper can be flexibly changed through the arc-shaped connecting plate, the discharging position can be changed through the telescopic hopper which is pulled, the discharging direction and the flexibility in position are improved, and the cost of replacing parts can be reduced due to the convenience in disassembly between the filter shell and the discharging assembly, so that the cost waste is reduced.

Inventors

  • SONG YUYAO

Assignees

  • 上海太伟药业股份有限公司

Dates

Publication Date
20260505
Application Date
20240511

Claims (6)

  1. 1. The step-by-step filtering mechanism with the automatic discharging function for the soybean phospholipids is characterized by comprising a filtering shell (1), wherein a discharging hopper (2) is fixed below the filtering shell (1), a discharging assembly (3) is arranged below the discharging hopper (2), the discharging assembly (3) comprises an automatic discharging part, a multi-directional discharging part, a stacking prevention part and a supporting part, the automatic discharging part is used for controlling the soybean phospholipids to be discharged out of the filtering shell (1), the multi-directional discharging part is used for changing the discharging direction of the soybean phospholipids, the stacking prevention part is used for preventing the soybean phospholipids from being stacked and adhered in the automatic discharging part, and the supporting part is used for connecting the automatic discharging part below the discharging hopper (2); The automatic discharging part comprises a discharging hopper (31), an opening and closing support frame (32) is fixed below the discharging hopper (31), a support groove (33) is formed in the inner side of the opening and closing support frame (32), an opening and closing plate (34) is slidably mounted in the support groove (33), a connecting rod (35) is fixed on one side of the opening and closing plate (34), a pressure sensor (36) is fixed in the opening and closing plate (34), two air cylinders (37) are fixed on the outer side of the opening and closing support frame (32), and one ends of telescopic rods of the two air cylinders (37) are fixed on one side of the connecting rod (35); The multidirectional discharging part comprises an annular supporting plate (38) fixed below a discharging hopper (31), a plurality of clamping grooves (39) are formed in the outer surface of the annular supporting plate (38), an annular sliding groove (310) is formed in the lower portion of the annular supporting plate (38), an arc-shaped connecting plate (311) is slidably mounted in the annular sliding groove (310), a plurality of inner grooves (312) are formed in the arc-shaped connecting plate (311), springs (313) are fixed in the inner grooves (312), clamping heads (314) are slidably mounted in the inner grooves (312), a guiding hopper (315) is fixed below the arc-shaped connecting plate (311), a groove body (316) is formed in the guiding hopper (315), two anti-moving strip-shaped grooves (317) are formed in the groove body (316), a telescopic hopper (318) is slidably mounted in the groove body (316), and anti-moving strips (319) are fixed at the bottom of the telescopic hopper (318). The pile prevention component comprises a motor (320), a gear (321), an annular plate (322), a tooth ring (323), a mounting plate (324), an air pump (325), an induced air pipe (326), a high-pressure spray head (327) and a plurality of arc-shaped filter screens (328), wherein the gear (321) is fixed at one end of an output shaft of the motor (320), the gear (321) is meshed with a tooth surface of the tooth ring (323), the annular plate (322) is rotatably mounted in the discharge hopper (31), the tooth ring (323) is fixed at the outer side of the annular plate (322), the mounting plate (324) is fixed at the lower side of the annular plate (322), the air pump (325) is fixed at one side of the mounting plate (324), the induced air pipe (326) is fixed at the other side of the mounting plate (324), the induced air pipe (326) is fixed at the air outlet end of the air pump (325), the high-pressure spray head (327) is fixed at one end of the induced air pipe (326) and is fixed at the outer side of the arc-shaped filter screens (328); the support piece is fixed in arc backup pad (329) of ejection of compact fill (2) surface, arc backup pad (329) both ends all are articulated through the hinge have arc fly leaf (330), two the opposite one end of arc fly leaf (330) all is fixed with stationary blade (331), two threaded connection has positioning screw (332) between the inside of stationary blade (331).
  2. 2. A stepwise filtration mechanism with automatic discharging function for soybean phospholipids according to claim 1, characterized in that the top of the filtration shell (1) is provided with a feed inlet (4).
  3. 3. A stepwise filtration mechanism with automatic discharging function for soybean phospholipids according to claim 1, characterized in that four support legs (5) are fixed under the filtration shell (1).
  4. 4. The step-by-step filtering mechanism with an automatic discharging function for soybean phospholipids according to claim 1, wherein three sieving net plates (6) are arranged in the filtering shell (1), and vibration motors (7) are fixed below the three sieving net plates (6).
  5. 5. The step-by-step filtering mechanism with an automatic discharging function for soybean phospholipids according to claim 1, wherein two sides of the filtering shell (1) are provided with a slag discharging port (8), and one side of the slag discharging port (8) is fixedly provided with a slag discharging traction plate (9).
  6. 6. The step-by-step filtering mechanism with an automatic discharging function for soybean phospholipids according to claim 1, wherein a discharging through hole (10) is formed below the filtering shell (1), and the discharging hopper (2) is communicated with the discharging through hole (10).

Description

Step-by-step filtering mechanism with automatic discharging function for soybean phospholipid Technical Field The invention belongs to the field of filtration, in particular to a step-by-step filtration mechanism, and relates to a step-by-step filtration mechanism with an automatic discharging function for soybean phospholipids. Background Soybean lecithin is a common food additive, also called soybean lecithin or soybean lecithin, is a natural phospholipid substance extracted from soybeans, mainly consists of lecithin, choline, inositol and the like, is widely applied in the food industry, and is a common food additive in general, has good emulsifying property and stability, and plays an important role in food processing and quality improvement. After the soybean phospholipid is subjected to multistage filtration, the direction of discharge is fixed, the position of the discharge can not be flexibly changed according to the positions of a material receiving barrel and other material receiving objects, the use flexibility of a material discharging mechanism is insufficient, and when any one of the filtering device or the material discharging mechanism fails, the soybean phospholipid is separated inconveniently and is mostly discarded together, so that cost is wasted. In summary, the present invention provides a step-by-step filtration mechanism with automatic discharging function for soybean phospholipids to solve the above problems. Disclosure of Invention The invention aims to overcome the defects of the prior art, and provides a dried rice method which solves the problems in the background art. In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that: a step-by-step filtration mechanism with an automatic discharging function for soybean phospholipids, comprising: The soybean phospholipid filter comprises a filter shell, wherein a discharge hopper is fixed below the filter shell, a discharge assembly is arranged below the discharge hopper, the discharge assembly comprises an automatic discharge part, a multidirectional discharge part, a stacking prevention part and a support part, the automatic discharge part is used for controlling soybean phospholipid to be discharged out of the filter shell, the multidirectional discharge part is used for changing the discharge direction of the soybean phospholipid, the stacking prevention part is used for preventing the soybean phospholipid from being stacked and adhered in the automatic discharge part, and the support part is used for connecting the automatic discharge part below the discharge hopper. The discharging component 3 not only can realize automatic discharging, but also can flexibly change the discharging direction and the discharging position and the sufficiency of discharging, and can rapidly disassemble and assemble the discharging component from the filter shell, so that the whole cost waste of the scrapped equipment is reduced. Optionally, automatic discharging piece is including arranging the hopper, the below of arranging the hopper is fixed with the support frame that opens and shuts, the supporting slot has been seted up to the inboard of support frame that opens and shuts, the inside slidable mounting of supporting slot has the opening and shutting board, one side of opening and shutting board is fixed with the connecting rod, the inside of opening and shutting board is fixed with pressure sensor, the outside of support frame that opens and shuts is fixed with two cylinders, and two the one end of cylinder telescopic link is all fixed in one side of connecting rod. After the pressure sensor detects that a material body with a certain weight is piled up above the opening and closing plate, the cylinder can be started to open the opening and closing plate, so that automatic discharging is realized. Optionally, multidirectional row material spare is including being fixed in the annular support plate of row hopper below, a plurality of draw-in grooves have been seted up to annular support plate's surface, annular spout has been seted up to annular support plate's below, annular spout's inside slidable mounting has the arc connecting plate, a plurality of inside grooves have been seted up to the inside of arc connecting plate, the inside of inside groove is fixed with the spring, the inside slip of inside groove has the cartridge head, the below of arc connecting plate is fixed with the guide hopper, the cell body has been seted up to the inside of guide hopper, two prevent moving strip grooves have been seted up to the inside of cell body, the inside slidable mounting of cell body has the flexible bucket, the bottom of flexible bucket is fixed with prevents moving the strip. The length of the guide hopper can be increased by pulling the telescopic hopper out of the tank body, the blanking position is changed, and the telescopic hopper is fixed in position under the clamping connection of the ant