CN-224221888-U - Screening machine for undaria pinnatifida

Abstract

The utility model belongs to the technical field of undaria pinnatifida processing, in particular to a undaria pinnatifida screening machine, which comprises a loading assembly capable of adjusting the retention time in the screening machine when the undaria pinnatifida is screened, wherein the loading assembly is internally provided with a screening assembly capable of continuously screening the undaria pinnatifida on the premise of keeping the screening effect of the screening machine, and a blowing assembly capable of further ensuring the screening effect of the screening machine is arranged above the screening assembly. The utility model is convenient for the rubber rod rotating along with the rotating shaft to continuously strike the sieve plate in the process of screening the undaria pinnatifida by arranging the striking piece which can synchronously run with the sieving piece below the sieving piece so as to prevent the sieve plate from adhering to undaria pinnatifida residues or sieve holes thereof to be blocked, and the sieving machine can continuously screen the undaria pinnatifida while ensuring the sieving effect by combining the arrangement of the blowing component.

Inventors

• HAN JIANSHENG

Assignees

• 大连海宝食品股份有限公司

Dates

Publication Date

20260512

Application Date

20250320

Claims (8)

1. 1. The undaria pinnatifida screening machine is characterized by comprising a loading assembly (1) capable of adjusting the retention time of undaria pinnatifida in the screening machine when the undaria pinnatifida is screened, wherein a screening assembly (2) capable of continuously screening undaria pinnatifida on the premise of keeping the screening effect of the screening machine is arranged in the loading assembly (1), and a blowing assembly (3) capable of further ensuring the screening effect of the screening machine is arranged above the screening assembly (2); the loading assembly (1) comprises a bracket (101), and a carrier (102) is movably connected above the bracket (101); The screening component (2) comprises a screening piece which can drive undaria pinnatifida to rotate so as to convey and screen the undaria pinnatifida, a striking piece which can continuously strike the appointed position of the screening piece so as to prevent undaria pinnatifida from being blocked, and a driving piece which can enable the screening piece and the striking piece to synchronously operate; The screening piece comprises a plurality of screening plates (204) arranged below the carrier (102), and a plurality of screening holes are integrally formed in the screening plates (204); The beating piece comprises a rotating shaft (205) arranged below a plurality of sieve plates (204), two positioning cylinders (206) are fixedly connected to the outer side faces of the rotating shaft (205), and a plurality of glue sticks (207) are fixedly connected to the two positioning cylinders (206).
2. 2. The undaria pinnatifida screening machine according to claim 1, wherein the screening piece further comprises buckling frames (201) fixedly arranged in two sides of the carrier (102), a rotary drum (202) is movably connected between the buckling frames (201), a plurality of ring frames (203) are fixedly arranged on the outer side face of the rotary drum (202), and the sieve plates (204) are fixedly arranged in the ring frames (203).
3. 3. The undaria pinnatifida screening machine according to claim 2, wherein the driving piece comprises a motor (208) fixedly installed below the carrier (102), a first belt wheel (209) is fixedly connected to the output end of the motor (208), a second belt wheel (210) is fixedly connected to the outer side face of the rotary drum (202), a third belt wheel (211) is fixedly connected to the outer side face of the rotary shaft (205), a first belt (212) is arranged between the first belt wheel (209) and the second belt wheel (210), and a second belt (213) is arranged between the second belt wheel (210) and the third belt wheel (211).
4. 4. The undaria pinnatifida screening machine according to claim 2, wherein the rotary drum (202) and the rotary shaft (205) are both rotatably connected with the buckling frame (201).
5. 5. The screening machine for undaria pinnatifida according to claim 1, wherein the transverse position of any one of the screen holes is not coincident with the transverse position of the glue stick (207).
6. 6. The screening machine for undaria pinnatifida according to claim 3, wherein the loading assembly (1) further comprises a hydraulic cylinder (103) movably connected between the support (101) and the carrier (102), a material receiving frame (104) is fixedly arranged in the support (101), and a baffle cover (105) is fixedly arranged in the front and rear of the carrier (102).
7. 7. The undaria pinnatifida screening machine according to claim 6, wherein the blowing component (3) comprises a plurality of tube seats (301) fixedly installed in the carrier (102), an air pipe (302) is fixedly connected between the two tube seats (301) with the same longitudinal position, a plurality of spray heads (303) are fixedly connected below the air pipe (302), a pump (304) is fixedly installed above the carrier (102), an air outlet end of the pump (304) is fixedly connected with a connecting tube (305), a joint (306) is fixedly connected with the lower end of the connecting tube (305), and a shunt tube (307) is arranged between the air pipe (302) and the joint (306).
8. 8. The machine for screening undaria pinnatifida according to claim 6, wherein the support (101) is rotatably connected with the carrier (102), and the support (101) and the carrier (102) are rotatably connected with the hydraulic cylinder (103).

Description

Screening machine for undaria pinnatifida Technical Field The utility model belongs to the technical field of undaria pinnatifida processing, and particularly relates to a undaria pinnatifida screening machine. Background Undaria pinnatifida, also known as a vegetable in the sea, is one of the common edible algae plants. Screening is a key step in undaria pinnatifida processing, and aims to optimize product quality and ensure uniform product specification so as to facilitate packaging, pricing and classified sales and meet different market demands. The Chinese patent document with the publication number of CN221413990U discloses a screening machine for undaria pinnatifida processing, which drives a cleaning brush to move above a screen mesh and cling to the screen mesh through a motor driving screw rod, and the cleaning brush can rotate when moving along the screen mesh through a set gear and a set rack, so that the cleaning efficiency and the cleaning effect of the screen mesh are improved. However, in the prior art, parts having a cleaning function are provided at positions where they can contact the undaria pinnatifida, which is extremely likely to cause undaria pinnatifida to remain in the screening machine, and in addition, once cleaning is performed, the screening work must be suspended, so that a screening machine for undaria pinnatifida is proposed. Disclosure of utility model The utility model aims to provide a undaria pinnatifida screening machine. The technical scheme adopted by the utility model is as follows: The undaria pinnatifida screening machine comprises a loading assembly capable of adjusting the retention time in the screening machine when the undaria pinnatifida is screened, wherein a screening assembly capable of continuously screening the undaria pinnatifida on the premise of keeping the screening effect of the screening machine is arranged in the loading assembly, and a blowing assembly capable of further ensuring the screening effect of the screening machine is arranged above the screening assembly; The loading assembly comprises a bracket, and a carrier is movably connected above the bracket; The screening component comprises a screening piece which can drive the undaria pinnatifida to rotate so as to convey and screen the undaria pinnatifida, a beating piece which can continuously beat the appointed position of the screening piece so as to prevent the undaria pinnatifida from being blocked, and a driving piece which can enable the screening piece and the beating piece to synchronously operate; The screening piece comprises a plurality of screening plates arranged below the carrier, and a plurality of screening holes are integrally formed in the screening plates; the striking piece comprises a rotating shaft arranged below the plurality of sieve plates, two positioning cylinders are fixedly connected to the outer side face of the rotating shaft, and a plurality of glue sticks are fixedly connected to the two positioning cylinders. Preferably, the screening piece further comprises buckling frames fixedly arranged in two sides of the carrier, a rotary drum is movably connected between the buckling frames, a plurality of ring frames are fixedly arranged on the outer side face of the rotary drum, and a screen plate is fixedly arranged in each ring frame. Preferably, the driving piece comprises a motor fixedly arranged below the carrier, the output end of the motor is fixedly connected with a first belt pulley, the outer side surface of the rotary drum is fixedly connected with a second belt pulley, the outer side surface of the rotary shaft is fixedly connected with a third belt pulley, a first belt is arranged between the first belt pulley and the second belt pulley, and a second belt is arranged between the second belt pulley and the third belt pulley. Preferably, the rotary drum and the rotary shaft are both in rotary connection with the buckling frame. Preferably, the transverse position of any sieve hole is not coincident with the transverse position of the glue stick. Preferably, the loading assembly further comprises a hydraulic cylinder movably connected between the bracket and the carrier, the bracket is fixedly provided with a material receiving frame, and the front and the rear of the carrier are fixedly provided with baffle covers. Preferably, the blowing component comprises a plurality of tube seats fixedly arranged in the carrier, an air pipe is fixedly connected between the two tube seats with the same longitudinal position, a plurality of spray heads are fixedly connected below the air pipe, a pump is fixedly arranged above the carrier, a connecting pipe is fixedly connected at the air outlet end of the pump, a joint is fixedly connected at the lower end of the connecting pipe, and a shunt pipe is arranged between the air pipe and the joint. Preferably, the support is rotationally connected with the carrier, and the support and the carrier are rotationally connected wi