CN-224218934-U - Cranberry harvester collection mechanism that reaping rate is high

CN224218934UCN 224218934 UCN224218934 UCN 224218934UCN-224218934-U

Abstract

The utility model relates to the technical field of cranberry picking equipment, in particular to a collection mechanism of a cranberry harvester with high harvesting rate, which comprises a storage bin, wherein two sides of the storage bin are fixedly connected with guard plates, the collection mechanism is positioned at one side of the storage bin and is in locking connection with the storage bin through a locking part, the collection mechanism comprises a collection group, a plurality of collection groups are arranged, a plurality of collection blade assemblies are arranged on any collection group, collection gaps are formed between the collection blade assemblies, a cutting part is arranged on the collection gaps, a sweeping part comprises a driving assembly and a sweeping assembly, the driving assembly is in rotary connection with the guard plates, and the sweeping assembly is sleeved on the driving assembly and coaxially rotates along with the driving assembly. The utility model enhances the stability of the structure under dynamic load.

Inventors

JIANG FULIN

Assignees

姜福林

Dates

Publication Date: 20260512
Application Date: 20250604

Claims (8)

1. The utility model provides a cranberry harvester collection mechanism that reaping rate is high which characterized in that includes: the storage bin (1), wherein guard plates (2) are fixedly connected to two sides of the storage bin (1); The collection mechanism (3) is positioned on one side of the storage bin (1), the collection mechanism (3) is in locking connection with the storage bin (1) through a locking part (350), the collection mechanism (3) comprises a collection group (310), a plurality of collection groups (310) are arranged, any collection group (310) is provided with a plurality of collection blade assemblies (320), a plurality of collection blade assemblies (320) are provided with a collection gap (330), and a cutting part (340) is arranged on the collection gap (330); the sweeping part (4) comprises a driving assembly (410) and a sweeping assembly (420), wherein the driving assembly (410) is rotationally connected with the guard plate (2), and the sweeping assembly (420) is sleeved on the driving assembly (410) and coaxially rotates along with the driving assembly (410).
2. The cranberry harvester harvesting mechanism of claim 1, wherein the harvesting blade assembly (320) comprises a reinforcing rib (3201), harvesting blades (3202) and a harvesting head (3203), the harvesting blades (3202) are fixedly connected with the locking portions (350), each harvesting blade (3202) is uniformly distributed on the harvesting group (310), the harvesting blades (3202) are wavy, the reinforcing rib (3201) is fixedly connected to one side of the harvesting blade (3202) close to the locking portions (350), one end of the harvesting blade (3202) away from the locking portions (350) is provided with the harvesting head (3203), and the harvesting head (3203) is a semicircular bulge.
3. The high-harvesting-rate cranberry harvester harvesting mechanism of claim 2, wherein the cutting portion (340) includes a cutting groove (3401) and a cutting edge (3402), the cutting groove (3401) is a triangular groove, and the cutting groove (3401) is located between two of the picking edges (3202) and located on one side of the harvesting set (310).
4. The cranberry harvester collection mechanism with high harvesting rate according to claim 3, wherein the locking portion (350) comprises a locking block (3501), a locking hole (3502) and a locking bolt (3503), the locking block (3501) is fixedly connected with the collection group (310), a plurality of locking holes (3502) are formed in the length direction of the locking block (3501) and the storage bin (1), and the locking bolt (3503) locks the locking block (3501) and the storage bin (1) through the plurality of locking holes (3502).
5. The high-harvesting-rate cranberry harvester harvesting mechanism of claim 4, wherein the driving assembly (410) comprises a driving shaft (4101), driving plates (4102) and driving heads (4103), the driving shaft (4101) is located above the storage bin (1), the driving shaft (4101) is rotationally connected with the guard plate (2), a plurality of driving plates (4102) are fixedly connected to the driving shaft (4101), a plurality of driving plates (4102) are circular, and a plurality of driving plates (4102) coaxially rotate along with the driving shaft (4101), and a plurality of driving heads (4103) are arranged on the driving plates (4102).
6. The high-harvesting-rate cranberry harvester harvesting mechanism of claim 5, wherein said sweep assembly (420) includes a fastening portion fixedly connected to said plurality of drive heads (4103), a sweep plate (4205) cooperatively connected to said fastening portion, and a sweep member (4206) disposed on said sweep plate (4205).
7. The harvesting mechanism of a cranberry harvester with high harvesting rate according to claim 6, wherein the fastening portion comprises a fastening plate (4201), a fastening groove (4202), a fastening hole (4203) and a fastening bolt (4204), the fastening groove (4202) is formed in one side of the fastening plate (4201), the fastening groove (4202) corresponds to the scanning plate (4205), the fastening plate (4201) and the scanning plate (4205) are provided with a plurality of fastening holes (4203), and the fastening bolt (4204) and the fastening hole (4203) are matched to fasten the fastening plate (4201) and the scanning plate (4205).
8. The high harvest rate cranberry harvester harvesting mechanism of claim 7, wherein an included angle between each adjacent sweep plate (4205) is 90 °.

Description

Cranberry harvester collection mechanism that reaping rate is high Technical Field The utility model relates to the technical field of cranberry picking equipment, in particular to a cranberry harvester acquisition mechanism with high harvesting rate. Background Cranberry (Cranberry) is a short shrub fruit growing in acid peat soil and widely used in fruit juices, dried fruits, condiments and health products, traditional manual harvesting methods rely on labor intensive "wet harvesting" in which farmers need to fill the cranberry field with water to form a shallow pool in autumn and collect the fruits floating on the water surface by manual or simple tools. This method is inefficient, costly, and limited by seasonal labor shortages. As global cranberry demand grows, mechanization becomes a necessary choice. The existing cranberry picking main modes mainly comprise three modes, namely, manual picking efficiency is low, part of the fruit can remain vines, wet mechanical picking is carried out depending on water flow flushing, peeling force of a rotary comb roller on mature fruits is uneven, low-lying or close-planted areas are prone to missing picking, finally, dry mechanical vibration picking efficiency is low, the existing vibration frequency (generally 800-1200 times/min) is difficult to achieve both high falling rate and low damage rate, repeated operation is needed, and the picking tools of the existing mechanical picking equipment are of an integral structure generally, and when one part of the picking tools is damaged, the integral picking tools are required to be removed and replaced. Therefore, there is an urgent need for a cranberry harvester harvesting mechanism with high harvest rate to address the problems associated with the current technology. Disclosure of utility model In view of the above, the utility model provides a collection mechanism of a cranberry harvester with high harvesting rate, which aims to solve the problem of low efficiency of the existing cranberry harvester. The utility model provides a cranberry harvester acquisition mechanism with high harvesting rate, which comprises: the storage bin (1), wherein guard plates (2) are fixedly connected to two sides of the storage bin (1); The collection mechanism (3) is positioned on one side of the storage bin (1), the collection mechanism (3) is in locking connection with the storage bin (1) through a locking part (350), the collection mechanism (3) comprises a collection group (310), a plurality of collection groups (310) are arranged, any collection group (310) is provided with a plurality of collection blade assemblies (320), a plurality of collection blade assemblies (320) are provided with a collection gap (330), and a cutting part (340) is arranged on the collection gap (330); the sweeping part (4) comprises a driving assembly (410) and a sweeping assembly (420), wherein the driving assembly (410) is rotationally connected with the guard plate (2), and the sweeping assembly (420) is sleeved on the driving assembly (410) and coaxially rotates along with the driving assembly (410). Further, gather sword subassembly (320) include strengthening rib (3201), pick sword (3202) and picking head (3203), pick sword (3202) with locking portion (350) fixed connection, and each pick sword (3202) evenly distributed in pick on the group, pick sword (3202) are the wave, pick sword (3202) and be close to locking portion (350) one side fixedly connected with strengthening rib (3201), pick sword (3202) keep away from one end of locking portion (350) is provided with picking head (3203), picking head (3203) are semicircular protruding. Further, the cutting part (340) comprises a cutting groove (3401) and cutting edges (3402), the cutting groove (3401) is a triangular groove, and the cutting groove (3401) is located between the two picking edges (3202) and is located on one side of the collection group (310). Further, locking portion (350) includes latch segment (3501), locking hole (3502) and locking bolt (3503), latch segment (3501) with pick group fixed connection, latch segment (3501) with deposit storehouse (1) all offer a plurality of locking holes (3502) along length direction, locking bolt (3503) pass through a plurality of locking hole (3502) locking latch segment (3501) with deposit storehouse (1). Further, the driving assembly (410) comprises a driving shaft (4101), driving plates (4102) and driving heads (4103), the driving shaft (4101) is located above the storage bin (1), the driving shaft (4101) is rotationally connected with the guard plate (2), a plurality of driving plates (4102) are fixedly connected to the driving shaft (4101), the driving plates (4102) are circular, the driving plates (4102) rotate along with the driving shaft (4101) coaxially, and a plurality of driving heads (4103) are arranged on the driving plates (4102). Further, the sweep assembly (420) comprises a fastening portion, a sweep plate (4205) and a sweep member (4