CN211020886U - Walnut green husk stripping production line - Google Patents

Abstract

The utility model discloses a walnut green husk stripping production line, which comprises a feeding device, a material separating hopper and at least 2 green husk stripping machines, wherein the feeding device is matched with a feeding port of each green husk stripping machine through the material separating hopper; the feeding device comprises a feeding conveyer belt which is arranged obliquely upwards and a feeding motor which drives the feeding conveyer belt to move forwards; the distributing hopper 2 comprises a hopper body, a main guide channel and at least 2 branch guide channels; the side surface of the bottom of the bucket body is provided with a guide port, the guide port is connected with a guide main channel, and the guide main channel is connected with a guide branch channel; the number of the guide branch channels is the same as that of the green peel stripping machines, and the guide branch channels are matched with the feeding ports of the green peel stripping machines in a one-to-one correspondence manner. The utility model adopts the above structure, realize peeling off machine material loading simultaneously to 2 at least walnut green seedcases, simple structure, reasonable in design, can be quick transport the walnut green seedcases with the walnut and peel off the feed inlet of machine, greatly reduced workman's intensity of labour with improved workman's work efficiency, realize automated processing.

Description

Walnut green husk stripping production line

Technical Field

The utility model relates to a processing equipment technical field is planted to the walnut, concretely relates to walnut green seedcase peels off production line.

Background

The outer green husks and the inner hard husks of the ripe walnuts are not tightly combined, and the outer green husks are cracked under the action of external force and can be finally peeled off. According to the existing scraper conveying chain type walnut green husk stripping machine, the feeding port is located at the top of the machine shell, and walnuts can only be manually shoveled to the feeding port by workers, so that the labor intensity of the workers is greatly increased, the working efficiency is reduced, and automatic processing cannot be realized. And when the walnuts fall on the chain plate conveyer belt, the distribution is uneven, and the green husk removing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at provides the walnut green seedcase and peels off production line, and it is big to have solved current walnut green seedcase and has peeled off quick-witted artifical feed intensity of labour, and the walnut falls to the uneven problem that distributes on the link joint conveyer belt.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the walnut green husk stripping production line comprises a feeding device, a separating hopper and at least 2 green husk stripping machines, wherein the feeding device is matched with a feeding port of each green husk stripping machine through the separating hopper; the feeding device comprises a feeding conveyer belt which is arranged obliquely upwards and a feeding motor which drives the feeding conveyer belt to move forwards; the distributing hopper 2 comprises a hopper body, a main guide channel and at least 2 branch guide channels; the side surface of the bottom of the bucket body is provided with a guide port, the guide port is connected with a guide main channel, and the guide main channel is connected with a guide branch channel; the number of the guide branch channels is the same as that of the green peel stripping machines, and the guide branch channels are matched with the feeding ports of the green peel stripping machines in a one-to-one correspondence manner.

Further, a plurality of feeding hoppers for conveying walnuts are arranged on the surface of the feeding conveying belt.

Further, the distributing hopper also comprises a vibrating device for driving the hopper body to vibrate.

Further, the hopper body is arranged below the top end of the feeding conveyer belt, and when the walnuts are conveyed to the top end along with the feeding conveyer belt, the walnuts fall into the hopper body; the guide main channel and the guide branch channel are obliquely and downwards arranged, the top end of the guide main channel is connected with the guide port of the hopper body, the bottom end of the guide main channel is connected with the top end of the guide branch channel, and the bottom end of the guide branch channel is matched with the feeding port.

Further, the green tangerine peel stripping machine comprises a machine shell, a chain plate conveying belt arranged in the machine shell and a scrubbing brush structure arranged above the chain plate conveying belt, wherein the feeding port is arranged at the top of the first end of the machine shell, and a discharge port is arranged at the bottom of the second end of the machine shell; one end of the chain plate conveying belt is matched with the feeding opening, and the other end of the chain plate conveying belt is matched with the discharging opening.

Further, the scrubbing brush structure includes the mounting panel and evenly locates a plurality of wire brush on the mounting panel bottom surface, and the wire brush extends towards the link joint conveyer belt, the link joint conveyer belt is the downward structure of slope.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a loading attachment, the guide main road and the at least 2 guide branch road complex structures of branch hopper realize peeling off machine material loading simultaneously to 2 at least walnut green seedcases, simple structure, reasonable in design, can be quick transport the walnut green seedcase with the walnut and peel off the feed inlet of machine, greatly reduced workman's intensity of labour with improved workman's work efficiency, realize automated processing. The feeding device adopts a conveyor belt type feeding, and the control is simpler; the material distributing hopper adopts vibration type feeding to effectively prevent material blockage and ensure that walnuts uniformly fall onto the chain plate conveying belt. The chain plate conveying belt is of an inclined downward structure, so that walnuts can conveniently advance towards the discharge port and finally can be discharged from the discharge port.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

FIG. 1 is a schematic view of a front view structure of an embodiment of a walnut green husk peeling production line of the present invention;

fig. 2 is a schematic top view of fig. 1.

In the figure, a feeding device 1; a feeding conveyor belt 11; a feeding hopper 12; a distributing hopper 2; a bucket body 21; a guide main passage 22; a guide branch passage 23; a triangular cutter body 24; a green husk stripping machine 3; a feeding port 31; a housing 32; a link plate conveyor belt 33; a scrubber structure 34; a mounting plate 341; a wire brush 342; and a discharge port 35.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

The walnut green husk stripping production line shown in the embodiment of fig. 1 and 2 comprises a feeding device 1, a separating hopper 2 and at least 2 green husk stripping machines 3, wherein the feeding device 1 is matched with a feeding port 31 of each green husk stripping machine 3 through the separating hopper 2. The feeding device 1 includes a feeding conveyor belt 11 disposed obliquely upward and a feeding motor (not shown) for driving the feeding conveyor belt 11 to advance in the R direction. The hopper 2 comprises a hopper body 21, a guide main channel 22, at least 2 guide branch channels 23 and a vibrating device (not shown) for driving the hopper body 21 to vibrate, wherein the bottom side surface of the hopper body 21 is provided with a guide opening, the guide opening 211 is connected with the guide main channel 22, and the guide main channel 22 is connected with the guide branch channels 23. The number of the guide branch channels 23 is the same as that of the green peel peeling machines 3, and the guide branch channels 23 are matched with the feeding ports 31 of the green peel peeling machines 3 in a one-to-one correspondence manner. The walnuts fall to the feeding port 31 through the feeding conveyer belt 11, the material separating hopper 2, the guide main channel 22 and the guide branch channel 23. The surface of the feeding conveyer belt 11 is provided with a plurality of feeding hoppers 12 for transporting walnuts. This embodiment adopts above structure, realizes peeling off 3 material loadings of machine to the green seedcase, simple structure, reasonable in design, can be quick transport the walnut to feed inlet 31, greatly reduced workman's intensity of labour and improved workman's work efficiency. In this embodiment, the number of green tangerine peel peeling machines is 3.

The bucket body 21 is arranged below the top end of the feeding conveyor belt 11, and when walnuts are conveyed to the top end along with the feeding conveyor belt 11, the walnuts fall into the bucket body 21. The guide main channel 22 and the guide branch channel 23 are arranged obliquely downwards, the top end of the guide main channel 22 is connected with the guide port of the hopper body 21, the bottom end of the guide main channel 22 is connected with the top end of the guide branch channel 23, and the bottom end of the guide branch channel 23 is matched with the feeding port 31. The surface of the guide branch channel 23 is provided with a plurality of triangular cutter bodies 24, one corner of each triangular cutter body 24 is arranged upwards along the guide branch channel, and three corners of each triangular cutter body 24 are all cutting edges used for scratching the walnut green husks. In the embodiment, the walnut green husks are pre-scratched by the triangular cutter body 24, so that the walnut green husks are removed by adapting to walnuts of different varieties and sizes, the walnut crushing rate is reduced, the green husk removal rate is improved, and the green husk residue on the surfaces of the walnuts is reduced.

The green tangerine peel stripping machine 3 comprises a machine shell 32, a chain plate conveying belt 33 arranged in the machine shell 32 and a scrubbing brush structure 34 arranged above the chain plate conveying belt 33, wherein a feeding port 31 is arranged at the top of the first end of the machine shell 32, and a discharging port 35 is arranged at the bottom of the second end of the machine shell 32. One end of the chain plate conveying belt 33 is matched with the feeding port 31, and the other end of the chain plate conveying belt 33 is matched with the discharging port 35. The scrubbing brush structure 34 comprises a mounting plate 341 and a plurality of wire brushes 342 uniformly arranged on the bottom surface of the mounting plate 341, the wire brushes 342 extend towards the chain plate conveyor belt 33, and the wire brushes 342 are used for peeling the green husks of the walnuts. In this embodiment, the chain plate conveyer belt 33 is the downward structure of slope, and the contained angle of chain plate conveyer belt 33 and horizontal plane is 1 ~ 3, is convenient for the walnut to advance towards discharge gate 35, at last from discharge gate 35 unloading. The length of the wire brush 34 is gradually increased along the direction X, and the gap between the tip of the wire brush 34 and the upper surface of the chain plate conveyer belt 33 is ensured to be constant.

Other structures of this embodiment are seen in the prior art.

The present invention is not limited to the above embodiment, and various modifications and variations of the present invention are also intended to be included within the scope of the claims and the equivalent technical scope of the present invention if they do not depart from the spirit and scope of the present invention.

Claims (6)

1. Walnut green seedcase peels off production line, its characterized in that: the green peel peeling machine comprises a feeding device, a material distribution hopper and at least 2 green peel peeling machines, wherein the feeding device is matched with a feeding port of each green peel peeling machine through the material distribution hopper; the feeding device comprises a feeding conveyer belt which is arranged obliquely upwards and a feeding motor which drives the feeding conveyer belt to move forwards; the distributing hopper (2) comprises a hopper body, a guide main channel and at least 2 guide branch channels; the side surface of the bottom of the bucket body is provided with a guide port, the guide port is connected with a guide main channel, and the guide main channel is connected with a guide branch channel; the number of the guide branch channels is the same as that of the green peel stripping machines, and the guide branch channels are matched with the feeding ports of the green peel stripping machines in a one-to-one correspondence manner.

2. The walnut green husk peeling production line of claim 1, which is characterized in that: the surface of the feeding conveyer belt is provided with a plurality of feeding hoppers for conveying walnuts.

3. The walnut green husk peeling production line of claim 1, which is characterized in that: the distributing hopper also comprises a vibrating device for driving the hopper body to vibrate.

4. The walnut green husk peeling production line of claim 1, which is characterized in that: the hopper body is arranged below the top end of the feeding conveyer belt, and when the walnuts are conveyed to the top end along with the feeding conveyer belt, the walnuts fall into the hopper body; the guide main channel and the guide branch channel are obliquely and downwards arranged, the top end of the guide main channel is connected with the guide port of the hopper body, the bottom end of the guide main channel is connected with the top end of the guide branch channel, and the bottom end of the guide branch channel is matched with the feeding port.

5. The walnut green husk peeling production line according to any one of claims 1 to 4, characterized in that: the green tangerine peel stripping machine comprises a machine shell, a chain plate conveying belt arranged in the machine shell and a scrubbing brush structure arranged above the chain plate conveying belt, wherein a feeding port is arranged at the top of the first end of the machine shell, and a discharging port is arranged at the bottom of the second end of the machine shell; one end of the chain plate conveying belt is matched with the feeding opening, and the other end of the chain plate conveying belt is matched with the discharging opening.

6. The walnut green husk peeling production line of claim 5, characterized in that: the scrubbing brush structure includes the mounting panel and evenly locates a plurality of steel brush on the mounting panel bottom surface, and the steel brush extends towards the link joint conveyer belt, the link joint conveyer belt is the decurrent structure of slope.

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