CN215970248U - Vegetable extruding and dewatering mechanism - Google Patents

Abstract

The utility model provides a vegetable squeezing and dehydrating mechanism which mainly comprises a discharge hopper, an upstream squeezing belt and a downstream squeezing belt, wherein the middle sections of the upstream squeezing belt and the downstream squeezing belt are squeezed and attached by a squeezing wheel, a water collecting tank is arranged below the downstream squeezing belt, the tail ends of the upstream squeezing belt and the downstream squeezing belt are discharge ports, a scraping mechanism is arranged at the discharge ports, and a material collecting tank is arranged below the discharge ports. The ascending extrusion belt and the descending extrusion belt are driven by corresponding motors and a plurality of guide rollers to realize the same-direction operation, and the ascending extrusion belt and the descending extrusion belt are made of Teflon materials. The utility model adopts the extrusion belts which move in opposite directions to convey the vegetables and completes extrusion dehydration at the extrusion wheel, thus forming a vegetable dehydration mode on the production line, and having high efficiency and stable effect.

Description

Vegetable extruding and dewatering mechanism

Technical Field

The utility model relates to the technical field of vegetable dehydration equipment, in particular to a vegetable extruding and dehydrating mechanism.

Background

As is known, the dehydration of vegetables is mostly performed by sun-drying in the traditional way, if mass production and processing are required, in order to shorten the dehydration period, for example, when white radishes are made into preserved vegetables, the radish slices are usually separated layer by adopting bamboo grids, sea salt and the like are added into each layer, and finally, massive stones and other heavy objects are used for pressurization at the top to rapidly dehydrate the vegetables, and 40% -60% of the vegetables can be dehydrated in one day. However, for vegetables with vegetable leaves, the vegetable leaves have small volume, much fiber and low water content, and if the vegetable leaves are dehydrated in the same way as white radishes, the workload is large, the effect is not high, and therefore, the dehydration efficiency of standing and pressing the heavy objects is low.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present invention provides a vegetable squeezing and dewatering mechanism, which can effectively squeeze water to dewater vegetables and discharge the vegetables with high efficiency by means of crawler transmission and dual-crawler squeezing.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model relates to a vegetable squeezing and dehydrating mechanism which mainly comprises a discharge hopper, an upstream squeezing belt and a downstream squeezing belt, wherein the middle sections of the upstream squeezing belt and the downstream squeezing belt are squeezed and attached by a squeezing wheel, a water collecting tank is arranged below the downstream squeezing belt, the tail ends of the upstream squeezing belt and the downstream squeezing belt are discharge ports, a scraping mechanism is arranged at the discharge ports, and a material collecting tank is arranged below the discharge ports.

The ascending extrusion belt and the descending extrusion belt of the utility model are both driven by corresponding motors and a plurality of guide rollers to realize the same-direction operation, and the ascending extrusion belt and the descending extrusion belt are both made of Teflon materials.

A spreading rod which moves transversely is arranged above an upward extrusion belt, and the spreading rod is driven by an air cylinder.

A plurality of bulges are uniformly distributed on the surface of the extrusion wheel.

The scraping mechanism is specifically a roller, a plurality of scraping plates are uniformly distributed on the scraping mechanism, and the scraping mechanism and the extrusion wheel rotate in the same direction.

The tail end of the descending extrusion belt is also provided with an auxiliary scraper which is attached to the descending surface of the descending extrusion belt.

The utility model has the advantages that: the vegetables are conveyed by the aid of the squeezing belts which move in opposite directions, the vegetables are uniformly paved by the aid of the auxiliary material rods which move transversely, squeezing and dewatering are completed at the squeezing wheels, cleaning and discharging of the squeezing belts are finally completed under the action of the scraping mechanism, a vegetable dewatering mode on a production line is formed, and efficiency is high.

Description of the drawings:

FIG. 1 is a schematic structural diagram of the present invention.

The specific implementation mode is as follows:

the utility model will be further described with reference to the accompanying drawings.

As shown in figure 1, the utility model relates to a vegetable squeezing and dehydrating mechanism, which mainly comprises a discharge hopper 1, an upstream squeezing belt 2 and a downstream squeezing belt 3, wherein vegetables are conveyed to the downstream squeezing belt 3 by the discharge hopper 1 and are conveyed by the downstream squeezing belt 3, the vegetable squeezing belt 2 and the downstream squeezing belt 3 gradually approach to each other to squeeze, finally, the middle sections of the upstream squeezing belt 2 and the downstream squeezing belt 3 are squeezed and dehydrated by a squeezing wheel 4, a water collecting tank 5 is arranged below the downstream squeezing belt 3 for collecting water, the tail ends of the upstream squeezing belt 2 and the downstream squeezing belt 3 are discharge holes, a material collecting tank 7 is arranged below the discharge holes, and the two squeezing belts at the discharge holes respectively move upwards and separate downwards.

Specifically, it all has corresponding motor and a plurality of deflector roll drive to realize the syntropy operation to go up the extrusion area 2 and take 3 with down extrusion, and goes up extrusion area 2 and take 3 with down extrusion and be the teflon material and make, and two extrusion take the surface all smooth, do not have the mesh, can the at utmost extrude the material, and the moisture of deviating from flows from the extrusion area both sides.

The surface of the extrusion wheel 4 is uniformly distributed with a plurality of bulges 41 which can press downwards through the ascending extrusion belt 2, so that the material is fully extruded between the two extrusion belts.

In order to make the material pressurization even, realize the high-efficient extrusion dehydration of continuity, go upward 2 tops in the press belt and dispose lateral shifting's stone pole 8, and stone pole 8 is driven by cylinder 81, cylinder 81 drives auxiliary material pole 8 and goes upward 2 advancing directions in the press belt and is the direction round trip movement of 90 contained angles, when two press belt intervals reduce gradually, auxiliary material pole 8 can be to the material on the press belt width position shakeout, avoid local too protrusion, of course, auxiliary material pole 8 and upward press belt 2 exist certain interval, when the material piles up thickness in the centre and surpasss this interval, auxiliary material pole 8 shakeouts the effect just can play the effect.

The discharge gate department is provided with scrapes material mechanism 6, scrapes material mechanism 6 and specifically is the gyro wheel, and scrapes evenly distributed on the material mechanism 6 and have a plurality of scraper blades 61, scrape material mechanism 6 and 4 syntropys rotations of extrusion wheel, after extrusion dehydration accomplishes, the material can the adhesion on the surface in two extrusion areas usually, scrapes the material through scraping the rotation of material mechanism 6, can inwards scrape the material of 2 surperficial adhesions of extrusion area of going upward, makes it drop to down on the extrusion area 3, can be again down the material on 3 surfaces of extrusion area outward scrape, makes it drop to in the groove 7 that gathers materials.

The tail end of the downlink extrusion belt 3 is also provided with an auxiliary scraper plate 9, the auxiliary scraper plate 9 is attached to the downlink surface of the downlink extrusion belt 3, the surface of the downlink extrusion belt 3 can be scraped, partial material is prevented from being adhered to the downlink extrusion belt 3, the downlink extrusion belt 3 which runs reversely is enabled to be cleaner, and repeated material extrusion is avoided.

It is to be understood that the technical scope of the present invention is not limited to the content of the specification, and that modifications or changes may be made by those skilled in the art based on the above description, and all such modifications and changes are intended to fall within the scope of the appended claims.

Claims (6)

1. The utility model provides a vegetables extrusion dewatering mechanism which characterized in that: mainly including blowing fill (1), go upward extrusion area (2) and down extrusion area (3) middle section receive extrusion wheel (4) extrusion to paste tightly, be equipped with water catch bowl (5) below down extrusion area (3), go upward extrusion area (2) and down extrusion area (3) end be the discharge gate, and discharge gate department is provided with scraping mechanism (6), and the discharge gate below has groove (7) that gathers materials.

2. The vegetable squeezing and dehydrating mechanism of claim 1, wherein: go upward extrusion area (2) and down extrusion area (3) all have corresponding motor and a plurality of deflector roll drive to realize the syntropy operation, and go upward extrusion area (2) and down extrusion area (3) and be the teflon material and make.

3. The vegetable squeezing and dehydrating mechanism of claim 1 or 2, wherein: and a transversely moving spreading rod (8) is arranged above the upward extrusion belt (2), and the spreading rod (8) is driven by an air cylinder (81).

4. The vegetable squeezing and dehydrating mechanism of claim 1 or 2, wherein: a plurality of bulges (41) are uniformly distributed on the surface of the extrusion wheel (4).

5. The vegetable squeezing and dehydrating mechanism of claim 4, wherein: the scraping mechanism (6) is specifically a roller, a plurality of scraping plates (61) are uniformly distributed on the scraping mechanism (6), and the scraping mechanism (6) and the extrusion wheel (4) rotate in the same direction.

6. The vegetable squeezing and dehydrating mechanism of claim 1, wherein: the tail end of the downward extrusion belt (3) is also provided with an auxiliary scraper (9), and the auxiliary scraper (9) is attached to the downward surface of the downward extrusion belt (3).

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