CN218489201U - Large granule raw materials conveyor is used in edible oil processing - Google Patents

Abstract

The utility model discloses a large-particle raw material conveying device for edible oil processing, which comprises a belt conveying mechanism which is vertically arranged and inclines towards the rear side, wherein the bottom of the front side of the belt conveying mechanism is fixed with a hopper, the frames at the two sides of the belt conveying mechanism are respectively and fixedly connected with a left baffle and a right baffle, the left baffle and the right baffle extend upwards from the upper port of the hopper to the upper part of the belt conveying mechanism, and the top end of the left baffle is fixedly connected with a chute which inclines downwards and leads to a feed hopper of a squeezer; the surface of belt conveyor's conveyer belt corresponds respectively and connects a plurality of lifting plate, and every lifting plate all sets up along the width direction of conveyer belt, and all is the downward sloping setting from the one end that is close to right baffle to the other end. The utility model discloses can realize orderly feed, on the basis that can guarantee feed continuation, avoid throwing the feed and causing the feed inlet of squeezer to take place to block up because of concentrating, be applicable to the transport of large granule raw materials in the edible oil course of working.

Description

Large granule raw materials conveyor is used in edible oil processing

Technical Field

The utility model relates to an edible oil production technical field specifically is a large granule raw materials conveyor is used in edible oil processing.

Background

The edible oil refers to animal or vegetable oil used in the process of making food, and is liquid at normal temperature. Common edible oils are mostly vegetable oils, including rapeseed oil, peanut oil, olive oil, camellia oil, palm oil, sunflower oil, soybean oil, sesame oil, linseed oil (linseed oil), and the like.

The edible oil is usually produced by adopting a squeezing process, the adopted equipment is a squeezer, the current squeezer mainly adopts a closed cavity, oil is squeezed out of vegetable fruits (rapeseed, peanut, sesame and the like) containing oil in the closed cavity of the squeezer, the oil contained in the vegetable fruits is squeezed out in the closed cavity through the reduction of the screw pitch and the increase of the shaft diameter of a squeezing screw, and the residue generated by squeezing is discharged through a residue discharge port at the tail end of the squeezer, and a material receiving barrel is placed at the residue discharge port to receive the discharged residue.

The raw materials of the olive oil, the camellia oil and the palm oil in the edible oil are respectively olive fruits, camellia seeds and oil palm fruits, the manual dumping mode is generally adopted at present to realize feeding, and the olive fruits, the camellia seeds and the oil palm fruits are large and are large-particle raw materials, so that the feeding mode of centralized dumping is adopted to easily cause blockage of a feeding hole of a squeezer.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defect and not enough that prior art exists, provide a large granule raw materials conveyor is used in edible oil processing, can realize orderly feed, on the basis that can guarantee the feed continuation, can avoid causing the feed inlet of squeezer to take place to block up because of concentrating to throw the material to this is applicable to the transport of large granule raw materials in the edible oil course of working.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a large granule raw materials conveyor is used in edible oil processing, is including being vertical setting and the belt conveying mechanism to the rear side slope, its characterized in that: a hopper is fixed at the bottom of the front side of the belt conveying mechanism, a left baffle and a right baffle are fixedly connected to the frames on the two sides of the belt conveying mechanism respectively and correspondingly, the left baffle and the right baffle extend upwards from the upper end opening of the hopper to the upper part of the belt conveying mechanism, and the top end of the left baffle is fixedly connected with a chute which inclines downwards and leads to a feed hopper of a squeezer; the surface of the conveying belt of the belt conveying mechanism is correspondingly connected with a plurality of material lifting plates respectively, each material lifting plate is arranged along the width direction of the conveying belt, and the material lifting plates are arranged from one end close to the right baffle to the other end in a downward inclined mode.

Furthermore, the hopper is enclosed by a left side plate, a right side plate, a front side plate and a bottom plate to form, and the left side plate and the right side plate are respectively and correspondingly fixedly connected to the racks on the two sides of the belt type conveying mechanism.

Furthermore, the rear end of the bottom plate is provided with a notch along the width direction and is rotatably provided with a baffle capable of deflecting upwards, and the baffle is lifted by the lifting plate to deflect upwards in the running process of the belt type conveying mechanism.

Further, the top end of the right baffle is higher than the top end of the left baffle.

Further, the chute is fixed on a support arranged on the ground.

Further, the equal fixedly connected with backup pad in both sides of the feed end of chute, the backup pad on fixedly connected with arc deflector of undercut, the lower extreme of arc deflector with the last port edge looks fixed connection of chute, the upper end of arc deflector extends to belt conveyor's top.

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

the utility model discloses a plurality of carry flitch at belt conveyor operation in-process, the reciprocal process hopper circulates, promote the material in the hopper, make the material arrange one letter upon each carry flitch and open, each is carried the flitch and is risen to when the tank bottom face looks parallel and level of its upper surface and chute, material on it rolls into the chute one by one in proper order, and get into the feed inlet of squeezer in proper order, the orderly feed has been realized, on the basis that can guarantee the feed continuation, avoided throwing the material because of concentrating and causing the feed inlet of squeezer to take place to block up, be applicable to the transport of large granule raw materials in the edible oil course of working.

Drawings

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

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic structural diagram of the middle hopper of the present invention.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a large-particle raw material conveying device for edible oil processing comprises a belt conveying mechanism 1 which is vertically arranged and inclined towards the rear side, a hopper 2 is fixed at the bottom of the front side of the belt conveying mechanism 1, a left baffle 3 and a right baffle 4 are respectively and fixedly connected to the frames at two sides of the belt conveying mechanism 1, the left baffle 3 and the right baffle 4 extend upwards from the upper port of the hopper 2 to the upper part of the belt conveying mechanism 1, and a chute 5 which inclines downwards and leads to a feed hopper is fixedly connected to the top end of the left baffle 3; the surface of belt conveyor 1's conveyer belt corresponds respectively and connects a plurality of and carries flitch 6, and every carries the flitch and all sets up along the width direction of conveyer belt, and all is the downward sloping setting from the one end that is close to right baffle 4 to the other end.

The utility model discloses in, hopper 2 is enclosed to close by left side board 21, right side board 22, preceding curb plate 23 and bottom plate 24 and forms, and left side board 21 and right side board 22 correspond fixed connection respectively in belt conveyor 1's both sides frame. From this for the rear side of hopper 2 is uncovered, and other each side all seals to this is favorable to the promotion of its interior material.

The utility model discloses in, the rear end of bottom plate 24 is equipped with the breach and rotates along its width direction and installs the baffle 25 that can upwards deflect, and baffle 25 receives the lifting plate jacking and upwards deflect in 1 operation processes of belt conveyor.

Therefore, in the running process of the belt type conveying mechanism 1, the lifting plate passes through the hopper 2 in a reciprocating mode and contacts and lifts the baffle 25 from the lower side, so that the baffle 25 deflects upwards, and the lifting plate is not prevented from entering the hopper 2 through the notch normally; when the last material lifting plate passes through the notch and the next material lifting plate does not reach, the baffle plate 25 deflects downwards under the action of the self gravity and the integral gravity of the materials to reset, the notch is naturally closed, and the phenomenon of material leakage cannot occur.

The utility model discloses in, the top of right baffle 4 is higher than the top of left baffle 3.

Therefore, when a certain material lifting plate rises to the position where the upper surface of the left end of the material lifting plate is flush with the bottom surface of the chute 5, namely the end surface of the top end of the left baffle plate 3, the right baffle plate 4 is still higher than the upper surface of the right end of the material lifting plate, and once materials fall, the materials only fall into the hopper 2 below and cannot fall from the right end.

In the utility model, the chute 5 is fixed on a support (not shown in the figure) arranged on the ground, and plays a role of supporting the chute 5.

The utility model discloses in, the equal fixedly connected with backup pad 7 in both sides of the feed end of chute 5, fixedly connected with undercut's arc deflector 8 in backup pad 7, the lower extreme of arc deflector 8 and chute 5's last port are along looks fixed connection, and the upper end of arc deflector 8 extends to belt conveyor 1's top, is close to nevertheless contactless lifting blade from here on.

From this, if certain or certain several materials on the lifting plate through chute 5 are too late to roll into chute 5, then can continue to rise along with the lifting plate at place, because every lifting plate all is the downward sloping setting from the one end that is close to right baffle 4 to the other end, all is the downward sloping setting from the right side left promptly, consequently, the material that comes too late to roll into chute 5 can drop from the left end at place lifting plate, under the guide effect of arc deflector 8, finally still can fall into chute 5.

The invention is further described below with reference to the accompanying drawings:

when the device works, materials (namely large-particle raw materials such as olive fruits, camellia seeds and oil palm fruits, the same applies below) are intensively poured into the hopper 2, and the belt type conveying mechanism 1 is started to operate at a lower speed.

In this process, a plurality of carries the reciprocal hopper 2 that passes through of flitch 6 circulation, gets into behind the hopper 2, promotes the material in the hopper 2 for the material is arranged in a word on each carries the flitch, and leans on the surface of leaning on the conveyer belt of belt conveyor 1, when each carries the flitch and rises to the upper surface of its left end and the tank bottom surface looks parallel and level of chute 5, and the material on it rolls into chute 5 one by one in proper order, and gets into the feed inlet of squeezer in proper order.

Materials influenced by factors such as mechanical vibration and unstable gravity center can fall from the lifting plate and fall back to the hopper 2 in the lifting process, and can be continuously lifted by other lifting plates in the subsequent process.

If certain or several certain materials on the lifting plate through chute 5 have time to roll into chute 5, then can continue to rise along with the lifting plate at place, because every lifting plate all is the downward sloping setting from the one end that is close to right baffle 4 to the other end, all is the downward sloping setting from the right side left promptly, consequently, the material that comes too late to roll into chute 5 can drop from the left end of lifting plate at place, under the guide effect of arc deflector 8, finally fall into chute 5, get into the feed inlet of squeezer in proper order again after resequencing in chute 5.

Although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such descriptions are provided for clarity, and it is understood that the specification is incorporated herein by reference, and the embodiments described in each embodiment may be combined as appropriate to form other embodiments, which will be apparent to those skilled in the art.

Therefore, the above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application; all changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (6)

1. The utility model provides a large granule raw materials conveyor is used in edible oil processing, is including being vertical setting and the belt conveying mechanism to the rear side slope, its characterized in that: a hopper is fixed at the bottom of the front side of the belt conveying mechanism, frames on two sides of the belt conveying mechanism are respectively and fixedly connected with a left baffle and a right baffle correspondingly, the left baffle and the right baffle extend upwards from the upper port edge of the hopper to the upper part of the belt conveying mechanism, and the top end of the left baffle is fixedly connected with a chute which inclines downwards and leads to a feed hopper of a squeezer; the surface of the conveying belt of the belt conveying mechanism is correspondingly connected with a plurality of material lifting plates respectively, each material lifting plate is arranged along the width direction of the conveying belt, and the material lifting plates are arranged from one end close to the right baffle to the other end in a downward inclined mode.

2. The conveying device for large granular raw materials for edible oil processing as claimed in claim 1, wherein: the hopper is enclosed by a left side plate, a right side plate, a front side plate and a bottom plate to form, and the left side plate and the right side plate are respectively and correspondingly fixedly connected to the racks on the two sides of the belt type conveying mechanism.

3. The conveying device for large granular raw materials for edible oil processing according to claim 2, wherein: the rear end of the bottom plate is provided with a notch along the width direction and is rotatably provided with a baffle capable of deflecting upwards, and the baffle is lifted by the lifting plate to deflect upwards in the running process of the belt type conveying mechanism.

4. The conveying device for large granular raw materials for edible oil processing as claimed in claim 1, wherein: the top of right baffle is higher than the top of left baffle.

5. The conveying device for large granular raw materials for edible oil processing according to claim 1, wherein: the chute is fixed on a support arranged on the ground.

6. The conveying device for large granular raw materials for edible oil processing according to claim 5, wherein: the equal fixedly connected with backup pad in both sides of the feed end of chute, the backup pad on fixedly connected with arc deflector of undercut, the lower extreme of arc deflector with the last port edge of chute is along looks fixed connection, the upper end of arc deflector extends to belt conveyor's top.

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