CN219488355U

CN219488355U - Belt receiving hopper

Info

Publication number: CN219488355U
Application number: CN202320698390.9U
Authority: CN
Inventors: 雷珂; 张锐; 王仕平; 丁怀如
Original assignee: Sichuan Ruixiang Agricultural Technology Development Co ltd
Current assignee: Sichuan Ruixiang Agricultural Technology Development Co ltd
Priority date: 2023-04-03
Filing date: 2023-04-03
Publication date: 2023-08-08
Anticipated expiration: 2033-04-03

Abstract

The utility model discloses a belt receiving hopper in the technical field of belt conveying lines, which comprises: the hopper assembly, the hopper assembly is in including the bucket body and setting the buffering triangle baffle of bucket body inner chamber, the hopper assembly is still including setting up the first connecting plate assembly of bucket body lateral wall bottom and setting up the second connecting plate assembly at bucket body lateral wall top, first connecting plate assembly including setting up bucket body lateral wall bottom and with the first connecting plate of bucket body bottom looks parallel and level, this kind of belt receives the hopper, through setting up the buffering triangle baffle in the inside of hopper, and the material enters into the inside of hopper, buffers the material through buffering triangle baffle, avoids the inside lateral wall of material direct collision hopper, under the impact force effect, the material is sputtered the outside of hopper from the inside of hopper, has reduced dropping of material, the cost is reduced.

Description

Belt receiving hopper

Technical Field

The utility model relates to the technical field of belt conveyor lines, in particular to a belt receiving hopper.

Background

The belt conveyor line is also called as a belt conveyor, which uses continuous or intermittent motion of the conveyor belt to convey various articles with different weights, not only can convey various bulk materials, but also can convey various paper boxes, packaging bags and other single-piece articles with low weight, and has wide application.

The belt transfer chain is constituteed through multiunit conveyer belt, and the junction of conveyer belt has the clearance, when carrying the bulk cargo, and partial material or from the clearance of junction drop, consequently, in order to reduce manufacturing cost, current mode sets up the hopper in conveyer belt junction, collects the material that drops through the hopper, because the impact velocity of material is too fast, and the material that drops easily drops from the hopper inside because of too big impact force, causes the material leakage, has improved the harm of material, has improved manufacturing cost.

Disclosure of Invention

The utility model aims to provide a belt receiving hopper, which aims to solve the problems that in the prior art, a hopper is arranged at the joint of a conveying belt, and materials which fall down are collected through the hopper, and the materials which fall down are easy to fall down from the inside of the hopper due to the too high impact force of the materials, so that the materials are leaked, the damage of the materials is improved, and the production cost is increased.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a belt receiving hopper, comprising:

the hopper assembly comprises a hopper body and a buffering triangular baffle plate arranged in the inner cavity of the hopper body, the hopper body is arranged between a production line belt and another belt, and a gap is reserved between the two belts;

the feeding port assembly comprises a feeding port, a fourth connecting plate assembly and a turning plate, wherein the feeding port is arranged at the top of the bucket body and communicated with the inner cavity of the bucket body, the fourth connecting plate assembly is arranged at the bottom of the feeding port, the turning plate is symmetrically arranged at the top of the inner side of the feeding port, and the feeding port corresponds to a gap between a production line belt and another belt.

Preferably, the hopper assembly further comprises a first connecting plate assembly arranged at the bottom of the side wall of the hopper body and a second connecting plate assembly arranged at the top of the side wall of the hopper body.

Preferably, the first connecting plate assembly comprises a first connecting plate arranged at the bottom of the side wall of the bucket body and flush with the bottom of the bucket body, and first connecting holes uniformly formed in the top of the first connecting plate and penetrating through the bottom of the first connecting plate.

Preferably, the second connecting plate assembly comprises a second connecting plate which is arranged at the top of the side wall of the bucket body and is flush with the top of the bucket body, and second connecting holes which are uniformly formed in the top of the second connecting plate and penetrate through the bottom of the second connecting plate.

Preferably, the automatic feeding device further comprises a discharging port assembly, wherein the discharging port assembly comprises a discharging port which is arranged at the bottom of the bucket body and communicated with the inner cavity of the bucket body, and a third connecting plate assembly which is arranged at the top of the discharging port.

Preferably, the third connecting plate assembly comprises a third connecting plate which is arranged at the top of the side wall of the discharge port and is flush with the top of the discharge port, and third connecting holes which are uniformly formed at the top of the third connecting plate, penetrate through the bottom of the third connecting plate and correspond to the first connecting holes.

Preferably, the fourth connecting plate assembly comprises a fourth connecting plate arranged at the bottom of the side wall of the feeding port and fourth connecting holes which are uniformly formed at the top of the fourth connecting plate, penetrate through the bottom of the fourth connecting plate and correspond to the second connecting holes.

Preferably, the device further comprises a motor, wherein the motor is arranged on the side wall of the feeding port and is connected with the turning plate.

Compared with the prior art, the utility model has the beneficial effects that: this kind of belt receiving hopper through setting up buffering triangle baffle in the inside of hopper, and the material enters into the inside of hopper, buffers the material through buffering triangle baffle, avoids the inside lateral wall of material direct impact hopper, and under the impact force effect, the material is from the inside sputtering of hopper to the outside of hopper, has reduced dropping of material, the cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a hopper assembly according to the present utility model;

FIG. 3 is a schematic view of a discharge port assembly according to the present utility model;

FIG. 4 is a schematic view of a feed port assembly according to the present utility model.

In the figure: 100 hopper assemblies, 110 hopper bodies, 120 buffering triangular baffles, 130 first connecting plate assemblies, 131 first connecting plates, 132 first connecting holes, 140 second connecting plate assemblies, 141 second connecting plates, 142 second connecting holes, 200 discharge port assemblies, 210 discharge ports, 220 third connecting plate assemblies, 221 third connecting plates, 222 third connecting holes, 300 feed port assemblies, 310 feed ports, 320 fourth connecting plate assemblies, 321 fourth connecting plates, 322 fourth connecting holes, 330 turning plates and 400 motors.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a belt receiving hopper, by arranging a buffering triangular baffle in the hopper, materials enter the hopper, the buffering triangular baffle buffers the materials, the materials are prevented from directly colliding with the side wall of the hopper, and the materials are sputtered from the inside of the hopper to the outside of the hopper under the action of impact force, so that the dropping of the materials is reduced, the cost is reduced, and referring to fig. 1, the belt receiving hopper comprises: hopper assembly 100, discharge port assembly 200, feed port assembly 300, and motor 400;

referring to fig. 1-2, the hopper assembly 100 includes a hopper body 110 and a buffer triangle baffle 120 disposed in an inner cavity of the hopper body 110, the hopper body 110 is disposed between a production line belt and another belt, a gap exists between the two belts, during a material conveying process, a small portion of materials can fall from between the two belts, the materials falling through the hopper body 110 are collected, the materials enter the inner cavity of the hopper body 110 and are buffered through the buffer triangle baffle 120, the materials slide along a side wall of the buffer triangle baffle 120 and are discharged from the bottom of the hopper body 110, the materials are buffered through the buffer triangle baffle 120, the materials are prevented from directly colliding with the inner side wall of the hopper, and the materials are sputtered to the outside of the hopper from the inside of the hopper under the action of impact force, so that the falling of the materials is reduced, and the cost is reduced;

referring to fig. 1-2, the hopper assembly 100 further includes a first connecting plate assembly 130 disposed at the bottom of the sidewall of the hopper body 110 and a second connecting plate assembly 140 disposed at the top of the sidewall of the hopper body 110, the first connecting plate assembly 130 includes a first connecting plate 131 disposed at the bottom of the sidewall of the hopper body 110 and aligned with the bottom of the hopper body 110, and a first connecting hole 132 uniformly formed at the top of the first connecting plate 131 and penetrating the bottom of the first connecting plate 131, the second connecting plate assembly 140 includes a second connecting plate 141 disposed at the top of the sidewall of the hopper body 110 and aligned with the top of the hopper body 110, and a second connecting hole 142 uniformly formed at the top of the second connecting plate 141 and penetrating the bottom of the second connecting plate 141, and the first connecting plate 131 and the hopper body 110 are integrally processed;

referring to fig. 1-3, the discharge port assembly 200 includes a discharge port 210 disposed at the bottom of the bucket body 110 and communicated with the inner cavity of the bucket body 110, and a third connection plate assembly 220 disposed at the top of the discharge port 210, the third connection plate assembly 220 includes a third connection plate 221 disposed at the top of the sidewall of the discharge port 210 and flush with the top of the discharge port 210, and a third connection hole 222 uniformly disposed at the top of the third connection plate 221 and penetrating the bottom of the third connection plate 221 and corresponding to the first connection hole 132, the top of the third connection plate 221 contacts the bottom of the first connection plate 131, the side edge of the third connection plate 221 is flush with the side edge of the first connection plate 131, the third connection hole 222 corresponds to the first connection hole 132, a bolt sequentially penetrates the third connection hole 222 and the first connection hole 132, and connects a nut on the bolt, the nut contacts the first connection plate 131 or the third connection plate 221, the third connection plate 221 is detachably mounted at the bottom of the first connection plate 131 through the cooperation of the bolt and the nut, the third connection plate 221 is hermetically treated with the first connection plate 131, the top of the discharge port 210 is in contact with the bottom of the bucket body 110 through the third connection plate 221 and the first connection plate 131, the discharge port 210 can be safely detached from the inner cavity 110 through the discharge port 210 and the inner cavity 110, and the inner cavity 110 can be effectively removed through the discharge port 110, and the inner cavity 110 can be prevented;

referring to fig. 1-2 and 4, the feed port assembly 300 includes a feed port 310 disposed at the top of the hopper 110 and penetrating the inner cavity of the hopper 110, a fourth connection plate assembly 320 disposed at the bottom of the feed port 310 and a turning plate 330 symmetrically disposed at the top of the inner side of the feed port, the fourth connection plate assembly 320 includes a fourth connection plate 321 disposed at the bottom of the sidewall of the feed port 310 and a fourth connection hole 322 uniformly opened at the top of the fourth connection plate 321 and penetrating the bottom of the fourth connection plate 321 and corresponding to the second connection hole 142, the bottom of the fourth connection plate 321 contacts with the top of the second connection plate 141, the side edge of the fourth connection plate 321 is flush with the side edge of the second connection plate 141, the fourth connection hole 322 corresponds to the second connection hole 142, a bolt sequentially penetrates the fourth connection hole 322 and the second connection hole 142 and is connected with a nut on the bolt, the nut contacts with the second connection plate 141 or the fourth connection plate 321, the fourth connection plate 321 is detachably mounted at the top of the second connection plate 141 through the cooperation of the bolt and the nut, the fourth connection plate 321 is hermetically processed between the fourth connection plate 321 and the second connection plate 141 and the inner cavity 110, the material is leaked from the inner cavity of the hopper 110 through the inner cavity 310 through the gap of the hopper 110, the inner cavity is formed by the inner cavity of the fourth connection plate 310 and the inner cavity of the hopper 110 is detachably mounted at the inner cavity of the hopper 110 through the inner cavity of the hopper 110;

referring to fig. 1 and 4, a motor 400 is disposed on a sidewall of the feed port 310 and connected to the turning plate 330, the motor 400 is detachably mounted on a position corresponding to an end surface of the turning plate 330 on the sidewall of the feed port 310 by bolts, an output shaft on the motor 400 penetrates through the sidewall of an inner cavity of the feed port 310 and is connected to an end of the sidewall of the turning plate 330, the turning plate 330 is driven to turn by the motor 400, in particular use, as shown in fig. 4, material is conveyed from right to left, turned up against the right side flap 330, the top of the flap 330 adjacent to but not in contact with the belt against the right side does not correspond to and block the gap, turned down against the left side flap 330, material falls from the gap into the interior cavity of the feed port 310, contacts the surface of the flap 330 turned toward the inside of the feed port 310, the material is guided by the turning plate 330 to slide into the inner cavity of the bucket body 110, so that the purpose of further buffering the falling of the material is achieved, the other turning plate 330 turns upwards, the material which is partially sputtered is blocked, the material which is partially dropped is sputtered due to the impact force, the sputtered material is blocked by the turning plate 330 which is turned upwards, so that the inner cavity of the bucket body 110 which is dropped is blocked, the purpose of preventing the material from dropping is further achieved, thereby reducing the loss of materials, reducing the production cost, driving the turning plate 330 to turn over by the motor 400, when not in operation, the two turning plates 330 turn over and cover the top of the feed port 310, so as to prevent dust and impurities from entering the feed port 310 and the inner cavity of the bucket body 110, causing pollution of the feed port 310 and the inner cavity of the bucket body 110, meanwhile, the motor 400 drives the turning plate 330 to turn over, so that the turning angle of the turning plate 330 can be adjusted, and the turning angle of the turning plate 330 can be adjusted according to the conveying speed of the materials.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner so long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of brevity and resource saving. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims

1. A belt receiving hopper which is characterized in that: comprising the following steps:

the hopper assembly (100), the hopper assembly (100) comprises a hopper body (110) and a buffering triangular baffle plate (120) arranged in the inner cavity of the hopper body (110), the hopper body (110) is arranged between a production line belt and another belt, and a gap is reserved between the two belts;

the feeding port assembly (300), the feeding port assembly (300) is including setting up in the top of the bucket body (110) and with the feeding port (310) that link up mutually of bucket body (110) inner chamber, set up fourth connecting plate assembly (320) and the symmetry of feeding port (310) bottom set up the board (330) of turning over at the inboard top of feeding port, feeding port (310) are corresponding with the clearance between production line belt to another belt.

2. A belt receiving hopper as claimed in claim 1 wherein: the hopper assembly (100) further comprises a first connecting plate assembly (130) arranged at the bottom of the side wall of the hopper body (110) and a second connecting plate assembly (140) arranged at the top of the side wall of the hopper body (110).

3. A belt receiving hopper as claimed in claim 2 wherein: the first connecting plate assembly (130) comprises a first connecting plate (131) which is arranged at the bottom of the side wall of the bucket body (110) and is flush with the bottom of the bucket body (110), and first connecting holes (132) which are uniformly formed in the top of the first connecting plate (131) and penetrate through the bottom of the first connecting plate (131).

4. A belt receiving hopper as claimed in claim 3 wherein: the second connecting plate assembly (140) comprises a second connecting plate (141) which is arranged at the top of the side wall of the bucket body (110) and is flush with the top of the bucket body (110), and second connecting holes (142) which are uniformly formed in the top of the second connecting plate (141) and penetrate through the bottom of the second connecting plate (141).

5. A belt receiving hopper as claimed in claim 4 wherein: the automatic feeding device further comprises a discharging port assembly (200), wherein the discharging port assembly (200) comprises a discharging port (210) which is arranged at the bottom of the bucket body (110) and communicated with the inner cavity of the bucket body (110), and a third connecting plate assembly (220) which is arranged at the top of the discharging port (210).

6. A belt receiving hopper as claimed in claim 5 wherein: the third connecting plate assembly (220) comprises a third connecting plate (221) which is arranged at the top of the side wall of the discharge port (210) and is flush with the top of the discharge port (210), and third connecting holes (222) which are uniformly formed at the top of the third connecting plate (221), penetrate through the bottom of the third connecting plate (221) and correspond to the first connecting holes (132).

7. A belt receiving hopper as claimed in claim 6 wherein: the fourth connecting plate assembly (320) comprises a fourth connecting plate (321) arranged at the bottom of the side wall of the feeding port (310) and fourth connecting holes (322) which are uniformly formed at the top of the fourth connecting plate (321) and penetrate through the bottom of the fourth connecting plate (321) and correspond to the second connecting holes (142).

8. A belt receiving hopper as claimed in claim 7, wherein: the device also comprises a motor (400), wherein the motor (400) is arranged on the side wall of the feeding port (310) and is connected with the turning plate (330).