A new bucket elevator

By installing anti-slip plates and lever structures in the bucket elevator conveyor, the problems of belt derailment and slippage caused by material spillage are solved, thus achieving stable material conveying and safe belt operation.

CN224393669UActive Publication Date: 2026-06-23ZHENGZHOU YIZHENG HEAVY MASCH EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHENGZHOU YIZHENG HEAVY MASCH EQUIP CO LTD
Filing Date
2025-09-23
Publication Date
2026-06-23

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    Figure CN224393669U_ABST
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Abstract

The utility model provides a novel bucket lifting type conveyor, including the casing, be provided with motor on the casing, the lower extreme of casing is provided with the feed port, the upper end of casing is provided with the discharge gate, still include conveying mechanism, conveying mechanism includes the transmission wheel setting in the inside of casing, be provided with the rotating shaft on the transmission wheel, the output of motor is connected with rotating shaft, the transmission wheel is equipped with the belt, be provided with the hopper on the belt, anti -skidding mechanism, anti -skidding mechanism includes the antiskid board setting on the belt, still include setting on the transmission wheel round bar, the middle part position of round bar is provided with the pole, the pole and the contact connection between antiskid board, the advantage is not only can prevent material accumulation, and the belt will not slip.
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Description

Technical Field

[0001] This utility model relates to the technical field of bucket elevator conveyors, and specifically to a novel bucket elevator conveyor. Background Technology

[0002] Bucket elevators are devices used for vertical material conveying and are widely used in industries such as mining, grain, construction, and chemicals. A bucket elevator loads material into the feed inlet by lifting buckets. As the lifting belt or chain moves, the buckets gradually move to the top of the elevator. At the discharge outlet, the material is dumped out and transported to the next processing stage. Bucket elevators offer advantages such as space saving, high efficiency, wide applicability, and ease of operation. They are often used as feed transport devices during feed transfer and storage.

[0003] In existing bucket elevators, materials tend to scatter during transport. When this scattered material accumulates at the lower drive wheel, it can cause the belt to derail. To prevent this, the drive wheel has been modified by replacing the cylinder with several round rods. This modification avoids material accumulation, but the design of several round rods reduces friction, making the belt more prone to slippage. Utility Model Content

[0004] In view of this, the present invention provides a novel bucket elevator conveyor that not only prevents material accumulation but also prevents belt slippage.

[0005] To solve the above-mentioned technical problems, this utility model provides a novel bucket elevator conveyor, including a housing, a motor mounted on the housing, a feed inlet at the lower end of the housing, and a discharge outlet at the upper end of the housing, and further comprising...

[0006] The conveying mechanism includes a transmission wheel disposed inside the housing, a rotating shaft disposed on the transmission wheel, the rotating shaft being connected to the output end of a motor, a belt being fitted onto the transmission wheel, and a hopper being disposed on the belt;

[0007] An anti-slip mechanism is provided, comprising an anti-slip plate mounted on a belt and a round rod mounted on a transmission wheel. A lever is provided at the middle of the round rod, and the lever is in contact with the anti-slip plate.

[0008] Furthermore, the rotating shaft is provided with rotating wheels, which are plate-shaped and number two in number. The rotating wheels are connected by a round rod, and the two ends of the round rod are fixedly connected to the transmission wheel.

[0009] Furthermore, the transmission wheel is provided with several material leakage holes to prevent material from accumulating between the rotating wheels.

[0010] Furthermore, the anti-slip plate is connected to the belt by rivets, and the rivets are used to connect the hopper. The anti-slip plate and the hopper are connected accordingly, and the structure of the anti-slip plate is L-shaped.

[0011] Furthermore, the lever is located in the middle of the round rod. The lever has a U-shaped structure and protrudes towards the rotation axis. The rotation axis is used to move the anti-slip plate to prevent the belt from slipping on the drive wheel.

[0012] The beneficial effects of the above-mentioned technical solution of this utility model are as follows:

[0013] 1. Not only can it prevent material accumulation, but by setting up a material leakage hole and a round rod structure, it can also effectively prevent material from accumulating at the transmission wheel.

[0014] 2. The belt will not slip. By setting an anti-slip plate on the belt and a lever on the round rod, the lever and the anti-slip plate will contact each other when the belt rotates, which can effectively prevent the belt from slipping on the drive pulley. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of this utility model;

[0016] Figure 2 for Figure 1 Internal structure diagram;

[0017] Figure 3 for Figure 2 Enlarged view of section A in the middle;

[0018] Figure 4 This is a schematic diagram of the transmission wheel.

[0019] In the diagram: 1. Housing; 2. Motor; 3. Feed inlet; 4. Discharge outlet; 5. Drive wheel; 6. Belt; 7. Hopper; 8. Anti-slip plate; 9. Leakage hole; 10. Rotating shaft; 11. Round rod; 12. Lever. Detailed Implementation

[0020] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the following will be described in conjunction with the appendices of the embodiments of this utility model. Figures 1 to 4 The technical solutions of the embodiments of this utility model are clearly and completely described herein. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the described embodiments of this utility model are within the protection scope of this utility model.

[0021] like Figures 1 to 4 As shown: Example

[0022] A novel bucket elevator conveyor includes a housing 1, on which a motor 2 is mounted. A feed inlet 3 is located at the lower end of the housing 1, and a discharge outlet 4 is located at the upper end of the housing 1. The conveying mechanism includes a transmission wheel 5 disposed inside the housing 1, a rotating shaft 10 mounted on the transmission wheel 5, the rotating shaft 10 being connected to the output end of the motor 2, a belt 6 fitted onto the transmission wheel 5, and a hopper 7 mounted on the belt 6. An anti-slip mechanism includes an anti-slip plate 8 mounted on the belt 6 and a round rod 11 mounted on the transmission wheel 5. A lever 12 is located at the middle of the round rod 11, and the lever 12 is in contact with the anti-slip plate 8.

[0023] In this embodiment, a conveying mechanism is provided inside the housing 1. The conveying mechanism includes a transmission wheel 5, a rotating shaft 10, and a motor 2. The rotating shaft 10 and the transmission wheel 5 are fixedly connected and rotate under the drive of the motor 2. A belt 6 is fitted on the transmission wheel 5, which in turn drives the belt 6 to rotate. Several hoppers 7 are provided on the belt 6 to realize the lifting and transportation of materials. In order to prevent the belt 6 from slipping, an anti-slip mechanism is provided. The anti-slip mechanism includes an anti-slip plate 8. A round rod 11 is provided on the transmission wheel 5, and a lever 12 is provided on the round rod 11. When the lever 12 rotates, it actuates the anti-slip plate 8 to realize the anti-slip of the belt 6. Example

[0024] The rotating shaft 10 is provided with rotating wheels. The rotating wheels are plate-shaped and there are two of them. The rotating wheels are connected by a round rod 11, and the two ends of the round rod 11 are fixedly connected to the transmission wheel 5.

[0025] Unlike the above embodiments, in this embodiment, the actuating wheel is a two-plate structure, both of which are fixedly connected to the rotating shaft 10, and several round rods 11 are arranged between the two plate-shaped transmission wheels 5. Example

[0026] The transmission wheel 5 is provided with several material leakage holes 9 to prevent material from accumulating between the rotating wheels.

[0027] Unlike the above embodiments, in this embodiment, a material leakage hole 9 is provided on the transmission wheel 5 to prevent material accumulation. Example

[0028] The anti-slip plate 8 is connected to the belt 6 by rivets, and the rivets are used to connect the hopper 7. The anti-slip plate 8 and the hopper 7 are connected accordingly. The structure of the anti-slip plate 8 is L-shaped.

[0029] Unlike the above embodiments, in this embodiment, the anti-slip plate 8 is set on the inner side of the belt 6, and the hopper 7 is set on the outer side of the belt 6. The two are connected by rivets, and the structure of the anti-slip plate 8 is designed as an L-shape to facilitate contact with the lever 12. Example

[0030] The lever 12 is located in the middle of the round rod 11. The lever 12 has a U-shaped structure and protrudes towards the rotating shaft 10. The rotating shaft 10 rotates, and the lever 12 is used to move the anti-slip plate 8 to prevent the belt 6 from slipping on the transmission wheel 5.

[0031] Unlike the above embodiments, in this embodiment, the lever 12 is located in the middle position and keeps in alignment with the anti-slip plate 8 when it rotates.

[0032] The working method (or working principle) of this utility model:

[0033] In operation, this technology features an anti-slip plate 8 on the inner side of the belt 6, corresponding to the position of the hopper 7. The anti-slip plate 8 and the hopper 7 are connected to the belt 6 by rivets or bolts. When the belt 6 rotates under the action of the drive wheel 5, a round rod 11 is provided on the drive wheel 5, and a lever 12 is provided in the middle of the round rod 11. The lever 12 has a U-shaped structure and protrudes inward. When the anti-slip plate 8 moves to this position, the lever 12 can contact the anti-slip plate 8 and push it. By setting the structure of the anti-slip plate 8 and the lever 12, the belt 6 can be effectively prevented from slipping at the drive wheel 5 due to the reduction of friction.

[0034] In this utility model, unless otherwise explicitly specified and limited, for example, it can be a fixed connection, a detachable connection, or an integral part; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components or an interaction between two components. Unless otherwise explicitly limited, those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0035] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications should also be considered within the protection scope of this utility model.

Claims

1. A novel bucket elevator conveyor, comprising a housing (1), a motor (2) mounted on the housing (1), a feed inlet (3) at the lower end of the housing (1), and a discharge outlet (4) at the upper end of the housing (1), characterized in that: Also includes The conveying mechanism includes a transmission wheel (5) disposed inside the housing (1), a rotating shaft (10) disposed on the transmission wheel (5), the rotating shaft (10) being connected to the output end of the motor (2), a belt (6) being sleeved on the transmission wheel (5), and a hopper (7) being disposed on the belt (6); The anti-slip mechanism includes an anti-slip plate (8) mounted on a belt (6) and a round rod (11) mounted on a transmission wheel (5). A lever (12) is provided at the middle of the round rod (11), and the lever (12) is in contact with the anti-slip plate (8).

2. The novel bucket elevator conveyor according to claim 1, characterized in that: The rotating shaft (10) is provided with rotating wheels. The rotating wheels are plate-shaped and there are two of them. The rotating wheels are connected by a round rod (11), and the two ends of the round rod (11) are fixedly connected to the transmission wheel (5).

3. A novel bucket elevator conveyor according to claim 2, characterized in that: The transmission wheel (5) is provided with several material leakage holes (9) to prevent material from accumulating between the rotating wheels.

4. A novel bucket elevator conveyor according to claim 3, characterized in that: The anti-slip plate (8) is connected to the belt (6) by rivets, and the rivets are used to connect the hopper (7). The anti-slip plate (8) and the hopper (7) are connected accordingly. The structure of the anti-slip plate (8) is L-shaped.

5. A novel bucket elevator conveyor according to claim 4, characterized in that: The lever (12) is located in the middle of the round rod (11). The lever (12) has a U-shaped structure and protrudes towards the rotating shaft (10). The rotating shaft (10) rotates. The lever (12) is used to move the anti-slip plate (8) to prevent the belt (6) from slipping on the transmission wheel (5).