A new dry arch breaking device

Abstract

This utility model relates to the field of petroleum machinery technology, and in particular discloses a novel dry-addition arch-breaking device, including an arch-breaking component and a conveying component. The arch-breaking component is connected to the conveying device for solid particles and is used to break up lumps within the solid particles. The conveying component is located downstream of the working component, and the two work together to complete the arch-breaking and rapid conveying operations. This utility model utilizes the three branches of multiple arch-breaking blades to generate rotational force from three dimensions, which can thoroughly break up lumps of solid particles falling from different directions, resulting in more thorough crushing. Combined with an auger, it can achieve both arch breaking and rapid conveying.

Description

Technical Field

[0001] This utility model relates to the field of petroleum machinery technology, and in particular to a novel dry-addition arch-breaking device. Background Technology

[0002] Dry-addition arch-breaking equipment, a commonly used machine for increasing oilfield production, is mainly used for adding various powders, sand, and other solid particles. In addition to breaking up solid lumps, this equipment must also have the ability to transport materials quickly. At the same time, the equipment should also have multi-level speed regulation to meet the discharge requirements of different customers. To accomplish the above multiple functions, a fully functional dry-addition arch-breaking structure is required. Existing equipment basically cannot meet the above requirements and can be adjusted according to different on-site operation requirements to complete various arch-breaking and transportation operations. Therefore, in order to improve the above situation, we propose a new type of dry-addition arch-breaking equipment. Utility Model Content

[0003] The purpose of this invention is to solve the problems in the prior art and provide a new type of dry-addition arch-breaking device.

[0004] The technical solution of this utility model is:

[0005] A novel dry-mixing arch-breaking device includes an arch-breaking component and a conveying component. The arch-breaking component is connected to the solid particle conveying device and is used to break up the blocky objects inside the solid particles. The conveying component is located downstream of the working component and the two work together to complete the arch-breaking and rapid conveying work.

[0006] To better connect with solid particle conveying equipment, the arch breaking component includes a power source and a storage bin. The storage bin is equipped with an arch breaking shaft, which has multiple arch breaking blades. The power source drives the arch breaking shaft to rotate.

[0007] In order to facilitate the adjustment of the speed of the arch-breaking motor and change the speed of the arch-breaking shaft, the power source includes an arch-breaking motor and an arch-breaking reducer. The arch-breaking motor drives the arch-breaking reducer to rotate.

[0008] In order to completely break up the blocky objects inside the solid particles, multiple arch-breaking blades are arranged in a ring with intervals between each ring. The arch-breaking blades have a Y-shaped branch structure, which includes three branches and the axes of the three branches are not in the same plane.

[0009] To complete the conveying operation, the conveying assembly includes a second power source and an auger, with the second power source driving the auger to rotate.

[0010] To facilitate adjusting the auger motor speed and changing the auger speed, power source two includes an auger motor and an auger reducer, with the auger motor driving the auger reducer to rotate.

[0011] To achieve faster conveying, the auger includes an auger shaft and auger blades, with the auger blades spirally mounted on the auger shaft.

[0012] The present invention adopts the above structure and has the following advantages:

[0013] 1. The three branches of multiple arch-breaking blades form a rotating force from three dimensions, which can thoroughly break solid particles and blocks falling from different directions. The breaking is relatively thorough. When combined with an auger, it can achieve arch breaking and rapid conveying.

[0014] 2. Equipped with an arch-breaking motor and an auger motor, the speed of the arch-breaking shaft and the auger can be changed by adjusting the speed of the two motors. This allows for the selection of the appropriate arch-breaking speed for different materials to achieve the best arch-breaking effect, while also achieving the appropriate displacement according to customer requirements. Attached Figure Description

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

[0016] Figure 2 for Figure 1 A magnified schematic diagram of the structure at point A.

[0017] In the diagram, 1 is the arch-breaking motor; 2 is the arch-breaking reducer; 3 is the storage bin; 4 is the arch-breaking shaft; 5 is the auger shaft; 6 is the auger reducer; 7 is the auger motor; and 8 is the arch-breaking blade. Detailed Implementation

[0018] To make the technical means, technical features, utility model purpose and technical effects of this utility model easier to understand, the present utility model will be further described below with reference to specific illustrations.

[0019] like Figure 1 As shown, a novel dry-addition arch-breaking device includes an arch-breaking component and a conveying component. The arch-breaking component is connected to the conveying device for solid particles (not shown in the figure) and is used to break up the blocky objects inside the solid particles. The conveying component is installed at the outlet of the arch-breaking component, and the two are arranged side by side.

[0020] The arch-breaking assembly includes a power source and a storage bin 3. The storage bin 3 has an opening at the top, and an arch-breaking shaft 4 is horizontally installed inside the storage bin 3. Multiple arch-breaking blades 8 are welded onto the arch-breaking shaft 4, and these blades are welded in rings with intervals between each ring. The power source includes an arch-breaking motor 1 and an arch-breaking reducer 2. The arch-breaking motor 1 drives the arch-breaking reducer 2 to rotate, and the arch-breaking reducer 2 is connected to the arch-breaking shaft 4. Figure 2 As shown, the arch-breaking blade 8 has a Y-shaped branch structure. The Y-shaped branch structure includes three branches, and the axes of the three branches are not in the same plane. That is, there is a three-dimensional angle between each pair of the three branches.

[0021] The conveying assembly includes a second power source and an auger. The second power source drives the auger to rotate. The second power source includes an auger motor 7 and an auger reducer 6. The auger motor 7 drives the auger reducer 6 to rotate. The auger reducer 6 is connected to the auger. The auger includes an auger shaft 5 and auger blades. The auger blades are spirally welded to the auger shaft 5.

[0022] The auger inlet is installed at the outlet of storage silo 3, and the auger outlet is connected to subsequent working equipment;

[0023] Solid particles fall into the storage bin 3 and are stirred by the arch-breaking blades 8. As the arch-breaking blades 8 rotate, the blocky objects are broken. The three branches of the arch-breaking blades 8 can stir and break the solid particles from three different dimensions. When the three branches rotate with the arch-breaking shaft 4, they form a rotational force from three dimensions, which can thoroughly break the solid particles falling from different directions. The breaking is relatively thorough.

[0024] The crushed solid particles will fall into the auger below through the outlet of storage bin 3, and then be quickly conveyed to the subsequent process by the spiral conveyor of the auger blades.

[0025] This invention allows for adjusting the speed of the arch-breaking shaft 4 by adjusting the speed of the arch-breaking motor 1, and the speed of the auger can be adjusted by adjusting the speed of the auger motor 7. This enables the selection of appropriate arch-breaking speeds for different materials to achieve the best arch-breaking effect. At the same time, the auger speed can be adjusted according to customer requirements to achieve the appropriate discharge volume.

[0026] It should be noted that the solid particle conveying equipment, motors, and reducers mentioned above are all applications of existing technology, and the working principle of the auger is also existing technology.

[0027] The above description is merely a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

[0028] All equivalent changes and modifications made to the scope of this utility model patent application shall fall within the technical scope of this utility model.

Claims

1. A novel dry-addition arch-breaking device, characterized in that: It includes an arch-breaking component and a conveying component. The arch-breaking component is connected to the solid particle conveying equipment and is used to break up the blocky objects inside the solid particles. The conveying component is located downstream of the arch-breaking component and the two work together to complete the arch-breaking and rapid conveying work.

2. The novel dry-addition arch-breaking equipment according to claim 1, characterized in that: The arch-breaking assembly includes a power source and a storage bin (3). An arch-breaking shaft (4) is provided in the storage bin (3). Multiple arch-breaking blades (8) are provided on the arch-breaking shaft (4). The power source drives the arch-breaking shaft (4) to rotate.

3. The novel dry-addition arch-breaking equipment according to claim 2, characterized in that: The power source includes an arch-breaking motor (1) and an arch-breaking reducer (2), wherein the arch-breaking motor (1) drives the arch-breaking reducer (2) to rotate.

4. The novel dry-addition arch-breaking equipment according to claim 3, characterized in that: Multiple arch-breaking blades (8) are arranged in a ring and spaced apart in each ring. The arch-breaking blades (8) have a Y-shaped branch structure. The Y-shaped branch structure includes three branches and the axes of the three branches are not in the same plane.

5. The novel dry-addition arch-breaking equipment according to claim 1, characterized in that: The conveying assembly includes a second power source and an auger, with the second power source driving the auger to rotate.

6. The novel dry-addition arch-breaking equipment according to claim 5, characterized in that: The second power source includes an auger motor (7) and an auger reducer (6), wherein the auger motor (7) drives the auger reducer (6) to rotate.

7. The novel dry-addition arch-breaking equipment according to claim 6, characterized in that: The auger includes an auger shaft (5) and auger blades, with the auger blades spirally arranged on the auger shaft (5).

Images