Search

US-12616084-B2 - Air-material mixing and spraying actuator with an application method thereof

US12616084B2US 12616084 B2US12616084 B2US 12616084B2US-12616084-B2

Abstract

An air-material mixing and spraying actuator, which relates to the field of devices for spraying materials to deep soil. The actuator includes a material mixing and spraying pipe, a material temporary storage assembly, a second material supply assembly and a compressed air supply assembly, where a material discharge outlet is provided at one end of the material mixing and spraying pipe; the material temporary storage assembly is disposed at one end of the material mixing and spraying pipe to temporarily store materials; the second material supply assembly communicates with the material temporary storage assembly and sends materials to the material temporary storage assembly; and the compressed air supply assembly communicates with the material temporary storage assembly and provides high-pressure air that bursts the soil to form cracks or achieve an uplift effect, and spray the materials temporarily stored to the cracks in cooperation with the material temporary storage assembly.

Inventors

  • Fucheng WU
  • Hu Yang
  • Changyu Shi
  • Xiaoming Liu
  • Jialin Li
  • Ling Ma

Assignees

  • CHENGDU WORANG ZHICHUANG TECHNOLOGY PARTNERSHIP (LIMITED PARTNERSHIP)

Dates

Publication Date
20260505
Application Date
20230202
Priority Date
20211213

Claims (9)

  1. 1 . An air-material mixing and spraying actuator, comprising: a material mixing and spraying pipe, and a material discharge outlet being provided at one end thereof; a material temporary storage assembly disposed at one end of the material mixing and spraying pipe away from the material discharge outlet and configured to temporarily store materials; a second material supply assembly communicating with the material temporary storage assembly and configured to send the material to the material temporary storage assembly; and a compressed air supply assembly communicating with the material temporary storage assembly and configured to provide high-pressure air that bursts the soil to form cracks or achieve an uplift effect, and simultaneously spray the material temporarily stored in the material temporary storage assembly to the cracks in cooperation with the material temporary storage assembly, wherein the compressed air supply assembly is a pneumatic shock wave generator; and the material temporary storage assembly comprises a shell and a rotating core, wherein the shell is disposed at the material mixing and spraying pipe and is provided with a first straight-through hole, a second straight-through hole and a third straight-through hole which communicate with the material mixing and spraying pipe, the second material supply assembly, and the compressed air supply assembly respectively; the rotating core is rotatably disposed in an inner cavity of the shell, has a temporary storage cavity, and is provided with a first central hole and a second central hole which communicate with the temporary storage cavity, and the central axes of the first central hole and the second central hole coincide with each other; and during the rotation of the rotating core, the temporary storage cavity is configured to communicate with the first straight-through hole, the second straight-through hole and the third straight-through hole through the first central hole and the second central hole.
  2. 2 . The air-material mixing and spraying actuator according to claim 1 , wherein a depression area is disposed on one side of the temporary storage cavity.
  3. 3 . The air-material mixing and spraying actuator according to claim 1 , wherein the second material supply assembly comprises a second conveying pipe, a second material bucket, and a second conveying device; wherein one end of the second conveying pipe communicates with the second straight-through hole, and the second material bucket communicates with the second conveying pipe and is configured to send the material to the second conveying pipe; and the second conveying device is configured to send the material in the second conveying pipe to the temporary storage cavity.
  4. 4 . The air-material mixing and spraying actuator according to claim 3 , wherein the second conveying device comprises a cylinder body and a piston disposed in the cylinder body, a push rod is disposed at one end of the piston, the push rod is in transition fit with the second conveying pipe, and the length of the push rod is greater than that of the second conveying pipe.
  5. 5 . The air-material mixing and spraying actuator according to claim 3 , wherein the second conveying device comprises a second ball valve, a cylinder body, and a piston disposed in the cylinder body; wherein the second ball valve is disposed at the second conveying pipe, and can communicate with the second material bucket; the cylinder body is located at one end of the second conveying pipe away from the temporary storage assembly, a push rod is disposed at one end of the piston, the push rod is in transition fit with an inner cavity of the second conveying pipe, and the length of the push rod is greater than that of the second conveying pipe; and when the second ball valve rotates to communicate with the second material bucket, the material in the second material bucket enters an inner cavity of the second ball valve; and when the second ball valve continues to rotate to communicate with the second conveying pipe, the push rod pushes the material in the inner cavity of the second ball valve to the temporary storage cavity.
  6. 6 . The air-material mixing and spraying actuator according to claim 1 , wherein the air-material mixing and spraying actuator further comprises an air-pressured material supply assembly, and the shell is provided with a fourth straight-through hole that communicates with the air-pressured material supply assembly; and, during the rotation of the rotating core, the temporary storage cavity is configured to communicate with the air-pressured material supply assembly.
  7. 7 . The air-material mixing and spraying actuator according to claim 6 , wherein the air-pressured material supply assembly comprises a first material bucket, an air- pressured conveying device, and a first conveying pipe, wherein the first material bucket communicates with the first conveying pipe and is configured to send the material to the first conveying pipe, one end of the first conveying pipe communicates with the fourth straight- through hole, and the other end thereof communicates with the air-pressured conveying device so as to send the material to the temporary storage cavity; and a control valve is disposed at the first conveying pipe.
  8. 8 . The air-material mixing and spraying actuator according to claim 6 , wherein the rotating core is provided with a third central hole that communicates with the temporary storage cavity, the third central hole, the first central hole and the second central hole are located in a same rotation plane, and the central axis of the third central hole is perpendicular to that of the first central hole; and when the rotating core rotates to the first central hole to communicate with the air- pressured material supply assembly, the third central hole communicates with the material mixing and spraying pipe, so that the material, after passing through the first central hole, the temporary storage cavity and the third central hole, directly enters the material mixing and spraying pipe.
  9. 9 . An application method of the air-material mixing and spraying actuator according to claim 8 , comprising the following steps: S1: rotating the rotating core to the first central hole to communicate with the second material supply assembly, and the second central hole communicates with the air-pressured material supply assembly; S2: starting the second material supply assembly, so that the material enters the temporary storage cavity; S3: rotating the rotating core 90 degrees counterclockwise to the first central hole to communicate with the compressed air supply assembly, at this moment, the second central hole communicates with the material mixing and spraying pipe; S4: starting the compressed air supply assembly, so that high-pressure air is released to pass through the temporary storage cavity, and carries the material to pass through the material mixing and spraying pipe to burst the soil to form cracks, and the material is sprayed to the cracks synchronously; S5: rotating the rotating core rotates 90 degrees counterclockwise to the first central hole to communicate with the air-pressured material supply assembly, and the third central hole communicates with the material mixing and spraying pipe; and S6: starting the air-pressured material supply assembly, so that the material in the air- pressured material supply assembly, after passing through the first central hole, the temporary storage cavity and the third central hole, enters the material mixing and spraying pipe, and finally enters the cracks.

Description

TECHNICAL FIELD The present invention relates to the field of devices for mixing, spraying and applying materials in deep soil, and in particular, to an air-material mixing and spraying actuator with an application method thereof. BACKGROUND At present, when fluidizable materials are excavated and applied in a deep soil layer (the depth of the soil layer is within 0.3-3 meters), a main way is to drill holes by using a drilling machine, and then pouring a formulated reagent (solid powder or liquid) into the holes so as to achieve that the reagent after penetrating through a cup wall formed by extrusion is naturally diffused in the soil layer through liquid permeation. Such way is not only low in work efficiency, but also poor in absorption of liquid reagents. Thus, in order to make up for the above-mentioned deficiencies, the present application is hereby provided. SUMMARY The object of the present invention is to provide an air-material mixing and spraying actuator, which can achieve the large-scale and fast spraying of materials in deep soil, so that the work efficiency is increased while the utilization rates of materials and energy are effectively improved. Embodiments of the present invention are implemented as follows: an air-material mixing and spraying actuator includes a material mixing and spraying pipe, a material temporary storage assembly, a second material supply assembly and a compressed air supply assembly, where a material discharge outlet is provided at one end of the material mixing and spraying pipe; the material temporary storage assembly is disposed at one end of the material mixing and spraying pipe away from the material discharge outlet, and configured to temporarily store a material; the second material supply assembly communicates with the material temporary storage assembly, and is configured to send the material to the material temporary storage assembly; and the compressed air supply assembly communicates with the material temporary storage assembly, and is configured to provide high-pressure air that bursts the soil to form cracks (or to make cracks and splits come into being) or achieve an uplift effect, and simultaneously spray the materials temporarily stored in the material temporary storage assembly to the cracks in cooperation with the material temporary storage assembly. Further, the material temporary storage assembly includes a shell and a rotating core, where the shell is disposed at the material mixing and spraying pipe, and provided with a first straight-through hole, a second straight-through hole and a third straight-through hole which respectively communicate with the material mixing and spraying pipe, the second material supply assembly and the compressed air supply assembly; the rotating core is rotatably disposed in an inner cavity of the shell, has a temporary storage cavity, and is provided with a first central hole and a second central hole which communicate with the temporary storage cavity, and the central axes of the first central hole and the second central hole coincide with each other; and during the rotation of the rotating core, the temporary storage cavity can communicate with the first straight-through hole, the second straight-through hole and the third straight- through hole through the first central hole and the second central hole. Further, a depression area is disposed on one side of the temporary storage cavity. Further, the second material supply assembly includes a second conveying pipe, a second material bucket and a second conveying device; where one end of the second conveying pipe communicates with the second straight-through hole, and the second material bucket communicates with the second conveying pipe and is configured to send the material to the second conveying pipe; and the second conveying device is configured to send the material in the second conveying pipe to the temporary storage cavity. Further, the second conveying device includes a cylinder body and a piston disposed in the cylinder body, a push rod is disposed at one end of the piston, the push rod is in transition fit with the second conveying pipe, and the length of the push rod is greater than that of the second conveying pipe. Further, the second conveying device includes a second ball valve, the cylinder body, and the piston disposed in the cylinder body; where the second ball valve is disposed at the second conveying pipe, and can communicate with the second material bucket; the cylinder body is located at one end of the second conveying pipe, away from the temporary storage assembly, the push rod is disposed at one end of the piston, the push rod is in transition fit with the inner cavity of the second ball valve, and the length of the push rod is greater than that of the second conveying pipe; and when the second ball valve rotates to communicate with the second material bucket, the material in the second material bucket enters the inner cavity of the second bal