CN111823398A

CN111823398A - Mining concrete feeding, stirring and wet spraying machine and using method

Info

Publication number: CN111823398A
Application number: CN202010625671.2A
Authority: CN
Inventors: 常新明; 张红军; 魏垂胜; 刘永志
Original assignee: Jiaozuo Beite Mining Equipment Co ltd
Current assignee: Henan dragon energy Limited by Share Ltd. set coal mine
Priority date: 2020-07-02
Filing date: 2020-07-02
Publication date: 2020-10-27

Abstract

The invention relates to a mining concrete feeding, stirring and wet spraying machine which comprises a crawler chassis, a storage carriage, a grouting pump, a mixing box, a material bearing box, a feeding pump, a feeding pipe, a connecting rod overturning mechanism and a driving circuit. The using method comprises two steps of equipment prefabrication, slurry prefabrication and the like. On one hand, the invention effectively realizes the continuity and stability of the guniting operation while respectively and independently realizing the feeding, mixing and guniting operation; on the other hand, the device can effectively overcome the use requirement of a complex field environment and has good transport and regulation capacity.

Description

Mining concrete feeding, stirring and wet spraying machine and using method

Technical Field

The invention relates to a mining concrete feeding, stirring and wet-spraying machine and a using method thereof, belonging to the technical field of slurry spraying equipment and processes.

Background

The existing wet blasting machine has great use amount in the structural support operation of side slopes, mine roadways and the like, but in specific use, the existing wet blasting machine equipment is found to be directly communicated in operation, so that on one hand, the material loading, material mixing and guniting operation equipment is always directly communicated, and the conditions of pressure leakage are easily generated during material loading, stirring and guniting operation, and the guniting pressure stability is poor, the material loading efficiency is low, even the material backflow condition is generated, and the efficiency and the quality of guniting construction operation are seriously influenced; on the other hand, the traditional slurry spraying machine does not always have autonomous operation capability or adopts a walking structure based on walking wheels in operation, so that the walking movement capability is poor, the adaptability to the complex road condition environment in the walking movement is relatively insufficient, the requirements on the complex working environment and the slurry spraying process cannot be met, and the working efficiency and the quality of the slurry spraying work are seriously influenced.

Therefore, in view of the current situation, a new wet spraying machine and a using method thereof are urgently needed to meet the actual using requirement.

Disclosure of Invention

The invention aims to overcome the defects and provides a mining concrete feeding, stirring and wet-spraying machine and a using method thereof.

In order to realize the purpose, the invention is realized by the following technical scheme:

a mining concrete feeding, stirring and wet spraying machine comprises a track chassis, a storage carriage, an injection pump, a mixing box, a material bearing box, a feeding pump, a feeding pipe, a connecting rod overturning mechanism and a driving circuit, wherein the rear end face of the track chassis is hinged with the storage carriage and is positioned right ahead of the storage carriage, the injection pump is connected with the front end face of the track chassis, the axis of the injection pump and the axis of the track chassis form an included angle of 0-90 degrees, the mixing box and the material bearing box are respectively connected with the track chassis through the connecting rod overturning mechanism, the mixing box is positioned between the injection pump and the material bearing box, the injection pump, the mixing box and the material bearing box are uniformly distributed and coaxially along the axis of the track chassis, the upper end faces of the mixing box and the material bearing box and the upper end face of the track chassis form an included angle of 0-120 degrees, the feeding pump is connected with the front end face of the storage carriage through the connecting rod overturning mechanism, the rear end face of the feeding pump is communicated with the material storage carriage through the feeding pipe, and the driving circuit is connected with the side surface of the crawler chassis and is electrically connected with the grouting pump, the feeding pump and the connecting rod overturning mechanism respectively.

Further, the mixing box comprises a bearing cylinder, a material port, a diversion trench, a stirring mechanism, a stirring motor and an oscillating mechanism, the axis of the bearing cylinder is distributed in parallel with the upper end face of the crawler chassis, and is distributed vertically with the axis of the caterpillar base plate, the upper end surface of the diversion trench is provided with a material port and is communicated with the diversion trench through the material port, the diversion trench and the material port are distributed coaxially, the lower end surface of the stirring mechanism is connected with the upper end surface of the bearing cylinder, the area of the upper end surface of the diversion trench is at least 1.5 times of the area of the material port, the stirring mechanism is embedded in the bearing cylinder and is coaxially distributed with the bearing cylinder, one end of the stirring mechanism is connected with the stirring motor through a transmission shaft and is coaxially distributed, the stirring mechanism is connected with the outer side surface of the bearing cylinder, the stirring motor and the oscillating mechanism are electrically connected with the driving circuit.

Further, it includes box and oscillating mechanism to hold the workbin, the box is in axial cross-section is rectangle, triangle-shaped and any one in the fan-shaped structure, and its up end is established the material mouth and the material mouth is located the material loading pump below, oscillating mechanism symmetric distribution is in the box both sides to with drive circuit electrical connection.

Furthermore, the lower end faces of the mixing box and the material bearing box are respectively provided with an inclination angle sensor, and the inclination angle sensors are electrically connected with the driving circuit.

Furthermore, the lower end face of the connecting rod turnover mechanism is connected with the upper end face of the crawler chassis, the upper end face of the connecting rod turnover mechanism is respectively connected with the outer surfaces of the mixing box and the material bearing box through sliding grooves, and the axis of the connecting rod turnover mechanism and the upper end face of the crawler chassis form an included angle of 0-135 degrees.

Furthermore, the upper end surface of the grouting pump is provided with a bearing hopper which is coaxially distributed with the grouting pump, the upper end surface of the crawler chassis between the mixing box and the bearing box is provided with a diversion trench of which the axis is 5-60 degrees with the upper end surface of the crawler chassis, and the mixing box and the bearing box are communicated through the diversion trench.

Furthermore, the driving circuit is a circuit system based on any one or two of a programmable controller and an internet-of-things controller, and the driving circuit is additionally provided with a serial communication device and a wireless data communication device.

A use method of a mining concrete feeding, stirring and wet-spraying machine comprises the following steps:

firstly, prefabricating equipment, namely assembling a crawler chassis, a storage carriage, an injection pump, a mixing box, a material bearing box, a material loading pump, a material loading pipe, a connecting rod turnover mechanism and a driving circuit which form the equipment according to the requirement of guniting operation, wherein the volume of the mixing box is 0.8-1.3 times of the effective volume of the material loading pump bearing hopper, the volume of the material bearing box is 0.5-0.9 times of the volume of the mixing box, the volume of the storage carriage is more than 3 times of the volume of the material bearing box, the storage carriage is communicated with external material source equipment, and the driving circuit is in data connection with an external control platform;

secondly, prefabricating slurry, after finishing the first step of operation, firstly, transferring the concrete spraying device to the initial position of a slurry spraying operation surface through driving of a crawler chassis, then adding external materials into a material storage carriage, then conveying the materials in the material storage carriage into a material bearing box through a feeding pipe through a feeding pump and metering, stopping feeding and overturning operation of the material bearing box under the driving of a connecting rod overturning mechanism after the materials in the material bearing box meet the construction requirement, adding the materials in the material bearing box into a material mixing box through overturning, stirring and mixing the materials by the material mixing box, and simultaneously resetting the material bearing box under the driving of the connecting rod overturning mechanism and feeding operation again through the feeding pump; the material overturns under connecting rod tilting mechanism drive after accomplishing the compounding operation in the compounding case, and carry out the buffer memory and add into the grouting pump through the upset with mixing back material through the hopper that bears of grouting pump, the in-process that adds the material to the grouting pump begins to carry out the whitewashing operation, and the material is whole to be added into and bears the hopper back in the compounding case, the compounding case resets under connecting rod tilting mechanism drive, then will hold the incasement material of expecting to add into the compounding incasement once more and mix, and realize circulation compounding, material loading and whitewashing operation.

Furthermore, in the second step, when the grouting pump performs the grouting operation, the crawler chassis drives the whole body of the invention to synchronously move and operate along with the requirement of the spraying process.

The invention has simple structure, flexible and convenient use and good universality, and on one hand, the continuity and the stability of the guniting operation are effectively realized while the independent operation of the feeding, the mixing and the guniting operation is effectively realized; on the other hand, the device can effectively overcome the use requirement of complex field environment, has good transferring and adjusting capability, and can greatly improve the use flexibility and the universality, thereby effectively meeting the requirement of stable and reliable operation under various complex operation environments.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a mixing box;

FIG. 3 is a schematic structural view of a material holding box;

FIG. 4 is a schematic flow chart of the method of the present invention.

Detailed Description

In order to facilitate the implementation of the technical means, creation features, achievement of the purpose and the efficacy of the invention, the invention is further described below with reference to specific embodiments.

As shown in figures 1-3, a mining concrete feeding, stirring and wet spraying machine comprises a crawler chassis 1, a storage carriage 2, an injection pump 3, a mixing box 4, a material bearing box 5, a feeding pump 6, a feeding pipe 7, a connecting rod overturning mechanism 8 and a driving circuit 9, wherein the rear end face of the crawler chassis 1 is hinged with the storage carriage 2 and is positioned right in front of the storage carriage 2, the injection pump 3 is connected with the front end face of the crawler chassis 1, the axis of the injection pump 3 forms an included angle of 0-90 degrees with the axis of the crawler chassis 1, the mixing box 4 and the material bearing box 5 are respectively connected with the crawler chassis 1 through the connecting rod overturning mechanism 8, the mixing box 4 is positioned between the injection pump 3 and the material bearing box 5, the injection pump 3, the mixing box 4 and the material bearing box 5 are uniformly distributed and coaxially along the axis of the crawler chassis 1, the upper end face of the mixing box 4 and the material bearing box 5 forms an included angle of 0-120 degrees with the upper end face of the crawler chassis 1, the feeding pump 6 is connected with, and the feeding pump 6 is positioned above the material bearing box 5 and is communicated with the material bearing box 5, the rear end face of the feeding pump 6 is communicated with the material storage carriage 2 through the feeding pipe 6, and the driving circuit 9 is connected with the side surface of the crawler chassis 1 and is respectively electrically connected with the grouting pump 3, the feeding pump 6 and the connecting rod overturning mechanism 8.

It is emphasized that the mixing box 4 includes a bearing cylinder 41, a material port 42, a flow guide groove 43, a stirring mechanism 44, a stirring motor 45, and an oscillating mechanism 46, wherein the axis of the bearing cylinder 41 is distributed in parallel with the upper end surface of the crawler chassis 1 and is distributed perpendicular to the axis of the crawler chassis 1, the upper end surface of the flow guide groove 43 is provided with the material port 42 and is communicated with the flow guide groove 43 through the material port 42, the flow guide groove 43 and the material port 42 are distributed coaxially, the lower end surface of the flow guide groove 43 is connected with the upper end surface of the bearing cylinder 41, the area of the upper end surface of the flow guide groove 43 is at least 1.5 times of the area of the material port, the stirring mechanism 45 is embedded in the bearing cylinder 41 and is distributed coaxially with the bearing cylinder 41, one end of the stirring mechanism 45 is connected with the stirring motor 45 through a transmission shaft and is distributed coaxially, the stirring mechanism 45 is connected with the outer side surface of the bearing, the stirring motor 45 and the oscillating mechanism 46 are electrically connected to the drive circuit 9.

It should be noted that the material receiving box 5 includes a box body 51 and an oscillating mechanism 46, the box body 51 is in any one of the structures with the axial cross section being rectangular, triangular and fan-shaped, the material port 42 is arranged on the upper end surface of the box body 51 and the material port 42 is located below the material loading pump 6, and the oscillating mechanism 46 is symmetrically distributed on two sides of the box body 51 and is electrically connected with the driving circuit 9.

Preferably, the lower end faces of the mixing box 4 and the material bearing box 5 are respectively provided with an inclination angle sensor 10, and the inclination angle sensors 10 are electrically connected with the driving circuit 9.

In this embodiment, the lower end surface of the connecting rod turnover mechanism 8 is connected with the upper end surface of the crawler chassis 1, the upper end surfaces of the connecting rod turnover mechanism 8 are respectively connected with the outer surfaces of the mixing box 4 and the material bearing box 5 through the sliding chute 11, and an included angle of 0-135 degrees is formed between the axis of the connecting rod turnover mechanism 8 and the upper end surface of the crawler chassis 1.

In addition, the upper end face of the grouting pump 3 is provided with a bearing hopper 12 which is coaxially distributed with the grouting pump 3, the upper end face of the crawler chassis 1 between the mixing box 4 and the material bearing box 5 is provided with a diversion trench 13 of which the axis is 5-60 degrees with the upper end face of the crawler chassis 1, and the mixing box 4 and the material bearing box 5 are communicated through the diversion trench 13.

In this embodiment, the driving circuit 9 is a circuit system based on one or two of a programmable controller and an internet-of-things controller, and the driving circuit is further provided with a serial communication device and a wireless data communication device.

As shown in FIG. 4, the use method of the mining concrete feeding, stirring and wet-spraying machine comprises the following steps:

In this embodiment, in the second step, while the grouting pump performs the grouting operation, the crawler chassis drives the whole body of the invention to synchronously move and operate according to the requirement of the spraying process.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a mining concrete material loading stirring wet blasting machine which characterized in that: the mining concrete feeding, stirring and wet spraying machine comprises a crawler chassis, a storage carriage, an injection pump, a mixing box, a material bearing box, a feeding pump, a feeding pipe, a connecting rod overturning mechanism and a driving circuit, wherein the rear end face of the crawler chassis is hinged with the storage carriage and is positioned right ahead of the storage carriage, the injection pump is connected with the front end face of the crawler chassis, the axis of the injection pump and the axis of the crawler chassis form an included angle of 0-90 degrees, the mixing box and the material bearing box are respectively connected with the crawler chassis through the connecting rod overturning mechanism, the mixing box is positioned between the injection pump and the material bearing box, the injection pump, the mixing box and the material bearing box are uniformly distributed and coaxially along the axis of the crawler chassis, the upper end faces of the mixing box and the material bearing box and the upper end face of the crawler chassis form an included angle of 0-120 degrees, the feeding pump is connected with the front end face of the storage carriage through the connecting rod overturning mechanism, and the feeding pump is positioned, the rear end face of the feeding pump is communicated with the material storage carriage through the feeding pipe, and the driving circuit is connected with the side surface of the crawler chassis and is electrically connected with the grouting pump, the feeding pump and the connecting rod overturning mechanism respectively.

2. The mining concrete feeding, stirring and wet-spraying machine as claimed in claim 1, characterized in that: the mixing box comprises a bearing cylinder, a material port, a diversion trench, an agitating mechanism, an agitating motor and an oscillating mechanism, wherein the bearing cylinder axis and the upper end face of a crawler chassis are distributed in parallel and are perpendicular to the axis of the crawler chassis, the material port is arranged on the upper end face of the diversion trench and is communicated with the diversion trench through the material port, the diversion trench and the material port are distributed coaxially, the lower end face of the diversion trench is connected with the upper end face of the bearing cylinder, the area of the upper end face of the diversion trench is 1.5 times of the area of the material port, the agitating mechanism is embedded in the bearing cylinder and is distributed coaxially with the bearing cylinder, one end of the agitating mechanism is connected with the agitating motor through a transmission shaft and is distributed coaxially, the agitating mechanism is connected with the outer side face of the bearing cylinder, the oscillating mechanism is at least two, the axis of the bearing cylinder is uniformly distributed on the outer surface.

3. The mining concrete feeding, stirring and wet-spraying machine as claimed in claim 1, characterized in that: the material bearing box comprises a box body and an oscillating mechanism, the box body is in any one of a rectangular structure, a triangular structure and a fan-shaped structure, the material opening is formed in the upper end face of the box body, the material opening is located below the feeding pump, and the oscillating mechanism is symmetrically distributed on two sides of the box body and is electrically connected with the driving circuit.

4. The mining concrete feeding, stirring and wet-spraying machine as claimed in claim 1, characterized in that: the lower end faces of the mixing box and the material bearing box are respectively provided with an inclination angle sensor, and the inclination angle sensors are electrically connected with the driving circuit.

5. The mining concrete feeding, stirring and wet-spraying machine as claimed in claim 1, characterized in that: the lower end face of the connecting rod turnover mechanism is connected with the upper end face of the crawler chassis, the upper end face of the connecting rod turnover mechanism is respectively connected with the outer surfaces of the mixing box and the material bearing box through sliding grooves, and the axis of the connecting rod turnover mechanism and the upper end face of the crawler chassis form an included angle of 0-135 degrees.

6. The mining concrete feeding, stirring and wet-spraying machine as claimed in claim 1, characterized in that: the grouting pump up end establish with the coaxial bearing hopper that distributes of grouting pump, the guiding gutter that axis and crawler chassis upper end were 5-60 is established to the crawler chassis up end between compounding case, the holding box, through the guiding gutter intercommunication between compounding case, the holding box.

7. The mining concrete feeding, stirring and wet-spraying machine as claimed in claim 1, characterized in that: the driving circuit is a circuit system based on the sharing of any one or two of a programmable controller and an internet-of-things controller, and is additionally provided with a serial communication device and a wireless data communication device.

8. The use method of the mining concrete feeding, stirring and wet-spraying machine is characterized by comprising the following steps: the using method of the mining concrete feeding, stirring and wet-spraying machine comprises the following steps:

9. The use method of the mining concrete feeding, stirring and wet-spraying machine according to claim 1 is characterized in that: in the second step, the crawler chassis drives the whole body of the invention to synchronously move and operate along with the requirement of the spraying process while the grouting pump performs the spraying operation.