CN116142936A

CN116142936A - Wireless control system and method for mining auxiliary shaft hoist signals

Info

Publication number: CN116142936A
Application number: CN202310128731.3A
Authority: CN
Inventors: 王荣林; 张东; 魏勇; 戴畅畅; 刘明宇; 吕超; 卢君; 钟美云
Original assignee: Anhui Magang Mining Resources Group Gushan Mining Co ltd; Anhui Maanshan Iron and Steel Mining Resources Group Co Ltd
Current assignee: Anhui Magang Mining Resources Group Gushan Mining Co ltd; Anhui Maanshan Iron and Steel Mining Resources Group Co Ltd
Priority date: 2023-02-17
Filing date: 2023-02-17
Publication date: 2023-05-23

Abstract

The invention discloses a signal wireless control system and method for a mining auxiliary shaft hoist, and relates to the technical field of mining cage electromechanics. In order to solve the problem of poor reliability and practicability of the existing system. The method comprises the following steps: the cage body is powered and illuminated through the cage wireless charging and lighting equipment, so that the environmental experience of workers going up and down is improved; the information such as real-time position, speed, car operating signals and the like of the hoisting machine can be displayed through the man-machine interaction equipment; the voice intercom equipment realizes voice communication and information exchange between a tank passenger and a wellhead and between the tank passenger and the ground; the video monitoring equipment ensures that the ground knows the condition in the tank at any time and changes the island state of cage information; the motor assembly is utilized to drive the winding drum and the baffle rod to lift along the guide rail, so that the cage door curtain is automatically opened and closed by one key, and the transportation safety of the cage body is improved; the system has the advantages of simple equipment structure, high reliability, convenient maintenance and extremely high practicability.

Description

Wireless control system and method for mining auxiliary shaft hoist signals

Technical Field

The invention relates to the technical field of mining cage electromechanics, in particular to a mining auxiliary shaft hoist signal wireless control system and method.

Background

Cage, a mine hoisting container, can generally carry several tons, the use is similar to elevator; the main shaft is mainly used for lifting auxiliary shafts of mines, is used for lifting personnel, ores, equipment, materials and the like, and can also be used for lifting main shafts of medium and small-sized mines and coal; the cage is one of important equipment in mine hoisting, has various types, can be divided into a single-rope cage and a multi-rope cage according to the number of hoisting steel wires, and can be divided into a single-layer cage, a double-layer cage and a multi-layer cage according to the number of layers of the cages; however, the following problems still exist in the use process of the metal mine cage hoisting machine system at present:

1. in the prior art, the power supply and illumination used by the existing cage mostly adopt a manual rechargeable battery replacement mode, so that the workload of workers is increased, and the mining efficiency of a mine is reduced;

2. in the prior art, the voice intercom used by the existing cage mostly passes through the leakage communication or interphone, and the wireless control mostly passes through the leakage communication or wireless remote controller, so that the later maintenance workload is large, the operation is inconvenient, and the equipment operation is influenced;

3. in the prior art, the door curtain of the cage used by the existing cage needs to be manually opened and closed, so that the labor intensity of workers is increased; secondly, manual opening and closing are difficult to ensure the closing tightness of the door curtain, so that the danger of the cage body during transportation is increased.

Disclosure of Invention

The invention aims to provide a signal wireless control system and a signal wireless control method for a mining auxiliary shaft hoist, which solve the problem of power supply illumination of a cage body through cage wireless charging and illumination equipment and improve the environmental experience of workers going up and down; the information such as real-time position, speed, car operating signals and the like of the hoisting machine can be displayed through the man-machine interaction equipment; the voice intercom equipment realizes voice communication and information exchange between a tank passenger and a wellhead and between the tank passenger and the ground; the video monitoring equipment ensures that the ground knows the condition in the tank at any time and changes the island state of cage information; the motor assembly is utilized to drive the winding drum and the baffle rod to lift along the guide rail, so that the cage door curtain is automatically opened and closed by one key, the transportation safety of the cage body is improved, and the problems in the background art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a mining auxiliary shaft hoist signal wireless control system and method, comprising:

the cage body is used for loading cage passengers, so that the labor intensity of the cage passengers is reduced;

the wireless communication module is used for establishing a wireless communication network in the cage body;

the cage wireless charging and lighting equipment enables the cage wireless charging and lighting equipment to perform magnetic resonance wireless charging on the cage body based on the wireless communication module, so that the problem of cage power supply lighting is solved;

the cage signal car operating equipment is used for controlling the car operating signals based on the wireless communication module, so that the car operating signal equipment is operated in the cage;

cage man-machine interaction equipment makes display terminal show real-time position, speed and the car operating signal of lifting machine based on wireless communication module, and wherein display terminal is: a touch screen;

the voice intercom equipment is used for realizing voice communication and information exchange between a tank passenger and a wellhead and between the tank passenger and the ground;

the video monitoring equipment is used for ensuring that the ground knows the condition in the tank at any time so as to change the state of the cage body in an information island;

the electric tank curtain door device is used for realizing automatic opening and closing of a tank cage door curtain by one key, so that the safety of tank cage transportation is improved.

Further, the elevator signal wireless control system further comprises: the ground well head control console is connected with the WEB client, the cage signal vehicle operation equipment, the voice intercom equipment and the video monitoring equipment respectively based on the wireless communication module, and the cage control console is connected with the cage wireless charging and lighting equipment, the cage man-machine interaction equipment, the electric cage curtain door equipment, the voice intercom equipment and the video monitoring equipment respectively based on the wireless communication module.

Furthermore, the wireless communication module adopts point-to-point direct transmission, wherein the wireless communication module consists of a pair of network bridge connectors and a pair of antennas, the two antennas are oppositely arranged in an oriented manner, one antenna is arranged at the top of a cage body cage, the other antenna is arranged at two sides of a wellhead cage guide, the antennas are connected with the bridge through cables, and the bridge is connected with a network through physical connection.

Further, the cage wireless charging and lighting device includes: the charging device is arranged at the position where the wellhead stops at the cage body, the power receiving device and the storage battery are respectively arranged on the cage body, the charging device and the power receiving device are connected through a physical connection, and the power receiving device and the storage battery are connected through a cable.

Further, electronic jar curtain door includes guide rail, jar curtain door, motor assembly, axle bed and reel, and the guide rail has two sets of, and the symmetry sets up the both ends at the cage body, and jar curtain door cover connects swing joint on the guide rail, and two sets of reels have been cup jointed respectively to jar curtain door's upper end, and two sets of reels symmetry set up the top at the jar curtain body, and the bottom of two sets of reels all is provided with the axle bed, and the output of two sets of reels respectively with motor assembly electric connection.

Further, the charging device adopts a magnetic coupling charging plate, the alternating voltage is 220V, the direct voltage is 36V, the power receiving device adopts a magnetic coupling power receiving plate, the direct voltage is 36V, and the direct voltage of the storage battery is 36V.

Further, the tank curtain door includes: the two roller blinds and the baffle rods not lower than seven groups are uniformly distributed on the two roller blinds, and the upper ends of the two roller blinds are respectively sleeved on the two groups of winding drums to be movably connected.

Further, the signal wireless control method of the mining auxiliary shaft hoist comprises the following steps:

step one: establishing a complete wireless communication network for the interior of the cage body based on the wireless communication module;

step two: the cage body is moved up to a wellhead stop through an external elevator, and is wirelessly connected with a power receiving device on the cage body by utilizing a charging device, so that the cage body is subjected to magnetic resonance wireless rapid high-power charging, the power supply illumination of the cage is solved, and the environmental experience of workers going to and from work is improved;

step three: displaying and displaying information such as the position, the speed, the car operating signals and the like of the hoisting machine by using cage man-machine interaction equipment, so that the cage passengers can know the real-time state of the cage body;

step four: the wireless communication module is used as a carrier, voice intercom equipment and video monitoring equipment are utilized to realize voice conversation and information communication among tank passengers, a wellhead and the ground, so that the ground is ensured to know the condition in the tank at any time, the information island state of the tank cage is changed, and the safety of the system is enhanced;

step five: the motor assembly of the electric tank curtain door is controlled by the tank cage control box, and the motor assembly is utilized to drive the winding drum connected with the motor assembly to rotate, so that the winding drum is utilized to drive the rolling curtain and the baffle rod to lift up and down along the guide rail, the automatic opening and closing of the tank cage door curtain by one key can be realized, the labor intensity is reduced, and the lifting efficiency is improved; secondly, when the door curtain is not closed in place, the winch can be locked to operate, so that the transportation safety of the cage body is improved.

Compared with the prior art, the invention has the beneficial effects that:

1. through setting up cage wireless charging and lighting equipment, when the cage body moves up to the well mouth stop by means of the elevator, the power receiving device is in wireless connection with the charging device, so that the storage battery can be automatically charged; therefore, the power supply illumination of the cage body is realized, the environmental experience of workers on duty and off duty is improved, the tension emotion is relieved, and the safety of the passengers is improved.

2. By adding man-machine interaction equipment, the information such as real-time position, speed, car operating signals and the like of the hoisting machine can be displayed by utilizing the touch screen; the voice intercom equipment is added, so that voice communication, information exchange and the like between a passenger and a wellhead and between the passenger and the ground can be realized, and the safety of the system is enhanced; meanwhile, video monitoring equipment is added in the cage, so that the situation in the cage can be known at any time on the ground, and the island state of cage information is changed.

3. The motor assembly is utilized to drive the winding drum connected with the motor assembly to rotate, so that the winding drum is utilized to drive the rolling curtain and the baffle rod to lift up and down along the guide rail, the cage door curtain can be automatically opened and closed by one key, the labor intensity is reduced, and the lifting efficiency is improved; secondly, when the door curtain is not closed in place, the winch can be locked to operate, so that the transportation safety of the cage body is improved; in conclusion, the system has the advantages of simple structure, high reliability, convenience in maintenance and extremely high practicability.

Drawings

FIG. 1 is a schematic diagram of a cage wireless charging principle of the invention;

fig. 2 is a schematic diagram of a wireless communication module according to the present invention;

FIG. 3 is a schematic view of the structure of the electric tank curtain door of the present invention;

fig. 4 is a diagram of the signal wireless control system of the mining auxiliary shaft hoist of the invention.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problems of poor reliability and practicability of the existing wireless signal control system for the auxiliary shaft hoist for mines, referring to fig. 1-4, the present embodiment provides the following technical solutions:

it should be noted that, the cage is one of important equipments in mine hoisting, its variety type is numerous, can divide into single rope cage and multi-rope cage according to the quantity of hoisting wire rope, single rope cage is generally used in the mine not exceeding 400 meters, multi-rope cage generally uses the mine exceeding 350 meters, can divide into single-layer, double-layer and multi-layer cage according to the layer number of cage; in a preferred embodiment, the staff can enter the cage body, then close the curtain door of the cage body, and lift the cage body in the wellhead cage guide by means of the externally connected lifting machine, so that the staff can conveniently go from the ground to the inside of the mine and safely return to the ground from the inside of the mine.

The wireless communication module is used for establishing a wireless communication network in the cage body; the wireless communication module adopts point-to-point direct transmission and consists of a pair of network bridge connectors and a pair of antennas, wherein the two antennas are oppositely arranged in an oriented manner, one antenna is arranged at the top of a cage body cage, the other antenna is arranged at two sides of a wellhead cage guide, the antennas are connected with a bridge through cables, and the bridge is physically connected with a network;

it should be noted that, make antenna and bridge be connected through the cable for bridge and network establishment are connected, with this inside perfect wireless communication network that forms of cage body, make this cage body can establish wireless communication connection with cage wireless charging and lighting apparatus simultaneously, with this function that plays automatic charging to the cage body, thereby avoided manual change battery's loaded down with trivial details nature, improved the practicality of this system.

cage wireless charging and lighting apparatus include: the charging device is arranged at the position where the wellhead stops at the cage body, and the power receiving device and the storage battery are respectively arranged on the cage body, wherein the charging device and the power receiving device are connected through a physical connection, and the power receiving device and the storage battery are connected through a cable; the charging device adopts a magnetic coupling charging plate, the alternating voltage of the charging plate is 220V, the direct voltage of the charging plate is 36V, the power receiving device adopts a magnetic coupling power receiving plate, the direct voltage of the charging plate is 36V, and the direct voltage of the storage battery is 36V;

it should be noted that, the magnetic coupling charging plate and the magnetic coupling power receiving plate are the magnetic coupling structure of the existing wireless charging, specifically refer to: the wireless power transmission technology is combined with the articles to be charged, so that the wireless charging function is realized, the articles to be charged are not limited by places and positions, and the convenience of charging the articles can be greatly improved; in this embodiment, the user only needs to set the charging device to be: the magnetic coupling charging plate is arranged at the position where the wellhead stops at the cage body, and the power receiving device is that: the magnetic coupling power receiving plate and the storage battery are respectively arranged on the cage body, the cage body is upwards moved to a wellhead stopping position through an external lifting machine, and the power receiving device is as follows: the magnetic coupling power receiving plate is connected with the charging device: the distance of the magnetic coupling charging plate is shortened, so that the magnetic coupling charging plate is in wireless connection, the storage battery can be automatically charged, the complexity of manually replacing the battery is avoided, and the practicability of the system is improved.

by adding man-machine interaction equipment, network connection is established between the man-machine interaction equipment and the wireless communication module, and information such as real-time position, speed and car operating signals of the elevator can be displayed by utilizing the touch screen; therefore, a cage passenger can clearly know the running state of the cage body; meanwhile, the touch screen is also provided with lifting, lowering, stopping, scram, overhauling and standby switch buttons for a tank passenger to send out a correct request signal.

the cage body is positioned in a normal communication network based on the wireless communication module, so that a cage passenger can be in contact with a ground worker at any time; and furthermore, voice intercom equipment is added, voice communication, information exchange and the like between the personnel on the tank and the wellhead and between the personnel on the ground can be realized, the safety of the system is enhanced, and the close connection between the personnel on the ground and the personnel on the tank is ensured.

it should be noted that, through the time increase video monitoring equipment in the cage body to with the help of wireless communication module, with the real-time situation remote transmission to ground well head control cabinet department in the jar, based on ground well head control cabinet with the remote transmission of in-jar situation to WEB client department, effectively ensure that the ground can know the in-jar situation at any time, change cage information island state, further improved the feasibility and the practicality of this system.

The electric cage curtain door device is used for realizing one-key automatic opening and closing of cage curtains, so that the safety of cage transportation is improved; the electric tank curtain door comprises two groups of guide rails, a tank curtain door, a motor assembly, shaft seats and winding drums, wherein the guide rails are symmetrically arranged at two ends of the tank cage body, the tank curtain door is sleeved on the guide rails and movably connected, the upper ends of the tank curtain door are respectively sleeved with the two groups of winding drums, the two groups of winding drums are symmetrically arranged at the top of the tank curtain body, the shaft seats are respectively arranged at the bottoms of the two groups of winding drums, and the output ends of the two groups of winding drums are respectively electrically connected with the motor assembly;

wherein, jar curtain door includes: the two rolling curtains and the baffle rods not lower than seven groups are uniformly distributed on the two rolling curtains, and the upper ends of the two rolling curtains are respectively sleeved on the two groups of winding drums to be movably connected;

specifically, the motor assembly of the electric tank curtain door is controlled by the tank cage control box, the motor assembly is used for providing driving force, the winding drum connected with the motor assembly is driven to rotate, and the winding drum is used for driving the rolling curtain and the baffle rod to lift up and down along the guide rail, so that the door curtain of the tank cage can be automatically opened and closed by one key, the labor intensity is reduced, and the lifting efficiency is improved; secondly, when the door curtain is not closed in place, the winch can be locked to operate, so that the safety of the cage body during transportation is improved.

The elevator signal wireless control system further comprises: the ground well head control console is connected with the WEB client, the cage signal vehicle operation equipment, the voice intercom equipment and the video monitoring equipment respectively based on the wireless communication module, and the cage control console is connected with the cage wireless charging and lighting equipment, the cage man-machine interaction equipment, the electric cage curtain door equipment, the voice intercom equipment and the video monitoring equipment respectively based on the wireless communication module.

The wireless communication module is used for establishing connection between the ground wellhead control console and the cage body and the WEB client thereof, and based on the wireless communication module as a carrier, the condition inside the cage body can be remotely transmitted to the WEB client in real time, meanwhile, the wireless communication module can be used for establishing voice and video connection with the personnel in the cage body, so that the working condition and the physical condition of the personnel can be known at any time, the personnel can be prevented from losing contact with the ground personnel, and the use safety of the system is improved; secondly, make cage control box and cage body establish the connection through wireless communication module to through the running condition and the in-service use state of cage control box real-time control cage body, reduced the manual intervention, improved the performance of this cage body.

A mining auxiliary shaft hoist signal wireless control method comprises the following steps:

Working principle: the cage body is powered and illuminated through the cage wireless charging and lighting equipment, so that the environmental experience of workers going up and down is improved; the information such as real-time position, speed, car operating signals and the like of the hoisting machine can be displayed through the man-machine interaction equipment; the voice intercom equipment realizes voice communication and information exchange between a tank passenger and a wellhead and between the tank passenger and the ground; the video monitoring equipment ensures that the ground knows the condition in the tank at any time and changes the island state of cage information; the motor assembly is utilized to drive the winding drum and the baffle rod to lift along the guide rail, so that the cage door curtain is automatically opened and closed by one key, and the transportation safety of the cage body is improved; in conclusion, the system has the advantages of simple structure, high reliability, convenience in maintenance and extremely high practicability.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. A mining auxiliary shaft lifting machine signal wireless control system is characterized by comprising:

the cage body is used for loading cage passengers and reducing the labor intensity of the cage passengers;

the cage wireless charging and lighting equipment enables the cage wireless charging and lighting equipment to perform magnetic resonance wireless charging on the cage body based on the wireless communication module, and the problem of cage power supply lighting is solved;

the cage signal car operating equipment is used for controlling the signals of the car operating on the basis of the wireless communication module and is used for operating the car operating signal equipment in the cage;

the video monitoring equipment is used for ensuring that the ground knows the condition in the tank at any time and changing the state of the cage body in an information island;

the electric tank curtain door device is used for realizing automatic opening and closing of a tank cage door curtain by one key.

2. The mining auxiliary shaft hoist signal wireless control system of claim 1, characterized in that: the elevator signal wireless control system further comprises: the ground well head control console is connected with the WEB client, the cage signal vehicle operation equipment, the voice intercom equipment and the video monitoring equipment respectively based on the wireless communication module, and the cage control console is connected with the cage wireless charging and lighting equipment, the cage man-machine interaction equipment, the electric cage curtain door equipment, the voice intercom equipment and the video monitoring equipment respectively based on the wireless communication module.

3. The mining auxiliary shaft hoist signal wireless control system of claim 1, characterized in that: the wireless communication module adopts point-to-point direct transmission, wherein the wireless communication module consists of a pair of network bridge connectors and a pair of antennas, the two antennas are oppositely arranged in a directional manner, one antenna is arranged at the top of a cage body cage, the other antenna is arranged at two sides of a wellhead cage guide, the antennas are connected with a bridge through cables, and the bridge is connected with a network through physical connection.

4. The mining auxiliary shaft hoist signal wireless control system of claim 1, characterized in that: the cage wireless charging and lighting device comprises: the charging device is arranged at the position where the wellhead stops at the cage body, the power receiving device and the storage battery are respectively arranged on the cage body, the charging device and the power receiving device are connected through a physical connection, and the power receiving device and the storage battery are connected through a cable.

5. The mining auxiliary shaft hoist signal wireless control system of claim 1, characterized in that: the electric tank curtain door comprises a guide rail, a tank curtain door, a motor assembly, shaft seats and winding drums, wherein the guide rail is provided with two groups, the two groups of the shaft seats and the winding drums are symmetrically arranged at two ends of the tank cage body, the tank curtain door is sleeved with the guide rail in a movable connection mode, the upper ends of the tank curtain door are respectively sleeved with the two groups of the winding drums, the two groups of the winding drums are symmetrically arranged at the top of the tank curtain body, the shaft seats are respectively arranged at the bottoms of the two groups of the winding drums, and the output ends of the two groups of the winding drums are respectively electrically connected with the motor assembly.

6. The mining auxiliary shaft hoist signal wireless control system of claim 4, characterized in that: the charging device adopts a magnetic coupling charging plate, the alternating voltage of the charging device is 220V, the direct voltage of the charging device is 36V, the receiving device adopts a magnetic coupling receiving plate, the direct voltage of the receiving device is 36V, and the direct voltage of the storage battery is 36V.

7. The mining auxiliary shaft hoist signal wireless control system of claim 5, characterized in that: the tank curtain door includes: the two roller blinds and the baffle rods not lower than seven groups are uniformly distributed on the two roller blinds, and the upper ends of the two roller blinds are respectively sleeved on the two groups of winding drums to be movably connected.

8. A method of a mining auxiliary shaft hoist signal wireless control system as claimed in claims 1 to 7, the method comprising the steps of:

step two: the cage body is moved up to a wellhead stop through an external elevator, and is wirelessly connected with a power receiving device on the cage body by a charging device, so that the cage body is subjected to magnetic resonance wireless rapid high-power charging;

step three: displaying and displaying the position, the speed and the car operating signal information of the elevator by using cage man-machine interaction equipment, and improving the understanding of cage personnel on the real-time state of the cage body;

step four: the wireless communication module is used as a carrier, voice intercom equipment and video monitoring equipment are utilized to realize voice conversation and information communication between a tank passenger, a wellhead and the ground, so that the ground is ensured to know the condition in the tank at any time;

step five: the motor assembly of the electric tank curtain door is controlled by the cage control box, the motor assembly is utilized to drive the winding drum connected with the motor assembly to rotate, and the winding drum is utilized to drive the rolling curtain and the baffle rod to lift up and down along the guide rail.