CN221096611U - Mine underground movable circulating water storage system - Google Patents

Abstract

The utility model belongs to the field of on-mine operation, and relates to an underground movable circulating water storage system for mines, which is used for providing water circulation for mine operation; comprises a water supply unit, a water storage unit and a drainage unit; the water supply unit is connected with the water storage unit to acquire a water source from the water storage unit and provide water for a mine operation position; the drainage unit is arranged below the mine operation position to collect water flowing back from the mine operation position and provide the water to the water storage unit; the water supply unit, the water storage unit and the water discharge unit jointly form a water circulation for supplying water to a mine operation position; wherein the water storage unit comprises a water storage part and a moving part; the moving part drives the water storage part to move; the water storage portion stores a water source of the water supply unit. The system adopts the mobile device to store water and is matched with the drainage unit, so that a sufficient water source is provided for mine operation under the condition that the mine operation space is not affected.

Description

Mine underground movable circulating water storage system

Technical Field

The utility model belongs to the field of on-mine operation, and relates to a mine underground movable circulating water storage system.

Background

The degree of mechanized operation in modern underground mining has been gradually increased, and stroke, water and electricity supply during equipment operation are basic conditions for equipment operation. Some devices have special requirements in terms of water consumption due to the working properties and technical characteristics. For example, the raise boring machine is used as special equipment for engineering construction of underground raise, cutting well, return air well, drop shaft, etc., and its main construction process includes upward operation and downward operation.

The downward operation is divided into a guide hole stage and a reaming stage, and the upward operation and the downward operation both require large water quantity to wash the impact point of the roller bit along the direction of the drill rod, so that the main purpose is to take away the rock slag generated by drilling by utilizing water flow, and prevent hole blockage and drill sticking.

Because the water consumption is large during the operation of the raise boring machine, in order to ensure the water consumption in the mine operation process in the prior art, a drainage ditch is needed to be arranged on site or a larger water pit is needed to be dug, and even a dam is built in a roadway for water storage.

However, the working space under the mine is limited, and once a drainage ditch is excavated or a larger water pit is excavated, great trouble is brought to the management of the construction operation site of the drilling machine; meanwhile, more water can be stored in the drainage ditch and the water pit, and more accumulated water brings great hidden trouble to safety electricity utilization.

Disclosure of utility model

The application provides a mine underground movable circulating water storage system, which adopts a movable device to store water and is matched with a water supply unit and a water drainage unit, so that a circulating water source is provided for a part of special operation of a mine under the condition that the operation space of the mine is not influenced, and the problem of site management of the mine operation is effectively solved.

In order to achieve the technical aim, the application adopts the technical scheme that the underground mine mobile circulating water storage system is used for providing water circulation for mine operation; comprises a water supply unit, a water storage unit and a drainage unit; the water supply unit is connected with the water storage unit to acquire a water source from the water storage unit and provide water for a mine operation position; the drainage unit is arranged below the mine operation position to collect water flowing back from the mine operation position and provide the water to the water storage unit; the water supply unit, the water storage unit and the water discharge unit jointly form a water circulation for supplying water to a mine operation position; wherein the water storage unit comprises a water storage part and a moving part; the moving part drives the water storage part to move; the water storage portion stores a water source of the water supply unit.

As an improved technical scheme of the application, the water storage part comprises a water inlet arranged at the top, a water outlet arranged at the bottom surface and a sewage outlet arranged at the bottom surface; the water inlet is communicated with the drainage unit; the water outlet is communicated with the water supply unit.

As an improved technical scheme of the application, the position of the sewage outlet is lower than that of the water outlet.

As an improved technical scheme of the application, the moving part comprises a moving base, and universal wheels are arranged below the moving base; the water storage portion is supported by the movable base.

As an improved technical scheme of the application, the moving part comprises a chassis of a special underground dumper for mines; the water storage part is supported by the underground dumper chassis special for the mine.

As an improved technical scheme of the application, the drainage unit comprises a reservoir and a water pump arranged in the reservoir; the cistern is located mine operation position below, the water pump is arranged in with the water in the cistern draw to the retaining unit.

As an improved technical scheme of the application, the depth of the water reservoir is not larger than the diameter of the water pump.

As an improved technical scheme of the application, the water storage volume of the water storage tank is not more than 1/2 of the water storage volume of the water storage unit.

As an improved technical scheme of the application, the water supply unit comprises a water supply pump and a water supply pipeline, wherein the water supply pump is arranged in the water storage unit so as to pump water in the water storage unit; the water supply pipeline is communicated with the water outlet of the water supply pump and provides a water source for the mining operation position.

Advantageous effects

The application effectively solves the water consumption problem of a large water consumption operation scene by utilizing the water circulation comprising the water supply unit, the water storage unit and the drainage unit.

Through the additional design of the water storage unit, the situation that the working environment is influenced by digging a pit at the mine working position is avoided, the current situation of messy and poor working sites can be effectively improved, and meanwhile, the influence of accumulated water on electricity safety can be avoided.

According to the application, the water storage unit is additionally provided with the moving part, so that the water storage part is convenient to move, and synchronous transition with host equipment for mine operation can be easily realized.

In particular, the underground dumper special for mines can be expanded to be used as a temporary water supply tank or a movable sprinkler in actual operation, and dust falling operation can be realized as a temporary water supply device when dust producing operation such as rock drilling is performed in a non-external water supply area; meanwhile, dust on the underground mine pavement is avoided, the underground mine pavement can be used as a pavement watering vehicle, the mine operation environment is improved, and the full utilization of mining equipment is fully realized.

In view of the water quantity problem of the operation site of the raise boring machine, the water consumption is larger in the operation process, but the total water consumption is controllable, and the reflux water quantity can be recycled after the slag flushing operation is completed, namely the local circulating water. According to the water supply unit, the water storage unit and the water discharge unit, the water circulation utilization mode only needs to provide a certain amount of water outside during the first starting operation, and the external water supply can be stopped after the operation circulation is met.

In conclusion, the underground movable circulating water storage system for the mine has the comprehensive effects of convenience in movement, simplicity in operation, high practicability and the like, and can achieve the practical application effects of meeting the circulating water supply requirement of an operation site, reducing the labor intensity of manual drainage, improving the field operation environment and the like in mine operation.

Drawings

FIG. 1 is a schematic diagram of a water storage unit according to the present application;

FIG. 2 is a schematic diagram of an underground mobile circulating water storage system of the mine of the application;

1. A water inlet; 2. a water outlet; 3. a sewage outlet; 4. underground dumper chassis special for mines; 5. mine operation position; 6. a water supply unit; 7. a drainage unit; 8. and a water storage unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present utility model fall within the protection scope of the present utility model. Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs.

As shown in fig. 2, a mine underground mobile circulation water storage system is used for providing water circulation for mine operation; comprises a water supply unit 6, a water storage unit 8 and a drainage unit 7; the water supply unit 6 is connected with the water storage unit 8 to obtain a water source from the water storage unit 8 and provide water for the mine operation position 5; the drainage unit 7 is arranged below the mine operation position 5 to collect water flowing back from the mine operation position 5 and is provided in the water storage unit 8; the water supply unit 6, the water storage unit 8 and the water discharge unit 7 together form a water circulation for supplying water to the mine operation position 5.

(1) And a water storage unit 8.

The water storage unit 8 includes a water storage portion and a moving portion.

The moving part drives the water storage part to move; the water storage portion stores a water source of the water supply unit 6. The water storage part comprises a water inlet 1 arranged at the top, a water outlet 2 arranged at the bottom surface and a sewage outlet 3 arranged at the bottom surface; the water inlet 1 is communicated with the drainage unit 7; the water outlet 2 is communicated with the water supply unit 6. The position of the drain outlet 3 is shown provided with a drain valve to clean the reservoir.

Preferably, the position of the drain outlet 3 is lower than the position of the water outlet 2.

In practical application, in order to facilitate the movement of the water storage unit 8, the moving part comprises a moving base, and universal wheels are arranged below the moving base; the water storage portion is supported by the movable base. During practical application, the universal wheel is selected according to the underground surface environment of the mine, the water storage unit 8 cannot normally move due to the fact that the diameter is too small, and the water storage unit 8 is out of balance due to the fact that the diameter is too large.

Further, in order not to increase the cost of mining work, local materials may be used, and as shown in fig. 1, the water storage unit 8 is a mine-dedicated underground dump truck chassis 4 and a water storage section supported by the mine-dedicated underground dump truck chassis 4. The water storage part comprises a water inlet 1 arranged at the top, a water outlet 2 arranged at the bottom surface and a sewage outlet 3 arranged at the bottom surface. When in practical application, the underground dumper chassis 4 special for mines is started, and the water storage unit 8 can move along with the underground dumper chassis; the relative positions of the water discharge unit 6 and the water supply unit 5 also change with the change of the working position, and the connection relationship between the water supply unit 5, the water discharge unit 6 and the water storage unit 8 is always unchanged.

(2) And a drainage unit 7.

The drainage unit 7 comprises a reservoir and a water pump arranged in the reservoir; the reservoir is arranged below the mine operation position 5, and the water pump is used for pumping water in the reservoir to the water storage unit 8.

In order to avoid damaging the mine working environment, the depth of the reservoir is not greater than the diameter of the water pump. Correspondingly, the water storage volume of the water storage tank is not more than 1/2 of the water storage volume of the water storage unit 8. The effect of cistern only is used for the collection of mine operation in-process water, not is used for retaining, therefore, it does not need big or dark, only needs to satisfy can put down the water pump.

(3) A water supply unit 6.

The water supply unit 6 comprises a water supply pump and a water supply pipeline, wherein the water supply pump is arranged in the water storage unit 8 so as to pump water in the water storage unit; the water supply pipeline is communicated with the water outlet 2 of the water supply pump and provides a water source for the mining operation position. The water outlet of the water supply pipeline can be directly connected with the water inlet pipe of the equipment according to the requirement, and the slag discharging purpose is achieved after the water supply pipeline of the equipment reaches the drilling position of the drill bit and the working face is flushed.

Example 1

A step of utilizing a mine-specific underground dump truck chassis 4, wherein the mine-specific underground dump truck chassis 4 is a station moving part; its cabin is modified to be 3600mm×2100mm×84mm water storage device, i.e. level water storage; a water inlet 1 is arranged above the water storage part, a water outlet 2 is arranged at the middle lower part, a blow-down valve is arranged at the bottom, and the blow-down valve controls the opening/closing of the blow-down outlet.

When the mining equipment works normally, a simple water pit, namely a reservoir, is arranged below the slag discharge point of the mining equipment, so that water return is convenient to concentrate; a water pump is arranged in the water pit, and a water outlet 2 of the water pump is connected to a water inlet 1 of a carriage water storage device (water storage part); the water is collected and pumped into a water storage device (water storage part), a water supply pump is arranged in the water storage device, water is pumped onto a water inlet pipe of the equipment through a water outlet 2, so that circulating water in the operation process is realized, sediment and sludge in the water storage tank can be periodically opened to timely remove a bottom blow-down valve (a blow-down port 3 is opened), and after the operation is finished, the water storage device can be driven to other places for continuous use, namely the movable circulating water storage device.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (9)

1. The underground mine movable circulating water storage system is used for providing water circulation for mine operation; the water supply device is characterized by comprising a water supply unit, a water storage unit and a drainage unit; the water supply unit is connected with the water storage unit to acquire a water source from the water storage unit and provide water for a mine operation position; the drainage unit is arranged below the mine operation position to collect water flowing back from the mine operation position and provide the water to the water storage unit; the water supply unit, the water storage unit and the water discharge unit jointly form a water circulation for supplying water to a mine operation position; wherein the water storage unit comprises a water storage part and a moving part; the moving part drives the water storage part to move; the water storage portion stores a water source of the water supply unit.

2. The underground mobile circulating water storage system of claim 1, wherein the water storage portion comprises a water inlet arranged at the top, a water outlet arranged at the bottom, and a sewage outlet arranged at the bottom; the water inlet is communicated with the drainage unit; the water outlet is communicated with the water supply unit.

3. A mine underground mobile circulation water storage system as claimed in claim 2, wherein the drain is located below the water outlet.

4. The mine underground mobile circulation water storage system of claim 1, wherein the mobile part comprises a mobile base, and universal wheels are arranged below the mobile base; the water storage portion is supported by the movable base.

5. The mine underground mobile circulation water storage system of claim 1, wherein the mobile part comprises a mine-specific underground dump truck chassis; the water storage part is supported by the underground dumper chassis special for the mine.

6. A mine underground mobile circulation water storage system as claimed in claim 1, wherein the drainage unit comprises a water reservoir and a water pump provided in the water reservoir; the cistern is located mine operation position below, the water pump is arranged in with the water in the cistern draw to the retaining unit.

7. A mine underground mobile circulation water storage system as defined in claim 6, wherein the depth of said water storage reservoir is no greater than the diameter of said water pump.

8. A mine underground mobile circulation water storage system as claimed in claim 6, wherein the water storage volume of the water storage tank is not greater than 1/2 of the water storage volume of the water storage unit.

9. A mine underground mobile circulation water storage system as claimed in claim 1, wherein the water supply unit includes a water supply pump and a water supply pipe, the water supply pump being provided in the water storage unit to pump water in the water storage unit; the water supply pipeline is communicated with the water outlet of the water supply pump and provides a water source for the mining operation position.