CN205503389U - Colliery pressure fan, pit water energy recovery utilize system - Google Patents

Abstract

The utility model discloses a colliery pressure fan, pit water energy recovery utilize system, it includes that pressure fan waste heat utilization system, pit water heat source utilize system and solar energy to utilize the system, and the pressure fan passes through pipeline and waste heat recovery device intercommunication, and waste heat recovery device passes through pipeline and circulation tank intercommunication, pipeline and water resource heat pump intercommunication are passed through to the mine pond, and the water resource heat pump passes through pipeline and the 2nd circulation tank intercommunication, the solar energy collection pipe is through pipeline and the 3rd circulation tank intercommunication, a circulation tank, the 2nd circulation tank, the 3rd circulation tank pass through the pipe connection constant temperature water tank respectively, and the constant temperature water tank passes through pipe connection water terminal. The utility model discloses an aspect furthest reutilization pressure fan waste heat for colliery worker's bathing, energy saving and consumption reduction has reduced the temperature of pressure fan simultaneously, has prolonged the life of pressure fan, on the other hand utilizes the two heats source of solar energy and pit water to the running water heat supply, has ensured heating system's stability, reliability.

Description

A kind of colliery pressure fan, mine water energy recovery utilize system

Technical field

This utility model relates to colliery energy recovery and utilizes technical field, especially relates to a kind of colliery pressure fan, mine water energy recovery utilizes system.

Background technology

Within coal mines, the hot water having a bath for worker utilizes boiler combustion coal to supply mostly, causes a large amount of consumption of steam coal every year, and standard coal burning not only increases enterprise's production cost, and increase CO2 emission, do not meet national energy-saving and reduce discharging policy.Pressure fan is that shaft production has to use for equipment; run duration can produce substantial amounts of heat; these heats are the most all directly discharged in air by hot gas duct, not only cause the waste of heat, but also pollute air; it is unfavorable for environmental conservation; work long hours and can make pressure fan high oil temperature, increase machine-spoiled rate, reduce machine oil, oil strainer, gs-oil separator replacing time limit; reduce the service life of equipment part, add pressure fan integrated maintenance cost.The consumption that to the pollution of air, reduces coal consumption during how solving boiler operatiopn, improve the working condition of pressure fan, heat can be made full use of, reduce pressure fan integrated maintenance cost, solve simultaneously worker have a bath wait needed for the problem of hot water, become coal mining enterprise and colliery related scientific research unit key problems-solving.

Summary of the invention

For solving the problems referred to above, the purpose of this utility model is to provide a kind of colliery pressure fan, mine water energy recovery utilizes system.

For achieving the above object, this utility model adopts the following technical scheme that

A kind of colliery pressure fan, mine water energy recovery utilize system, it includes that pressure fan bootstrap system, mine water thermal source utilize system and solar energy utilization system, pressure fan bootstrap system includes pressure fan, waste-heat recovery device and the first cyclic water tank, pressure fan is connected with waste-heat recovery device by pipeline, and waste-heat recovery device is connected by pipeline and the first cyclic water tank；Mine water thermal source utilizes system to include mine pond, water resource heat pump and the second cyclic water tank, and mine pond is connected with water resource heat pump by pipeline, and water resource heat pump is connected by pipeline and the second cyclic water tank；Solar energy utilization system includes solar energy heat collection pipe and the 3rd cyclic water tank, and solar energy heat collection pipe is connected by pipeline and the 3rd cyclic water tank；First cyclic water tank, the second cyclic water tank, the 3rd cyclic water tank connect thermostatic water tank by pipeline respectively, and thermostatic water tank is connected by pipeline uses water terminal.

Described colliery pressure fan, mine water energy recovery utilize system, and the pipeline between outlet and the water inlet of waste-heat recovery device of its first cyclic water tank is provided with the 6th water circulating pump.

Described colliery pressure fan, mine water energy recovery utilize system, and the pipeline between outlet and the water inlet of water resource heat pump of its second cyclic water tank is provided with the 4th water circulating pump.

Described colliery pressure fan, mine water energy recovery utilize system, and the pipeline between outlet and the water inlet of solar energy heat collection pipe of its 3rd cyclic water tank is provided with the first water circulating pump.

Described colliery pressure fan, mine water energy recovery utilize system, and the water supply line that its mine pond is connected with water resource heat pump is provided with the 3rd water circulating pump.

Described colliery pressure fan, mine water energy recovery utilize system, and the pipeline that its first cyclic water tank, the second cyclic water tank, the 3rd cyclic water tank are connected with thermostatic water tank is respectively arranged with the second water circulating pump, the 5th water circulating pump, the 7th water circulating pump.

Described colliery pressure fan, mine water energy recovery utilize system, and its first cyclic water tank, the second cyclic water tank, the 3rd cyclic water tank are provided by electromagnetic valve respectively and are connected with tap water water source with the pipeline of Si-P crystal antisludging equipment.

Described colliery pressure fan, mine water energy recovery utilize system, and the pipeline between its first cyclic water tank and waste-heat recovery device, the pipeline between mine pond and water resource heat pump, pipeline between water resource heat pump and the second cyclic water tank are provided with pressure transducer and temperature sensor.

Owing to using technical scheme as above, this utility model has a following superiority:

This colliery pressure fan, mine water energy recovery utilize system, its simple in construction, reasonable in design, on the one hand cold and hot exchange principle is used, reclaim to greatest extent and utilize pressure fan waste heat, by waste-heat recovery device tap water, the high temperature oil heat of pressure fan is cemented out, for Coal Mine Staff bathing, reach energy-saving and cost-reducing, reduced the purpose of enterprise's production cost, reduce the temperature of pressure fan simultaneously, significantly improve the running environment of pressure fan, effectively reduce the maintenance cost of pressure fan, extend the service life of pressure fan；On the other hand, utilize solar energy and the double thermal source of mine water to tap water heat supply, ensured the stability of heating system, reliability；By the tap water loop heating system that pressure fan, solar energy and mine water three are independent, continual acquisition hot water enters in thermostatic water tank, meets the supply requirement of hot water, and effects of energy saving and emission reduction is obvious.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

In figure: 1-solar energy heat collection pipe；2-tap water water source；3(a, b, c)-Si-P crystal antisludging equipment；4(a, b, c)-electromagnetic valve；5-the 3rd cyclic water tank；6-the 7th water circulating pump；7-thermostatic water tank；8-water terminal；9-the 5th water circulating pump；10-the second cyclic water tank；11-the first water circulating pump；12-water resource heat pump；13-mine pond；14-the 3rd water circulating pump；15-the 4th water circulating pump；16-the first cyclic water tank；17-the second water circulating pump；18-the 6th water circulating pump；19-pressure fan；20-waste-heat recovery device.

Detailed description of the invention

With embodiment, the technical solution of the utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in Figure 1, this colliery pressure fan, mine water energy recovery utilize system, it includes that pressure fan bootstrap system, mine water thermal source utilize system and solar energy utilization system, pressure fan bootstrap system includes pressure fan 19, waste-heat recovery device 20 and the first cyclic water tank 16, pressure fan 19 is connected with waste-heat recovery device 20 by pipeline, and waste-heat recovery device is connected by pipeline and the first cyclic water tank 16；Mine water thermal source utilizes system to include mine pond 13, water resource heat pump 12 and the second cyclic water tank 10, and mine pond 13 is connected with water resource heat pump 12 by pipeline, and water resource heat pump passes through pipeline and the second cyclic water tank 10 connects；Solar energy utilization system includes that solar energy heat collection pipe 1 and the 3rd cyclic water tank 5, solar energy heat collection pipe 1 are connected by pipeline and the 3rd cyclic water tank 5；First cyclic water tank the 16, second cyclic water tank the 10, the 3rd cyclic water tank 5 connects thermostatic water tank 7 by pipeline respectively, and thermostatic water tank connects use water terminal 8 by pipeline.

It is provided with the 6th water circulating pump 18 on pipeline between outlet and the water inlet of waste-heat recovery device 20 of the first above-mentioned cyclic water tank 16.

It is provided with the 4th water circulating pump 15 on pipeline between outlet and the water inlet of water resource heat pump 12 of the second above-mentioned cyclic water tank 10.

It is provided with the first water circulating pump 11 on pipeline between outlet and the water inlet of solar energy heat collection pipe 1 of the 3rd above-mentioned cyclic water tank 5.

It is provided with the 3rd water circulating pump 14 on the water supply line that above-mentioned mine pond 13 is connected with water resource heat pump 12.

It is respectively arranged with the second water circulating pump the 17, the 5th water circulating pump the 9, the 7th water circulating pump 6 on the pipeline that first above-mentioned cyclic water tank the 16, second cyclic water tank the 10, the 3rd cyclic water tank 5 is connected with thermostatic water tank 7.

First above-mentioned cyclic water tank the 16, second cyclic water tank the 10, the 3rd cyclic water tank 5 is provided by electromagnetic valve 4c, electromagnetic valve 4b, electromagnetic valve 4a and Si-P crystal antisludging equipment 3c respectively, Si-P crystal antisludging equipment 3b, the pipeline of Si-P crystal antisludging equipment 3a are connected with tap water water source 2.Height according to cyclic water tank liquid level is by the control constantly moisturizing in cyclic water tank of electromagnetic valve, and Si-P crystal antisludging equipment can play and prevent the generation of incrustation scale, the service life of protective conduit in discharge pipe line.

It is provided with pressure transducer and temperature sensor on the above-mentioned pipeline between pipeline, mine pond 13 and water resource heat pump 12 between the first cyclic water tank 16 and waste-heat recovery device 20, the pipeline between water resource heat pump 12 and the second cyclic water tank 10.

Work process of the present utility model is described below in detail.

This utility model colliery pressure fan, mine water energy recovery utilize in system, each water pump, electromagnetic valve automatically control and the monitoring of pressure transducer and temperature sensor is carried out centralized Control by automatic control system.

Pressure fan bootstrap system work process: first pass through control system and open electromagnetic valve 4c, makes tap water be flowed in the first cyclic water tank 16 by pipeline, makes water level reach the peak level set；Control system opens the 6th water circulating pump 18, make the constantly water pipeline in waste-heat recovery device 20 of the tap water in the first cyclic water tank 16 is circulated, the high temperature oil of pressure fan 19 flows into waste-heat recovery device simultaneously, circulate in the passage of oil excessively in waste-heat recovery device, carry out profit and replace heat exchange, high temperature oil heat is absorbed by the water of low temperature, reduce the temperature of air compressor machine, absorb the hot water after heat heats up and flow in the first cyclic water tank by the pipeline between water inlet and the outlet of waste-heat recovery device of the first cyclic water tank, after temperature rises to design temperature, stop heating, then by the second water circulating pump 17, the water in first cyclic water tank is delivered in thermostatic water tank 7, for use water terminal 8.When the water level decreasing in the first cyclic water tank to lower limit water level, by the action of electromagnetic valve 4c again moisturizing in the first cyclic water tank, proceed the heat exchange of oil and water, hot water preparing.

Mine water thermal source utilizes system work process: first passes through control system and opens electromagnetic valve 4b, makes tap water be flowed in the second cyclic water tank 10 by pipeline, makes water level reach the peak level set；The mine water gushed out down-hole in mine pond 13 by the 3rd water circulating pump 14 is sent in water resource heat pump 12 by pipeline, control system opens the 4th water circulating pump 15 simultaneously, the tap water in the second cyclic water tank 10 is made to send in water resource heat pump by pipeline, constantly circulate in water resource heat pump, in water resource heat pump, the mine water in different pipelines replaces heat exchange with tap water, tap water absorbs the heat energy of mine water, when the tap water temperature in the second cyclic water tank 10 reaches the temperature set, stop heating, by the 5th water circulating pump 9, the water in second cyclic water tank 10 is transported in thermostatic water tank, for use water terminal 8.When the water level decreasing in the second cyclic water tank to lower limit water level, by the action of electromagnetic valve 4b again moisturizing in the second cyclic water tank, proceed heat exchange, hot water preparing.

Solar energy utilization system work process: first pass through control system and open electromagnetic valve 4a, makes tap water pass through pipeline and flows in the 3rd cyclic water tank 5, makes water level reach the peak level set；By the first water circulating pump 11, the tap water in the 3rd cyclic water tank 5 is sent in solar energy heat collection pipe 1 by pipeline, constantly circulate in solar energy heat collection pipe, tap water absorbs solar energy to carry out putting forward heat, when the tap water temperature in the 3rd cyclic water tank 5 reaches the temperature set, stop heating, by the 7th water circulating pump 6, the water in the 3rd cyclic water tank 5 is transported in thermostatic water tank 7, for use water terminal 8.When the water level decreasing in the 3rd cyclic water tank to lower limit water level, by the action of electromagnetic valve 4a again moisturizing in the 3rd cyclic water tank, proceed heating, hot water preparing.

This utility model utilizes three independent tap water loop heating systems, and continual hot water preparing is delivered in thermostatic water tank, meets the supply requirement of hot water.

Above example is only in order to illustrate the technical solution of the utility model, but this utility model is not limited to above-described embodiment, in the ken that those of ordinary skill in the art are possessed, can also modify on the premise of without departing from this utility model objective, or wherein portion of techniques feature is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the technical solution of the utility model.

Claims (8)

1. a colliery pressure fan, mine water energy recovery utilize system, it is characterized in that: it includes that pressure fan bootstrap system, mine water thermal source utilize system and solar energy utilization system, pressure fan bootstrap system includes pressure fan, waste-heat recovery device and the first cyclic water tank, pressure fan is connected with waste-heat recovery device by pipeline, and waste-heat recovery device is connected by pipeline and the first cyclic water tank；Mine water thermal source utilizes system to include mine pond, water resource heat pump and the second cyclic water tank, and mine pond is connected with water resource heat pump by pipeline, and water resource heat pump is connected by pipeline and the second cyclic water tank；Solar energy utilization system includes solar energy heat collection pipe and the 3rd cyclic water tank, and solar energy heat collection pipe is connected by pipeline and the 3rd cyclic water tank；First cyclic water tank, the second cyclic water tank, the 3rd cyclic water tank connect thermostatic water tank by pipeline respectively, and thermostatic water tank is connected by pipeline uses water terminal.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: be provided with the 6th water circulating pump on the pipeline between outlet and the water inlet of waste-heat recovery device of its first cyclic water tank.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: be provided with the 4th water circulating pump on the pipeline between outlet and the water inlet of water resource heat pump of its second cyclic water tank.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: be provided with the first water circulating pump on the pipeline between outlet and the water inlet of solar energy heat collection pipe of its 3rd cyclic water tank.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: be provided with the 3rd water circulating pump on the water supply line that its mine pond is connected with water resource heat pump.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: be respectively arranged with the second water circulating pump, the 5th water circulating pump, the 7th water circulating pump on the pipeline that its first cyclic water tank, the second cyclic water tank, the 3rd cyclic water tank are connected with thermostatic water tank.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: its first cyclic water tank, the second cyclic water tank, the 3rd cyclic water tank are provided by electromagnetic valve respectively and are connected with tap water water source with the pipeline of Si-P crystal antisludging equipment.

Colliery the most according to claim 1 pressure fan, mine water energy recovery utilize system, it is characterized in that: be provided with pressure transducer and temperature sensor on the pipeline between its first cyclic water tank and waste-heat recovery device, the pipeline between mine pond and water resource heat pump, pipeline between water resource heat pump and the second cyclic water tank.