CN201925249U - High-efficient energy-saving device of hydraulic station - Google Patents

Abstract

The utility model relates to a high-efficient energy-saving device of a hydraulic station, which comprises a control cabinet, a hydraulic cylinder, a hydraulic control valve, an oil pump with a motor, an electro connecting pressure gauge, an electromagnetic relief valve, an accumulator, a check valve and an intelligent control valve, wherein the intelligent control valve is arranged between an oil pump inlet and the hydraulic cylinder, and is connected with the hydraulic control valve through the accumulator, the oil pump is provided with a small thin oil return pipe which is communicated with the hydraulic cylinder, the check valve and the electro connecting pressure gauge are sequentially arranged between the oil pump and the hydraulic control valve, the pipeline between a check valve and the electro connecting pressure gauge is communicated to an oil tank through the electromagnetic relief valve, and the intelligent control valve, the electro connecting pressure gauge and the electromagnetic relief valve are respectively connected with the control cabinet. The utility model has the advantages that the structure is simple, no cooling equipment is additionally arranged, and the use cost is low; the control cabinet is matched with the intelligent control valve so as to realize automatic pressurization, no high-speed oil return, and power-free continuous operation of the oil pump; and the whole energy consumption is low, the equipment can safely operate, the service life is long, and the environment can not be polluted.

Description

The hydraulic station efficient energy-saving device

Technical field

The utility model relates to a kind of hydraulic station energy saving device, is a kind of hydraulic station efficient energy-saving device of service intermittent specifically.

Background technique

At present the blast furnace hydraulic station is at production period, hydraulic pump motor works of not stopping work in 24 hours, or frequent in short-term heavy load starting work, and one side causes the waste of the energy, the working life of having reduced electric elements and hydraulic element on the other hand.The hydraulic pump motor of frequent short-term operation causes that the electric motor starting electric current is big, impact device, and energy waste is serious; Oil transportation or short-term operation repeatedly that oil pump does not stop 24 hours every days, the oil mass of oil pump output has only about 20% to be passed to operating cylinder, other about 80% oil mass has all flowed back to fuel tank at a high speed by relief valve, about 80% the oil stream that overflows back fuel tank has all been done idle work and has been converted to heat energy, cause oily temperature rise in the fuel tank, Sealings such as hydraulic system cushion rubber are produced harm, must be equipped with corresponding cooling equipment simultaneously and cool off, the device structure complexity, the user cost height.

Summary of the invention

In order to solve deficiencies such as hydraulic station structure complexity in the prior art, user cost height, energy consumption height, service life of equipment weak point, it is a kind of simple in structure that the utility model provides, need not set up cooling equipment, user cost is low, and motor service intermittent, energy consumption are low, the hydraulic station efficient energy-saving device of long service life.

The technical solution adopted in the utility model is: a kind of hydraulic station efficient energy-saving device, the oil pump that comprises control cabinet, hydraulic jack, hydraulic control valve and translator, the oil pump import connects hydraulic oil container, the oil pump outlet connects hydraulic jack through hydraulic control valve, hydraulic control valve all is connected control cabinet with motor, its technical characterstic is also to comprise pressure gauge with electric contact, electromagnetic relief valve, accumulator, one-way valve and intelligent control valve, described intelligent control valve is arranged between oil pump import and the hydraulic oil container, and intelligent control valve connects hydraulic control valve through accumulator; Described oil pump is provided with the little tubule of oil return that is communicated with hydraulic oil container, is provided with one-way valve and pressure gauge with electric contact successively between described oil pump outlet and the hydraulic control valve, and the pipeline between one-way valve and the pressure gauge with electric contact is communicated to fuel tank through electromagnetic relief valve; Described intelligent control valve, pressure gauge with electric contact and electromagnetic relief valve all are connected control cabinet.

Further, be provided with one-way valve between described intelligent control valve and the hydraulic oil container.

Again further, be provided with pressure gauge between described intelligent control valve and the accumulator.

When hydraulic jack must push the work forward, set the high-pressure of pressure gauge with electric contact, the control cabinet starting electrical machinery drives oil pump work, control cabinet control this moment intelligent control valve connects fuel tank and oil pump, electromagnetic relief valve are closed, oil pump suction hydraulic oil is delivered to hydraulic control valve through one-way valve, intelligent control valve, pressure gauge with electric contact, and hydraulic control valve control hydraulic oil promotes hydraulic jack work and controls hydraulic oil simultaneously to the accumulator hydraulic energy-accumulating; When pressure gauge with electric contact reaches the setting height for voltage pressure, control cabinet control motor stops, the connection between control cabinet control hydraulic control valve and accumulator is simultaneously closed, intelligent control valve turn-on accumulator and oil pump import, electromagnetic relief valve unlatching, hydraulic oil in the hydraulic jack is back to hydraulic oil container through hydraulic control valve, electromagnetic relief valve, and accumulator discharges hydraulic oil and is back to hydraulic oil container through intelligent control valve, oil pump, the little tubule of oil return.

Adopt above technological scheme, the beneficial effect that the utility model reaches is: hydraulic station is controlled the pressure stability of whole hydraulic system in the interval that pressure gauge with electric contact is set by this energy-conservation device, control cabinet is controlled the work of oil pump according to the pressure of system.Low when system pressure, when oil mass need be replenished, control cabinet control motor gets electric startup, oil pump does not have inrush current and starts replenishment system pressure, oil mass, oil pump stops when adding to system's pressure maximum.When system pressure, when oil mass arrives lower bound, the automatic once more soft start of oil pump; The accumulator stored energy, intelligent control valve may command system pressure, oil mass are replenished when the pressure oil mass arrives lower bound in the interval that pressure gauge with electric contact is set, and arrive high oil pump in limited time and stop.When accumulator released energy, oil return promoted oil pump and guarantees the incomplete stall of oil pump, and when motor started once more, motor need not inrush current; The hydraulic oil liquid of oil pump output overflows back fuel tank no longer at a high speed and flogs a dead horse, the oil pump acting obtains 100% and all utilizes, the oil that original oil pump overflows back fuel tank accounts for about 80% of the whole oil transportation amounts of oil pump, oil pump and hydraulic element have shortened for about 80% running time, thereby saving power, the working life that can strengthen oil pump and hydraulic element greatly simultaneously; No longer high speed overflow of hydraulic oil, the oil that can reduce hydraulic station is warm, need not be equipped with cooling equipment, reduces user cost, and the working life that has strengthened sealing and hydraulic oil greatly, also can stop the oil impregnate phenomenon, reaches the purpose of hygienic environment-protecting.

The utility model is simple in structure, need not set up cooling equipment, and user cost is low, adopt control cabinet to cooperate intelligent control valve to realize automatic supercharging, no high speed oil return and the unpowered continuous running of oil pump of hydraulic jack, whole energy consumption is low, equipment operation safety, long service life, environmentally safe.

Description of drawings

Fig. 1 is the utility model structural representation.

Among the figure: hydraulic oil container 1, intelligent control valve 2, oil pump 3, motor 4, one- way valve 5,13, electromagnetic relief valve 6, pressure gauge with electric contact 7, hydraulic control valve 8, hydraulic jack 9, control cabinet 10, accumulator 11, pressure gauge 12, the little tubule 14 of oil return.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.

Shown in Figure 1, the hydraulic station efficient energy-saving device comprises hydraulic oil container 1, intelligent control valve 2, oil pump 3, motor 4, one- way valve 5,13, electromagnetic relief valve 6, pressure gauge with electric contact 7, hydraulic control valve 8, hydraulic jack 9, control cabinet 10, accumulator 11 and pressure gauge 12.Hydraulic oil container 1 connects oil pump 3 through one-way valve 13, intelligent control valve 2 successively, oil pump 3 has motor 4, oil pump 3 connects pressure gauge with electric contact 7 and electromagnetic relief valve 6 respectively through one-way valve 5, electromagnetic relief valve 6 is communicated with hydraulic oil container 1, oil pump 3 is communicated with hydraulic oil container 1 through the little tubule 14 of oil return, pressure gauge with electric contact 7 connects hydraulic control valve 8, and hydraulic control valve 8 connects hydraulic jack 9; Intelligent control valve 2 connects hydraulic control valve 8 through pressure gauge 12, accumulator 11 successively; Intelligent control valve 2, motor 4, electromagnetic relief valve 6, pressure gauge with electric contact 7, hydraulic control valve 8 and pressure gauge 12 all are connected control cabinet 10.At first set system's high-pressure of pressure gauge with electric contact, control cabinet calculates system's low level voltage according to accumulator, hydraulic jack specification and use occasion requirement; The control cabinet starting electrical machinery drives oil pump work, when reaching, pressure gauge with electric contact sets low level pressure, control cabinet control intelligent control valve connects fuel tank and oil pump, electromagnetic relief valve are closed, oil pump suction hydraulic oil is delivered to hydraulic control valve through one-way valve, intelligent control valve, pressure gauge with electric contact, and hydraulic control valve control hydraulic oil promotes hydraulic jack work and controls hydraulic oil simultaneously to the accumulator hydraulic energy-accumulating; When pressure gauge with electric contact reaches the setting height for voltage voltage, control cabinet control motor stops, the connection between control cabinet control hydraulic control valve and accumulator is simultaneously closed, intelligent control valve turn-on accumulator and oil pump import, electromagnetic relief valve unlatching, hydraulic oil in the hydraulic jack is back to hydraulic oil container through hydraulic control valve, electromagnetic relief valve, accumulator discharges hydraulic oil and is back to hydraulic oil container through intelligent control valve, oil pump, the little tubule of oil return, and the pressure gauge with electric contact System Testing Pressure reduces gradually until low level pressure and repeats above-mentioned working procedure.

When hydraulic station is worked, be connected in the pressure gauge test accumulation of energy pressure between accumulator and intelligent control valve, guarantee that system is reduced in the process of low level pressure by high-pressure, the accumulator self-energy can continue to promote oil pump and do unpowered rotation, help the startup once more of oil pump, motor need not inrush current, prolongs motor working life.

Claims (3)

1. hydraulic station efficient energy-saving device, comprise control cabinet (10), hydraulic jack (9), the oil pump (3) of hydraulic control valve (8) and translator (4), the oil pump import connects hydraulic oil container, the oil pump outlet connects hydraulic jack through hydraulic control valve, hydraulic control valve all is connected control cabinet with motor, it is characterized in that: also comprise pressure gauge with electric contact (7), electromagnetic relief valve (6), accumulator (11), one-way valve (5) and intelligent control valve (2), described intelligent control valve (2) is arranged between oil pump (3) import and the hydraulic oil container (1), and intelligent control valve connects hydraulic control valve through accumulator (11); Described oil pump is provided with the little tubule of oil return (14) that is communicated with hydraulic oil container, be provided with one-way valve (5) and pressure gauge with electric contact (7) successively between described oil pump outlet and the hydraulic control valve, the pipeline between one-way valve and the pressure gauge with electric contact is communicated to fuel tank through electromagnetic relief valve (6); Described intelligent control valve, pressure gauge with electric contact and electromagnetic relief valve all are connected control cabinet.

2. hydraulic station efficient energy-saving device according to claim 1 is characterized in that: be provided with one-way valve (13) between described intelligent control valve (2) and the hydraulic oil container (1).

3. hydraulic station efficient energy-saving device according to claim 1 is characterized in that: be provided with pressure gauge (12) between described intelligent control valve (2) and the accumulator (11).

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