CN108212855A - A kind of method for cleaning of precision instrument surface dirt - Google Patents

Abstract

The invention discloses a kind of method for cleaning of precision instrument surface dirt, firstly the need of establishing dust pelletizing system, then the wind direction change-over switch of the two-way blower fan is adjusted, make the two-way blower fan blowing direction variable, so as to which the dedusting baffle and dust excluding hood realization can not only dry but also the dust on precision instrument surface can have been cleared up under the alternating of two operating modes with air draught；The dust separator of setting detaches the dust in air-flow, allows the flow to recycle and formed convection current, so as to enhance dust removing effects, avoids causing secondary pollution；When being dusted to precision instrument dust accretions compared with multiple location, start rotating brushes, by the cooperation between rotating brushes and high pressure draught, more thoroughly cleaning is carried out to precision instrument surface；It completes after clearing up precision instrument surface dust, is first shut off the two-way blower fan, is then shut off the dust-separating appliance, the dedusting baffle is finally withdrawn into precision instrument, and clear up the dust-collecting box.

Description

A kind of method for cleaning of precision instrument surface dirt

Technical field

The present invention relates to dedusting technology field, more particularly to a kind of cleaning side of precision instrument surface dirt Method.

Background technology

At present, precision instrument surface dirt method for cleaning toward using directly blowing or use hairbrush clear up by the way of into High pressure draught when being cleared up using high pressure air blowing mode, is directly blowed to precision instrument surface and blown off its surface, reached and remove by row dedusting The purpose of dirt；When being cleared up using hairbrush, directly dust is swept by hairbrush and is fallen, so as to fulfill the cleaning to surface dirt；

It, can not be to ash but when being handled by the way of direct blowing and hairbrush clean precision instrument surface Dirt is collected, and be easy to cause secondary pollution, and is often required for taking a substantial amount of time, and could be completed to precision instrument table The cleaning of face dust, while when being cleared up using hairbrush precision instrument surface, the dust in narrow gap can not be brushed out, Residual has been not thorough so as to cause cleaning.

Therefore, it is thorough how to provide a kind of cleaning, the cleaning side of the precision instrument surface dirt of secondary pollution will not be caused The problem of method is those skilled in the art's urgent need to resolve.

Invention content

In view of this, the present invention provides a kind of method for cleaning of precision instrument surface dirt, can not only be in rotation hair It is comprehensive under the cooperation of brush that effectively precision instrument surface dirt is cleared up, and air can be formed in scale removal process Convection current, while the dust cleaned up can effectively be collected, so as to which secondary pollution will not be caused.

To achieve these goals, the present invention adopts the following technical scheme that：

A kind of method for cleaning of precision instrument surface dirt, including：

Dedusting baffle is disposed around precision instrument surrounding, and set at the top of precision instrument by the establishment of step 1, dust pelletizing system Put dust excluding hood；Several baffle ventilation openings are distributed on the dedusting baffle, and the baffle ventilation opening connects with baffle air hose It connects, the baffle air hose is connect with the blow vent of two-way blower fan one end；The blow vent of the two-way blower fan other end passes through dedusting Cover air hose is connect with several dust excluding hood ventilation openings on the dust excluding hood；In the baffle air hose or the dust excluding hood air hose On be provided with dust-separating appliance；Rotating brushes is provided on the dust excluding hood；Wind direction conversion is provided on the two-way blower fan Switch and wind speed regulating switch；

Step 2, the wind direction change-over switch for first adjusting the two-way blower fan, make the two-way blower fan and the dust excluding hood air hose The blow vent blowout high pressure gas of connecting pin, gas is sucked with the blow vent of the baffle air hose connecting pin；And according to accurate instrument The amount of dust on device surface sets the wind speed of the two-way blower fan；Start the dust-separating appliance simultaneously；

Dedusting is blowed to precision instrument outer surface in step 3, the hand-held dust excluding hood, and precision instrument surface is a large amount of at this time Dust is blown afloat by high pressure draught in suspended state, and the baffle ventilation opening of dust dedusting baffle described in surrounding of suspension sucks And enter the baffle air hose, so as to form cross-ventilation；

Step 4 is flow to the suspension of air motion in the dust-separating appliance, carries out dust separation, described The dust isolated is stored in dust-collecting box by dust-separating appliance, and clean gas flow is discharged, and final clean gas flow is removed from described Dust hood ventilation opening is discharged；

Step 5, when being dusted to precision instrument dust accretions compared with multiple location, start rotating brushes, by rotating hair Cooperation between brush and high pressure draught carries out precision instrument surface more thoroughly cleaning；

Step 6 after completing main dedusting work early period, adjusts the wind direction change-over switch of the two-way blower fan, makes described double One end blow vent sucking gas being connect to wind turbine with the dust excluding hood air hose, the other end outlet being connect with the baffle air hose Mouth blowout high pressure gas；And the wind speed of the two-way blower fan is set according to the remaining dust amount on precision instrument surface；

Step 7, the dedusting baffle ventilation opening precision instrument surrounding is blowed, precision instrument remained on surface at this time Dust blown afloat by high pressure draught in suspended state, the dust of suspension is inhaled by the dust excluding hood right over precision instrument Enter, so as to form cross-ventilation；

Step 8 is flow to the suspension of air motion in the dust-separating appliance, carries out dust separation, described The dust isolated is stored in dust-collecting box by dust-separating appliance, and clean gas flow is discharged, and final clean gas flow is from the gear Plate ventilation opening is discharged；

Step 9 is completed after clearing up precision instrument surface dust, is first shut off the two-way blower fan, is then shut off described The dedusting baffle is finally withdrawn precision instrument, and clears up the dust-collecting box by dust-separating appliance.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the dust excluding hood is transparent material system It forms, convenient for observation cleaning state during dust is cleared up.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the dust excluding hood is in umbrella shape, is increased Dedusting area.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the rotating brushes passes through servo electricity Machine is driven, and can be directed to remaining dust amount and be adjusted rotating brushes rotary speed.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the dust-separating appliance is material Separator.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the servo motor, the two-way wind Machine, the material separator are electrically connected with controller, and the servo motor, the two-way wind are controlled by the controller The working condition of machine, the material separator.

Preferably, it in a kind of above-mentioned method for cleaning of precision instrument surface dirt, is set at the dust excluding hood ventilation opening There is dust concentration sensor, the dust concentration sensor is electrically connected with the controller, and in real time by dust concentration information The controller is sent to, when dust concentration is less than given threshold, the controller controls the two-way blower fan, the servo Motor, the material separator are stopped, and complete dedusting.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the controller is by the two-way wind Rotating speed, wind direction and the servo motor rotating speed of machine are shown on the desplay apparatus, and allow the operator to observe in real time described double To the parameters such as rotation speed of fan wind direction and the servo motor rotating speed.

Preferably, in a kind of above-mentioned method for cleaning of precision instrument surface dirt, the display device is liquid crystal display Screen.

It can be seen via above technical scheme that compared with prior art, the present disclosure provides a kind of precision instrument tables The method for cleaning of face dust, dust excluding hood and dedusting baffle can spray high pressure gas in turn carries out the dust on precision instrument surface Cleaning, when several ventilation openings on dust excluding hood spray high pressure gas, several ventilation opening suction airflows of dedusting baffle are removed Dust hood hits the dust on precision instrument surface winged, and dust is made to be suspended in dedusting baffle and is enclosed in the space set, dedusting baffle it is several A ventilation opening sucks suspended particulate in baffle tracheae, and the dust-separating appliance by being connected in gas channel receives dust Collect in dust-collecting box, clean air is discharged, clean air is made to be discharged from dust excluding hood ventilation opening, so as to form cross-ventilation, and And it winged dust is hit by high pressure draught will not disorderly fly to cause secondary pollution；

When several baffle ventilation openings on dedusting baffle spray high pressure gas, several dust excluding hood ventilation openings sucking gas Stream, peripheral direction from dedusting baffle to precision instrument spray high pressure gas, surface dirt is hit it is winged, make dust be suspended in dedusting gear Plate is enclosed in the space set, several ventilation openings on dust excluding hood suck suspended particulate in dust excluding hood tracheae, and by being connected to Dust is collected into dust-collecting box by the dust-separating appliance in gas channel, and clean air is discharged, make clean air from except Dust hood ventilation opening is discharged, more thorough to the dust cleaning on precision instrument surface so as to form reverse cross-ventilation；For stubbornness Spot dust can be purged by the cooperation between rotating brushes and high pressure draught；

The present invention comprehensive under the cooperation of rotating brushes effectively can not only carry out clearly precision instrument surface dirt Reason, and cross-ventilation can be formed in scale removal process, while the dust cleaned up can effectively be collected, so as to not It can cause secondary pollution.

Description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention, for those of ordinary skill in the art, without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 attached drawings are dedusting flow diagram of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a kind of method for cleaning of precision instrument surface dirt, can not only be in rotating brushes It is comprehensive under cooperation that effectively precision instrument surface dirt is cleared up, and air pair can be formed in scale removal process Stream, while the dust cleaned up can effectively be collected, so as to which secondary pollution will not be caused.

With reference to attached drawing 1, the invention discloses a kind of method for cleaning of precision instrument surface dirt, including：

Dedusting baffle is disposed around precision instrument surrounding, and set at the top of precision instrument by the establishment of step 1, dust pelletizing system Put dust excluding hood；Several baffle ventilation openings are distributed on dedusting baffle, and baffle ventilation opening is connect with baffle air hose, baffle wind Pipe is connect with the blow vent of two-way blower fan one end；The blow vent of the two-way blower fan other end passes through on dust excluding hood air hose and dust excluding hood Several dust excluding hood ventilation openings connect；Dust-separating appliance is provided on baffle air hose or dust excluding hood air hose；On dust excluding hood It is provided with rotating brushes；Wind direction change-over switch and wind speed regulating switch are provided on two-way blower fan；

Step 2, the wind direction change-over switch for first adjusting two-way blower fan, make the ventilation of two-way blower fan and dust excluding hood air hose connecting pin Mouth blowout high pressure gas sucks gas with the blow vent of baffle air hose connecting pin；And it is set according to the amount of dust on precision instrument surface Determine the wind speed of two-way blower fan；Start dust-separating appliance simultaneously；

Dedusting is blowed to precision instrument outer surface in step 3, hand-held dust excluding hood, at this time a large amount of dusts in precision instrument surface It is blown afloat by high pressure draught in suspended state, the dust of suspension is sucked by the baffle ventilation opening of surrounding dedusting baffle and enters baffle wind Pipe, so as to form cross-ventilation；

Step 4 is flow to the suspension of air motion in dust-separating appliance, carries out dust separation, dust separation The dust isolated is stored in dust-collecting box by device, and clean gas flow is discharged, and final clean gas flow is arranged from dust excluding hood ventilation opening Go out；

Step 5, when being dusted to precision instrument dust accretions compared with multiple location, start rotating brushes, by rotating hair Cooperation between brush and high pressure draught carries out precision instrument surface more thoroughly cleaning；

Step 6 after completing main dedusting work early period, adjusts the wind direction change-over switch of two-way blower fan, make two-way blower fan with One end blow vent sucking gas of dust excluding hood air hose connection, the other end gas outlet blowout high pressure gas being connect with baffle air hose； And the wind speed of two-way blower fan is set according to the remaining dust amount on precision instrument surface；

Step 7, dedusting baffle ventilation opening precision instrument surrounding is blowed, the ash of precision instrument remained on surface at this time Dirt is blown afloat by high pressure draught in suspended state, and the dust of suspension is sucked by the dust excluding hood right over precision instrument, so as to shape Into cross-ventilation；

Step 8 is flow to the suspension of air motion in dust-separating appliance, carries out dust separation, dust separation The dust isolated is stored in dust-collecting box by device, and clean gas flow is discharged, and final clean gas flow is discharged from baffle ventilation opening；

Step 9 is completed after clearing up precision instrument surface dust, is first shut off two-way blower fan, is then shut off dust separation Dedusting baffle is finally withdrawn precision instrument, and clears up dust-collecting box by device.

In order to advanced optimize above-mentioned technical proposal, dust excluding hood is made for transparent material, during dust is cleared up Convenient for observing cleaning state.

In order to advanced optimize above-mentioned technical proposal, dust excluding hood is in umbrella shape, increases dedusting area.

In order to advanced optimize above-mentioned technical proposal, rotating brushes is driven by servo motor, can be directed to dedusting and be imitated Fruit adjusts rotating brushes rotary speed.

In order to advanced optimize above-mentioned technical proposal, dust-separating appliance is material separator.

In order to advanced optimize above-mentioned technical proposal, servo motor, two-way blower fan, material separator are electrical with controller Connection controls the working condition of servo motor, two-way blower fan, material separator by controller.

In order to advanced optimize above-mentioned technical proposal, dust concentration sensor is provided at dust excluding hood ventilation opening, dust is dense It spends sensor to be electrically connected, and dust concentration information is sent to controller in real time with controller, when dust concentration is less than setting During threshold value, controller control two-way blower fan, servo motor, material separator are stopped, and complete dedusting.

In order to advanced optimize above-mentioned technical proposal, controller is by the rotating speed of two-way blower fan, wind direction and servo motor rotating speed It is shown on the desplay apparatus, allows the operator to observe the parameters such as two-way blower fan rotating speed wind direction and servo motor rotating speed in real time.

In order to advanced optimize above-mentioned technical proposal, display device is liquid crystal display.

Each embodiment is described by the way of progressive in this specification, the highlights of each of the examples are with other The difference of embodiment, just to refer each other for identical similar portion between each embodiment.For device disclosed in embodiment For, since it is corresponded to the methods disclosed in the examples, so description is fairly simple, related part is said referring to method part It is bright.

The foregoing description of the disclosed embodiments enables professional and technical personnel in the field to realize or use the present invention. A variety of modifications of these embodiments will be apparent for those skilled in the art, it is as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, it is of the invention The embodiments shown herein is not intended to be limited to, and is to fit to and the principles and novel features disclosed herein phase one The most wide range caused.

Claims (9)

1. a kind of method for cleaning of precision instrument surface dirt, which is characterized in that including：

Dedusting baffle is disposed around precision instrument surrounding, and set and remove at the top of precision instrument by the establishment of step 1, dust pelletizing system Dust hood；Several baffle ventilation openings are distributed on the dedusting baffle, and the baffle ventilation opening is connect with baffle air hose, institute The blow vent that baffle air hose is stated with two-way blower fan one end is connect；The blow vent of the two-way blower fan other end passes through dust excluding hood air hose It is connect with several dust excluding hood ventilation openings on the dust excluding hood；It is set on the baffle air hose or the dust excluding hood air hose There is dust-separating appliance；Rotating brushes is provided on the dust excluding hood；Be provided on the two-way blower fan wind direction change-over switch and Wind speed regulating switch；

Step 2, the wind direction change-over switch for first adjusting the two-way blower fan, make two-way blower fan described in step 1 and the dust excluding hood The blow vent blowout high pressure gas of air hose connecting pin, gas is sucked with the blow vent of the baffle air hose connecting pin；And according to essence The amount of dust on close instrument surface sets the wind speed of the two-way blower fan；Start the dust-separating appliance simultaneously；

Dedusting is blowed to precision instrument outer surface in step 3, the hand-held dust excluding hood, at this time a large amount of dusts in precision instrument surface It is blown afloat by high pressure draught in suspended state, the baffle ventilation opening sucking of dust dedusting baffle described in surrounding of suspension is gone forward side by side Enter the baffle air hose, so as to form cross-ventilation；

Step 4 is flow to the suspension of air motion in the dust-separating appliance, carries out dust separation, the dust The dust isolated is stored in dust-collecting box by separator, and clean gas flow is discharged, and final clean gas flow is from the dust excluding hood Ventilation opening is discharged；

Step 5, when being dusted to precision instrument dust accretions compared with multiple location, start rotating brushes, by rotating brushes with Cooperation between high pressure draught carries out precision instrument surface more thoroughly cleaning；

Step 6 after completing main dedusting work early period, adjusts the wind direction change-over switch of the two-way blower fan, makes the two-way wind Machine and the blow vent sucking gas of the dust excluding hood air hose connecting pin, high pressure is blown out with the gas outlet of the baffle air hose connecting pin Gas；And the wind speed of the two-way blower fan is set according to the remaining dust amount on precision instrument surface；

Step 7, the dedusting baffle ventilation opening precision instrument surrounding is blowed, the ash of precision instrument remained on surface at this time Dirt is blown afloat by high pressure draught in suspended state, and the dust of suspension is sucked by the dust excluding hood right over precision instrument, from And form cross-ventilation；

Step 8 is flow to the suspension of air motion in the dust-separating appliance, carries out dust separation, the dust The dust isolated is stored in dust-collecting box by separator, and clean gas flow is discharged, and final clean gas flow leads to from the baffle It discharges in air port；

Step 9 is completed after clearing up precision instrument surface dust, is first shut off the two-way blower fan, is then shut off the dust The dedusting baffle is finally withdrawn precision instrument, and clears up the dust-collecting box by separator.

A kind of 2. method for cleaning of precision instrument surface dirt according to claim 1, which is characterized in that the dust excluding hood It is made for transparent material.

A kind of 3. method for cleaning of precision instrument surface dirt according to claim 2, which is characterized in that the dust excluding hood In umbrella shape.

A kind of 4. method for cleaning of precision instrument surface dirt according to claim 3, which is characterized in that the rotation hair Brush is driven by servo motor.

A kind of 5. method for cleaning of precision instrument surface dirt according to claim 4, which is characterized in that the dust point It is material separator from device.

A kind of 6. method for cleaning of precision instrument surface dirt according to claim 5, which is characterized in that the servo electricity Machine, the two-way blower fan, the material separator are electrically connected with controller.

A kind of 7. method for cleaning of precision instrument surface dirt according to claim 6, which is characterized in that the dust excluding hood Dust concentration sensor is provided at ventilation opening, the dust concentration sensor is electrically connected with the controller, and in real time will Dust concentration information is sent to the controller, and when dust concentration is less than given threshold, the controller control is described two-way Wind turbine, the servo motor, the material separator are stopped, and complete dedusting.

A kind of 8. method for cleaning of precision instrument surface dirt according to claim 6, which is characterized in that the controller The rotating speed of the two-way blower fan, wind direction and the servo motor rotating speed are shown on the desplay apparatus.

A kind of 9. method for cleaning of precision instrument surface dirt according to claim 8, which is characterized in that the display dress It is set to liquid crystal display.