CN109164891A - Intelligent Embedded Network Security information processing unit - Google Patents
Intelligent Embedded Network Security information processing unit Download PDFInfo
- Publication number
- CN109164891A CN109164891A CN201811058180.3A CN201811058180A CN109164891A CN 109164891 A CN109164891 A CN 109164891A CN 201811058180 A CN201811058180 A CN 201811058180A CN 109164891 A CN109164891 A CN 109164891A
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- filtering
- scraper plate
- cylinder
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- 230000010365 information processing Effects 0.000 title claims abstract description 18
- 238000001914 filtration Methods 0.000 claims abstract description 68
- 239000007921 spray Substances 0.000 claims abstract description 61
- 238000000746 purification Methods 0.000 claims abstract description 50
- 239000000428 dust Substances 0.000 claims abstract description 28
- 230000006698 induction Effects 0.000 claims abstract description 18
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 67
- 238000001125 extrusion Methods 0.000 claims description 24
- 238000010943 off-gassing Methods 0.000 claims description 17
- 230000003287 optical effect Effects 0.000 claims description 14
- 238000001035 drying Methods 0.000 claims description 11
- 238000007789 sealing Methods 0.000 claims description 8
- 230000005611 electricity Effects 0.000 claims description 6
- 230000005540 biological transmission Effects 0.000 claims description 5
- 238000009434 installation Methods 0.000 claims description 5
- 230000000149 penetrating effect Effects 0.000 claims description 5
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 claims description 4
- 229910052799 carbon Inorganic materials 0.000 claims description 4
- 239000000463 material Substances 0.000 claims description 3
- 125000006850 spacer group Chemical group 0.000 claims description 3
- 238000009827 uniform distribution Methods 0.000 claims description 3
- 239000000203 mixture Substances 0.000 claims 1
- 238000001816 cooling Methods 0.000 abstract description 6
- 238000012423 maintenance Methods 0.000 abstract description 2
- 230000008030 elimination Effects 0.000 abstract 1
- 238000003379 elimination reaction Methods 0.000 abstract 1
- 238000002663 nebulization Methods 0.000 abstract 1
- 238000000034 method Methods 0.000 description 16
- 230000000694 effects Effects 0.000 description 13
- 239000003595 mist Substances 0.000 description 13
- 238000010586 diagram Methods 0.000 description 11
- 239000008187 granular material Substances 0.000 description 7
- 238000000605 extraction Methods 0.000 description 5
- 230000017525 heat dissipation Effects 0.000 description 4
- 230000033001 locomotion Effects 0.000 description 4
- 238000010521 absorption reaction Methods 0.000 description 3
- 238000002347 injection Methods 0.000 description 3
- 239000007924 injection Substances 0.000 description 3
- 238000001179 sorption measurement Methods 0.000 description 3
- 239000002245 particle Substances 0.000 description 2
- 241000628997 Flos Species 0.000 description 1
- 238000009825 accumulation Methods 0.000 description 1
- 238000000889 atomisation Methods 0.000 description 1
- 230000015556 catabolic process Effects 0.000 description 1
- 230000001427 coherent effect Effects 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 230000018044 dehydration Effects 0.000 description 1
- 238000006297 dehydration reaction Methods 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 238000007667 floating Methods 0.000 description 1
- 238000005213 imbibition Methods 0.000 description 1
- 238000002156 mixing Methods 0.000 description 1
- 230000036651 mood Effects 0.000 description 1
- 238000005086 pumping Methods 0.000 description 1
- 230000005855 radiation Effects 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 238000009738 saturating Methods 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/18—Packaging or power distribution
- G06F1/181—Enclosures
- G06F1/182—Enclosures with special features, e.g. for use in industrial environments; grounding or shielding against radio frequency interference [RFI] or electromagnetical interference [EMI]
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D47/00—Separating dispersed particles from gases, air or vapours by liquid as separating agent
- B01D47/06—Spray cleaning
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D50/00—Combinations of methods or devices for separating particles from gases or vapours
- B01D50/60—Combinations of devices covered by groups B01D46/00 and B01D47/00
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D53/00—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
- B01D53/26—Drying gases or vapours
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/20—Cooling means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2257/00—Components to be removed
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2257/00—Components to be removed
- B01D2257/80—Water
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2200/00—Indexing scheme relating to G06F1/04 - G06F1/32
- G06F2200/20—Indexing scheme relating to G06F1/20
- G06F2200/202—Air convective hinge
Landscapes
- Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Physics & Mathematics (AREA)
- General Engineering & Computer Science (AREA)
- General Physics & Mathematics (AREA)
- Human Computer Interaction (AREA)
- Electromagnetism (AREA)
- Computer Hardware Design (AREA)
- Power Engineering (AREA)
- Analytical Chemistry (AREA)
- General Chemical & Material Sciences (AREA)
- Oil, Petroleum & Natural Gas (AREA)
- Filtering Of Dispersed Particles In Gases (AREA)
Abstract
The present invention relates to computer fields, especially intelligent Embedded Network Security information processing unit, including crust of the device, the reciprocal lead screw being mounted in crust of the device, feed screw nut, rotate purification device, under the cooperation of reciprocal lead screw and feed screw nut, it is that rotation purification device pumps in crust of the device inner seat while also rotating, rotation purification device, which is equipped with, to be blown device nozzle and blows afloat server internal dust, rotation purification device is additionally provided with induction chamber, spray chamber and hothouse, server internal is siphoned away with the air of dust and heat and is cooled down through nebulization dust, filtering and centrifuge dripping processing, treated, and air is discharged except server through pipeline, play the role of as server dedusting cooling, contain certain moisture through rotating the processed air of purification device simultaneously, server internal be can be recycled to increase humidity, Play the role of certain elimination electrostatic, substantially increase server service life, reduces device maintenance difficulty.
Description
Technical field
The present invention relates to computer field, especially intelligent Embedded Network Security information processing unit.
Background technique
Computer in the process of running, can also generate electrostatic while host server part can generate amount of heat,
The heat of generation needs discharge in time, and server circuit overheat otherwise can be caused to burn component even to influence server
Stable operation, the electrostatic of generation, which also can be accumulated constantly, there is the phenomenon that electrostatic breakdown electronic component, and in the effect of electrostatic
Under, server internal can adsorb a large amount of dust of accumulation, increase difficulty to server radiating.
Existing server radiating can be divided into active heat removal and passive heat dissipation in device, and it is by reinforcing taking that the former is most common
Business device inner air circulation is to increase heat dissipation, and the latter most commonly increases or improved heat radiation piece, radiating rate slowly but also
It cannot be removed effectively electrostatic and reduce dust absorption, it is necessary to which separated in time dismantles host server deashing dedusting.
Summary of the invention
For above situation, to overcome the shortcomings of existing technologies, the present invention provides intelligent Embedded Network Security information
Processing unit solves the problems, such as server radiating, dedusting, destatics, and substantially increases server service life, reduces
Server maintains difficulty.
The technical scheme is that intelligent Embedded Network Security information processing unit, including crust of the device and rotation
The vertically arranged reciprocal lead screw being connected in crust of the device is combined with feed screw nut on reciprocal lead screw, which is characterized in that also wrap
Include rotation purification device, the feed screw nut periphery be equipped with respectively with rotation purification device inner headed face rotary seal cooperation
Intake chamber, the intake chamber, effluent trough, outgassing groove, power slot of annular, the feed screw nut end face is equipped with optical axis guide rail hole, and leads to
It crosses optical axis guide rail hole and slides vertically to be connected to and be placed in reciprocal lead screw side and be fixed on the optical axis guide rail in crust of the device, lead screw spiral shell
Turning set is equipped with the rotation purification device of an annular on mother, is fixed with spacer sleeve on reciprocal lead screw on the rotation purification device
Ring gear, driving motor is installed on the feed screw nut, covers in driving motor output shaft and is inherently engaged on ring gear
Transmission gear, the rotation purification device are made of the induction chamber, spray chamber and hothouse of circumference uniform distribution, the induction chamber outer circle
Face is set as air inlet net cover structure, is equipped with spray pipe and dust filtering device in the spray chamber, the spray pipe pass through into
The mouth of a river is communicated on intake chamber, and intake chamber is connected to the immersible pump being placed in the water feeding tank outside crust of the device through water inlet line
On, the spray chamber is communicated in effluent trough through the first water outlet, and effluent trough is communicated to through outlet conduit and is placed in outside crust of the device
In the water receiving case in portion, multiple atomizers are installed on the spray pipe, centrifugal drying wound packages is equipped in the hothouse and sets, institute
It states centrifugal drying wound packages to set including outer cylinder, inner cylinder, the axial ends sealing of the inner cylinder periphery is rotatably connected on outer cylinder inner headed face
On, the inner cylinder periphery is reticular structure, and the cylindrical water-absorbing sponge being bonded with it, water suction sea are fixed in the inner cylinder
End face of the silk floss towards air intake cover is inside concave structure and is equipped with multiple axial through-holes, and inner cylinder is connected to towards one end of spray chamber
There is air intake cover, internal fan is equipped between induction chamber and spray chamber and between air intake cover and spray chamber, which makes
Gas enters induction chamber out of crust of the device in crust of the device, is then sent in inner cylinder by spray chamber, the outer cylinder is remote
One end from air intake cover is equipped with the tail gas cover of connection inner cylinder, and the tail gas cover is communicated in outgassing groove through pipeline, the outgassing groove
It is communicated with the outlet pipe that the other end is placed in outside crust of the device, further includes the protruding hothouse in one end for being mounted on hothouse
Jet pipe, the jet pipe other end are communicated in intake chamber, and the intake chamber is communicated to through admission line is placed in crust of the device
On outer external fan;
The dust filtering device includes through being atomized indoor filtering mounting rack and filtering rotational installation across spray pipe installation
In the upper belt-wheel and lower belt wheel of mounting rack upper and lower ends, the spray pipe is to pass through mounting rack through the mounting hole on mounting rack
, set is connected with through hole and the rotating belt for closing and having filtering sponge is stained in outer surface between the upper belt-wheel and lower belt wheel,
The upper belt-wheel drives through rotary electric machine, further includes scraper plate and extrusion cylinder with rotating belt cooperation, the dust filtering dress packet
Include the upper belt-wheel and lower belt wheel for being mounted on and being atomized indoor filtering mounting rack and being rotatably installed in filtering mounting rack upper and lower ends, institute
Set is stated between upper belt-wheel and lower belt wheel to be connected with through hole and the rotating belt for closing and having filtering sponge is stained in outer surface, it is described on
Belt wheel drives through rotary electric machine, further includes scraper plate and extrusion cylinder with rotating belt cooperation, and the filtering mounting rack is set on one side
There are the penetrating mounting hole with spray pipe cooperation, the rotating belt width direction both ends difference of the side of the filtering mounting rack
It is equipped with threaded hole equipped with extrusion cylinder mounting rack and in the end face far from filtering mounting rack, filters the rotating belt of the mounting rack other side
Width direction both ends, which are respectively equipped with, scrapes board mounting stand, and the scraper plate includes scraper plate shell, described to scrape rotation in board mounting stand and set
There is Rotational Cylindrical, the scraper plate shell is fixed between two Rotational Cylindricals, and scraper plate closing piece, the scraper plate lock are equipped among scraper plate shell
Block two sides are groove structure and have been slidably mounted scraper plate sliding block, and the scraper plate sliding block is rotatably equipped with scraper plate adjusting nut,
The straight trough mouth of perforation scraper plate shell downwards is provided on the scraper plate closing piece, the scraper plate adjusting nut inward turning is screwed with scraper plate and adjusts spiral shell
Bolt, one end that the scraper plate adjusts bolt pass through straight trough mouth and on the filtering mounting racks that are hinged below Rotational Cylindrical, the extruding
Cylinder includes the sliding rack being slidably mounted between two extrusion cylinder mounting racks, rotates the extrusion cylinder tune for being fixedly mounted on sliding rack both ends
Section bolt and the first extruding sleeve being rotatably installed on sliding rack, the extrusion cylinder adjust bolt thread and are connected to threaded hole
It is interior;
It is fixed at the center of described outer cylinder one end through outer cylinder support arm and gets rid of a motor, the output shaft for getting rid of a motor is through multiple
Inner cylinder support arm is connected on one end face of inner cylinder;
It is set with two spaced conducting rings in power slot, the internal fan, rotary electric machine and gets rid of a motor and pass through respectively
Carbon brush is connected on two conducting rings, and the conducting wire that two conducting rings are set in power supply pipeline respectively is connected to the positive and negative anodes of power supply
On.
Preferably, the end that the jet pipe stretches out hothouse is equipped with nozzle.
Preferably, the rotation purification device passes through being rotatably assorted on sliding block and feed screw nut periphery on inner headed face
The slot that is rotatably assorted realization is rotatably assorted.
Preferably, the feed screw nut end face is equipped with the inlet opening for being communicated to intake chamber and being connected with water inlet line, connects
Lead to air inlet duct and be connected with the air inlet of admission line, be communicated to effluent trough and be connected with outlet conduit apopore,
It is communicated to outgassing groove and is connected with the venthole of outlet pipe and is communicated to power slot and is connected with the power hole of power supply pipeline.
Preferably, the intake chamber is connected to the water inlet rotary seal on rotation purification device inner headed face, described
Air inlet duct is connected to the air inlet rotary seal on rotation purification device inner headed face, in the outgassing groove and rotation purification device
Gas outlet rotary seal connection on disc, the effluent trough and the water outlet rotary seal on rotation purification device inner headed face
Connection, the power slot are connected to the power port rotary seal on rotation purification device inner headed face.
Preferably, the water inlet line, outlet conduit, admission line, outlet pipe and power supply pipeline are set respectively
It is connected to outside crust of the device after the automatic hose reel of reciprocal lead screw lower end is rotatably connected, the water inlet line, outlet pipe
Road, admission line, outlet pipe and power supply pipeline are flexible material.
Preferably, the reciprocal lead screw is rotated by the spindle motor that optical axis guide rail lower end is arranged in, described past
Multiple feed screw nut inner headed face is equipped with the shuttle being slidably matched with the thread groove of reciprocal lead screw and makes under the driving of reciprocal lead screw reciprocal
Feed screw nut moves back and forth in the vertical direction.
Preferably, the filtering mounting rack of the dust filtering device passes through from mounting hole through spray pipe and is mounted on mist
Change interior, upper and lower ends are respectively equipped with the first mounting post, the second mounting post inside filtering mounting rack, filter mounting rack in centre
Equipped with motor mounting plate, the first mounting post filtered in mounting rack is rotatably equipped with upper belt-wheel, and the second mounting post is rotatably equipped with
Lower belt wheel, motor mounting plate are equipped with the rotary electric machine for driving upper belt-wheel, are fixed with third on the inside of the filtering mounting rack
Mounting post is rotatably equipped with the second extruding sleeve in the third mounting post, and described second squeezes sleeve and the first extruding sleeve
What is matched is located at filtering sponge two sides for squeezing filtering sponge.
This reality advantageous effect of the invention: the intelligence Embedded Network Security information processing unit passes through external fan, each pipe
Road, round-trip lead screw, and the mutual cooperation of rotation purification device, the pulse air for forming rotation in server and pumping
Stream, server internal is washed away, makes dust granule with pneumatic floating in server internal, while making server internal member device
The heat that part gives out sufficiently circulates, and the induction chamber being arranged on rotation purification device will have the air of dust granule and heat
Sucking, then through spray chamber dedusting, cooling removes moisture in air followed by through hothouse, finally with the sky of certain humidity
The adjustable discharge of gas is recycled to air pulse, so that air pulse is had certain humidity, removes to play in server
The effect of electrostatic, can make server internal it is automatic, fast and efficiently cooling, dedusting, destatic.
Detailed description of the invention
Attached drawing 1 is a kind of intelligent Embedded Network Security information processing unit structural schematic diagram of the invention;
Attached drawing 2 is the partial enlarged view of the part I in attached drawing 1 of the present invention;
Attached drawing 3 is the structural schematic diagram that the present invention is free of crust of the device part;
Attached drawing 4 is the partial enlarged view of the part I in attached drawing 3 of the present invention;
Attached drawing 5 is the partial enlarged view of the part II in attached drawing 3 of the present invention;
Attached drawing 6 is the cross-sectional view of the combination assembling structure of present invention rotation purification device, feed screw nut and reciprocal lead screw;
Attached drawing 7 is the partial enlarged view of the part I in attached drawing 6 of the present invention;
Attached drawing 8 is the structural schematic diagram of present invention rotation purification device and feed screw nut assembly;
Attached drawing 9 is the top view of attached drawing 8 of the present invention;
Attached drawing 10 is the overhead sectional view of attached drawing 9 of the present invention;
Attached drawing 11 is the partial sectional view of the part C-C in attached drawing 9 of the present invention;
Attached drawing 12 is the front view of the reciprocal screw-nut structure of the present invention;
Attached drawing 13 is the rearview of the reciprocal screw-nut structure of the present invention;
Attached drawing 14 is the cross-sectional view of feed screw nut of the present invention;
Attached drawing 15 is the cross-sectional view of present invention rotation purification device;
Attached drawing 16 is the structural schematic diagram that the present invention is set without the centrifugal drying wound packages of water-absorbing sponge;
Attached drawing 17 is the structural schematic diagram of outer cylinder of the present invention;
Attached drawing 18 is the structural schematic diagram of inner cylinder of the present invention;
Attached drawing 19 is in dust-extraction unit of the present invention with the filtering sponge cross-sectional view along spiral trajectory through-hole;
Attached drawing 20 is in dust-extraction unit of the present invention with the filtering sponge cross-sectional view along sawtooth line tracking through-hole;
Attached drawing 21 is the structural schematic diagram of spray pipe of the present invention;
Attached drawing 22 is the structural schematic diagram of dust-extraction unit of the present invention;
Attached drawing 23 is the A-A partial sectional view of attached drawing 22 of the present invention;
Attached drawing 24 is the B-B partial sectional view of attached drawing 22 of the present invention;
Attached drawing 25 is the structural schematic diagram of mounting rack structure of the present invention;
Attached drawing 26 is the structural schematic diagram of scraper plate of the present invention;
Attached drawing 27 is the left view of attached drawing 26 of the present invention;
Attached drawing 28 is the B-B partial sectional view in attached drawing 27 of the present invention;
Attached drawing 29 is the cross-sectional view that the present invention squeezes barrel structure;
Attached drawing 30 is the rotation band structure schematic diagram in dust-extraction unit of the present invention.
Wherein above-mentioned attached drawing includes following mark: crust of the device -1, reciprocal lead screw -2, feed screw nut -3, rotation purification dress
Set -4, intake chamber -5, air inlet duct -6, effluent trough -7, outgassing groove -8, power slot -9, optical axis guide rail hole -10-1, optical axis guide rail -
10-2, ring gear -11, driving motor -12, transmission gear -13, induction chamber -14, spray chamber -15, hothouse -16, injection spray pipe
Road -17, atomizer -17-1, dust filtering device -18, filtering mounting rack -18-1, mounting hole 18-2, the first mounting post -18-
3, the second mounting post -18-4, third mounting post -18-5, motor mounting plate -18-6, extrusion cylinder mounting rack -18-7, threaded hole -
18-7-1, board mounting stand -18-8, scraper plate adjusting bolt -18-9, the second extruding sleeve -18-10, water inlet -19, water inlet pipe are scraped
Road -20, water feeding tank -21, outlet conduit -22, water receiving case -23, centrifugal drying wound packages are set -24, outer cylinder -24-1, inner cylinder -24-2, are inhaled
Water sponge -24-3, scupper -24-4, air intake cover -25, internal fan -26, tail gas cover -27, outlet pipe -28, jet pipe -
29, admission line -30, external fan -31, upper belt-wheel -32, lower belt wheel -33, filtering sponge -34, rotating belt -35, rotation electricity
Machine -36, scraper plate -37, scraper plate shell -37-1, Rotational Cylindrical -37-2, scraper plate closing piece -37-3, scraper plate sliding block -37-4, scraper plate are adjusted
Nut -37-5, straight trough mouth -37-6, extrusion cylinder -38, sliding rack -38-1, extrusion cylinder adjust bolt -38-2, the first extruding sleeve -
38-3, outer cylinder support arm -39-1, inner cylinder support arm -39-2, get rid of a motor -40, power supply pipeline -41, the sliding block -42 that is rotatably assorted,
Be rotatably assorted slot -43, inlet opening -44, air inlet -45, apopore -46, venthole -47, power hole -48, air inlet -49, go out
Port -50, water outlet -51, power port -52, automatic hose reel -53, spindle motor -54, thread groove -55, shuttle -56, first
Solenoid valve -56, second solenoid valve -57, third solenoid valve -58.
Specific embodiment
Below in conjunction with attached drawing, specific embodiments of the present invention will be described in further detail.
Embodiment 1, incorporated by reference to attached drawing 1- attached drawing 30, the intelligence Embedded Network Security information processing unit, including device
Shell 1 and the vertically arranged reciprocal lead screw 2 being rotatably connected in crust of the device 1 are combined with feed screw nut 3 on reciprocal lead screw 2,
It further include rotation purification device 4,3 periphery of feed screw nut is equipped with close with rotation 4 inner headed face of purification device rotation respectively
Intake chamber 5, the intake chamber 6, effluent trough 7, outgassing groove 8, power slot 9 of the annular of envelope cooperation, in implementation process, the intake chamber 5,
Air inlet duct 6, effluent trough 7, outgassing groove 8, power slot 9 are vertically arranged at intervals on respectively on 3 periphery of feed screw nut, rotation purification dress
Setting 4 shapes is an annular tubular, and above annular groove is equipped with gasket slot in upper and lower side, in rotation 4 inner headed face of purification device and
The rotating seal ring being placed in gasket slot is equipped between feed screw nut 3, to rotatory sealing, or above and below each annular groove
Sealing bearing is connected between the rotation purification device 4 and feed screw nut 3 at end to reach 3 end face of feed screw nut described in rotatory sealing
Equipped with optical axis guide rail hole 10-1, and slides vertically to be connected to by optical axis guide rail hole 10-1 and be placed in reciprocal 2 side of lead screw and fixation
Optical axis guide rail 10-2 in crust of the device 1, rotation purification device 4 of the turning set equipped with an annular, the rotation on feed screw nut 3
Turn to be fixed with ring gear 11 of the spacer sleeve on reciprocal lead screw 2 on purification device 4, driving electricity is installed on the feed screw nut 3
Machine 12, set is inherently engaged on the transmission gear 13 on ring gear 11, the lead screw spiral shell in implementation process on 12 output shaft of driving motor
Mother 3 pumps relative to reciprocal lead screw 2, rotates purification device 4 under the driving of driving motor 12 relative to lead screw
Nut 3 makes rotating motion, and the effect finally realized is that rotation purification device 4 pumps simultaneously in crust of the device 1
Also making rotating motion, the rotation purification device 4 is made of the induction chamber 14, spray chamber 15 and hothouse 16 of circumference uniform distribution,
14 periphery of induction chamber is set as air inlet net cover structure, and spray pipe 17 and dust filtering dress are equipped in the spray chamber 15
18 are set, the spray pipe 17 is communicated on intake chamber 5 through water inlet 19, and intake chamber 5 is connected to through water inlet line 20 and is placed in dress
It sets on the immersible pump in the water feeding tank 21 outside shell 1, the spray chamber 15 is communicated in effluent trough 7 through the first water outlet, out
Sink 7 is communicated in the water receiving case 23 being placed in outside crust of the device 1 through outlet conduit 22, is equipped on the spray pipe 17 more
A atomizer 17-1, the interior centrifugal drying wound packages that is equipped with of the hothouse 16 set 24, and it includes outer cylinder 24- that the centrifugal drying wound packages, which sets 24,
1, the axial ends sealing of inner cylinder 24-2, the inner cylinder 24-2 periphery are rotatably connected on outer cylinder 24-1 inner headed face, are implemented
Cheng Zhong, the mode of sealing rotation connection can be close by connecting between inner cylinder 24-2 periphery both ends and outer cylinder 24-1
Bearing is sealed to realize, the inner cylinder 24-2 periphery is reticular structure, is fixed with the cylinder being bonded with it in the inner cylinder 24-2
The end face of shape water-absorbing sponge 24-3, the water-absorbing sponge face 24-3 towards air intake cover 25 is the structure of inner concave and is equipped with multiple axial directions
Through-hole, the through-hole structure be preferably as shown in Fig. 19 along axial direction prolong Shen spiral trajectory and penetrating filtering sponge 24-3
Structure or preferably as shown in Fig. 20 along axial direction prolong Shen sawtooth line tracking and it is penetrating filtering sponge 24-3 structure, should
Structure can enable the air for setting 24 from the feeding centrifugal drying wound packages of air intake cover 24 collect in water suction under the effect of interior concave structure
The sponge end face 24-3 and through-hole through helical structure is by water-absorbing sponge 24-3, air is in water-absorbing sponge 24-3 along through-hole
It ensure that air when being threaded through and water-absorbing sponge comes into full contact with while guarantee air when passing through water-absorbing sponge 24-3 again
Circulation, finally formed effect are exactly finally to contain not influencing air circulation simultaneously with water-absorbing sponge absorption moisture in air
The water-absorbing sponge of moisture through periphery is the reticular structure inner cylinder 24-2 rotating centrifugal that is and is dehydrated, and the water being centrifuged out is from interior
Cylinder 24-2 is thrown in outer cylinder 24-1, and the lower part outer cylinder 24-1 is equipped with the scupper 24-4 for being communicated to effluent trough 7, and inner cylinder 24-2 is towards mist
The one end for changing room 15 is communicated with air intake cover 25, sets between induction chamber 14 and spray chamber 15 and between air intake cover 25 and spray chamber 15
There is internal fan 26, which makes gas in crust of the device 1 enter induction chamber 14 out of crust of the device 1, then
It is sent in inner cylinder 24-2 by spray chamber 15, the outer cylinder 24-1 is equipped with connection inner cylinder 24-2's far from one end of air intake cover 25
Tail gas cover 27, the tail gas cover 27 are communicated in outgassing groove 8 through pipeline, and the outgassing groove 8 is communicated with the other end and is placed in outside device
Outlet pipe 28 outside shell 1 further includes the jet pipe 29 for being mounted on the protruding hothouse 16 in one end of hothouse 16, jet
29 other end of pipeline is communicated in intake chamber 6, the intake chamber 6 be communicated to through admission line 30 be placed in it is outer outside crust of the device 1
Set on blower 31, in implementation process, external fan 31 provide air-flow, through admission line 30 by the air outside crust of the device 1 send according to
Secondary air inlet 45, air inlet duct 8, the air inlet 49 of being sent to is sprayed eventually by jet pipe 29 with rotation purification device 4, forms pulse
Air-flow blows to inside crust of the device 1, the air that the dust adhered to inside crust of the device 1 is blown afloat and is suspended in crust of the device 1
In, while the heat that electronic component in crust of the device 1 is given out is with air circulation, while jet, in induction chamber 14
Internal fan 26 will will have the air sucking of suspension particle and heat, and spray chamber 15 is sent into, 21 in water feeding tank
In water feeding tank 21 water is successively sent to injection spray pipe through inlet opening 44, intake chamber 5, water inlet 49 by water inlet line 20 by immersible pump
Road 17 is finally atomized to form water mist and be sprayed onto spray chamber through the atomizer 17-1 on injection spray pipe 17, and water mist is by induction chamber 14
The dust granule being sent into air adsorbs and absorbs bring heat in air, then absorbs and filter through dust filtering device 18, stays
Under water with dust granule and heat and fall in 15 bottom of spray chamber, the water outlet being successively set in spray chamber 15
51, effluent trough 7, apopore 46 are sent to the water receiving case 23 except outlet conduit 22 and final discharger shell 1, by air
Also it has been filtered in dust granule and heat but air at this time that there are also a large amount of moisture, has passed through again through internal fan 26 therewith
The centrifugal drying wound packages that airscoop shroud 25 is sent to hothouse 16 is set in 24, which sets the water-absorbing sponge 24-3 in 24 for air
Middle water mist adsorption filtration, the air after adsorption filtration are sent into venthole 47 through tail gas cover 25, and then warp is connected to venthole 47
Outgassing groove 8 is sent to outlet pipe 28 and is finally discharged into except crust of the device 1 with outlet pipe 28, the water mist of air at this time
Dust granule and heat are removed, and sets the water-absorbing sponge 24-3 in 24 through centrifugal drying wound packages and removes most moisture, thus is had
There is certain humidity, can be directly discharged to except crust of the device 1 (a large amount of water mist is not suitable for being discharged to outside crust of the device, because
Will affect staff outside crust of the device for a large amount of water mist or equipment work normally), the property of can choose by this air pass through into
Feed channel 30 is re-fed into crust of the device 1 and recycles, quiet to play removal suitably to increase the humidity in crust of the device 1
Electricity effect and enhancing cooling effect, adsorption filtration stay in absorption sponge 24-3 in water after being centrifuged from scupper flow out,
And it successively is sent to outlet conduit 22 through water outlet 51, effluent trough 7, the apopore 46 in hothouse 16, eventually flow to crust of the device 1
Except water receiving case 23, water-absorbing sponge 24-3 constantly rotates at the same time, and under the influence of centrifugal force, moisture therein is not by
Disconnected throws away, therefore water-absorbing sponge 24-3 can remain water imbibition, the mutually coherent cooperation of device each section in whole process
Final to realize dedusting, heat dissipation, the effect destaticed, about airflow portion, the air pulse can be individually by external fan
31 air drawn outside crust of the device 1 provide, and can be also possible to individually by providing by the processed air of hothouse 16
The mixed gas of the two, specific structure are: Temperature Humidity Sensor and master controller are installed in crust of the device 1, in outlet pipe
28 one section of bypass line of extraction are simultaneously communicated to admission line 30, and the first solenoid valve is equipped between the connectivity part and external fan 31
56, it is equipped with second solenoid valve 57 in the connectivity part to the bypass line between outlet pipe 28, is arrived at bypass line drawing
Outlet pipe 28 discharges the outlet pipe 2 between terminal and is equipped with third solenoid valve 58, and the controller of the solenoid valve is by master control
Device control processed, each blower, motor, immersible pump are also controlled by master controller, when Temperature Humidity Sensor detection device shell 1
It is interior when the temperature is excessively high, open and the present apparatus or tune up the device jet, air-breathing, filtering and the power of cooling, be embodied
Cheng Zhong detects temperature and humidity numerical value in crust of the device 1 by Temperature Humidity Sensor and reaches master controller, when server is run
Time is shorter, temperature, humidity be in master controller it is set in server influence on system operation smaller range when, at this time
Low-intensity dedusting is only needed to cool down, master controller starts the present apparatus and controls solenoid valve controller for the first solenoid valve and third
Solenoid valve is opened, and second solenoid valve is closed, and air needed for air pulse is provided by external fan 31 at this time, as server is run
The heat generated inside time lengthening, crust of the device 1 increases, and Temperature Humidity Sensor detects 1 internal temperature of crust of the device, humidity
When numerical value is increased in the range larger to server influence on system operation set in master controller, master controller is according to temperature and humidity
Sensor feedback data, control increase the output power of each blower, motor and immersible pump, adjust three solenoid valves it is different open with
The state of pass (close, and the first and second solenoid valves are opened for external fan and hothouse while to jet pipe by third solenoid valve
Gas supply, the first solenoid valve 56 are closed, and second solenoid valve 57 is opened, and third solenoid valve 58 is closed, and individually give air jet pipe for hothouse
Road gas supply, can be selected as needed by the cooperation of three solenoid valves to the air supply source of jet pipe, when detecting outside device
When air humidity in shell 1 is smaller, third solenoid valve 58 can be closed at this time, open the first solenoid valve 56 and second solenoid valve
57, so that in the biggish air circulation to crust of the device of the humidity flowed out out of hothouse, being flowed into crust of the device 1 at this time
Air be the air with certain humidity, and not only humidity increases the air after spray chamber and steady decrease, thus this
When be flowed into the air in crust of the device not only can be to the air cooling-down in crust of the device 1, and its humidity can be increased, reduced
Electrostatic.When Temperature Humidity Sensor detects that humidity is excessive in crust of the device 1, the first solenoid valve 56 can be opened, closes second
Solenoid valve 57 opens third solenoid valve 58, so that the gas with certain humidity is passed through the external world, external general mood provides jet pipe
Gas), air needed for making air pulse at this time by outside 31 accumulated shells 1 of external fan air and outlet pipe 28 be discharged
Air mixing after provide, or the air offer being all discharged by outlet pipe 31, final purpose is made in crust of the device 1
Temperature and humidity numerical value all tend in master controller it is set server operation is not influenced in the range of, when outside device
When temperature and humidity numerical value in shell 1 is in this not and influences within the scope of server fortune shape, is controlled by master controller and close the present apparatus
In other devices in addition to Temperature Humidity Sensor;
The dust filtering device 18 includes being mounted on the filtering mounting rack 18-1 passed through in spray chamber 15 and through spray pipe 17
With the upper belt-wheel 32 and lower belt wheel 33 that are rotatably installed in filtering mounting rack 18-1 upper and lower ends, the spray pipe 17 is through filtering
Mounting hole 18-2 on mounting rack 18-1 passes through filtering mounting rack 18-1's, covers and is connected between the upper belt-wheel 32 and lower belt wheel 33
With transmission hole and the rotating belt 35 for closing and having filtering sponge 34 is stained in outer surface, and the upper belt-wheel 32 drives through rotary electric machine 36
It is dynamic, it further include the scraper plate 37 and extrusion cylinder 38 cooperated with rotating belt 35, the one side of the filtering mounting rack 18-1 is equipped with and spray
The penetrating mounting hole 18-2 that mist pipeline 17 cooperates is respectively equipped with the first mounting post 18-3, the second installation in internal upper and lower ends
Column 18-4 and third mounting post 18-5 is equipped with motor mounting plate 18-6 in centre, and one end of the filtering mounting rack 18-1 is equipped with
Extrusion cylinder mounting rack 18-7 is simultaneously equipped with threaded hole 18-7-1 in the end face far from filtering mounting rack 18-1, and the other end is pacified equipped with scraper plate
It shelves 18-8 and scraper plate adjusts bolt 18-9, the scraper plate 37 includes scraper plate shell 37-1, is set in the one end scraper plate shell 37-1
There is Rotational Cylindrical 37-2, scraper plate closing piece 37-3 is equipped among scraper plate shell 37-1, the two sides scraper plate closing piece 37-3 are groove
Structure has simultaneously been slidably mounted scraper plate sliding block 37-4, rotatably mounted on the scraper plate sliding block 37-4 to have scraper plate adjusting nut 37-
5, the extrusion cylinder 38 includes the sliding rack 38-1 being slidably mounted between two extrusion cylinder mounting rack 18-7, is rotatably installed in sliding
What the extrusion cylinder at the both ends frame 38-1 adjusted bolt 38-2 and was rotatably installed on sliding rack 38-1 first squeezes sleeve 38-3, described
Extrusion cylinder adjusts bolt thread and is connected in threaded hole 18-7-1, and in dust removal process, rotary electric machine 36 is provided in power drive
Belt wheel 32 and lower belt wheel 33 rotate, and the rotating belt 35 being mounted on two belt wheels also rotates with it, and the rotating belt 35 is equipped with
Multiple to penetrate hole, and one layer of filtering sponge 24-3 of surface bonding filters sponge 24-3 from saturating when the air in spray chamber 15 passes through
When via hole passes through, the dust granule that is adsorbed in water mist is attached to its surface by filtering sponge 24-3 filtering, filter sponge 24-3 with
Rotating belt 35 rotate, filtering the lower end mounting rack 18-1 setting scraper plate 37 dusts are struck off, filtering mounting rack 18-1
The extrusion cylinder 28 of lower end setting is squeezed out the water adsorbed in sponge 24-3 is filtered;
It is fixed at the center of the one end the outer cylinder 24-1 through outer cylinder support arm 39-1 and gets rid of a motor 40, the motor 40 that gets rid of
Output shaft is connected on an end face of inner cylinder 24-2 through multiple inner cylinder support arm 39-2, is got rid of a motor 40 during centrifugal dehydration and is mentioned
For power, inner cylinder 24-2 rotation is driven;
It is set with two spaced conducting rings in power slot 9, the internal fan 26, rotary electric machine 36 and gets rid of a motor 40
It is connected on two conducting rings through carbon brush respectively, the conducting wire that two conducting rings are set respectively in power supply pipeline 41 is connected to power supply
Positive and negative anodes on, internal fan 26, rotary electric machine 36 in the intelligence Embedded Network Security information processing unit course of work
Power supply is provided by server external power with a motor 40 is got rid of, firstly, power supply line is connected in power supply pipeline 41 through power hole 48
The effect that power supply is rotatablely connected is realized on carbon brush and conducting ring in power slot 9, and then power supply line is set the electricity in spray chamber 15
Source mouthful 52 internal fans 26 and rotary electric machine 36 are powered, and power supply line is set the power port 52 in hothouse 16 to getting rid of a motor
40 power supplies, the power supply line of the driving motor 12 are guided in power supply pipeline 41 and are ultimately connected to through 3 inner headed face of feed screw nut
The external power supply of crust of the device 1.
Embodiment 2. on the basis of embodiment 1, incorporated by reference to attached drawing 1- attached drawing 15 and attached drawing 21, stretch by the jet pipe 29
The end of hothouse 16 is equipped with nozzle out, and the water provided in spray pipe 29 forms water mist after nozzle atomization can more preferably make mist
Change the effect for playing dedusting cooling in room 15 full of water mist.
On the basis of embodiment 1, incorporated by reference to attached drawing 6- attached drawing 15, the rotation purification device 4 passes through interior embodiment 3.
The sliding block 42 that is rotatably assorted on disc is rotatably assorted with the realization of slot 43 that is rotatably assorted on 3 periphery of feed screw nut, in this way
Cooperation make to rotate purification device 4 and seal turning set on the feed screw nut 3, certainly, the rotation purification device 4 and lead screw spiral shell
It can also be rotatably assorted between mother 3 by bearing to realize.
On the basis of embodiment 1, incorporated by reference to attached drawing 1- attached drawing 15,3 end face of feed screw nut is equipped with embodiment 4.
It is communicated to intake chamber 5 and is connected with the inlet opening 44 of water inlet line 20, is communicated to air inlet duct 6 and is connected with admission line 30
Air inlet 45, is communicated to outgassing groove 8 and is connected with out the apopore 46 for being communicated to effluent trough 7 and being connected with outlet conduit 22
It the venthole 47 of feed channel 28 and is communicated to power slot 9 and is connected with the power hole 48 of power supply pipeline 41, this ensure that work
The rotational communication of rotation purification device 4 and the water, gas and electricity outside crust of the device 1 in the process.
On the basis of embodiment 1, incorporated by reference to attached drawing 6- attached drawing 15, the intake chamber 5 and rotation purify embodiment 5.
On 4 inner headed face of device 19 rotary seal of water inlet connection, the air inlet duct 6 and rotation 4 inner headed face of purification device on into
49 rotary seal of port connection, the outgassing groove 8 and 50 rotary seal of gas outlet rotated on 4 inner headed face of purification device connect
Logical, the effluent trough 7 is connected to 51 rotary seal of water outlet on rotation 4 inner headed face of purification device, the power slot 9 and
Rotate 52 rotary seal of the power port connection on 4 inner headed face of purification device, such rotary seal connection ensure that intake process,
Mutually without any interference between outlet process, water inlet process, exiting water process and offer power supply process.
Embodiment 6. on the basis of embodiment 1, incorporated by reference to water inlet line 20, outlet conduit described in attached drawing 1- attached drawing 5
22, the automatic hose reel 53 that admission line 30, outlet pipe 28 and power supply pipeline 41 are set respectively in reciprocal 2 lower end of lead screw can
It is connected to after rotation connection outside crust of the device 1, the water inlet line 20, outlet conduit 22, admission line 30, outlet pipe 28
Be flexible material with power supply pipeline 41, in this way guarantee during the work time, each pipeline automatic hose reel 53 connection under not
Mutually it can wind or squeeze and gall, guarantee the smooth progress of work.
On the basis of embodiment 1, incorporated by reference to attached drawing 1- attached drawing 13, the reciprocal lead screw 2 exists embodiment 7. in setting
The spindle motor 54 of the lower end optical axis guide rail 10-2 is rotated by, and the reciprocal 2 nut inner headed face of lead screw is equipped with and reciprocal lead screw 2
The shuttle 56 that is slidably matched of thread groove 55 and keep reciprocal 2 nut of lead screw reciprocal in the vertical direction under the driving of reciprocal lead screw 2
Movement, the spindle motor 54 are provided by the power supply of crust of the device 1 through power supply line, and such structure, which ensure that, chooses to install purification device
4 in crust of the device 1 up and down reciprocatingly shuttling movement.
Embodiment 8. on the basis of embodiment 1, incorporated by reference to attached drawing 8- attached drawing 10, attached drawing 22- attached drawing 30, the dust
The filtering mounting rack 18-1 of filter device 18 is passed through from mounting hole 18-2 through spray pipe 17 and is mounted in spray chamber 15, in mistake
Upper and lower ends are respectively equipped with the first mounting post 18-3, the second mounting post 18-4 inside filter mounting rack 18-1, filter mounting rack 18-1
It is equipped with motor mounting plate 18-6 in centre, the first mounting post 18-3 filtered in mounting rack 18-1 is rotatably equipped with upper belt-wheel 32,
Second mounting post 18-4 is rotatably equipped with lower belt wheel (33), and motor mounting plate 18-6 is equipped with the rotation for driving upper belt-wheel 32
Motor 36, the inside filtering mounting rack 18-1 are fixed with third mounting post 18-5, rotate peace on the third mounting post 18-5
Sleeve 18-10 is squeezed equipped with second, the second extruding sleeve 18-10 is located at filtering with what the first extruding sleeve 38-3 was matched
34 two sides of sponge for squeeze filtering sponge (34), the mounting rack two sides be cooperation 15 inner wall of spray chamber curved-surface structure with
Guarantee the sealing installation effect in the course of work, providing power by rotary electric machine 36 in implementation process makes 34 turns of sponge of filtering
Dynamic, the air for being sent to spray chamber 15 from induction chamber 14 passes through filter sponge 34, and the water after being atomized in air at this time is adsorbed with dust
Particle is simultaneously adsorbed on filter 34 surface of sponge, strikes off dust through scraper plate 37, removes water through extrusion cylinder 38, ensure that whole process continues not
Intermittent progress, and scraper plate 37 can be manually adjusted through scraper plate adjusting nut 37-5, and extrusion cylinder 38 can be compressed cylinder and adjust bolt
38-2 is manually adjusted so that it is convenient to control the intensity and speed of filtering in operating process.
External fan involved by name of the present invention, automatic hose reel, immersible pump and atomizer are the prior art, are not had
It is described in detail.
The present invention solves the problems, such as server radiating, dedusting, destatics, and at the same time having heat dissipation, dedusting, removing
The function of electrostatic substantially increases server service life, reduces server maintenance difficulty, mechanization degree is high, time saving height
Effect.
Claims (8)
1. intelligent Embedded Network Security information processing unit, including crust of the device (1) and to be rotatably connected on crust of the device (1) interior
Vertically arranged reciprocal lead screw (2), be combined with feed screw nut (3) on reciprocal lead screw (2), which is characterized in that further include rotation
Purification device (4), feed screw nut (3) periphery is equipped with matches with rotation purification device (4) inner headed face rotary seal respectively
Intake chamber (5), the air inlet duct (6), effluent trough (7), outgassing groove (8), power slot (9) of the annular of conjunction, feed screw nut (3) end
Face is equipped with optical axis guide rail hole (10-1), and slides vertically to be connected to by optical axis guide rail hole (10-1) and be placed in reciprocal lead screw (2) one
Side and the optical axis guide rail (10-2) being fixed in crust of the device (1), rotation of the turning set equipped with an annular is net on feed screw nut (3)
Makeup is set (4), is fixed with ring gear (11) of the spacer sleeve on reciprocal lead screw (2), the silk on rotation purification device (4)
It is equipped on thick stick nut (3) driving motor (12), set is inherently engaged on ring gear (11) on driving motor (12) output shaft
Transmission gear (13), rotate purification device (4) are by the induction chamber (14), spray chamber (15) and hothouse (16) of circumference uniform distribution
Composition, induction chamber (14) periphery are set as air inlet net cover structure, are equipped with spray pipe (17) in the spray chamber (15)
With dust filtering device (18), the spray pipe (17) is communicated on intake chamber (5) through water inlet (19), intake chamber (5) warp
Water inlet line (20), which is connected to, to be placed on the immersible pump in the external water feeding tank (21) of crust of the device (1), the spray chamber (15)
It is set the water outlet (51) in spray chamber (15) to be communicated in effluent trough (7), effluent trough (7) is communicated to through outlet conduit (22)
It is placed in the external water receiving case (23) of crust of the device (1), multiple atomizers (17-1) is installed on the spray pipe (17),
It is equipped with centrifugal drying wound packages in the hothouse (16) to set (24), it includes outer cylinder (24-1), inner cylinder that the centrifugal drying wound packages, which sets (24),
The axial ends sealing of (24-2), inner cylinder (24-2) periphery are rotatably connected on outer cylinder (24-1) inner headed face, described interior
Cylinder (24-2) periphery is reticular structure, is fixed with the cylindrical water-absorbing sponge (24- being bonded with it in the inner cylinder (24-2)
3), which is inside concave structure towards the end face of air intake cover (25) and is equipped with multiple axial through-holes, outside
The cylinder lower part (24-1) is equipped with the scupper (24-4) for being communicated to effluent trough (7), the one end of inner cylinder (24-2) towards spray chamber (15)
It is communicated with air intake cover (25), is equipped between induction chamber (14) and spray chamber (15) and between air intake cover (25) and spray chamber (15)
Internal fan (26), the internal fan (26) make crust of the device (1) interior gas enter induction chamber out of crust of the device (1)
(14), it is then sent in inner cylinder (24-2) by spray chamber (15), the one end of the outer cylinder (24-1) far from air intake cover (25)
Tail gas cover (27) equipped with connection inner cylinder (24-2), the tail gas cover (27) are communicated in outgassing groove (8) through pipeline, the outlet
Slot (8) is communicated with the other end and is placed in the outlet pipe (28) of crust of the device (1) outside, further includes the one end for being mounted on hothouse (16)
The jet pipe (29) of protruding hothouse (16), jet pipe (29) other end are communicated in air inlet duct (6), the air inlet
Slot (6) is connected to through admission line (30) to be placed on the external fan (31) of crust of the device (1) outside;
The dust filtering device (18) includes the filtering mounting rack (18-1) being mounted in spray chamber (15) and is rotatably installed in
Filter the upper belt-wheel (32) and lower belt wheel (33) of mounting rack (18-1) upper and lower ends, the upper belt-wheel (32) and lower belt wheel (33) it
Between set be connected with through hole and the rotating belt (35) that conjunction has filtering sponge (34), upper belt-wheel (32) warp are stained in outer surface
Rotary electric machine (36) driving further includes scraper plate (37) and extrusion cylinder (38) with rotating belt (35) cooperation, the filtering installation
The one side of frame (18-1) is equipped with the penetrating mounting hole (18-2) cooperated with spray pipe (17), the filtering mounting rack (18-1)
Side rotating belt (35) width direction both ends be respectively equipped with extrusion cylinder mounting rack (18-7) and far from filtering mounting rack
The end face of (18-1) is equipped with threaded hole (18-7-1), filters rotating belt (35) width direction two of the other side mounting rack (18-1)
End, which is respectively equipped with, scrapes board mounting stand (18-8), and the scraper plate (37) includes scraper plate shell (37-1), described to scrape in board mounting stand
Rotation is equipped with Rotational Cylindrical (37-2), and the scraper plate shell (37-1) is fixed between two Rotational Cylindricals (37-2), in scraper plate shell
Scraper plate closing piece (37-3) is equipped among (37-1), the scraper plate closing piece two sides (37-3) are that groove structure and being slidably fitted with is scraped
Plate sliding block (37-4), the scraper plate sliding block (37-4) are rotatably equipped with scraper plate adjusting nut (37-5), the scraper plate closing piece (37-
3) the straight trough mouth (37-6) of perforation scraper plate shell (37-1) downwards is provided on, scraper plate adjusting nut (37-5) inward turning, which is screwed with, scrapes
Plate adjusts bolt (18-9), and one end that the scraper plate adjusts bolt (18-9) passes through straight trough mouth (37-6) and is hinged on Rotational Cylindrical
On filtering mounting rack (18-1) below (37-2), the extrusion cylinder (38) includes being slidably mounted on two extrusion cylinder mounting rack (18-
7) sliding rack (38-1) between, the extrusion cylinder for being rotatably installed in the both ends sliding rack (38-1) adjust bolt (38-2) and rotation is pacified
First on sliding rack (38-1) squeezes sleeve (38-3), and the extrusion cylinder adjusts bolt thread and is connected to threaded hole (18-
In 7-1);
It is fixed with and gets rid of a motor (40) through outer cylinder support arm (39-1) at the center of described outer cylinder (24-1) one end, it is described to get rid of cylinder electricity
The output shaft of machine (40) is connected on inner cylinder (24-2) end face through multiple inner cylinder support arms (39-2);
It is set with two spaced conducting rings in power slot (9), the internal fan (26), rotary electric machine (36) and gets rid of cylinder
Motor (40) is connected on two conducting rings through carbon brush respectively, and two conducting rings are set the conducting wire in power supply pipeline (41) respectively
It is connected on the positive and negative anodes of power supply.
2. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that the air jet pipe
The end that road (29) stretches out hothouse (16) is equipped with nozzle.
3. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that the rotation is net
Makeup sets (4) and passes through the slot that is rotatably assorted (43) on the sliding block that is rotatably assorted (42) and feed screw nut (3) periphery on inner headed face
Realization is rotatably assorted.
4. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that the lead screw
Nut (3) end face is equipped with and is communicated to intake chamber (5) and is connected with the inlet opening (44) of water inlet line (20), is communicated to air inlet duct
(6) and it is connected with the air inlet (45) of admission line (30), effluent trough (7) is communicated to and is connected with outlet conduit (22)
Apopore (46) is communicated to outgassing groove (8) and is connected with the venthole (47) of outlet pipe (28) and is communicated to power slot (9) simultaneously
It is connected with the power hole (48) of power supply pipeline (41).
5. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that the water inlet
Slot (5) is connected to water inlet (19) rotary seal on rotation purification device (4) inner headed face, and the air inlet duct 6 and rotation are net
The connection of air inlet (49) rotary seal on (4) inner headed face is set in makeup, and the outgassing groove (8) and rotation purification device (4) are interior
Gas outlet (50) rotary seal connection on disc, the effluent trough (7) and the water outlet on rotation purification device (4) inner headed face
Mouth (51) rotary seal connection, the power slot (9) and power port (52) rotation rotated on purification device (4) inner headed face are close
Envelope connection.
6. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that the water inlet
Pipeline (20), outlet conduit (22), admission line (30), outlet pipe (28) and power supply pipeline (41) are set respectively reciprocal
The automatic hose reel (53) of lead screw (2) lower end is connected to crust of the device (1) outside, the water inlet line after being rotatably connected
(20), outlet conduit (22), admission line (30), outlet pipe (28) and power supply pipeline (41) are flexible material.
7. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that described is reciprocal
Lead screw (2) is rotated by spindle motor (54) of the setting in the lower end optical axis guide rail (10-2), reciprocal lead screw (2) nut
Inner headed face is equipped with the shuttle (56) being slidably matched with the thread groove (55) of reciprocal lead screw (2) and makes under reciprocal lead screw (2) driving
Reciprocal lead screw (2) nut moves back and forth in the vertical direction, and the spindle motor (54) is by the power supply of crust of the device (1) through power supply
Line provides.
8. intelligence Embedded Network Security information processing unit according to claim 1, which is characterized in that the dust
The filtering mounting rack (18-1) of filter device (18) passes through from mounting hole (18-2) through spray pipe (17) and is mounted on spray chamber
(15) in, the first mounting post (18-3), the second mounting post (18- are respectively equipped in the internal upper and lower ends of filtering mounting rack (18-1)
4), filtering mounting rack (18-1) is equipped with motor mounting plate (18-6) in centre, the first mounting post in filtering mounting rack (18-1)
(18-3) is rotatably equipped with upper belt-wheel (32), and the second mounting post (18-4) is rotatably equipped with lower belt wheel (33), motor mounting plate
(18-6) is equipped with the rotary electric machine (36) for driving upper belt-wheel (32), and the is fixed on the inside of the filtering mounting rack (18-1)
Three mounting posts (18-5) are rotatably equipped with the second extruding sleeve (18-10) on the third mounting post (18-5), and described second squeezes
Pressing sleeve cylinder (18-10) squeezes filtering sponge (34) two sides that are located at that sleeve (38-3) is matched with first and is used to squeeze filtering sponge
(34).
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CN110796764A (en) * | 2019-10-11 | 2020-02-14 | 深圳市律远汇智科技有限公司 | On-vehicle navigation equipment of dust removal type with safeguard function |
CN110766821A (en) * | 2019-10-29 | 2020-02-07 | 深圳市律远汇智科技有限公司 | A fingerprint identification equipment that is used for high accuracy of attendance |
CN110850946A (en) * | 2019-11-26 | 2020-02-28 | 武桂英 | Safe and reliable's software test equipment of heat dissipation of being convenient for cool down |
CN110850946B (en) * | 2019-11-26 | 2021-09-14 | 韦晓枫 | Safe and reliable's software test equipment of heat dissipation of being convenient for cool down |
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