TW201103629A - Apparatus for collecting floating dusts - Google Patents

Abstract

There is provided an apparatus collecting floating dusts, which is very thin, compact, easily maintained, improved to be safer, and has a high efficiency. The apparatus includes a housing including a frame forming a hollow empty space and an electronic component part below the empty space in the frame, an emitter electrode part including a frame detachably installed inside the frame of the housing and including a plurality of rod electrodes arranged transverse to the empty space, and a collector electrode part including a plate electrode installed opposite to the emitter electrode part and including a frame detachably installed inside the frame of the housing. The plate electrode of the collector electrode part includes a plurality of holes through which air flows, thereby forming an ionic wind and collecting floating dusts in the air.

Description

201103629

Wuuj^r/A VI. Description of the invention: , ' 'Technical field to which the invention belongs 】 Right-handed ^The invention is related to a device for collecting floating dust, and especially for maintenance, with a change and high efficiency [ Prior Art] Yes, ίΓΓ: The device for collecting floating dust includes an emitter and a collector, and the <, pole' device uses a human voltage to apply a high voltage to the emitter. And the discharge charges the floating dust to collect the charged particles by the radiation, wherein the emitter and the collector have different polarities from each other: the device can be used in purifying the semiconductor or liquid crystal display, and the rolled body is cleaned or purified Contaminated air in the environment. On the other hand, in the example of such a collecting device, there is a device for collecting dust, which includes a linear emitter and a wing-shaped collector, and the emitters "the collectors are arranged opposite each other. However, because The charged particles are collected through the wing, the collector and the filaments. Therefore, the wing-shaped collector has a large size. The outer layer is difficult to remove due to the relationship between the wing-shaped collector's body structure. The device is maintained. In other words, when the device is cleaned by spraying with a fluid, it is difficult to clean the detail, and the use of the device repeatedly causes deterioration of the collection performance. - Further, in Japanese Patent Application Laid-Open No. 2 The 834 nickname reveals that the electrode system is wing-shaped. A positive high voltage and a negative high voltage = mutually applied to the wing-shaped electrode. However, since the adhesive is applied to the surface of the two-wing electrode to collect the floating dust Therefore, the wing-shaped electrode is 201103629 - TW6059PA r, which is difficult to clean. Therefore, once the electrode needs to be replaced after use, the same electrode is difficult to reuse. In addition, when using a high-voltage electrode This device does not provide a safety system. Therefore, the operation of the device is not stable and there is a danger of use. SUMMARY OF THE INVENTION The present invention mainly provides a device for collecting floating dust, and the efficiency of the device is as follows: First, the board The electrode has a plurality of holes, and the plate electrode is separated from and opposed to the rod electrode system, thereby improving the performance of collecting the floating dust and providing a compact volume, thereby forming different functions and compatible setting manners in a limited space. Second, the plurality of holes in the plate electrode and the arrangement of the rod electrodes are variable to provide a design freedom for different application fields. The collecting electrode member includes a plate electrode and an emitter electrode member. Including the rod electrode can be separated for easy and neat cleaning with a cleaning fluid, thereby greatly improving the maintenance quality. Third, since the safety element is used to sense whether the front and rear protection plates mounted on the housing are equipped with safety elements, and The power can be cut off when the protection board is not installed in the safety element. In this way, the operation of the product can be provided. Stability and greatly improve the safety of the user. Fourth, when the rod electrodes are respectively provided at the front and the rear of the plate electrode, the ion wind is generated along the front and the back of the plate electrode, and the front portion of the plate electrode The rear part is used to collect particles, so the collection efficiency is greatly improved. According to one aspect of the invention, a device for collecting floating dust is provided 201103629. The device comprises a housing, an emitter electrode component and a collecting electrode component. The body comprises a frame and an electronic component, and the frame of the housing has a hollow body. The electronic component is disposed below the hollow body in the frame of the housing. The emitter electrode component comprises a frame, and the emitter electrode component The frame is detachably disposed in the frame of the housing 4 and includes a plurality of rod electrodes. The rod electrodes are disposed laterally in the hollow. The collecting electrode member includes a plate electrode. The plate electrode is disposed relative to the emitter electrode member. And the collecting electrode π member includes a frame of the frame collecting electrode member detachably disposed in the frame. Wherein the plate electrode of the collecting electrode member comprises a plurality: fine for allowing gas to pass therethrough, thereby forming an ion wind and collecting the direction of the holes formed on the gas counter-dog electrode, relative to the corresponding rods The direction of the electrode. The rod electrodes and the plate electrodes are connected to a power supply via a high voltage switch through a switch electrode and a plate electrode, and the high voltage converter is located in the electronic component unit 2: The sub-stalk is opposite in polarity by supplying power to the rod electrodes and the plate electrodes. ~Electricity The electronic component of the housing has a plurality of elastic pins. The elastic pin connectors are elastically convex upwards, and the power supply is connected to a plurality of lightning fishes m(10) respectively. The power supply connecting members are blade-shaped on the lower surface of the emitter electrode member and the collecting electrode member. The frame of the emitter electrode member and the frame for collecting the f-pole member are divided into a bottom portion of the convex structure of the housing. The frame of the Ø pole electrode part and the frame of the collecting electrode part are respectively included in the package of 201103629 - TW6059PA r , including a pivotal handle, which is respectively framed by the frame of the emitter electrode member and the frame of the collecting electrode member. The front and rear portions of the housing are detachably coupled to the plurality of protective plates, respectively, and the protective plates are formed of an insulating material, and the protective plates include a plurality of through holes. The device further includes a security component, and the security component includes a first sensor and a second sensor respectively disposed on the front and the rear of the electronic component to sense whether the protection plates are coupled to the first sensor and The second inductor selectively stops supplying power to the emitter electrode member and the collecting electrode member according to whether the protection plates are coupled to the first inductor and the second inductor. A plurality of devices are disposed on the upper, lower, left and right portions of the plurality of accommodating members, and the devices form a surface of the one of the aggregates for collectively collecting the floating dust in the purification target space. A plurality of moving wheels are disposed on the bottom of a frame of the assembly of the devices. According to another aspect of the invention, a device for collecting floating dust is provided, the device comprising a housing, a plurality of protective plates and a security element. The housing includes a frame having a hollow body, an emitter electrode member and a collecting electrode member disposed in the hollow body and opposed to each other, and the emitter electrode member and the collecting electrode member are detachably disposed in the frame. A plurality of protective plates are detachably coupled to the front and rear portions of the housing, and the protective plates are made of an insulating material having a plurality of through holes for allowing gas to pass therethrough. The safety element selectively stops supplying power to the emitter electrode member and the collecting electrode member depending on whether or not the protective plates are coupled to the safety member. The security element includes a first sensor, a second sensor and a third 201103629 sensor. The first sensor and the second sensor are respectively disposed on the front portion and the rear portion of the electronic component portion for sensing whether the protection plates are in contact with the first inductor and the second inductor, wherein the electronic component The portion is located below the hollow body in the housing. The third inductor is disposed at an upper portion of the electronic component portion under the hollow body for sensing whether one of the emitter electrode member and the collecting electrode member is separated. When a sensing object is coupled to the first sensor, the second sensor, and the third sensor, the first sensor, the second sensor, and the third sensor of the push button switch are pressurized. The safety component further includes a selection switch, the selection switch is located on the portion of the electronic component, and the opening and closing of the selection switch respectively linearly connect the first inductor, the second inductor and the third inductor, and selectively ^ Power to the linear sensor - the two ends of the sensor and the second sensor, thereby determining whether a full mode is executed. Where the edge of the second raft is provided with a hook body, the hook body has a groove and the groove is inclined downward, and the yoke is combined with the convex structure, so that the protection is (four)' and the gravity is closely and tightly An outer convex structure attached to the housing is located within an inner peripheral surface of the frame of the housing. - Aspect - proposed - then (d) set of dust particles and a first - shot 2 11 electrode parts, - the first - emitter: - medium body: piece. The casing comprises a frame, and the frame has: and the two plates are arranged on the casing _-shooting to collect the floating dust of the gas. The yak and the first emitter electrode component phase include 201103629 'I W605yPA r , which is disposed at the front and the rear of the plate electrode, and is disposed apart from the front and rear portions of the plate electrode, the first emitter electrode component and the first The two emitter electrode members each include a plurality of frames, and the frames respectively include a plurality of first rod electrodes and a plurality of second rod electrodes, and the first rod electrodes and the second rod electrodes form a periphery An ion wind of gas. The first rod electrodes, the second rod electrodes and the plate electrodes are made of a conductive material and connected to a power supply via a high voltage converter, and the high voltage converter is located in the housing. The power source of the same polarity is supplied to the first rod electrodes and the second rod electrodes, and the power supply system for supplying the polarities of the first rod electrodes and the second rod electrodes is supplied to The plate electrodes are electrically charged to the first rod electrodes, the second rod electrodes, and the plate electrodes, respectively. In order to make the above description of the present invention more comprehensible, the preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Below. 1 is a schematic diagram showing the exterior of an apparatus 10 for collecting floating dust according to an embodiment of the present invention. 2 is a schematic front and exterior view of the housing 100 of the device 10 of FIG. 1. FIG. 3 is a schematic diagram showing the rear exterior of the housing 100. Referring to Figures 1 through 3, the apparatus 10 includes a housing that defines a frame that includes a hollow body 101 that is hollow inside and an electronic component portion 110. The electronic component unit 110 includes different electronic components such as a printed circuit board (PCB), and the electronic component unit 201103629 1 vvuujyrA is disposed below the hollow body 101#. In this embodiment, the housing ι can be! Lu made it to be electrically protected. On one side of the casing (10), a power input terminal 1G6 and a power output terminal 1 () 7 are disposed. In addition, a main power supply switch ι 2 and a second selection switch 103 are disposed on the side of the front portion of the bite body, and the selector 03 is selected to select whether to operate in the safe mode. This safety mode selectively cuts off the supply to the emitter electrode member, as shown in Fig. 4 and the receiving (four) pole part, depending on whether the plurality of protective plates 16 are divided into the front and the rear of the housing. Further, as shown in Fig. 4, the emitter electrode member 120 and the collecting electrode member m are detachably attached to the frame just in the casing. This sluggish mode causes the power supply to select = supply and transition ' and the high voltage is changed so that the gas is purified by collecting = dust in the body. In addition, when a high-voltage power source is provided, it is safe for the user to use. Figure 4 shows the exploded view of the device.

. Referring to Figure 4, the apparatus 10 includes a housing 100, an emitter electrode member 120, and a collecting electrode member 13A. (4) The HP emitter electrode member 120 is detachably attached to the frame truss 123 of the housing, and the frame 123 includes a plurality of rod electrodes 121 loosely disposed in the hollow body 101. In the present embodiment, the rod electrodes (2) are separated from each other by a predetermined interval, and may be formed of a conductive material such as stainless steel and conductive high-grade material. By providing a negative power supply through the high voltage converter in the electronic component 1]G in the housing: the second has a negative polarity. The rod-shaped electric ... is linear, but is not limited to this. For example, the rod electrode 21 may have a hollow cylindrical shape. 201103629 4 i WGO^ypA r The frame is mounted on the opposite side of the position of the pole (2) of the housing 100. Change the plate 2Π3; the surface of the rod-shaped electric r is parallel to the electric ===: the edge is in the plate-like electricity 2: the more surrounding gas passes through the hole] 3 the plate-shaped electrode 131 can be guided by the mine, And the formation of ion wind. ^jz.Un , only formed, such as stainless steel and conductive high knife material. The frame 133 is wrapped around the plate. The shape of the 132: can be around the diameter h. The hole is here. The circle of mm (mm), but not limited by the inside of the electronic component part 11 of the body of the body can provide a positive power supply to the plate electrode (3), and the plate: electricity =, positive polarity. Volt: = 121 ’: +5 volt power supply can be supplied to the plate electrode. Reverse electricity: The two poles are provided with polar phases (2). The following ===, 't positive power supply can be supplied to the rod-shaped electric field; the above negative -3⁄4 source is supplied to the plate-shaped positive power supply to the rod electrode (2) as an example. In this manner, the gate electrodes 121 and the plate electrodes 131 are spaced apart to form a voltage. Among them, a solid-cause reservoir is formed between the two: the force is directed toward the plate-shaped electricity... and is formed to be separated from the second; the gas collector of the circumference = rod-shaped electricity (four) and as a corona discharge "_ potential ^ thus S Hx Wang not T The electric dust is basically 201103629 I vvuv/j^rrv is 1 electric, and by the relationship of Coulomb force, the negative rod electrode 丨2 l attracts positive dust, and the positive plate electrode 131 attracts negative polarity. The floating dust is used to collect the floating dust in the gas. In the present embodiment, the casing 1 including the hollow body 1〇1 is in the form of an additional element as described above, but includes the hollow body 101. The housing 100 may also be a single main body structure which is assembled with a peripheral device. On the other hand, as shown in Fig. 4, the electronic component portion 1 1 below the hollow body of the housing 1 The upper part is provided with an elastic lock connector (1), and the elastic connector 115 is elastically protruded upward to connect the power supply to a plurality of power connection components (not shown), and the power connection components are respectively formed on the emitter On the lower surface of the electrode member 120 and the collecting electrode portion #13〇. When the emitter electrode member 120 and the collecting electrode member 130 are mounted in the hollow body 1〇1 of the housing 100, the elastic pin connector U5 is generated due to the gravity relationship between the emitter electrode member 120 and the collecting electrode member 130, respectively. The pressure 'by this improves the contact condition to provide a stable current. Further, as shown in Fig. 4, the frame 123 of the emitter electrode member 及2〇 and the frame "133 of the collecting electrode member 130 have hook bodies (2) and 135, respectively. 'To engage the convex structure 116 on the casing. The pivot handles (3) and 136 are hingedly linked to the frame of the electrode member 130 of the emitter electrode m. m + 町札' Zhu 133 Therefore, the user The handles 126 and 136 can be rotated laterally and backwardly, one of the emitter electrode member 12 and the collecting electrode member 130, and the hooks 125 and 3 can be selectively attached to the convex structure. In this way, the emitter electrode can be easily installed in the hollow body of the housing by the 12G and the collecting electrode member 13(), or detached from the hollow body of the housing. 201103629 * IW6059PA r , # After collecting the floating dust in the gas, collect (four) (four) pieces of 〇 and emitter The pole member 120 can be separated, and the dust collected by the emitter electrode member 120 and the collecting electrode member 130 can be cleaned by easily and conveniently using a cleaning fluid including alcohol or the like, and the collecting electrode member 130 and the emitter electrode can be used. It is reused to greatly improve the quality of maintenance. According to the material provided by this release, it can be used not only in the clean room in the process of semi-conducting liquid crystal display, but also to purify the gas. It can be used in laboratories, operating rooms, nursing homes, subway stations, and (4) private and darkrooms to purify environmental pollutants in the air. Six fields are based on the 之间 between the plate electrode 131 and the rod electrode 121. The collection of interactions will be explained below. Fig. 5 is a schematic view showing the intersection of the plate electrode (3) and the rod electrode (2), and Fig. 6 is a top view of the configuration of the configuration of the 柘 雪 雪 雪 卞 请 请 请 请 请 请 131 131 131 131 131 131 131 131 131 131 131 5, the standard makeup ray Φ f 0 T m pole (3) moves, and the band 4y _ in this example, formed toward the plate electrode 131 system - flowing toward the hole 132 on the plate electrode (3) An example of the discharge of the rod-shaped electric (2) as an emitter is 131 ^ P 5 ^ p ® ^^t^ λα,, ή . 77, Ya'an Street moves to the edge of the plate electrode 131 at /. In the present embodiment, the floating dust in the gas is the edge of the weir and is induced in this procedure. Change Π 121 131 ^32 Α into ion wind. At the same time, the gas diffuses to the hole 132 except for the 201103629

The residual floating dust of the area other than the edge will be positively charged and collected again to the rod electrode 121. In the above-described procedure, most of the floating dust in the gas is collected on the surface of the plate electrode 131, and the gas passes through the hole 132 and flows in the opposite direction. In the present embodiment, as shown in Fig. 6, in order to induce the flow of the ion wind to improve the collection performance, a plurality of straight lines 'the central portion of the hole 132 connecting the plate electrodes 131 vertically are disposed on the rod electrode 121. Opposite. Further, in order to efficiently collect the floating dust, the relationship between the holes 132 formed in one row on the plate-like electrode 131 and the holes in the left and right rows is arranged in a zigzag manner and does not overlap. As described above, the apparatus according to the embodiment of the present invention forms a surface by the arrangement of the rod electrodes facing the counter electrode 131 including the plurality of holes 1 to collect the floating dust. In addition, by adjusting the size of the holes 132 and the spacing between the rod electrodes 121, this month's example can provide a degree of freedom that can be changed according to environmental requirements. In this way, it is possible to achieve a small, small-scale, and can greatly increase the collection efficiency of the device. In the rn aspect, as shown in FIG. 4 to FIG. 4, the protective plate 160 is formed of a plurality of through holes 162 formed in the protective plate 160, and the body is detachably removed from the protective plates 160. Mounted to the housing 1 (1) Ray::: rear part so that, for example, the emitter electrode member 120 and the collection touched the 7-volt high voltage device can operate stably and can avoid the user's interest in touching the voltage device. Moreover, the user is safer. 1 3 further improves the stability of the operation of the device 10 and allows the security element to be provided, the security element can be based on the protection plate 160

I 201103629, I W6059PA » Is it installed in the device 10 to selectively cut the power supply? Next, the secure element and circuit configuration of the apparatus according to an embodiment of the present invention will be explained with reference to FIG. Figure 7 is a circuit diagram showing the security elements in the device. Referring to FIG. 7 , an alternating current (AC) input terminal 1 〇 6 is disposed in the electronic component portion 11 ( ) of the casing 1 , and the input voltage is passed through the fuse 601 and the main power supply switch 1 〇 2, And supplied to the DC converter 602. Overload can be avoided by the input voltage of the fuse 601. Further, the output terminal 107 can be connected to one side of the alternating current input terminal 1〇6. The DC power converted by the DC converter 602 is passed through a safety element, a printed circuit board (PCB) 62A, and a high voltage converter 63A, and is provided to the emitter electrode member 120 and the collecting electrode member 13A. In the present embodiment, the female full component includes a first sensor lu, a second sensor 112, and a third sensor 113. The first sensor η1 and the second sensor 112 are respectively disposed at the front of the electronic component portion 11〇. And the rear sensing and protection plate 16 is mounted on the first inductor 111 and the second inductor 112, wherein the electronic component portion 110 is formed under the hollow body 〇1 of the casing 丨00. The third inductor 113 is disposed on the upper portion of the electronic component portion 11A and senses whether or not one of the collecting electrode member 130 and the emitter electrode member 120 is disengaged. + When the safe mode is selected, and the first sensing Elu, the second sensor 112, and the second sensing 113 sense that the object is not coupled thereto, the security element operates to prevent the power source from being supplied to the emitter electrode member 12 and the collecting electrode Component 130. In more detail, the first inductor, the second inductor U2, and the second inductor 113 are connected in a linear series, and can be selected by the switch type 201103629 to provide power to the linear series. A sensor 丄n and a second, the two ends of the keeper 112 are thus connected to the selector switch 1 〇 3 or not to determine whether to operate in a safe mode. The selector switch 1〇3 is mounted on the front of the 110. The selection switch 103 is turned on to operate in the safe mode, and when the first sensor (1), the second sensor 112, and the third sensor 113 sense that the object is not lightly coupled with them, the power source is not supplied to the emitter electrode member. m and collecting electrode member 130. Thereby, the device is provided with a stable operation and greatly improved safety. On the other hand, when the selection switch 1〇3 is turned off and is not operated, there are no first-inductor m and second-inductor n2: sensed objects such as the erbium emitter electrode member 120 and the collecting electrode member 13 In the case of being consumed by the third inductor 113, a power source may be provided to the emitter electrode member 120 and the collecting electrode member 130. On the other hand, the first sensor 111, the second sensor 丨12, and the third inductor 113 may be push button switches. When the sensed objects are respectively coupled to the first sensor ill, the second sensor 112, and the third inductor n3, the objects are applied to the first sensor U1, the second sensor 112, and the third inductor 113, and the power source is Provided when the first inductor m, the second inductor 112, and the third inductor 113 are pressurized. Referring to Figures 2 through 4, the following will explain the use of the first sensor u, the second sensor 112, and the third sensor 113, which are respectively push-button switches, to sense whether or not the object is coupled. In this embodiment, the second inductor 112 is disposed at a similar position to the first inductor ill and has the same shape. The first inductor η1 and the second inductor 112 are respectively located in front of the electronic component portion 11〇. On the back and on the back. 16 201103629 • TW6059PA » , For a more detailed description, please refer to FIG. 2 and FIG. 3 , and the first part and the rear part of the electronic component part located below the hollow body 101 of the housing 100 are respectively configured as the first button switch. The inductor 111 and the second inductor 112. When the protection plate 160 is mounted on the first sensor 1U and the second sensor 112, the first sensing state 111 and the second sensor 112 are respectively pressurized, and the sensing protection plate 160 is mounted on the first sensor 111 and the first Two sensors 112. Further, the third inductor in is also a push button switch, and when one of the collecting electrode member 130 and the emitter electrode member 12 is mounted to the third inductor 113, since the collecting electrode member 13A and the emitter electrode member 120 are The relationship of gravity itself causes the third inductor 113 to sense whether the collecting electrode member 130 and the emitter electrode member 12 are mounted thereon. In the fourth embodiment of the tea, the edge of the protective plate 16 has a hook body 165, and the fishing body 165 has a groove 167 which is inclined downward to fit the convex structure 1Π. The hook body 165 slides down the inclined groove 167 to allow the protective plate (10) to be pressed by its own weight to closely adhere to the outer surface of the casing in this mode. In the present embodiment, the edge of the protective plate 16 is attached to the front portion of the housing and is pressed against the first inductor 111 disposed on the front portion of the electronic component portion lu. The edge of the protective plate 160 is mounted in the rear portion of the casing (10) and pressurized to the second inductor 112 disposed on the rear portion of the electronic component portion lu. In the case of the first sensor and the second sensor and 112 being pressed, the sensor board 160 is assembled on the front and rear portions of the housing 100. In addition, the third inductor 113 is also a button switch located at the upper portion of the electronic component 4110 for sensing the emitter electrode member 12() and collecting one of the 201103629 I ννυν/^7Γ/Λ pole members 130. a is a '1', and then is installed in the third sensor 113. Show: ^ Figure ^ '8th _ show (four) set of dust collector device ί f: 2 8 Figure 'In order to enhance the purification of dust in the target space, more =: multiple St upper and lower parts of multiple housing parts The left and right sides of the body of the 201俜22 collection. Having a plurality of accommodating member devices 1 〇 in the technical range and 2: Configuring and arranging a plurality of devices on one side of a main device susceptible to particles in a clean room for manufacturing a semiconductive display In order to greatly increase production yield. In order to meet the application of different fields, the skirt 10 can improve the collection performance by using a special structure 2 thin and relatively small size structure. Intentional Plane FIG. 9 shows another example of the use of the device. Referring to FIG. 9, the movable wheel 21 ί is disposed in the frame 2 〇 frame 2U) to accommodate the device 1 〇, thereby increasing the efficiency of use. _ The first diagram shows an exploded view of the polar configuration for collecting the dustiness of the floating dust according to another embodiment of the present invention. The cross section of the main component of the first embodiment is the same as that of the previous embodiment except that the pitch setting of the mounting (4) and the position of the plate electrode 2 =::: are the same as in the previous embodiment, and therefore will not be described. Referring to Fig. 10, the collecting electrode member 23G is detachable from the frame of the casing 10, and includes a plate shape for collecting floating dust in the gas. The electrode 231, the plate electrode 231 is further, in the frame of the casing 100, The first emitter electrode member 220 201103629 * rW605VPA ^ , and the second emitter electrode member 250 are respectively detachably disposed at the front and the rear of the collecting electrode member 230. The first emitter electrode member 220 and the second electrode project The pole members 250 respectively include frames 223 and 253, and the frames 223 and 253 respectively include a plurality of first rod electrodes 221 and a plurality of second rod electrodes 251, and the first emitter electrode members 220 and the second electrode emitter members 250 are separated. And correspondingly disposed on the front portion and the rear portion of the plate electrode 231, and an ion wind of gas is formed around the first rod electrode 221 and the second rod electrode 251. The collecting electrode member 230 and the first emitter electrode member are disposed. 220 and the first The frames 233, 223, and 253 on the second emitter electrode member 250 have hook bodies 235, 225, and 255 and handles 236, 226, and 256, respectively, to be easily detached from the housing 100 and assembled to the housing 100. The first rod electrode 221, the second rod electrode 251, and the plate electrode 231 are made of a conductive material such as a non-recording steel and a conductive polymer material, and are connected via a high voltage converter in the housing 100. In the present embodiment, power supplies of the same polarity are supplied to the first rod electrode 221 and the second rod electrode 251, and the powers of the first rod electrode 221 and the second rod electrode 2 51 are opposite in polarity. The power source is supplied to the plate electrode 231. Referring to Fig. 11, the direction of the ion wind formed from the first rod electrode 221 and the second rod electrode 251 toward the plate electrode 231 is opposite to each other. The blowing is performed up and down along the surface of the plate electrode 231, thereby collecting the floating dust in the gas to the plate electrode 231. In the present embodiment, the collected gas is discharged outward by the fluid moving up and down near the point P where the electric field concentrates. And the gas outlet can Formed on the upper and lower faces of the housing 100. 19 201103629 I »* l \ , * ' Further, since the fluid is formed along the front and rear portions of the plate electrode 231, the device 10 according to an embodiment of the present invention is different. Therefore, the hole 232 on the plate electrode 231 can be omitted. As described above, the two surfaces of the plate electrode 23 are used to collect particles, thereby greatly improving the collection efficiency. In summary, although the present invention has been The preferred embodiment is disclosed above, but it is not intended to limit the invention. It is intended to be a matter of the nature of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic external view of a device for collecting floating dust according to an embodiment of the present invention. Figure 2 shows the first! The front view of the housing of the device in the figure is external. ^ Brother 3 shows a schematic diagram of the rear exterior of the housing in Fig. 2. Figure 4 shows the exploded view of the device in Figure 1. Interacting with the plate electrode of FIG. 1 and the intersection of the plurality of rod electrodes, the plate electrode of FIG. 1 and the plurality of rod electrodes are combined with the dreams V 1 according to the present invention. _ A circuit diagram for collecting the female components of the floating dust 4 center. The figure shows a schematic diagram using the first example. Figure 9 depicts an illustration of another example of a device that does not use the figure in the figure. 20 201103629 -TW6059PA » , Fig. Figure IF is an exploded perspective view of a polarity configuration of a device for collecting dust in accordance with another embodiment of the present invention. Figure 11 is a cross-sectional view showing the main components of the apparatus of Figure 10. [Main component symbol description] 10: Device 100: Case 101: Hollow body 102: Main power supply switch 103: Selection switch 106: Power input terminal 1〇7: Power output terminal 110: Electronic component portion 111: First sensor 112: second sensor Π3: third inductor 115: elastic pin connector 116, 117: convex structure 120, 220, 250: emitter electrode member 121, 221, 251: rod electrode 123 ' 133 ' 210 ' 233, 253: frame 125, 135, 165, 225, 235, 255: hook body 126 ' 136 ' 226, 236, 256 : handle 21 201103629 I »τ \j\jjj ir\ 130, 230: collecting electrode part 131 231: plate electrode 132, 232: hole 160 protection plate 162 through hole 167 groove 201 structure 211 moving wheel 223 frame 601 fuse 602 DC converter 620 printed circuit board 630 high voltage converter P : 1 22

Claims (1)

201103629 I wou^y^A, · VII. Patent application scope: 1. A device for collecting floating dust, the device comprising: - a casing 'including a frame and a sub-component portion, the frame of the casing having a hollow body The electronic component portion is disposed under the hollow body in the housing frame; the emitter electrode component includes a frame, and the frame of the emitter electrode component is detachably disposed in the frame of the housing And including a plurality of electrode electrodes disposed laterally in the hollow body; and collecting electrode 4, including a plate electrode, the plate electrode being disposed relative to the emitter electrode member, and the plate electrode The collecting electrode member includes a frame, and the frame of the collecting electrode member is detachably disposed in the frame of the housing; wherein the plate electrode of the collecting electrode member includes a plurality of holes and dust gas passing through Thereby forming an ion wind and collecting the gas in the gas. The direction of the holes of the is:: as described in claim i of the patent scope is relative to the corresponding device and ZmY = the device, wherein Some poles and outside = made of material, (d) some rod-shaped electric devices; high-voltage converter connected to a power supply for power supply 2? Positioned in the electronic component portion, wherein the power supply of the lift electrodes is opposite to the power supply of the lift electrodes by the power supply of the lift electrodes. The splicing according to claim 1, wherein the electronic component portion of the casing 23 201103629 1 vvuujyrM has a plurality of elastic splicing magazine connectors elastically upwardly connected to each other. a device that is connected to the plurality of power supply connecting components, wherein the electrodes are formed on the lower surface of the emitter electrode member and the collecting electrode member, such as the device described in claim 1, wherein the device is a pole-hook; the frame and the frame of the collecting electrode member respectively comprise a portion: a 5-hook system coupled to a bottom of a convex structure of the housing. 6. The frame and the frame handle are respectively hinged to the frame of the emitter electrode member and the frame of the collecting electrode member. Zhanyi·The application device mentioned in item 1 of the patent scope of May, and the current M f = plate is made of insulating material, and the plurality of boards (four) are one by one. 8. If the patent application scope is 7th Component, the security element includes a first? The second device: more includes - the front part of the An's "=== These protective plates are = the second sensor, according to the selection pendulum (four) π u first sensor and the second sensor. r I power supply Providing the emitter electrode member and the collecting electrode with the device of the first aspect of the invention, wherein the plurality of sighs are placed in the upper, lower, left and right portions of the plurality of accommodating members. 201103629 * TW6059PA · And a device for forming a collection of a surface of the apparatus for concentrating the dust of the target space, wherein the apparatus of claim 9 wherein the plurality of moving wheels are disposed a device on the bottom of a frame of the assembly. 11. A device for collecting floating dust, the device comprising: a housing comprising a frame, the frame having a hollow body, an emitter electrode assembly and - collection Electrode members are disposed in the hollow body and opposite to each other 'the emitter electrode member and the collecting electrode member are detachably disposed in the cough frame; 'a plurality of protective plates detachably wheeled to the front of the housing And the back' And the protection plates are made of an insulating material having a plurality of holes for allowing gas to pass through; and a safety 7L member for selectively depending on whether the protection plates are coupled to the safety element Stop supplying power to the emitter electrode member and the collector member. Μ 12. The device of claim n, wherein the full component comprises: 〃 Μ a first sensor and a second sensor, Separatingly disposed on the front portion and the rear portion of the electronic component portion for sensing whether the protection plates are lightly coupled to the first inductor and the second inductor, wherein the electronic component portion is located in the hollow of the housing And a second inductor disposed on the electronic component σ under the hollow body. The 卩 is used to sense whether one of the 5 amp electrode member and the collecting electrode member is separated. The device of claim 12, wherein the device is coupled to the first sensor, the second sensor, and the third sensor, and is a button switch The first sensor, the second sensor, and the second sensor are pressurized. The device of claim 12, wherein the device further comprises a - selection switch When the switch is located in the electronic component portion, the opening and closing of the '1H selection switch respectively causes the first sensing: the second sensing sensor and the third sensing device to supply power to the first inductor and the ground in series The two-end 'this mosquito-safe mode is executed. &--- 5. The device as described in claim n = (4) The edge system is equipped with - fishing body 'the fishing body trough, = trough down Tilt to couple to the roadway pressure, and ό, shape,,,. Constructing the protective plates to be closely attached to the (four) face of the casing by gravity; the inner periphery of the frame located in the casing = surface The device comprises: -: a sensation comprising a frame 'the hub has a hollow body; a collecting electrode member' detachably disposed on the bracket-plate electrode for collecting the float in the gas Positional pure (four) pole material, the detachable emitter electrode component is opposite to the first emitter electrode component and the second plate electrode; the front and rear portions of the slab electrode are arranged, and the component and the first The first emitter electrodes respectively comprise a plurality of first dimensions; each of the plurality of frames comprises a plurality of frames, the frames are shaped by the electrodes and the plurality of second rod electrodes, the 26 201103629 1 I W6059PA ' , The first rod electrode and the second rod electrodes form an ion wind of the surrounding gas. 17. The device of claim 16, wherein the first rod electrodes, the second rod electrodes and the plate electrodes are made of a conductive material and passed through a high voltage converter Connected to a power supply, the high voltage converter is located in the housing, wherein a power of the same polarity is supplied to the first rod electrodes and the second rod electrodes, and opposite to the first A power source for the polarities of the rod electrodes and the second rod electrodes is supplied to the plate electrodes to charge the first rod electrodes, the second rod electrodes, and the plate electrodes, respectively. 27