The present invention relates to an ionizer for use in a discharge for a charged workpiece, and more in detail, to an ionizer provided with a drop-off prevention device for preventing dropping off of an electrode for ion generation.
In a treating process for a workpiece such as a semiconductor wafer or the like, an ionizer is used for discharging the workpiece being electrostatically charged. The ionizer is constructed such that a positive electrode and a negative electrode are disposed in an electrode-attaching opening at a lower surface of a housing, and a positive pulsing high voltage is applied to the positive electrode and a negative pulsing high voltage is applied to the negative electrode, as shown, for example, in the patent document 1, and thereby a corona discharge is generated so as to generate a positive ion and a negative ion from both electrodes.
The positive and negative electrodes tend to have a stain due to adhesion of dust and tend to be worn by repetition of the corona discharge. Therefore, this requires frequent cleaning and exchange of the positive and negative electrodes, and the same are detachably constructed. That is, an electrode cartridge is formed by holding a pair of the electrodes by a hollow electrode holder, and the electrode cartridge is configured to be detachably attached to the housing. The attaching method is generally configured such that the electrode cartridge is fit into the electrode-attaching opening formed in the housing, and by means of rotating the electrode cartridge by a certain angle around a center axial line thereof, an attaching projection formed in the electrode cartridge is latched to an attaching concave portion formed in the housing.
However, in this kind of ionizer, the aforementioned electrode cartridge is gradually rotated by vibration, a shock, or the like caused when in use, and there is a possibility that the projection finally drops off from the concave portion and that the same is dropped off from the electrode-attaching opening. Accordingly, so as for the electrode cartridge not to be dropped off from the housing, it is required to configure an attaching operation for the electrode cartridge to be further assured.
Patent Document 1: Japanese Unexamined Patent Application Publication No. 2005-108829
Accordingly, an object of the present invention is to provide an ionizer provided with a drop-off prevention device for an electrode for preventing the electrode cartridge from dropping off.
So as to achieve the object, the ionizer according to the present invention includes a housing having a lower surface where an electrode-attaching opening is opened, and both side surfaces continuing into the lower surface, an electrode cartridge detachably attached into the electrode-attaching opening, and a drop-off prevention cover attached to the housing, for preventing the electrode cartridge from dropping off. The electrode cartridge is formed by means of causing a hollow electrode holder having an elliptic cross-section to hold a pair of electrodes, and is free to be engaged with and disengaged from the aforementioned housing by means of being rotated around a center axial line in the electrode-attaching opening. Further, the drop-off prevention cover is detachably attached to the housing and is provided with a restraining portion for restraining the electrode cartridge. The drop-off prevention cover is constructed so as to prevent the electrode cartridge from dropping off by means of limiting a rotation of the electrode cartridge by the restraining portion.
In the present invention, it is desirable to cause the ellipse-shaped fitting hole, where the electrode cartridge is fitted into, to serve as the restraining portion of the drop-off prevention cover.
In the present invention, preferably, the drop-off prevention cover has a groove-shaped cross-section and includes the fitting hole at a bottom wall portion thereof, and is attached to the lower surface of the housing in a condition of straddling the lower surface.
In this case, it is preferable that the housing includes a pair of attaching grooves extending in a longitudinal direction of the housing at positions situated nearer the lower surface at a lower end of the both side faces, and the drop-off prevention cover is constructed such that the left and right side walls are elastically deformable in an opening and closing direction of both of the same, and is provided with a projecting edge inwardly projecting at a tip end of each of the left and right side walls, and the drop-off prevention cover is attached to the housing by means of elastically latching the projecting edge to the pair of the attaching grooves.
Further, in the present invention, the drop-off prevention cover may include a latch arm latching the side surface or an upper surface of the housing, while extending upward from the left and right side walls.
Alternatively, the drop-off prevention cover may be attached to the housing with a band surrounding the drop-off prevention cover and the housing.
Furthermore, the drop-off prevention cover can also be attached to the housing with a screw.
Moreover, in the present invention, the drop-off prevention cover can also be caused to have a function as a filter holder at the same time by means of providing a filter for covering an opening portion at a tip end of the electrode holder in the electrode cartridge, in the fitting hole of the aforementioned drop-off prevention cover.
According to the present invention, the electrode cartridge can assuredly be prevented from dropping off by means of applying a simple technological device such as that the drop-off prevention cover is detachably attached to the housing of the ionizer, and that the rotation of the electrode cartridge is limited by means of the drop-off prevention cover.
The ionizer 1A is the one in which a drop-off prevention cover 3 for preventing electrodes from dropping off is detachably attached to an ionizer main body 2 provided with a pair of or more positive and negative electrodes, 11 and 11, preferably, a plurality of pairs of the same for generating the ions.
The ionizer main body 2 includes a laterally thin and long hollow housing 5. The housing 5 has a cross-sectional shape of a longitudinally long rectangle, that of an elliptic shape, or that similar to the same. A plurality of electrode-attaching openings 6 having a thin and long elliptic shape in an axial direction (longitudinal direction) is formed at a lower surface 5a of the housing 5 at even intervals in the axial direction. Further, an electrode cartridge 7 is detachably attached to each of electrode-attaching openings 6. A numeral 8 in the drawings denotes an end plate for obstructing both end portions in a longitudinal direction of the housing 5.
The electrode cartridge 7 is the one, in which a positive and negative pair of the electrodes, 11 and 11 for generating the positive and negative ions by means of applying a high voltage is held in an internal part of a hollow electrode holder 10 having an elliptic cross-section, as is clear from
The electrode holder 10 is formed such that dimensions in a long side direction and a short side direction of the ellipse are sufficiently smaller than that of a long side direction and a short side direction of the ellipse of the electrode-attaching opening 6 so that the electrode holder 10 can be fitted into the electrode-attaching opening 6 with sufficient margin. On the other hand, the latch portion 12 is formed such that dimensions of a long side direction and a short side direction of the latch portion 12 are larger than that of the long side direction and the short side direction of the electrode-attaching opening 6 so that the latch portion 12 is latched to an opening edge of the electrode-attaching opening 6 when the electrode holder 10 is fitted into the electrode-attaching opening 6.
Further, as shown in
When the cartridge 7 is detached from the electrode-attaching opening 6, the electrode cartridge 7 is rotated up to a position where the axial line L2 in the long side direction of the electrode holder 10 is slanted in relation to the axial line L1 in the long side direction of the electrode-attaching opening 6. Thereby, the attaching projection 14 is removed from the attaching concave portion of the housing 5. As a result, the electrode cartridge 7 can be detached.
The aforementioned positive and negative electrodes, 11 and 11, are, although not shown, connected to a positive high-voltage generating circuit for generating a positive pulsing high voltage, and a negative high-voltage generating circuit for generating a negative pulsing high voltage, respectively. The positive and negative electrodes, 11 and 11, generate corona discharges by means of that the positive and negative high voltages are alternately applied from these periodically operating high-voltage generating circuits. The positive ion is discharged from the positive electrode 11 and the negative ion is discharged from the negative electrode 11. These high-voltage generating circuits and controllers therefore may be provided in an internal part of the housing 5 or may be provided at an appropriate position of an external part of the housing 5.
Further, the housing 5 is, as clear from
The drop-off prevention cover 3 is formed to have a groove cross-section with a transparent material or an opaque material having elasticity, such as synthetic resin, or the like. The drop-off prevention cover 3 is provided with a substantially flat bottom wall 3a, left and right side walls, 3b and 3b, extending upward while being slanted or curved in a manner that the more the left and right side walls, 3b and 3b, extend, the larger the distance between the side walls, 3b and 3b, becomes, after once rising upward from both left and right side end portions of the bottom wall 3a, and projecting edges, 3c and 3c, for latching, which are formed in a manner so as to be inwardly protruding at upper end portions of both the side walls, 3b and 3b. At the bottom wall 3a, as is clear from
In a condition that the drop-off prevention cover 3 is attached to the lower surface 5a of the housing 5, the electrode holder 10 of the electrode cartridge 7 is fitted into the fitting hole 13, and the tip end thereof is slightly protruded downward from the drop-off prevention cover 3. Further, the latch portion 12 having the flange like shape formed on the electrode holder 10 is in contact with a hole edge of the fitting hole 13 from inside of the drop-off prevention cover 3. Accordingly, the hole edge of the fitting hole 13 is configured to form a latch-receiving portion 16 where the latch portion 12 is in contact therewith and is latched thereto.
The fitting hole 13 has a size in which the electrode holder 10 can be fitted via a slight gap therebetween. In other words, dimensions of the long side direction and short side direction of the fitting hole 13 are formed in an extent to be slightly larger in comparison with the electrode holder 10, and a rotation of the electrode cartridge 7 is limited by means of the fitting hole 13. Accordingly, the fitting hole 13 is configured to form a restraining portion for limiting the rotation of the electrode cartridge 7 while restraining the same.
Thus, resulting from that the rotation of the electrode cartridge 7 is limited by mans of the drop-off prevention cover 3, the attaching projection 14 of the electrode cartridge 7 is prevented from being removed from the attaching concave portion of the housing 5. Therefore, there is no possibility that the electrode cartridge 7 drops off from the electrode-attaching opening 6. In addition, by means of that the latch portion 12 is latched to the hole edge of the fitting hole 13, while being in contact with the same, the effect of drop-off prevention is further assured.
When the electrode cartridge 7 is detached from the electrode-attaching opening 6, the detaching operation is enabled by means of rotating the electrode cartridge 7 around the center axial line LO by a certain angle after detaching the drop-off prevention cover 3 from the housing 5, and removing the attaching projection 14 from the latched condition thereof to the attaching concave portion of the housing 5.
It is preferable that the drop-off prevention cover 3 has a lateral width not to be protruded outward from the side surfaces, 5b and 5b, of the housing 5, when the drop-off prevention cover 3 is attached to the housing 5, and more preferably, the drop-off prevention cover 3 has the same lateral width as that of the housing 5.
Further, although the length of the drop-off prevention cover 3 can be formed to be the same length as that of the housing 5 so that the drop-off prevention cover 3 entirely covers the lower surface 5a of the housing 5, the length of the drop-off prevention cover 3 is formed to be shorter than that of the housing 5, while the drop-off prevention cover 3 is formed to have the length such as that the drop-off prevention cover 3 straddles across all the electrode cartridges 7, in the embodiment shown in the drawings. Thereby, other parts such as a sensor or the like can be attached to the ionizer main body 2 with a material having a latching side wall and a projecting edge similar to that of the drop-off prevention cover 3, by utilizing a part of the attaching grooves, 15 and 15.
Since the construction of the second embodiment other than that of the above-described is substantially similar to that of the first embodiment, the same numerals as that in the case of the first embodiment are attached to the same main components of the second embodiment, and the explanation is omitted.
Accordingly, there is no need to form the attaching grooves, 15 and 15, in the housing 5 as in the first and second embodiments, and further, there is also no need to form the projecting edges, 3c and 3c, to be latched to the attaching grooves, 15 and 15, on both side walls, 3b and 3b, of the drop-off prevention cover 3. However, in the housing 5, the attaching grooves, 15 and 15, may be formed so that other parts such as the sensor and the like are attached.
Although it is desirable that the drop-off prevention cover 3 and the latch arm 21 are transparent, the same may be opaque. Furthermore, although the latch arm 21 continues in a ring like shape, the same may be divided into left and right parts. In a case that the latch arm 21 is divided, it may be applicable that a projection is provided at a tip end of the left and right latch arms, 21 and 21, and the projection is latched to a concave portion or the like formed in the side surface 5b of the housing 5.
Incidentally, although one drop-off prevention cover 3 having a length that enables the same to straddle across all the electrode cartridges 7 is attached to the ionizer main body 2 in each of the embodiments, the drop-off prevention cover 3 may be divided into each of individual electrode cartridges 7. Alternatively, in a case that the number of the electrode cartridge 7 is large, a plurality of drop-off prevention covers 3 each having a length to straddle across a plurality of electrode cartridges 7 may be used.
Number | Date | Country | Kind |
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2005-351246 | Dec 2005 | JP | national |