The present invention relates to a static eliminator for eliminating static electricity from electrostatically charged electronic components or other objects, and an electric discharge module.
When manufacturing or assembling an electronic component, if a tool used for manufacturing or assembling an electronic component is charged with a static electricity, foreign matter such as dust may stick to the electronic component, and a defective product may be produced, or the electronic components in the transfer process may attract and contact with each other, and may not be transferred smoothly. Accordingly, by using a static eliminator known as ionizer or ion generator, the electrostatically charged portions or components are treated by blowing an ionized air. To ionize the air by an electric energy, a high voltage is applied to a needle-like discharge electrode, a non-uniform electric field is generated around the discharge electrode, and a corona discharge is generated in the area of the non-uniform electric field, and the surrounding air is ionized by the corona discharge. When a positive high voltage is applied to the discharge electrode, electrons in the air near the electrode are absorbed, and the air becomes ions having a positive electric charge, or when a negative high voltage is applied, electrons are released, and the air becomes ions having a negative electric charge.
When an alternating-current high voltage is applied to the discharge electrode, the positive and the negative air ions are generated basically by the same quantity, and when they are blown to a charged object, the object rejects ions of same polarity, and absorbs ions of opposite polarity. Accordingly, the ions of opposite polarity contact with the object, and the charged amount decreases gradually, and the positive and the negative ions of same amount contact with each other, and thereby the object is balanced and neutralized at a low potential.
Such static eliminator is described, for example, in Patent Document 1, which relates to a so-called fan type, the air blown to the object by a fan is ionized by a discharge electrode.
Patent Document 1: Japanese Patent Application Laid-Open Publication No. 2004-253192
When air is ionized by corona discharge, an insulating material such as foreign matter educed from the air stick to the leading end of the discharge electrode, and it is needed to remove them periodically, and further if the leading end of the discharge electrode is worn or degraded, the discharge electrode must be replaced. The static eliminator disclosed in Patent Document 1 is a static eliminator composed of a frame-shaped detachable unit having a high-voltage supply unit forming a circular hole for mounting a plurality of discharge electrodes oppositely to each other, and a main body case incorporating a fan and the detachable unit, in which the detachable unit is replaced when the discharge electrodes are worn out. In the detachable unit, the discharge electrodes are mounted oppositely to each other in the inner circumference of the circular hole allowing an air flow, toward the center of the circular hole, and in order to ensure the air flow of ionized air, the inside diameter of the circular hole must be increased, and hence the detachable unit must be increased in size.
However, to replace the worn discharge electrodes with new discharge electrodes, the large-sized detachable unit must be replaced, and the detachable unit is discarded together with the high-voltage supply unit, and since the usable high-voltage supply unit is discarded at the same time, and the maintenance cost of the static eliminator for ensuring normal ion generation is increased. Still worse, a detaching direction of the detachable unit from the main body case is at right angle to the air flow, and a drawing space for the detachable unit is needed in the dismounting area of the detachable unit, and not only the installation place of the static eliminator is limited, but also the maintenance work is difficult.
It is hence an object of the present invention to realize replacement of electric discharge needles in the static eliminator, and to enhance the maintainability of the device.
A static eliminator according to the present invention is a device for eliminating static electricity from an object by blowing an ionized air to a charged object, comprising: a case body having an air blow side, and provided with an air blow duct being opened at the air blow side for blowing out an ionized air, an electric discharge module having an electric discharge needle substrate extended in a lateral direction to the blow direction of the blow duct, being mounted detachably on the case body, and a plurality of electric discharge needles mounted on the electric discharge needle substrate at intervals, and projecting into the blow duct, in which the electric discharge module is detachably mounted on the case body from the air blow side.
The static eliminator according to the present invention is such that slits for guiding the respective electric discharge needles are formed in the blow duct, when attaching and detaching the electric discharge module to and from the case body.
The static eliminator according to the present invention is such that the plurality of electric discharge needles are mounted substantially straightly on the electric discharge needle substrate.
The static eliminator according to the present invention is such that the electric discharge module has the electric discharge needle substrate and a surface panel detachably mounted on the air blow side, and the substrate insert opening formed in the air blow side of the case body is covered with the surface panel.
An electric discharge module according to the present invention is a module having mutually parallel two longer sides, and shorter sides connecting the both ends of the both longer sides, being detachably mounted on a case body provided with the blow ducts forming rectangular air blow openings, for ionizing the air flowing in the blow ducts, comprising: an electric discharge needle substrate having a plurality of electric discharge needles being opposite to respective counter electrodes provided in the blow duct, and inserted into the slits formed in the blow duct provided at predetermined intervals, and inserted into a substrate insert opening formed in the case body, and a surface panel mounted on the electric discharge needle substrate for covering the substrate insert opening.
According to the present invention, in a case body having a blow duct for blowing out an ionized air, an electric discharge module having an electric discharge needle substrate provided with a plurality of electric discharge needles is detachably mounted, and by dismounting the electric discharge module, the electric discharge needles may be easily cleaned or the electric discharge needles may be replaced. As a result, the maintainability of the static eliminator is enhanced.
Slits for inserting the electric discharge needles are formed in the blow duct, and when assembling the electric discharge module in the blow duct, the position of the electric discharge module to the blow duct can be positioned.
An embodiment of the present invention is specifically described below while referring to the accompanying drawings. As shown in
The case body 12 is provided with two blow ducts 15, and each blow duct 15 has longer sides 16, 17 extending in the longitudinal direction of the case body 12, and shorter sides 18 integral at both ends of the longer sides 16, 17, and an air passage is formed inside. The cross section of the blow duct 15 is rectangular, and a blow opening 19 at its leading end is rectangular as shown in the drawing. The blow opening 19 is divided into plural portions by a partition 21 parallel to the longer sides 16, 17, and a plurality of partitions 22 at right angle to this partition 21, and the air flowing in the blow opening 19 is straightened and discharged outside. Each blow duct 15 is divided into eight portions in two rows of four portions by the partitions 21, 22, and the blow ducts 15 are divided into a total of sixteen portions. At a substantially right angle to the sidewall 13b, a sidewall 13d connects with the sidewall 13b by way of a taper part 13c is mounted on an air feed grill 23 having a plurality of air feed openings by means of a mounting screw member 24.
The case body 12 is rotatably supported on the holder 11 as mentioned above.
As shown in
The electric discharge needle substrate 31 is formed of a band-shaped resin plate material, and eight fixing pieces 37 made of copper or other metal material are mounted at specific intervals substantially straight in its longitudinal direction, and electric discharge needles 38 made of metal material are fixed to each fixing piece 37. On the surface of the electric discharge needle substrate 31, a printed wiring 41 is provided for connecting electrically to the electric discharge needles 38 arrayed straightly, and the printed wiring 41 is connected to a conductive end 42, and a connection terminal 45 of copper or other metal material is mounted to this conductive part 42. The number of electric discharge needles 38 provided on the electric discharge needle substrate 31 is not limited to eight, but may be optional number, for example, twelve, depending on the longitudinal dimension size of the blow opening 19.
The blow duct 15 is formed in a rectangular shape consisting of the longer sides 16, 17, and the shorter side 18 integral to the both ends thereof, and since the blow opening 19 is rectangular, the length of the blow duct 15 may be an optional length, or an optional number of the blow ducts 15 may be mounted on the case body 12, so that the blow air flow may be optionally set. The interval of electric discharge needles 38 may be also set at any pitch freely, depending on the ion density, the width of the blow ducts 15.
As shown in
On the outer side of the longer side 17 of the blow duct 15, as shown in
The case body 12 is provided with a fan 62 for introducing external air from the air feed grill 23, and blowing out the introduced air toward the blow duct 15, and a direct current is supplied to a direct-current motor 63 for driving the fan 62 through the power feeding cable 58. The power feeding cable 58 is provided with a variable resistor 64 for adjusting the motor rotating speed, and this variable resistor 64 is manipulated by an adjusting dial 65 provided on the air blow side 14 of the case body 12 as shown in
By using the above-mentioned static eliminator, in order to eliminate static electricity from the object by blowing an ionized air to the object such as an electronic component, as shown in
A high voltage of specified frequency is applied to the electric discharge needles 38 and counter electrodes 51 from the step up transformer 59, and a corona discharge is generated around the electric discharge needles 38. As a result, the air flowing into the blow duct 15 is blown into an ionized air containing the positive ions and the negative ions, and is blown to the object, and the charged object is neutralized by the ionized air. The ionized air is straightened by the partitions 21, 22 provided in the blow duct 15, and the ions are uniformly dispersed generally from the blow opening 19 of the blow duct 15, and are blown to the object.
When foreign matter is educed or sticks on the electric discharge needles 38, the mounting screw member 36 is loosened as shown in
Alternatively, a step up transformer 59 may be mounted to the electric discharge needle substrate 31. In this case, by shortening the distance between the step up transformer 59 and the electric discharge needles 38, the impedance between them can be reduced, and hence the electric power loss can be decreased.
The present invention is not limited to the above embodiment, and may be variously modified and varied within the scope of not deviating from the gist thereof. For example, a direct current may be supplied individually to the counter electrodes 51 and electric discharge needles 38. The present invention may be applied also as an ozonizer for applying ozone to the air by corona discharge. Further, without assembling the fan 62 and the motor 63 in the case body 12, air may be supplied from outside of the case body 12. In the shown example, in the electric discharge needle substrate 31, a plurality of electric discharge needles 38 are arrayed in a row, but may be arrayed in plural rows, or may be formed in a zigzag layout instead of a straight layout.
The present invention is applied for eliminating static electricity from charged tools used in manufacture and assembling of electronic components.
Number | Date | Country | Kind |
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2006-110518 | Apr 2006 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2007/057991 | 4/11/2007 | WO | 00 | 10/6/2008 |