An exemplary embodiment of the invention concerns a process for forming an elongated strip for use in making two tone muntin bars. An elongated strip of muntin bar material is provided that has been treated on at least a portion of one side to define an exposed surface of a completed muntin bar fabr
An exemplary embodiment of the invention concerns a process for forming an elongated strip for use in making two tone muntin bars. An elongated strip of muntin bar material is provided that has been treated on at least a portion of one side to define an exposed surface of a completed muntin bar fabricated from the muntin bar material. An elongated strip of covering material is also provided for controlled application onto a specified portion of a surface of the muntin bar material. The elongated strip of covering material includes an adhesive for adhering the covering material to the muntin bar material. The muntin bar material and the covering material are brought into contact with each other thereby causing the covering material to overlie and adhere to the muntin bar material.
대표청구항▼
An exemplary embodiment of the invention concerns a process for forming an elongated strip for use in making two tone muntin bars. An elongated strip of muntin bar material is provided that has been treated on at least a portion of one side to define an exposed surface of a completed muntin bar fabr
An exemplary embodiment of the invention concerns a process for forming an elongated strip for use in making two tone muntin bars. An elongated strip of muntin bar material is provided that has been treated on at least a portion of one side to define an exposed surface of a completed muntin bar fabricated from the muntin bar material. An elongated strip of covering material is also provided for controlled application onto a specified portion of a surface of the muntin bar material. The elongated strip of covering material includes an adhesive for adhering the covering material to the muntin bar material. The muntin bar material and the covering material are brought into contact with each other thereby causing the covering material to overlie and adhere to the muntin bar material. having at least one magnetic head slider and first and second surfaces that oppose each other, the first surface being a processing surface, the method comprising: arranging a plurality of bars so that a processing surface of each of the bars is disposed on a reference plane including: bringing the first surface of each of the plurality of bars into direct contact with a reference surface of a reference member, the reference surface of the reference member being the reference plane and the reference surface being flat, and holding the plurality of bars by the reference member; and transferring the plurality of bars onto the support member while maintaining a relative position of each of the bars, wherein, in the step of arranging, a position of each bar is adjusted in a plane parallel to the reference plane. 2. The method of fixing bars according to claim 1, wherein the first surface of each of the bars is an air bearing surface of a magnetic head slider, the air bearing surface facing a recording medium. 3. The method of fixing bars according to claim 1, wherein the bars are processed using photolithography. 4. The method of fixing bars according to claim 1, wherein, in the step of transferring, each of the bars is fixed to the support member by applying an adhesive between the second surface of each of the plurality of bars and the member. 5. The method of fixing bars according to claim 1, wherein the reference member includes a sucking means, and in the step of holding, the plurality of bars is held by the sucking means. 6. The method of fixing bars according to claim 1, wherein the step of transferring further includes: applying an adhesive onto the support member; bringing the second surface of each of the plurality of bars held by the reference member into contact with the adhesive; and separating the reference member from the plurality of bars after the adhesive sets. 7. The method of fixing bars according to claim 1, wherein, in the step of arranging, the plurality of bars is carried, one by one, by using a carrier capable of moving relative to the reference plane in the plane parallel to the reference plane. 8. The method of fixing bars according to claim 1, wherein, in the step of arranging, the position of each of the plurality of bars is adjusted in the plane parallel to the reference plane concurrently with observation of a predetermined mark formed on each of the bars. 9. The method of fixing bars according to claim 1, further including, prior to the step of arranging, a step of forming a protective film on at least one surface of each bar, except for the first surface of the bars. 10. The method of fixing bars according to claims 1, wherein the plurality of bars includes various types of bars having different lengths. 11. A method of manufacturing a magnetic head slider, comprising the steps of: forming thin film magnetic head devices on a predetermined base; cutting the base into a plurality of bars, each of which has first and second surfaces that oppose each other and includes at least one magnetic head slider on which a thin film magnetic head device is formed, the first surface being a processing surface subjected to a process; arranging the plurality of bars in a manner that the first surface corresponds to a reference plane including: bringing the first surface into direct contact with a reference surface of a reference member, the reference surface of the reference member functioning as the reference plane and the reference-surface being flat, and holding the plurality of bars by the reference member; transferring the plurality of bars arranged by the step of arranging onto a support member while maintaining relative positions of the bars; applying the process to the plurality of bars supported by the support member; and separating each of the bars into magnetic head sliders by cutting the bars, wherein, in the step of arranging, a position of each of the plurality of bars is adjusted in a plane parallel to the reference plane. 12. The method of manufacturing a magnetic head slider according to claim 11, wherein the first surface is an air bearing surface of the magnetic head slider, the air bearing surface facing a recording medium. 13. The method of manufacturing a magnetic head slider according to claim 11, wherein the process includes a process using photolithography. 14. The method of manufacturing a magnetic head slider according to claim 11, wherein, in the step of transferring, an adhesive is interposed between the second surface and the support member. 15. The method of manufacturing a magnetic head slider according to claim 11, wherein the reference member includes a sucking means, and in the step of holding, the plurality of bars is held by the sucking means. 16. The method of manufacturing a magnetic head slider according to claim 11, wherein the step of transferring further includes the steps of: applying an adhesive to the support member; bringing the second surface of the plurality of bars held by the reference member into contact with the adhesive; and separating the reference member from the plurality of bars after the adhesive sets. 17. The method of manufacturing a magnetic head slider according to claim 11, wherein, in the step of arranging, a carrier that carries the plurality of bars one by one is used, and the carrier is capable of moving relative to the reference plane in the plane parallel to the reference plane. 18. The method of manufacturing a magnetic head slider according to claim 11, wherein, in the step of arranging, the position of each of the plurality of bars is adjusted in the plane parallel to the reference plane concurrently with observation of a predetermined mark formed on each of the bars. 19. The method of manufacturing a magnetic head slider according to claim 11, further including, prior to the step of arranging, the step of forming a protective film on at least one surface of each bar, except the processing surface. 20. The method of manufacturing a magnetic head slider according to claim 11, wherein, in the step of cutting, various types of bars having different lengths are cut from the base. 21. A method of fixing bars to a predetermined support member in order to apply a process to predetermined surfaces of the bars, each of the bars having first and second surfaces that face each other, the first surface being a processing surface subjected to the process, the bars being long members each of which includes at last one magnetic head slider, comprising: arranging a plurality of bars in a manner that the first surface corresponds to a predetermined reference plane including: bringing the first surface of each of the plurality of bars into direct contact with a reference surface of a reference member, the reference surface of the reference member being the reference plane and the reference surface being flat; and holding the plurality of bars by the reference member; and transferring the plurality of bars arranged by the step of arranging onto the support member while maintaining relative positions of the bars, wherein the step of arranging includes steps of: adjusting a position of each of the plurality of bars in a plane parallel to the reference plane, and fixing each of the plurality of bars adjusted. 22. A method of manufacturing a magnetic head slider, comprising: forming thin film magnetic head devices on a predetermined base; cutting the base into a plurality of bars, each of which has first and second surfaces facing each other and includes at least one magnetic head slider on which a thin film magnetic head device is formed, the first surface being a processing surface subjected to a process; arranging the plurality of bars in a manner that the first surface corresponds to a reference plane including: bringing the first surface into direct contact with a reference surface of a reference member, the reference surface of the reference member functioning as the reference plane and the reference surface being flat; and holding the plurality of bars by the reference member; transferring the plurality of bars arranged by the step of arranging onto a support member while maintaining relative positions of the bars; applying a process to the plurality of bars supported by the support member; and separating each of the bars into magnetic head sliders by cutting the bars, wherein the step of arranging includes steps of: adjusting a position of each of the plurality of bars in a plane parallel to the reference plane, and fixing each of the plurality of bars adjusted. 23. A method of fixing bars to a support member, each of the bars having at least one magnetic head slider and first and second surfaces that oppose each other, the first surface being a processing surface, the method comprising: arranging a plurality of bars so that a processing surface of each of the bars is disposed on a reference plane of a reference member having a reference surface, wherein the reference surface is flat; and transferring the plurality of bars onto the support member while maintaining a relative position of each of the bars, wherein, in the step of arranging, a position of each bar is adjusted in a plane parallel to the reference plane. 24. A method of manufacturing a magnetic head slider, comprising the steps of: forming thin film magnetic head devices on a predetermined base; cutting the base into a plurality of bars, each of which has first and second surfaces that oppose each other and includes at least one magnetic head slider on which a thin film magnetic head device is formed, the first surface being a processing surface subjected to a process; arranging the plurality of bars in a manner that the first surface corresponds to a reference plane of a reference member having a reference surface, wherein the reference surface is flat; transferring the plurality of bars arranged by the step of arranging onto a support member while maintaining relative positions of the bars; applying the process to the plurality of bars supported by the support member; and separating each of the bars into magnetic head sliders by cutting the bars, wherein, in the step of arranging, a position of each of the plurality of the bars is adjusted in a plane parallel to the reference plane. 25. A method of fixing bars to a predetermined support member in order to apply a process to predetermined surfaces of the bars, each of the bars having first and second surfaces that face each other, the first surface being a processing surface subjected to the process, the bars being long members each of which includes at least one magnetic head slider, comprising: arranging a plurality of bars in a manner that the first surface corresponds to a reference plane of a reference member having a reference surface, wherein the reference surface is flat; and transferring the plurality of bars arranged by the step of arranging onto the support member while maintaining relative positions of the bars, wherein the step of arranging includes steps of: adjusting a position of each of the plurality of bars in a plane parallel to the reference plane, and fixing each of the plurality of bars adjusted. 26. A method of manufacturing a magnetic head slider comprising: forming thin film magnetic head devices on a predetermined base; cutting the base into a plurality of bars, each of which has first and second surfaces facing each other and includes at least one magnetic head slider on which a thin film magnetic head device is formed, the first surface being a processing surface subjected to a process; arranging the plurality of bars in a manner that the first surface corresponds to a reference plane of a reference member having a reference surface, wherein the reference surface is flat; transferring the plurality of bars arranged by the step of arranging onto a sup
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (13)
Hojberg, Svend, Apparatus for applying stripe material to a solid surface.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.