JPS59182742A - Manufacture of spacer for multi-needle electrode - Google Patents

Abstract

PURPOSE:To easily and stably produce spacers having excellent insulation and protective film function in a mechanized process without manual operation by a method in which a spacer material is uniformly coated on the head face of a multi-needle electrode, the stylus face is removed, and the whole of coated face is flatly polished. CONSTITUTION:A spacer material 5 is uniformly coated on the head face 1 of a multi-needle electrode, only the stylus face 2 of the coated spacer material is removed by a polisher, e.g., a rotary polisher consisting of disc-like rubber grindstone connected to the shaft of a motor 6 and the motor 6 and moving in parallel with the stylus of the head, etc., and then the whole of the coated face is flatly polished for finishing.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a method for manufacturing a multi-needle electrode head, and more particularly to a method for manufacturing a suction sensor for a same-plane control type multi-needle electrode head. .

Prior Art A conventional spacer manufacturing method will be described with reference to FIGS.

When forming a spacer 5 (insulating film) on a portion of the stylus head 1 excluding the stylus row, that is, on the head surface including the control electrode 4, first, the stylus portion of the head (length approximately 280111111, width approximately 0.5- ) to prevent paint from getting on the surface.
80Tran, width of approximately 1K) is pasted by hand. Next, as shown in FIG. 1, the material 5 is uniformly applied to the surface. Next, as shown in FIG. 1C, the masking tape 6 is peeled off to complete the process.

However, with this method, masking tape was pasted onto the stylus by hand, which was extremely difficult. In addition, when the masking tape peels off, the coating near the edge of the tape may not peel off along the edge of the tape.
In extreme cases, cracks or the like may occur in the coating, impeding its function as an insulating film.

purpose of invention The present invention has been made in view of the above drawbacks.

It is an object of the present invention to provide a method for manufacturing a slider of a same-plane control type multi-needle electrode head that is easy to produce and can sufficiently function as an insulating retention film.

Structure of the Invention The object of the present invention can be achieved by manufacturing a drainer according to the following steps. That is, a) a step of uniformly applying the spacer material to the pole head surface of the multi-needle'; b) a step of peeling off the applied spacer material from the stylus surface using an abrasive means; It is manufactured using a process of polishing it flat.

Further, as the polishing means, it is preferable to use a rotary polishing means that moves in parallel with the plurality of styli of the head.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below using examples shown in the accompanying drawings, FIGS.

First, as shown in FIG. 2a, spacer material 5 is uniformly applied to one surface of the multi-needle electrode head. Next, as shown in the second [+gl h], only the two surfaces of the applied spacer material are peeled off using the polishing means 7. In this case, it is particularly advisable to use rotary polishing means. This rotary polishing means is composed of, for example, a motor 6 and a disc-shaped abrasive member (such as a rubber grindstone) 7 suitably connected to the shaft of the motor. is biased towards

The rotary polishing means includes a member (not shown) which is synchronized with the rotation of the motor and is movable parallel to the stylus array of the head. Accordingly, upon activation of the motor, the rotary abrasive means moves over the head, stripping and abrading only the portion on the stylus of the spacer material uniformly applied on the head to a desired width. Since the width of the polishing part system is very thin, for example, about 1 inch, it is preferable that both sides (μ) 1 of the polishing part system are supported by a disc-shaped armrest 9. next,
The finished stylus head surface is finally polished using any suitable means. Through the above process, the second ajd
A multi-needle electrode head thrower as shown in FIG. 1 is manufactured.

Effects of the Invention The manufacturing method of the present invention described above does not involve manual labor unlike conventional methods, and all processes can be mechanized, making manufacturing easier, improving yield rates, and stably increasing investment. - It is possible to manufacture sa.

[Brief explanation of the drawing]

FIGS. 1a to 1c are diagrams for explaining a conventional manufacturing method, and FIGS. 2a to 2d are diagrams for explaining a manufacturing method according to the present invention. (Symbols in the figure) 1 stylus head, 2 stylus, 6: masking tape, 4: control electrode, 5 varnish thrower, 6: motor,
7: Polishing means, 8: Suppression biasing means, 9: Reinforcement member agent Patent attorney (8107) Kiyoshi Takashi Sa. ('III
'(-(q″I Figure 1 Figure 2 et al.

Claims (1)

[Claims] 1) α, a step of uniformly applying a spacer material on one surface of the multi-needle electrode; b, a step of peeling off the stylus surface of the applied spacer material using an abrasive means. , C6 A method for manufacturing a spacer for a multi-needle electrode head, comprising the steps of polishing the entire coated surface flat. 2) The manufacturing method according to claim 1, characterized in that the polishing means is a rotary polishing means that moves parallel to the stylus of the head.