Coating apparatus – Immersion or work-confined pool type – Work-confined pool
Reexamination Certificate
2002-08-19
2004-06-08
Lamb, Brenda A. (Department: 1734)
Coating apparatus
Immersion or work-confined pool type
Work-confined pool
C118S419000
Reexamination Certificate
active
06746537
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a coating apparatus for coating a thin layer of A coating agent on a running flexible tape support member. The present invention particularly relates to a coating head for ejecting the coating agent.
2. Description of Related Art
As a coating head for forming a thin coating layer, a structure such as disclosed in Japanese Unexamined Patent Application, First Publication No. Sho 62-241574 (hereinafter called first prior art) is generally known. As shown in
FIG. 5
, a coating head
5
has two parallel members
1
,
2
. Between the parallel members
1
,
2
, a slot
3
is formed. At both ends in the longitudinal direction of the slot
3
, regulating members
4
,
4
are disposed for regulating the width of the slot
3
.
In the coating head
5
having such a structure, when a long wide flexible tape support member
6
runs on the tips of parallel edge members in the direction indicated by arrow A in the drawing, a coating agent is ejected from the slot
3
toward the flexible tape support member
6
; thus, the coating agent is coated on one surface of the flexible tape support member
6
at a uniform thickness.
A coating apparatus having more than two slots so as to coat a plurality of coating layers is shown in
FIG. 6
(hereinafter called second prior art).
The coating apparatus shown as the second prior art is provided with a coating head for coating a coating agent on the long wide running flexible tape support member as shown in FIG.
6
. As shown in the drawing, the coating head
10
has three edge units, i.e., a first edge unit
13
, a second edge unit
14
, and a third edge unit
15
, which are disposed in this order in the running direction (indicated by arrow B in the drawing) of a flexible tape support member
23
. A first slot
11
is formed between the first edge unit
13
and the second edge unit
14
, and a second slot
12
is formed between the second edge unit
14
and the third edge unit
15
such that the coating agent flows toward the flexible tape support member
23
.
These first, second, and third edge units
13
,
14
, and
15
comprise a first, second, and third edge supporting members
13
a
,
14
a
, and
15
a
which are made of an iron-based alloy and first, second, and third edges
20
,
21
, and
22
which are made of a cemented carbide alloy and attached to the tips of the first, second, and third edge supporting members
13
a
,
14
a
, and
15
a
facing to the flexible tape support member
23
press against the flexible tape support member
23
.
The coating apparatus has a coating agent supply device, which is not shown in the drawing for supplying coating agents
30
A and
30
B. The coating agents
30
A and
30
B are pumped through pockets
33
,
34
, the first slot
11
, and the second slot
12
, and pushed out of each outlet of the first and the second slots
11
,
12
to be ejected in the directions indicated by arrows C
1
and C
2
. The coating agents
30
A and
30
B are layered on one surface of the flexible tape support member
23
which is fed by a feeding device, not shown in the drawing, in the direction indicated by arrow B.
Here, the thickness of the coating agent which is coated on the flexible tape support member is several microns to several tens microns; therefore, the width of the slots in which the coating agents flow tends to be narrow. When a coating agent flows through such a slot, quite a large amount of friction occurs between the coating agent and the slot. Thus, there is a problem in that it is difficult to control the post-coating thickness of the coating agent uniformly because liquid pressure deviations occur in the coating agent when the friction becomes larger than required.
Therefore, from a design point of view for removing bumps on the slot surface as much as possible so as to decrease such friction, the slot surface of the edge supporting member is subjected to polish finishing.
As shown in
FIG. 3
, when making the constitution of the first prior art, edges
42
,
43
are fixed on edge supporting members
40
,
41
by edge fixing members
44
a
,
44
b
disposed on side surfaces
47
,
48
which are on the opposite sides of edge supporting members
40
,
41
with respect to slot surfaces
46
a
,
46
b.
However, when making the constitution of the second prior art both surfaces of the second edge
21
form slot surfaces
25
a
,
25
b
which constitute the slots
11
,
12
as shown in FIG.
4
. Therefore, when the edge
21
is fixed to the second edge supporting member
14
a
by the same fixing method as that of the first prior art, the flatness of the slot surfaces
25
a
,
25
b
becomes significantly impaired. Thus, the friction due to the coating agent increased; thus, there has been a concern that uniform control of the thickness of the coating layer would be difficult.
The present invention was made in consideration of the above-mentioned problem. The object of the present invention is to provide a coating apparatus in which an edge made of a hard material such as cemented carbide can be fixed rigidly without any adverse effect on the flatness of the slot surfaces.
SUMMARY OF THE INVENTION
In order to solve the above-mentioned problem, the coating apparatus according to the present invention has the following structure.
The coating apparatus has a coating head for coating a coating agent on a flexible tape support member which runs in one direction. The coating head has a plurality of edge units which are disposed in the running direction of the flexible tape support member. Slots for passing the coating agent toward the flexible tape support member are formed between the edge units. Edge units comprise edge support members and edges which are attached to the tips of the edge support members so as to slide on the flexible tape support member. Among the edges, at least the edge which is not disposed at both ends in the running direction of the flexible tape support member is fixed to the edge support member by an edge fixing member which is inserted in the direction from the bottom portion of the coating apparatus toward the edge.
In such a structure, the flatness of the slot surfaces is not deteriorated by the edge fixing member for fixing the edges to the edge supporting members. Therefore, the friction of the coating agent is prevented from increasing. Liquid pressure deviations during the ejection of the coating agent are suppressed, and the post-coating thickness of the coating layer can be controlled uniformly.
Furthermore, as the flatness of the slot surfaces improves, the coating agent becomes more separable from the slots. Thus, it is possible to prevent the coating agent from becoming hard and adhering to the slot surfaces. Such improvements helps in the cleaning of the slots for maintaining the coating apparatus.
Also, in the present invention, the edge is fixed in a state in which it is pulled into a recessed section provided at the tip of the edge support member by the edge fixing member.
In such a structure, the edge is fixed rigidly by utilizing wedge effect; thus, backlash of the edge is effectively restrained. The flatness of the slot surfaces can be improved by using such a structure. Also, liquid pressure deviations during the ejection of the coating agent can be suppressed effectively over a long period of time.
As explained above, by the present invention, among the edges, at least the edge which is not disposed at both ends in the running direction of the flexible tape support member is fixed to the edge support member by the edge fixing member which is inserted in the direction from the bottom portion of the coating apparatus toward the edge. Therefore, the flatness of the surfaces forming the slots is not deteriorated. By such a structure, friction during the ejection of the coating agent decreases, thus, liquid pressure deviations can be suppressed. Therefore, it is possible to form multiple layers at a uniform thickness.
Also, the edge is fixed in a state in which it is pulled into a recessed section p
Fukuda Tsutomu
Kanayama Toshihiko
Darby & Darby
Lamb Brenda A.
Mitsubishi Materials Corporation
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