JP3051648B2 - Release agent coating device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a release agent coating apparatus capable of uniformly applying a release agent over the entire inner wall surface of a mold.

[0002]

2. Description of the Related Art Conventionally, in casting molding or plastic resin molding, a release agent has been used to prevent a molded product from sticking to the inner wall surface of a mold. This mold release agent is ejected from a nozzle fixed at a predetermined position of the mold apparatus body toward the inner wall surface of the mold, or the upper mold and the lower mold constituting the mold apparatus have a predetermined distance. In the separated state, a nozzle faces the upper mold and the lower mold from the lateral direction of the mold apparatus via a displacement means, and the upper mold and the upper mold in a state where the nozzle is stationary at a predetermined position. A release agent is jetted toward the inner wall surface of the lower mold.

[0003]

However, the apparatus for applying a release agent according to the prior art is to uniformly apply the release agent over the entire inner wall surface of a mold on which irregularities corresponding to a molded product are formed. There is a disadvantage that you can not.

That is, in the prior art, the nozzle is fixed at a predetermined position of the mold apparatus, and the distance between the inner wall surface of the mold closest to the nozzle and the inner wall surface of the mold farthest is different from each other. Therefore, the amount of the release agent supplied to the inner wall surface of the mold differs, and there is a problem that the release agent cannot be applied uniformly over the entire inner wall surface of the mold. Further, there is a problem that it is difficult to supply the release agent to the inner side of the inner wall surface of the mold that is most separated from the fixed nozzle. Therefore, when the molded product is taken out from the mold, the molded product may adhere to the inner wall surface of the mold and deteriorate the molding accuracy.

SUMMARY OF THE INVENTION The present invention has been made to overcome the above-mentioned disadvantages, and it is an object of the present invention to provide a release agent applying apparatus capable of uniformly applying a release agent over the entire inner wall surface of a mold. With the goal.

[0006]

According to the present invention, there is provided an apparatus for applying a mold release agent to an inner wall surface of a mold defining a cavity. a nozzle for ejecting a release agent toward the inner wall surface, of the nozzle
A cylinder mechanism that displaces the nozzle in a substantially horizontal direction so as to approach or separate from a mold disposed on a lower side , and when approaching, positions the nozzle at a predetermined position above the mold; Under the nozzle under the action of spraying agent.
And a release agent supply mechanism for substantially displaced vertically up and down direction the nozzle along the inner wall surface of the non-mold, wherein the mold release agent feeder
The structure is a cylinder with a set of fluid pressure inlet / outlet ports.
And a pressure flow supplied from the fluid pressure input / output port.
A piston reciprocating in the cylinder chamber under the action of the body,
A first passage for supplying a release agent therein is defined, and
Displacement of the cylinder tube
A piston rod exposed to the outside, and the piston rod
And a second passage communicating with the first passage is defined.
Wherein the nozzle comprises the piston rod
Attached to one end of the piston rod and displaced integrally with the piston rod
And the nozzle through the first and second passages.
Release agent, characterized in Rukoto supplied to nozzle.

[0007]

In the release agent applying apparatus according to the present invention, the cylinder mechanism is urged to displace the nozzle in a substantially horizontal direction, and the nozzle is positioned at a predetermined position above the mold. With the nozzle positioned at a predetermined position above the mold, the release agent supply source is energized to eject the release agent from the nozzle, and the release agent supply mechanism is energized to cause the nozzle to mold. Is displaced substantially vertically downward along the inner wall surface.
Therefore, the nozzle penetrates deep into the inner wall surface of the mold,
In addition, the release agent can be applied uniformly over the entire inner wall surface of the mold.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a preferred embodiment of a release agent applying apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view of a release agent applying apparatus according to an embodiment of the present invention, and FIG. 2 is a plan view showing a state where a cylinder mechanism of the release agent applying apparatus shown in FIG. 1 is displaced. 3 is a front view of the release agent application device shown in FIG. 1, FIG. 4 is a cross-sectional view showing the release agent supply mechanism, and FIG. 5 is a state where the nozzle of the release agent supply mechanism shown in FIG. FIG.

The release agent coating device 10 basically has
It has a table 14 fixed in a substantially horizontal state with respect to the clamp member 12, and a pair of piston rods 18a, 18b each having both ends fixed by fixed blocks 16a, 16b fixed on the table 14, A cylinder mechanism 20 that is displaced in a substantially horizontal direction along the piston rods 18a and 18b, and a substantially columnar release agent supply mechanism that is held in a substantially vertical direction by a connecting member 22 connected to the cylinder mechanism 20 24.
The piston rods 18a and 18b are of a double rod type, and a piston 26 is formed at a substantially central portion in a radially outward direction.

The cylinder mechanism 20 includes a substantially U-shaped cylinder body 30 having a pair of first fluid pressure input / output ports 28a and 28b defined on side surfaces thereof, and the piston rod 1
A pair of rod covers 34a, 34b defining a cylinder chamber 32 by hermetically closing both ends of the cylinder body 30 along the longitudinal direction of 8a, 18b.
The first fluid pressure input / output ports 28a and 28b are connected to a fluid pressure supply source (not shown) via a tube.
Since the pair of piston rods 18a and 18b are formed in the same shape, only one piston rod 18a will be described.

An annular groove is defined on the inner peripheral surface of each of the rod covers 34a and 34b.
A seal member 36 for keeping the airtight is provided.
The piston 26 has a seal ring 38 through an annular groove.
The cylinder chamber 32 is separated by the piston 26 into a cylinder chamber 32a communicating with one first fluid pressure input / output port 28a and a cylinder chamber 32b communicating with the other first fluid pressure input / output port 28b. You.

[0013] Thus, Ri by the supplying pressure fluid to the first fluid extrusion inlet port 28a of the one cylinder body 3 relative to the fixed piston rod 18a, 18b
0 is displaced in the direction of arrow X _1, and the cylinder body 30 by supplying pressure fluid to the other of the first fluid extrusion inlet port 28b can be displaced in the opposite direction (direction of arrow X _2). In this case, when the piston 26 comes into contact with one of the rod covers 34a (or 34b), the movement end position of the cylinder body 30 is regulated. In addition, in FIGS.
(X axis), and a vertical direction perpendicular to the X axis is indicated by an arrow Z.
(Z axis).

As shown in FIGS. 4 and 5, the release agent supply mechanism 24 is formed in an elongated cylindrical shape, and a set of second
A cylinder tube 42 in which fluid pressure inlet / outlet ports 40a, 40b are defined; a piston 46 slidably displaced in the direction of arrow Z along a cylinder chamber 44 defined in the cylinder tube 42; And a piston rod 50 in which a hollow first passage 48 is defined along the axial direction. The piston rod 50 is internally fitted in the first passage 48 of the piston rod 50 and communicates with the first passage 48. A second passage 52 includes a tube 54 defined along the axial direction. The second fluid pressure port 40
a and 40b are respectively connected to a fluid pressure supply source (not shown) via tubes. The tube 54 is fixed to the cylinder tube 42 by a head cover 56, and the piston 46 and the piston rod 50 are formed to slide along the tube 54 in the direction of arrow Z.

The cylinder chamber 44 is airtightly held by a rod cover 60 attached to one end of the cylinder tube 42 via a bolt 58 and a head cover 56 attached to the other end of the cylinder tube 42. ,
The cylinder chamber 4 communicating with one of the second fluid pressure input / output ports 40a by a piston 46 moving in the cylinder chamber 44.
4a and a cylinder chamber 44b communicating with the other second fluid pressure input / output port 40b. The head cover 5
A cap member 62 is hermetically connected to 6, and a release agent supply port 64 communicating with a release agent supply source (not shown) via a tube is defined in the cap member 62. The release agent supply port 64 is connected to the bent third passage 66.
The third passage 66 is connected to the second passage 5 in the pipe 54.
Connect to 2.

The first end of the piston rod 50 has a first
A nozzle 68 communicating with the passage 48 is mounted, and a release agent is ejected from a plurality of holes 70 defined on the outer peripheral surface of the nozzle 68. The shape of the nozzle 68 is not limited to the shapes shown in FIGS.
As shown in FIG. 6, a substantially cylindrical nozzle 6 is formed.
A plurality of substantially semicircular slits 72a along the outer peripheral surface of 8a
To 72d may be separated by a predetermined interval.

A release agent applying apparatus 10 according to an embodiment of the present invention.
Is basically configured as described above. Next, its operation and effect will be described.

First, the case where the cylinder mechanism 20 is urged to move the release agent supply mechanism 24 to a predetermined position of the mold device 74 (see FIGS. 4 and 5) will be described.

A fluid pressure supply source (not shown) is energized to supply a pressure fluid to one of the first fluid pressure input / output ports 28a of the cylinder body 30 constituting the cylinder mechanism 20. The pressure fluid is introduced into one cylinder chamber 32a to push the piston 26 in the arrow X ₁ direction. As a result, the piston rod 18a which is fixed to the table 14, the cylinder body 30 is displaced in a substantially horizontal direction (direction of arrow X ₁₎ with respect to 18b, the cylinder body 30 is moved end position
BR> (see FIG. 2). In this case, the release agent supply mechanism 24 held by the cylinder mechanism 20
(See FIG. 2).

[0020] Next, the case of displacing the releasing agent inner wall surface 76a, the lower side along the 76b of the nozzle 68 urges the feed mechanism 24 the mold 74 (arrow Z ₁ direction) (FIG. 4 and FIG. 5).

A fluid pressure supply source (not shown) is urged to supply a pressure fluid to one of the second fluid pressure inlet / outlet ports 40a of the cylinder tube 42 constituting the release agent supply mechanism 24. The supply source is energized to supply the release agent to the release agent supply port 64.

The pressure fluid introduced into the second fluid expulsion inlet port 40a is introduced into one cylinder chamber 44a to push the piston 46 in the arrow Z ₁ direction. As a result, the piston rod 50 provided between the cylinder tube 42 and the tube 54 is slidably displaced downward (arrow Z ₁ direction). At that time, the release agent supplied to the release agent supply port 64 is ejected to the outside from the hole 70 of the nozzle 68 through the third passage 66, the second passage 52, and the first passage 48 that communicate with each other. . Thus, the nozzle 6 by the nozzle 68 while being displaced downward side (arrow Z ₁ direction), ejecting the release agent from the plurality of holes 70
The mold release agent is uniformly applied over the entire inner wall surface of the mold device 74 which is separated from the mold 8 by a predetermined distance.

As described above, in the release agent applying apparatus 10 according to the present embodiment, the nozzle 68 is advanced into the inner wall surfaces 76a and 76b of the mold apparatus 74 by displacing the piston rod 50 to the end position of the movement. Since it is possible to apply the release agent in the related art, it is possible to uniformly apply to the inner wall surfaces 76a and 76b on the inner side of the mold device 74, which was relatively difficult to apply.

When the piston rod 50 is displaced to the movement end position, the pressure fluid is supplied to the other second fluid pressure inlet / outlet port 40b under the switching action of a switching valve (not shown). The by a pressure fluid piston 46 is pressed in the arrow Z ₂ direction, the piston rod 50 is returned to the original position shown in FIG. 4 rises (arrow Z ₂ direction). In this case, the hole 7 of the nozzle 68 is
A release agent may be ejected from zero. Further, a nozzle (not shown) according to the related art fixed to the lower side of the mold apparatus 74.
May be used in combination with the nozzle 68 of the present embodiment.

Thus, the inner wall surface 7 of the mold device 74
After the release agent is uniformly applied over the entirety of 6a and 76b, the other fluid pressure input / output port 28 of the cylinder mechanism 20
b to supply the pressurized fluid to the cylinder mechanism 2
0 returns to the original position shown in FIG. 1 and the operation of the next step is performed.

[0026]

According to the release agent applying apparatus of the present invention,
The following effects can be obtained.

That is, since the nozzle can be displaced in a substantially vertical direction along the inner wall surface of the mold while maintaining the state in which the release agent is jetted, the mold is uniformly released over the entire inner wall surface of the mold. Agent can be applied.

Further, it is possible to supply the release agent to the inner wall surface of the mold, which is relatively difficult to apply the release agent in the prior art.

[Brief description of the drawings]

FIG. 1 is a plan view of a release agent applying apparatus according to an embodiment of the present invention.

FIG. 2 is a plan view showing a state in which a cylinder mechanism of the release agent applying device shown in FIG. 1 is displaced.

FIG. 3 is a front view of the release agent application device shown in FIG.

FIG. 4 is a sectional view showing a release agent supply mechanism of the release agent application device shown in FIG. 1;

FIG. 5 is a cross-sectional view showing a state in which a nozzle of the release agent supply mechanism shown in FIG. 4 is displaced.

FIG. 6 is a front view showing the shape of another nozzle.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Release agent application apparatus 12 ... Clamp member 14 ... Table 16a, 16
b ... fixed block 18a, 18b, 50 ... piston rod 20 ... cylinder mechanism 22 ... connecting member 24 ... release agent supply mechanism 26, 46 ... piston 28a, 28b, 40a, 40b ... fluid pressure in / out port 30 ... cylinder body 32, 32a, 32b, 44, 44a, 44b ... cylinder chamber 42 ... cylinder tubes 48, 52,
66 ... passage 54 ... tube 62 ... cap member 68, 68a ... nozzle 74 ... mold apparatus 76a, 76b ... inner wall surface

Continued on the front page (72) Inventor Hiroyuki Wada 8-1 Honcho, Wako-shi, Saitama Honda Motor Co., Ltd. Saitama Factory Wako Factory (72) Inventor Shuichi Yamane 1-10-1 Shin-Sayama, Sayama-shi, Saitama Honda Engineering Co., Ltd. In-company (56) References JP-A-60-15046 (JP, A) JP-A-6-34853 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) B22C 23/02 B22D 17/20 B29C 33/58

Claims (3)

(57) [Claims] 1. An apparatus for applying a release agent to an inner wall surface of a mold defining a cavity, comprising: a nozzle for ejecting a release agent toward an inner wall surface of the mold ; The nozzle is positioned on the lower mold.
And a cylinder mechanism for positioning the nozzle at a predetermined position above the mold when approaching, and facing the lower side of the nozzle under the action of releasing agent release. A release agent supply mechanism for displacing the nozzle in a substantially vertical direction along the inner wall surface of the mold , wherein the release agent supply mechanism includes a set of fluid pressure input / output ports.
From the cylinder tube and the fluid pressure port
Reciprocating operation in the cylinder chamber under the action of the supplied pressure fluid
And a first passage for supplying a release agent into the piston.
The piston is displaced integrally with the piston,
The piston rod exposed outside the cylinder tube and the front
The piston rod is interposed and communicates with the first passage.
A pipe having a second passage defined therein , wherein the nozzle is mounted on one end of the piston rod.
And displaces integrally with the piston rod.
Release agent is supplied to the nozzle via the first and second passages
By the release agent application device according to claim Rukoto. 2. The apparatus according to claim 1, wherein said cylinder mechanism is fixed on a table and has a substantially central portion.
A piston rod with a piston and a fluid pressure
Under the action of the pressurized fluid supplied to the port, the piston rod
Cylinder body displaced along the longitudinal direction of the
The release agent supply mechanism changes integrally with the cylinder body.
Release agent application device according to claim Rukoto Kreis. 3. The apparatus according to claim 1, wherein the nozzle has a substantially cylindrical shape, and an image is formed on an outer peripheral surface of the nozzle.
A plurality of substantially semi-circular slits separated by a predetermined interval
Through with release agent is ejected to the outside release agent application device according to claim Rukoto.