JP2003074613A - Damping material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a damping material used in an oily state, used for suppressing minor vibration and supporting a light loading material, having a shape retention performance in spite of a viscous body, and hardly flowing. SOLUTION: The damping material 1 is formed by filling a filling space 7 having an opening 7a. This damping material 1 is characterized in that a surface layer S positioned in the side of the opening part 7a is hardened into a gel state by irradiation of ultraviolet rays, an inner layer I under the surface layer S is an unhardened oily state, and the filling material 5A improving the vibration proof effect is distributed and added, at least, in the inner layer I.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a damping material suitable for damping a slight vibration and supporting a light load.

[0002]

BACKGROUND OF THE INVENTION An optical pickup lens for reading an optical device such as a CD, MD or DVD is supported by, for example, a spring member so that even a slight microvibration can be immediately suppressed, and this spring member is made of silicone. It is supported by a vibration absorbing member such as gel. When the silicone gel is used for suppressing fine vibration and supporting a light load in this way, excellent vibration damping can be performed.

However, considering further improvement of vibration damping,
It is conceivable to use the silicone in an oil state rather than a gel state. However, in the oily state,
Since it is not crosslinked, it flows out and cannot be used as it is as a damping material.

[0004]

The present invention has been made in view of such a background, and the damping material is used in an oily state to suppress a slight slight vibration and support an extremely light load. This is an attempt to develop a new damping material that can be used and has the shape-retaining property of this oil-like damping material and does not flow out.

[0005]

That is, the damping material according to claim 1 is a damping material filled in a filling space having an opening, and the surface layer located on the opening side is gelated by ultraviolet irradiation. It is characterized in that the hardened inner layer below the surface layer is in an uncured oily state, and at least the inner layer is added with a filler for improving the vibration damping effect. According to the present invention, the damping material has a shape-retaining property as a whole, but the viscous resistance and the frictional force between the filler and the silicone resin material are increased, and the internal damping of the damping material is increased. Therefore, it is optimal for suppressing slight vibrations and supporting light loads.

In addition to the above requirements, the damping material according to claim 2 has a filler having an opening after a filler for improving the vibration damping effect is dispersedly added to an oily silicone resin raw material having an ultraviolet reactive group. Fill the space and irradiate the silicone resin raw material of the surface layer located at the opening with ultraviolet rays, only the surface layer that has reached the ultraviolet ray crosslinks and hardens into a gel, and the inner layer does not reach the ultraviolet ray irradiation. It is characterized in that it is in an uncured oil state without being cross-linked.
According to the present invention, the oil-like substance of the inner layer is in the uncured state of the silicone resin raw material, so that it has an excellent vibration damping effect against slight vibrations. Moreover, since the base material for forming the damping material is one kind of silicone resin raw material, the manufacturing process of the damping material is not complicated.

Further, in addition to the requirements of claim 2, the damping material of claim 3 is such that the filler for improving the vibration damping effect has a specific gravity higher than that of the oily silicone resin raw material having the ultraviolet reactive group. Is characterized by being light. According to the present invention, if the filler having a low specific gravity is set to have a low ultraviolet transmittance, for example, when the filler having a low specific gravity gathers in the surface layer, the filler blocks ultraviolet rays and the silicone resin of the inner layer is formed. The raw material becomes harder to cure.

Furthermore, the damping material according to claim 4 is
In addition to the requirements of claim 2 or 3, one or both of the filler and the silicone resin raw material for improving the vibration damping effect are colored black. . According to this invention, since either or both of the filler and the silicone resin raw material are colored black, during irradiation with ultraviolet rays,
Ultraviolet rays are absorbed by the black filler or silicone resin raw material on the surface so that it does not reach the inside,
The tendency that only the surface hardens into a gel becomes stronger. Therefore, the manufacturing time can be shortened and the product such as the internal viscous state can be made uniform.

Furthermore, the damping material according to claim 5 is
In addition to the requirements of claim 1, after adding a filler for improving the vibration damping effect to an oil having no reactive group in a dispersed manner, the filler is filled in the lower layer of a filling space having an opening, and an ultraviolet ray is used as an upper layer of the lower layer. The oil-like silicone resin raw material having a reactive group is stacked and filled in the same filling space, and ultraviolet rays are irradiated toward the silicone resin raw material of the upper surface layer, and only the surface layer is crosslinked and cured into a gel, The inner layer, which is the lower layer, is characterized by remaining in an uncured oil state because it has no reactive group. According to this invention, it is easy to control the irradiation amount of ultraviolet rays during manufacturing,
It is possible to reliably cure only the surface layer into a gel and leave the inner layer uncrosslinked. Further, it can be manufactured at a relatively low cost.

Furthermore, the damping material according to claim 6 is
In addition to the requirements of claim 5, the oil having no reactive group is a silicone oil. According to the present invention, the damping material has an extremely excellent internal damping property.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION [First Embodiment] The present invention will be described below based on the illustrated embodiments. FIG. 1 is a vertical cross-sectional view showing a first embodiment of a damping material 1 of the present invention, which is an embodiment mainly corresponding to claim 2 of the claims. This is an ultraviolet curable silicone gel 2 in which the surface layer S facing the opening of the filling space in which the damping material 1 is formed is hardened into a gel state, and the inner layer I is an uncured oil that is not crosslinked. Shaped silicone resin material 3
Composed of. The ultraviolet curable silicone gel 2 on the surface and the oily silicone resin material 3 inside are filled with a filler 5A in a dispersed state for improving the vibration damping effect. In addition, in this specification, "oil-like" refers to a liquid state that has more or less viscosity than water.

According to the damping material 1 as described above, when a slight vibration is applied to the damping material 1 from the outside, the viscous resistance of the oily silicone resin material 3 of the inner layer I and the filler 5A and the silicone resin material are applied. Vibration is suppressed by friction with 3, and internal damping is high, and it is excellent in vibration damping effect against light load objects and slight vibrations.

A method of manufacturing the damping material 1 will be described below. A filler 5A having a low ultraviolet ray transmittance with respect to a liquid silicone resin raw material having an ultraviolet ray reactive group.
To fill. Then, this is filled in an appropriate filling space having an opening, and ultraviolet rays are irradiated from the opening. Then, the irradiation of the ultraviolet rays is stopped in a state where only the surface side irradiated with the ultraviolet rays is cured, and the damping material 1 as described above is obtained.

Here, the silicone resin raw material will be described in more detail. The silicone resin raw material used for producing the UV-curable silicone damping material of the present invention is, for example, an organopolysiloxane having at least one acrylic group or methacryloyl group represented by the following formula [1] in the molecule, In the following formula [1], R ¹ is hydrogen or an alkyl group, R ⁿ is (CH ₂ ) _n ,
1 ≦ n ≦ 20]

[0015]

[Chemical 1]

Alternatively, an organopolysiloxane having an unsaturated double bond represented by the following formula [2], wherein R ¹ is hydrogen or an alkyl group, and R ⁿ is (CH ₂ ) _n in the following formula [2], 1 ≦ n ≦ 10]

[0017]

[Chemical 2]

And an organopolysiloxane containing at least two mercaptoalkyl groups represented by the following formula [3] in the molecule. [However, in the following formula [3], R ⁿ is (CH ₂ ) _n , 1 ≦ n ≦ 10]

[0019]

[Chemical 3]

It is also possible to appropriately add a modifier such as a photopolymerization initiator, an antioxidant, a flame retardant, or a pigment to the above-mentioned components to the resin raw material within a range that does not impair the characteristics of the ultraviolet curable silicone damping material. it can.

Further, the filler 5A will be described in more detail. As the filler 5A, one that acts to block ultraviolet rays and prevent ultraviolet rays from reaching the inside can be applied.
As such a filler 5A, for example, "MSP150
(Manufactured by Nikko Rica Co., Ltd.) ”can be used.

[Second Embodiment] Next, a second embodiment of the present invention will be described. FIG. 2 is a longitudinal sectional view showing a second embodiment of the damping material 1, which is an embodiment mainly corresponding to claim 3 of the claims. This is an ultraviolet curable silicone gel 2 in which the surface layer S facing the opening of the filling space in which the damping material 1 is formed is hardened into a gel state, and the inner layer I is an uncured oil that is not crosslinked. It is composed of a silicone resin material 3 in the shape of a circle. And the surface layer S
Into the UV curable silicone gel 2, a filler 5B having a relatively low specific gravity for improving the vibration damping effect is added. On the other hand, in the oily silicone resin material 3 inside,
A filler 5C having a specific gravity almost equal to that of the silicone resin material 3 for improving the vibration damping effect is added in a dispersed state. Incidentally, for example, "Fillite (manufactured by Nippon Philite Co., Ltd.)" is applied as the filler 5B, and "HSC-110, specific gravity 1.1 (manufactured by Toshiba Ballotini Co., Ltd.)" is applied as the filler 5C.

According to the damping material 1 as described above, the internal damping is high due to the viscous resistance of the oily silicone resin material 3 inside and the friction between the filler material C and the silicone resin material 3, so that a light load or a slight vibration is generated. Excellent anti-vibration effect.

The method of manufacturing the damping material 1 will be described below. The filler 5B having a specific gravity lower than that of the silicone resin raw material and the specific gravity of the silicone resin raw material are substantially equal to those of the silicone resin raw material, and the ultraviolet transmittance is appropriate. 5C of the above-mentioned filling material is filled and stirred to be evenly dispersed in the silicone resin raw material. Then this is left for a certain period of time.
When left for a certain period of time, the filler 5C having a specific gravity almost equal to that of the silicone resin raw material remains evenly dispersed in the silicone resin raw material, but the filler 5B having a lower specific gravity than the silicone resin raw material is the silicone resin. Float above the raw material. When UV rays are irradiated from the upper surface side in such a state, only the front surface side is sufficiently irradiated with the UV rays to be hardened into a gel, but on the inner side, the filler 5B having a low specific gravity located on the front surface side emits the UV rays. Because it blocks it, ultraviolet rays do not reach it and it is hard to cure. Then, when the irradiation of the ultraviolet rays is stopped when the surface side is cured into a gel, the inside becomes the uncrosslinked oil-like silicone resin material 3, and the damping material 1 of the present invention is manufactured. The specific components of the silicone resin raw material are as described in detail in the first embodiment, and the same silicone resin raw material is used in the present embodiment.

[Third Embodiment] Next, a third embodiment of the present invention will be described. FIG. 3 is a vertical cross-sectional view showing a third embodiment of the damping material 1, which is an embodiment mainly corresponding to claim 4 of the claims. Damping material 1
The surface layer S facing the opening of the filling space where the
The inner layer I is composed of an uncured oil-like silicone resin material 3 which is not crosslinked. A filler 5C for improving the vibration damping effect is added in a dispersed state to the ultraviolet curable silicone gel 2 on the surface and the oily silicone resin material 3 inside. The entire damping material 1 is colored black with a pigment.

According to the damping material 1 as described above, when a slight vibration is applied to the damping material 1 from the outside, the viscous resistance of the oil-like silicone resin material 3 of the inner layer I and the filler 5C and the silicone resin material. Vibration is suppressed by friction with 3, and internal damping is high, and it is excellent in vibration damping effect against light load objects and slight vibrations.

A method of manufacturing the damping material 1 will be described below. First, a liquid silicone resin raw material having an ultraviolet-reactive group is filled with a filler 5C for enhancing internal damping. The filler 5C is not limited to the ultraviolet transmittance and the specific gravity as in the above-mentioned embodiment, but various types of fillers can be applied. The black pigment 6 having a high ultraviolet absorption rate is added to the silicone resin raw material filled with the filler 5C.
Is added. Incidentally, as such a pigment 6, for example, "black color paste, CP84.BLK (manufactured by Toray Dow Corning Silicone Co., Ltd.)" is used. When the silicone resin raw material having the above composition is irradiated with ultraviolet rays, the ultraviolet rays are absorbed by the black pigment 6 on the surface side and the ultraviolet rays do not reach the inside of the silicone resin raw material. And when the irradiation of ultraviolet rays is stopped with only the surface side cured,
The uncrosslinked oil-like silicone resin material 3 is obtained, and the damping material 1 of the present invention is manufactured. The pigment 6 may be added to the silicone resin raw material before the filler 5C is filled in the silicone resin raw material. Filler 5
It is also possible to use those in which only C is colored black, and those in which the black pigment itself has the effect of the filler are also included in the "filler" in claim 4 of the present invention. . In addition to black, the term black color broadly refers to a color having a relatively high ultraviolet absorption rate such as dark brown or gray.

As described above, various fillers can be applied in the present embodiment, but if the invention for coloring in black is used in the first and second embodiments,
Further, it is possible to surely achieve curing only on the front surface side. The specific components of the silicone resin raw material are as described in detail in the first embodiment, and the same silicone resin raw material is used in the present embodiment.

[Fourth Embodiment] Next, a fourth embodiment of the present invention will be described. What is shown in FIG. 4 is the damping material 1.
It is a longitudinal section showing a 4th embodiment of, and is an embodiment mainly corresponding to claims 4 and 5 of a claim.
In this product, an oil-like compound obtained by adding a filler 5D to a silicone oil 4 having no UV-reactive group is filled in an inner layer I which is a lower layer of a filling space having an opening of an appropriate container and the like. The ultraviolet curable silicone gel 2 which is gelled is formed on the surface of the upper layer. As the filler 5D in the silicone oil 4, it is preferable to use one having substantially the same specific gravity as that of the silicone oil 4, and specifically, for example, "HS
C-110, specific gravity 1.1 (manufactured by Toshiba Ballotini Co., Ltd.) ".

According to the damping material 1 as described above, the viscous resistance of the silicone oil 4 in the inner layer I and the filling material 5D.
The internal damping is high due to the friction between the silicone oil 4 and the silicone oil 4, and it has excellent vibration damping effect against light load objects and slight vibrations.

A method of manufacturing the damping material 1 will be described below. A filler 5D is filled in a silicone oil 4 having no UV-reactive group, and the filler 5D is stirred to make the filler 5D substantially uniform in the silicone oil 4. To make a compound. On the other hand, a liquid silicone resin raw material having a liquid ultraviolet reactive group is filled with a filler 5C for increasing the internal damping property. This filling material 5
The C is not limited to the ultraviolet transmittance and the specific gravity as in the first and second embodiments described above, and various types can be applied. Then, the compound is filled in the lower layer of the filling space where the damping material 1 is formed, and the upper layer thereof is filled with the silicone resin raw material filled with the filling material 5C. Then, by irradiating the upper layer silicone resin raw material with ultraviolet rays, only the upper layer silicone resin raw material is hardened into a gel to form the surface layer S. The specific components of the silicone resin raw material are as described in detail in the first embodiment, and the same silicone resin raw material is used in the present embodiment.

[0032]

According to the damping material of the first aspect,
The surface is a gel-like UV-curable silicone gel 2, the inner layer I is an uncured oil-like substance, and the inner layer I is a filler 5A for improving the vibration damping effect,
Since 5C and 5D are added, the damping material 1 has a shape-retaining property, but also has viscous resistance and fillers 5A, 5C and 5D.
The frictional force between D and the silicone resin material 3 becomes strong, and the internal damping of the damping material 1 becomes high. Therefore, it is optimal for suppressing slight vibrations and supporting light loads.

According to the damping material of the second aspect, since the inner layer I is an uncrosslinked oil-like material of the silicone resin raw material, it is particularly excellent in vibration damping effect. Further, since the base material for forming the damping material 1 is one kind of silicone resin raw material, the manufacturing process is not complicated.

Further, according to the damping material of claim 3, since the filler 5B has a lower specific gravity than the oil-like silicone resin raw material having the ultraviolet-reactive group, the filler 5B has, for example, a higher ultraviolet transmittance. If it's low,
When the filler 5B having a low specific gravity gathers in the surface layer S, the filler blocks ultraviolet rays, and the silicone resin raw material of the inner layer I is hard to cure.

Further, according to the damping material of the fourth aspect, at least one of the filler for improving the vibration damping effect and the silicone resin raw material or both of them are colored black, and therefore, at the time of manufacturing. During the irradiation with ultraviolet rays, ultraviolet rays are absorbed by the black filler or silicone resin raw material on the surface and do not reach the inside, and the tendency that only the surface is cured into a gel becomes stronger,
Manufacturing time can be shortened and products such as the internal viscous state can be made uniform.

Further, according to the damping material of claim 5, oil having the filler 5D added thereto is filled in the lower layer of the filling space where the damping material 1 is formed, and the upper layer thereof is a liquid ultraviolet curing type. Since the silicone resin raw material of above is laminated and filled, and ultraviolet rays are irradiated from the surface side of the ultraviolet curable silicone resin raw material of the upper layer to cure the silicone resin raw material of the upper layer into a gel, it is possible to control the irradiation amount of ultraviolet rays. It is simple and surely only the upper surface layer S can be hardened into a gel, and the lower inner layer I can be left uncrosslinked. It can also be implemented at a relatively low cost.

Further, according to the damping material of claim 6, since the oil having no reactive group is the silicone oil 4, the damping material 1 is excellent in the internal damping property.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing a first embodiment of a damping material of the present invention.

FIG. 2 is a vertical sectional view showing a second embodiment of a damping material of the present invention.

FIG. 3 is a vertical cross-sectional view showing a third embodiment of a damping material of the present invention.

FIG. 4 is a vertical cross-sectional view showing a fourth embodiment of a damping material of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Damping material 2 UV curable silicone gel (surface layer) 3 Silicone resin material (inner layer) 4 Silicone oil (inner layer) 5A Filler 5B (lighter specific gravity than silicone resin raw material) Filler 5C (with silicone resin raw material) Filler 5D (having almost the same specific gravity) Filler 6 (having almost the same specific gravity as silicone oil) 6 Pigment 7 Filling space 7a Opening S Surface layer I Inner layer

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 3J048 AA07 AC01 AC04 AC05 BD04                       BE04 EA07                 3J066 AA14 AA26 BA01 BB04 BC01                       BD05 BE01                 4F070 AA60 AC11 AC15 AE01 AE04                       HA02 HB01

Claims (6)

[Claims] 1. A damping material filled in a filling space having an opening, wherein a surface layer located on the opening side is hardened into a gel by ultraviolet irradiation, and an inner layer below the surface layer is uncured oil. The damping material is characterized in that a filler that improves the vibration damping effect is added to at least the inner layer. 2. An oil-like silicone resin raw material having an ultraviolet-reactive group is dispersed and added with a filler for improving a vibration damping effect, and then filled in a filling space having an opening to form a surface layer of the surface layer located at the opening. Ultraviolet rays are irradiated toward the silicone resin raw material, and only the surface layer that has reached the ultraviolet rays crosslinks and hardens into a gel, and the inner layer is not uncured and reaches the uncured oil state. The damping material according to claim 1, which is characterized in that. 3. The damping material according to claim 2, wherein the filler for improving the vibration damping effect has a specific gravity lower than that of the oily silicone resin raw material having the ultraviolet reactive group. 4. The damping material according to claim 2, wherein one or both of the filler for improving the vibration damping effect and the silicone resin raw material are colored black. 5. An oil having no reactive group is dispersed and added with a filler for improving the vibration damping effect, and then the lower layer of the filling space having an opening is filled with the ultraviolet reactive group as an upper layer of the lower layer. Oil-like silicone resin raw material is stacked and filled in the same filling space, and ultraviolet rays are irradiated toward the silicone resin raw material of the upper surface layer, only the surface layer is crosslinked and hardened into a gel, and the lower internal layer is The uncured oil-like state is maintained because no reactive group is provided.
Damping material described. 6. The damping material according to claim 5, wherein the oil having no reactive group is a silicone oil.