JPH0728518B2 - Small motor - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a small motor used for driving a tape of, for example, a tape recorder / video tape recorder.

Conventional technology Explaining with an example of a small motor with the highest number of contacts,
Generally, there are two types of brushes in a small motor. One is a conductive material having elasticity, for example, copper, beryllium copper, copper titanium alloy, phosphor bronze, nickel silver thin plate material or wire material, and precious metal alloys (for example, Au, Pd, Pt, Ag, Cu, etc. and their alloys). ) Is clad or joined to a part of a thin plate material or a wire material by means of spot welding,
The other is a sintered carbon brush (eg carbon, Ag carbon, Cu
SiC, Mo for carbon, AgCu carbon, and their materials
S _2, Pb, those formulated as an additive and epoxy resin) of a conductive adhesive, spot welding, or are formed by means such as caulking method, in the small-sized motor having these brushes, commutator During rotation, the brush sliding part vibrates unnecessarily, which causes abnormal welding on the contact surface of the brush sliding part with respect to the commutator segment, and black matter (carbon and brush and commutator segment) due to spark generation. It often becomes a problem that foreign matter is generated that promotes an abnormal phenomenon called a mixture of sliding wear particles generated during the operation. As an example of a brush for a small motor, there is one in which a brush sliding portion that makes contact with a commutator segment is integrally formed with a brush base portion that is supported by a supporting means provided on a lid of a motor case. The contact state between such a brush and the commutator segment is shown in FIG.

In FIG. 4, a folded brush sliding portion 3 extends from a brush base portion 2 supported by a brush supporting means 1. The brush base portion 2 and the brush sliding portion itself have elasticity and are in contact with the commutator segment 4 in a pressed state. Then, this pressing force can be set to a required value by appropriately selecting the bending angle between the brush base portion 2 and the brush sliding portion 3. The commutator segment 4 is fixed to the motor rotating shaft 6 via the commutator base 5 and rotates with the rotation of the motor.

Problems to be Solved by the Invention As described above, the commutator segment 4 which is in contact with each other
An electric spark is generated from the brush sliding part 3 at the time of rectification and due to an intermittent contact point. With the generation of the electric spark, electrical noise, wear and welding on the commutator segment 4 and the brush sliding part 3 are caused. An inconvenient state occurs such as occurrence of.

For example, when welding occurs at the position where the commutator segment 4 starts to contact and the position where the commutator segment 4 starts to separate (part a in FIG. 4)
This welded material rubs the surface of the commutator segment 4 to cause damage, and the chips generated by this rubbing are accumulated in the gap portion (b portion in FIG. 4) between the commutator segments 4 adjacent to each other, Therefore, the commutator and the segment are electrically connected to each other, and the rotation becomes unstable.

Also, for example, if the surface roughness of the commutator segment surface becomes rough due to wear, it will cause vibration of the brush, which will promote the generation of electric sparks, further wear and wear, and cause abnormal wear. The performance of the motor itself will be degraded, such as the displacement of the commutation position.

It should be noted that the electric spark is best generated at the contact surface a with the brush sliding part 3 and the commutator segment 4. Needless to say, the commutator segment 4 and the brush sliding portion 3 that come into contact with each other also suffer mechanical wear that is not caused by electric sparks.

Generally, the material of the brush sliding part 3 that is often used is a noble metal alloy or sintered carbon as described above, and the material of the commutator segment 4 is a noble metal alloy such as Au, Pd, Ag (eg AgCu, AgCd, AgCuCd). , AgCuTi, etc.). In particular, the combination with a noble metal brush is a disadvantageous combination in which the surface energy is high and the both are substantially the same material, and thus scratches are likely to occur on the contact surface. In addition, even in the combination with a sintered carbon brush, although the sliding resistance is smaller than that of a noble metal alloy brush, impurities such as SiO ₂ are not a little mixed in the blended material forming the brush, There is a risk of scratches, and as with noble metal alloy brushes, noble metal alloy carbon forms an unfavorable combination in which scratches easily occur on the contact surface. Fig. 5 (a)
Example of the electric sparks that are responsible for these shortcomings,
6 shows a structure without mechanical means of restraining. That is, in the case where no vibration damping measures are taken in the brush sliding part 3, the vibration of the brush sliding part is large, the number of sparks is increased, and welding and wear are likely to occur.

The example of FIG. 5 (b) shows a structure in which the brush sliding portion 3 is provided with vibration damping measures. That is, the vibration-proof rubber 9 is attached to the brush sliding part 3 with the adhesive 8. The vibration absorption is good at room temperature and the generation of sparks can be suppressed. However, in the vicinity of the maximum use temperature of 60 ° C, the viscosity of the pressure-sensitive adhesive decreases remarkably, the adhesive strength of the anti-vibration rubber 9 with the sliding portion 3 decreases, the vibration absorption capacity decreases, and sparks increase. However, it is difficult to obtain a good product with a long life.
Further, FIG. 5 (c) shows another example of the structure in which the brush sliding portion 3 is provided with vibration damping measures as in FIG. 5 (b). That is, the vibration-proof sheet 12 is attached to the brush sliding portion 3 with the adhesive 11 having the structure in which the pressure sensitive adhesive 8 is applied to both sides of the base material 10. Compared with the example of FIG. 5 (b), Although the decrease in the viscosity of the pressure-sensitive adhesive at high temperature can be suppressed to some extent, it is insufficient, and it is not possible to satisfy the long life and high quality at high temperature.

The ambient temperature of this equipment is often -10 ℃ to + 60 ℃.

The present invention is intended to prevent wear of the brush commutator caused by sliding of the brush of the motor and the commutator, and short-circuiting of the motor life due to abrasion damage due to welding and mechanical wear.

Means for Solving the Problems In order to solve the above problems, the present invention provides a brush base made of a thin plate material or a wire metal elastic body, and extending from the brush base, or a part of the brush base. In a small motor provided with a brush having an installed brush sliding part, 2-methyl-2,4 is provided in a part of the motor case, for example, near the brush sliding part on a bracket.
-A member obtained by impregnating pentanediol with 1 mol of butylene oxide added and polymerized ... Hereinafter, abbreviated as the chemical of the present invention, for example, a felt is fixed by an adhesive or attached by a method such as a pressure bonding method.

The chemical of the present invention becomes vapor depending on the ambient temperature, and the inside of the motor case is configured to be the chemical atmosphere of the present invention. In addition, in order to simplify the motor structure, a structure may be used in which the chemical of the present invention is directly applied to the brush or the brush sliding portion.

Action The state in which the brush sliding part and the commutator segment are easily welded, or the state in which welding, abnormal wear, and poor conduction are likely to occur is being clarified in the literature and experiments so far. Abnormality is likely to occur in the atmosphere where the sliding parts of the brush and commutator segment slide.
Or it is the case where unsaturated cyclic hydrocarbons are present or adsorbed in the commutator segment itself. At this time, a foreign substance that promotes an abnormal phenomenon called a black matter (a carbon-like substance that is a decomposition product or a polymer formed by a mechanochemical reaction and a substance that is mixed with sliding wear particles generated between the brush and the commutator segment). Is generated.

This foreign matter is due to the fact that when unsaturated cyclic hydrocarbons are sintered by the arc between the sliding part and the commutator segment, they have a large amount of carbon per unit volume, incomplete combustion, and due to their molecular structure. However, it is considered that hard carbon is formed because the bonding state of the generated carbon becomes dense.

Also, in the adsorption of hydrocarbons other than unsaturated cyclic hydrocarbons and adsorption to commutator segments, it is due to the molecular structure, but the generated carbon becomes soft, which does not lead to abnormal phenomena. Has been done. Based on these phenomena, a long-term operation experiment was conducted using a commutator segment in which a very small amount of hydrocarbon was adsorbed. In this experiment, 1) there is a high probability that abnormal wear will occur in the commutator segment in the case of high temperature and low humidity.

2) When the commutator segment has adsorbed about 10 μg of unsaturated cyclic hydrocarbon such as toluene, the abnormality of the commutator segment is mitigated, and the life of the small motor can be extended (however, continuous unsaturated cyclic carbonization does not occur). The results were obtained, which is the data without hydrogen replenishment.

Therefore, as a result of considering the above phenomenon, when the chemical of the present invention is used, it burns well because it has oxygen in its molecular structure unlike styrene monomer and toluene, and hard black which is one of the abnormal phenomena. It is the furthest from the formation of compounds, and becomes extremely soft even if carbon is formed, reducing the sliding resistance of the brush sliding part and commutator segment.

In addition, this action has the effect that an atmosphere matching the vapor pressure of the chemicals of the present invention can be obtained in the motor case even at high temperature and low humidity where an abnormal phenomenon is highly likely to occur, and that the polar group possessed by the chemicals of the present invention can be obtained. As a result, it is strongly adsorbed on the metal surface, so a sufficient effect can be obtained.

Further, the small motor for distributing the chemicals of the present invention has a structure close to airtight with almost no air circulation, or the device itself in which the small motor is incorporated has a structure with less air circulation for better results. can get.

Not only commutator segments and brushes made of Au, Pd, Pt, Ag, etc. and their alloys with strong catalytic action for adsorption of chemicals of the present invention, but made of Cu, etc., sintered carbon brush It is also adsorbed on the surface of the metal and other surfaces of metal parts constituting the motor to prevent highly reactive gas (styrene monomer, toluene, etc.) from adhering to the surface. This is because the chemical | medical agent of this invention is strongly adsorbed compared with the organic gas adsorbed by the attraction of van der Waals, such as styrene monomer and toluene. The substance names and properties of drugs effective in the present invention are shown below.

Molecular formula: C ₉ H ₈ (OH) OC ₆ H ₁₃ (OH) Molecular structure: Water absorption rate: 5% (40 ° C, 90% RH, 1 atm) The above-mentioned chemicals of the present invention are adsorbed on the surfaces of brushes, commutators and segments to form a monomolecular film, so that lubricity is extremely improved and contact is improved. Part wear is also significantly reduced.

Embodiment FIG. 1, FIG. 2 and FIG. 3 each show an embodiment of the present invention. Here, parts having the same names as those in FIG. 4 are given the same reference numerals. In the figure, 7 is a bearing metal, 13 is a brush, 14 is a bracket for holding the brush 13 and the like, 15 is under the motor case, 16 is a felt impregnated with the chemical of the present invention, 17 is a magnet wire wound around a rotor core 18. , 19 are field magnets fixed to the inner surface of the motor case 20. In the embodiment shown in FIG. 1, the felt 16 is arranged on the bracket 14 in the vicinity of the brush sliding portion 3, and in the embodiment shown in FIG. 2, the felt 16 is mounted on the brush base 2. In each of the embodiments shown in FIGS. 1 and 2, the brush sliding part 3 made of a carbon brush is fixed to the tip of the brush base 2, but the brush base 2 is bent and extended. A brush sliding part may be provided, and the felt 16 may be mounted on the sliding part.

Further, in each of the examples, the atmosphere in the motor case becomes a vapor atmosphere due to the chemicals of the present invention, and the chemicals of the present invention are adsorbed to the brush and the commutator segment surface. Not limited to this.

FIG. 6 shows the results of the conventional product, the test product in Comparative Example 1) in a styrene monomer atmosphere, the test product in Comparative Example 2) in a toluene atmosphere, and the test product in the chemical atmosphere of the present invention. Indicates.

In addition, even if the chemical composition of the present invention contains some impurities,
The chemical | medical agent of this invention exhibits a remarkable effect.

The results of the experiment of FIG. 6 in the embodiment will be described with the motor of FIG. This motor is a DC motor with an outer diameter of 30 mm and a height of
25mm size, rated output 0.1W, operating conditions during the test are 4.
It is 2VDC, 25mA.

The polyester felt 16 washed with a polyfluoroethylene liquid and degreased in the gap of this motor and the one impregnated with the chemical of the present invention is installed, and the chemical of the present invention gradually evaporates to obtain a remarkable effect. Was completed. The polyester felt 16 can control the evaporation speed by changing the fiber thickness and the apparent specific gravity. Even if a continuous foamed plastic or rubber sponge was used instead of the polyester felt 16, a remarkable effect could be obtained. Further, the sintered porous field magnet 19 impregnated with the chemical of the present invention has a holding force of 0.1 to 0.3 g, and a remarkable effect can be obtained. Also, similarly, those blended with the plastic bracket 14, those blended with the plastic commutator base 5, magnet wire
17 impregnated, blended with metal oil of bearing metal 7, impregnated in the gap between magnet 19 and motor case 20, blended with anti-vibration rubber 9, anti-vibration rubber shown in FIG. The one blended with the adhesive 8 for sticking, or the one sealed in a gas permeable film such as polyethylene or enclosed in a case and installed in a small motor, has the ability to retain the chemicals of the present invention, and a remarkable effect could be obtained. .

In FIG. 6, (a) shows a rectified waveform of a conventional product before the test in a 5% RH atmosphere at 60 ° C. and a rectified waveform after the 300-hour test, and (b) shows an unsaturated cyclic hydrocarbon styrene. The rectification waveform before the test at 60 ° C. and 5% RH in the monomer atmosphere and the rectification waveform of Comparative Example 1 after the 100-hour test are shown. (C) shows unsaturated cyclic hydrocarbon (toluene) on the commutator segment surface. When about 10 μg is adsorbed
6 shows a rectified waveform before a 60 ° C., 5% RH atmosphere test and a rectified waveform of Comparative Example 2 after a 300-hour test, and (d) shows 60 ° C. in a chemical atmosphere of the present invention of the present invention,
% The rectified waveform before the atmosphere test and the rectified waveform after the 1500-hour test are shown.

EFFECTS OF THE INVENTION As is apparent from the above description, the present invention has the following effects.

1) The chemicals of the present invention are adsorbed on the surfaces of the brush and the commutator segment to exert a lubricating effect, and have an effect of preventing abnormal wear or welding of the contact surface of the embroidery and the resulting abrasion damage.

2) Even if there is an organic gas having a benzene ring such as styrene monomer or toluene, it is protected by the chemical film of the present invention adsorbed on the surface of the brush and commutator segment, and the generation of black matter becomes minimal, and the brush and commutator segment It is possible to prevent contact failure between the two. In addition, because contact failure does not occur, the generation of electrical noise is reduced, the speed of the small motor is stabilized, and as a result, equipment that uses a small motor for relatively low voltage of about 1 to 30V. Reduces wow and flutter.

3) When a micromotor having an operating voltage of 1 to 30 V and a current value of about 100 mA, which is commonly used due to the lubricating action of the chemicals of the present invention, is operated in an atmosphere of the chemicals of the present invention, the current value is 5 to 5.
10% reduction and energy saving.

4) The chemical of the present invention has a damping effect of suppressing the vibration generated by the sliding motion of the brush and the commutator.
Allows reduction of ~ 10% mechanical noise. That is, it has almost the same sound deadening effect as the anti-vibration rubber normally attached to the brush.

5) As for the hygroscopicity of the chemicals of the present invention, the ideal balance is between -OH group having hydrophilicity and -C-C- (carbon bond part) having hydrophobicity, and the atmosphere is 40 ° C and humidity 90% RH. Above all, the water absorption rate is 20% or less, and the lubricating effect is large without being wet enough to corrode the metal.

As a result of the above 1) to 5), the quality of the small motor was improved and the life could be significantly extended. The characteristics table is shown below

[Brief description of drawings]

1 and 2 are configuration diagrams of an embodiment of the present invention, FIG. 3 is a half sectional view of a motor of an embodiment of the present invention, and FIG.
FIG. 5 is a diagram showing the configuration of a general brush and commutator, FIGS. 5 (a) to 5 (c) are diagrams showing a typical configuration of a brush sliding portion of a conventional example, and FIGS. 6 (a) to 6 (d). [Fig. 4] is a diagram showing commutation waveforms of small motors in a conventional example, a comparative example, and an example of the present invention. 3 …… Commutator sliding part, 4 …… Commutator ・
Segment, 14 …… Bracket, 16 …… Felt, 20…
… Motor case.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kokatsu Morimoto 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (56) References JP-A-60-254522 (JP, A) JP-A-60- 245451 (JP, A) JP 61-54845 (JP, A)

Claims (1)

[Claims] 1. A small-sized motor having a brush mechanism and a commutator, in which the brush and the commutator slide, wherein 1 mole of butylene oxide is added to 2-methyl-2,4-pentanediol to polymerize the inside of the motor case. A small motor characterized by an atmosphere of things.