JP2866303B2 - Music box unit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a music box unit, and more particularly to a technique suitable as a unit combining a toy simulating a doll or the like with a movable body and a music box mechanism.

[0002]

2. Description of the Related Art Conventionally, various music box units have been provided in which a movable toy such as a moving doll is combined with a music box. This type of music box unit has a metal rotation transmission shaft connected to the rotation shaft of the music box, inserts the rotation transmission shaft into a movable body such as a doll's head, and operates the movable body with the sound of the music box There are things that let me do that. Here, as the rotation transmission shaft, there is a rotation transmission shaft having a bent portion between the connecting portion of the music box to the rotation shaft and the insertion portion into the movable body, in this case, the movable body swings according to the rotation of the rotation shaft. It is configured to be.

[0003]

In the above-mentioned conventional music box unit, since the long rotation transmission shaft is transported and stored in a state where the rotation transmission shaft is connected to the rotation shaft of the music box, the rotation transmission shaft is large during transportation or during storage. Stress is applied. In this case, since the rotation transmitting shaft is connected to the rotating shaft of the music box, the stress is also transmitted to the rotating shaft of the music box, and there is a possibility that the joint between the rotation transmitting shaft and the rotating shaft and the music box mechanism may be damaged. In particular, when the rotation transmission shaft is bent, a large torque is generated in the rotation direction of the rotation shaft due to the stress applied to the rotation transmission shaft, forcibly rotating the drum of the music box. There are many. Therefore, the present invention has been made in view of the above problems,
An object of the present invention is to realize a low cost music box unit that does not damage a music box mechanism even when stress is applied to a rotation transmission shaft.

[0004]

According to the present invention, there is provided a music box mechanism, and a rotation transmitting shaft for transmitting rotation from the music box mechanism to a movable body which is to operate together with the sound of the music box mechanism. shaft transmission comprises a connecting portion for said music box mechanism, in music box unit with a bent or curved shape to a predetermined angle between the connecting part with respect to the movable member, the rotation transmission shaft, the
The drum body of the music box mechanism substantially in the rotational direction
Rotationally-engaging portion for axial integration and its axial direction
Or substantially integral with the drum body in the bearing direction.
And a shaft wire engaging portion of the order to a different position, the rotation transmission shaft is one that is integrally molded by synthetic resin.

Here, it is desirable that the synthetic resin be polyacetal.

[0006] Further, the rotation engaging portion may include the axial line engaging portion.
Rukoto provided at a position away from said movable member than is preferred.

[0007]

[0008]

According to such means, the axial line engaging portion of the rotation transmission shaft is provided.
And the rotation engagement part are provided at different positions, so that the rotation transmission shaft and the
That the connection with the Lugor mechanism is distributed in two places
The external stress does not concentrate on one part of the connection part,
Can be improved in durability. In addition, by integrally molding the rotation transmission shaft with a synthetic resin, the required rigidity of the rotation transmission shaft and a predetermined elasticity or flexibility for relaxing external stress can be obtained, which hinders the operation of the movable body. Without damaging, it is possible to prevent damage, deformation, and the like of the connecting portion or the music box mechanism due to external stress. In particular, even when stress is applied to a portion on the distal end side of the bent portion, since the bending angle of the bent portion changes according to the stress due to the elasticity or flexibility of the rotation transmission shaft, it becomes difficult to generate a rotating torque,
Further, the transmission of the rotational torque is also reduced by the twist around the axis of the rotation transmission shaft.

In particular, it has been confirmed that the use of polyacetal as the material of the rotation transmission shaft does not cause damage to the connecting portion or the music box mechanism even in a drop test from a height of 1 to 2 m.

[0010] The rotation engagement portion is more movable than the axis engagement portion.
Position where external stress is applied to the rotation transmission shaft
And the position connected in the rotation direction to the music box mechanism
Because the distance between them can be made large, external stress
Rotation torque generated by the rotation transmission shaft is sufficient
Can be relaxed .

[0011]

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a music box unit according to the present invention will be described below with reference to the drawings. This embodiment is a music box doll in which a music box mechanism is housed in the body of the doll.
A body part 1 having a substantially truncated cone shape houses a music box mechanism 2 therein. The music box mechanism 2 includes a base 21 fixed to the inner wall of the body 1, a mainspring mechanism 22 fixed to the base 21, a drum 23 driven by the mainspring 22, and a peripheral surface of the drum 23. And a diaphragm 24 having a number of leads vibrated by pins attached to the diaphragm.

The rotation transmission shaft 3 extends from the axis of the drum 23 and projects from the upper portion of the body 1. The rotation transmitting shaft 3 has a bent portion 3a slightly near the upper end, and an upper portion thereof is a bent end portion 31 which is inclined and extends at a predetermined angle.
A head 4 is arranged above the body 1. A synthetic resin collar 41 having an insertion hole 41a inside the head 4
The collar 41 has a bent end 31 formed on the upper part of the rotation transmission shaft 3 rotatably inserted therein.

An outer jacket 5 made of cloth or the like is fixed to the outer surfaces of the body 1 and the head 4, and the head 4 is movable between the body 1 and the head 4. For this reason, a free portion 51 that is not fixed to both the body 1 and the head 4 is provided with a margin.

The music box mechanism 2 is provided with a winding shaft (not shown) led out of the body 1, and by rotating the winding shaft, the mainspring of the mainspring mechanism 22 is tightened. When the mainspring is wound, the drum body 23
It is rotated at a constant speed via a speed control mechanism provided inside the mainspring mechanism 22, starts playing by playing the lead of the diaphragm 24, and rotates the rotation transmission shaft 3 as indicated by R in the figure. Let it. When the rotation transmission shaft 3 rotates, the head 4 fixed to the outer cover 5 performs a swinging motion according to the turning of the bent end portion 31 of the rotation transmission shaft 3.

FIG. 2 is an enlarged view of the drum body 23 and the rotation transmission shaft 3 of FIG. The drum body 23 includes an end plate 231 made of synthetic resin, a cylindrical body 232 made of metal, and an end plate 234 made of synthetic resin. The end face plate 231 has an insertion hole 231a at the center, and the axial engagement frame 23 extends from the opening edge of the insertion hole 231a toward the inside of the cylindrical body 232.
5 are formed to protrude. The cylindrical body 232 is formed by implanting a large number of pins 233 in a metal cylinder, and both ends of the cylindrical body 232 are fitted into annular grooves formed in the end face plates 231 and 234.

The end face plate 234 has an internal tooth hole 234a opened at the center thereof inside the cylindrical body 232, and an internal gear is formed on the inner peripheral surface of the internal tooth hole 234a. A large-diameter gear 236 is formed on the outer peripheral portion of the end plate 234. The spring mechanism 22 is provided on the outer surface of the end plate 234.
A bevel gear 237 for receiving the rotational driving force from the shaft is integrally formed.

The bent end portion 31 formed on the upper portion of the rotation transmission shaft 3 is bent at an angle θ = 20 to 30 degrees with respect to the lower axis line. An axis engaging portion 32 formed in an annular groove that engages with the axis engaging frame 235 is provided below the rotation transmitting shaft 3.
Are formed. The axis engaging portion 32 is an axis engaging frame 235.
Accommodates the engagement convex portion 235a formed at the tip of the. Here, the axis engagement frame 235 is divided and formed at three places around the rotation transmission shaft 3, and engagement projections 235 a are formed on the inner surface portion facing the axis engagement portion 32. The three engagement projections 235a press the rotation transmission shaft 3 from three places around it to support the rotation transmission shaft 3, and also restrict the rotation transmission shaft 3 in the axial direction by being fitted into the axis engagement portion 32. .

At the lower end of the rotation transmitting shaft 3, a rotation engaging portion 33 having a gear formed on the outer peripheral surface is provided, and meshes with the internal tooth hole 234a. The rotation engaging portion 33 and the internal tooth hole 234a engage the rotation transmission shaft 3 in the rotation direction with the drum body 23, while being slidable in the axial direction of the rotation transmission shaft 3. .

The rotation transmission shaft 3 is integrally formed of a synthetic resin. As the resin material, polyacetal is most preferable. For example, polyoxymethylene (POM) which is a homopolymer and glass fiber (GF) if necessary
Alternatively, carbon fiber (CF) or an additive is mixed and used. In addition, polybutylene terephthalate (PB
T) can also be used. As synthetic resin materials, the rigidity indicated by tensile strength, compressive strength, flexural strength, etc., flexural modulus,
It is selected as described above mainly considering the elasticity indicated by the elastic modulus and the like, and further considering impact resistance and creep resistance. The most important of these are stiffness and elasticity,
It is required to have elasticity or flexibility capable of sufficiently relaxing external stress while having necessary rigidity.

The material of the synthetic resin material is determined in consideration of the characteristics of each synthetic resin, the required dimensions (length, diameter, bending angle, etc.) of the rotation transmission shaft and the strength of the music box mechanism 2. For example, the following properties are shown in pages 1124 and 1131 of the Chemical Handbook, Applied Chemistry, Part II, Materials. Material name Flexural modulus Bending strength Impact strength POM (CF: 25%) 52.5 1337-PBT (unfilled) 23.2 to 28.1 844 to 1170 4.3 to 5.4 PBT (GF: 30%) 77.3 to 84.4 1830 to 2040 7.1 to 8.7 Here, the unit of the flexural modulus is t / cm ² , the unit of the bending strength is kg / cm ² , and the impact strength is the Izod impact strength in kg.

The following characteristics are also shown in the Mechanical Engineering Handbook B4, page 113, which are shown for reference. Material name Tensile strength Modulus of elasticity Hardness Polyacetal Homopolymer 69 MPa 3570 MPa M94 (with glass fiber) 55-76 MPa 6860 MPa M75-90 Copolymer 61 MPa 2810 MPa M78-80 (with glass fiber) 127 MPa 8580 MPa M79

Since the rotation transmission shaft 3 has the bent end portion 31 and has a considerable length, the state in which the music box doll shown in FIG. 1 is completed or the state in which the rotation transmission shaft 3 is attached to the music box mechanism 2 is shown. When a shock is applied, a large stress is applied to the connection between the rotation transmitting shaft 3 and the music box mechanism 2 through the rotation transmitting shaft 3. The stress applied to the connecting portion causes wear and deformation of the connecting portion, deteriorating the connection state of the rotation transmission shaft 3, and transmitting the stress to the gear portion and the bearing portion of the music box mechanism 2, thereby causing the music box mechanism 2. Put a burden on the inside of the. In particular, when the stress F is applied to the bent end portion 31 of the rotation transmission shaft 3, the rotation torque F · D around the rotation transmission shaft 3 according to the shift amount D from the axis of the rotation transmission shaft 3 at the portion where the stress F is applied. Occurs and the drum body 23
Since the rotating shaft in the music box mechanism 2 is forcibly rotated, the lead of the diaphragm 24 may be damaged.

In this embodiment, since the rotation transmission shaft 3 is integrally formed of synthetic resin, the rotation transmission shaft 3 has sufficient elasticity or flexibility as compared with the conventional metal rotation transmission shaft. The rotation transmission shaft 3 even when an impact is applied.
By bending itself, transmission of impact force to the music box mechanism 2 can be reduced. Further, even if stress is applied to the bent end portion 31 of the rotation transmission shaft 3, the bending angle θ and the shift amount D of the bent end portion 31 change due to the bending, so that the generation of the rotational torque due to the stress is suppressed. At the same time, even if a rotational torque is generated, it is absorbed by the twist of the rotation transmission shaft 3. Therefore, damage to the music box mechanism 2 as described above can be reliably prevented.

Particularly, since the engaging portion between the pin of the drum body 23 and the vibrating plate 24, which is an important part of the music box mechanism 2, is made of metal, the difference in hardness or flexibility between these metal portions causes the difference. The engagement part is reliably protected. As described above, the synthetic resin having elasticity or flexibility against bending and torsion and also having necessary rigidity is provided on the rotation transmission shaft 3.
Optimum material for The results of a test in which the rotation transmission shaft 3 using polyacetal as a synthetic resin is dropped from a height of 1 to 2 m with the music transmission mechanism 3 attached to the music box mechanism 2 are compared with a conventional example using a metal rotation transmission shaft. As a result, it has been confirmed that the damage rate of the music box mechanism is significantly reduced.

The rotation transmitting shaft 3 according to the present embodiment has the axis engaging portion 32 and the rotation engaging portion 33 at separate positions in the connection portion to the music box mechanism 2, and thus is added to the rotation transmitting shaft 3. The points of application of the stress are dispersed, and the durability of the connecting portion can be improved. In particular, the rotation engagement portion 33
Is provided at the lower end portion of the rotation transmission shaft 3 so that the absorption of the rotation torque due to the torsion of the rotation transmission shaft 3 can be increased.

In the present embodiment, the rotation transmitting shaft 3 is supported on the drum body 23 by the elastic axis engaging frame 235, and the insertion hole 231a of the end plate 231 is tapered outward. It is formed in a hole shape. Therefore, since the rotation transmitting shaft 3 hardly comes into contact with the insertion hole 231a and is elastically supported by the axis engaging frame 235, the rotation transmitting shaft 3 may be intensively bent at a predetermined portion even when subjected to bending stress. In addition, it is possible to prevent the rotation transmission shaft from being damaged or deformed.

The rotation transmission shaft 3 of this embodiment is integrally formed by injection molding or the like.
And a metal part for forming a connecting part (a lower part where the axis line engaging part 32 and the rotary engaging part 33 are formed), and a metal part for forming an intermediate part and an upper part (bent end 31) protruding from the drum body 23. By molding in combination with the mold part, by replacing the mold part for molding the intermediate part and the upper part according to the movable body, it is possible to easily manufacture a rotation transmission shaft corresponding to various movable bodies. . In addition, since the rotation transmission shaft 3 of the present embodiment is made of synthetic resin, there is also an effect that the sliding friction between the head 4 and the collar 41 is reduced. Here, it is conceivable that the collar 41 and the rotation transmission shaft 3 are fitted or meshed with each other. In this case, since the collar 41 and the rotation transmission shaft 3 are manufactured by resin molding, the bent end portion 31 can be easily fitted to the movable body. Can be molded into

According to the present invention, the rotation transmission shaft is formed of a synthetic resin so as to reduce the stress received from the rotation transmission shaft and to prevent damage to the connecting portion and the music box mechanism. Usually, in order to prevent these, it is conceivable to interpose a clutch, an elastic member, or the like in the middle of the rotation transmission shaft or in the connecting portion. It is very difficult to require elasticity or flexibility necessary for stress relaxation at the time of dropping and the like, and the manufacturing cost is significantly increased. The present invention is extremely effective because it is possible to reliably prevent an accident caused by external stress while using simple and low-cost means without using such complicated means.

[0030]

As described above, according to the present invention,
By integrally molding the rotation transmission shaft with synthetic resin,
Since the required rigidity of the rotation transmission shaft and the predetermined elasticity or flexibility for relaxing the external stress can be obtained, damage to the connecting portion or the music box mechanism based on the external stress can be achieved without hindering the operation of the movable body. , Deformation and the like can be prevented.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of a music box unit according to the present invention.

FIG. 2 is an enlarged sectional view showing a drum body and a rotation transmission shaft in the embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Body part 2 Music box mechanism 23 Drum body 231 and 234 End plate 231a Insertion hole 234a Internal tooth hole 235 Axis line engagement frame 235a Engagement convex part 3 Rotation transmission shaft 31 Bent end part 32 Axis line engagement part 33 Rotation engagement part 4 head 5 cloak

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) A63H 13/04 A63H 13/02 A63H 31/00

Claims (3)

(57) [Claims] 1. A music box mechanism comprising: a music box mechanism; and a rotation transmission shaft for transmitting rotation from the music box mechanism to a movable body that is to operate together with the sound of the music box mechanism. In a music box unit having a shape that is bent or curved at a predetermined angle between a connecting portion and a connecting portion with respect to the movable body, the rotation transmission shaft includes the music box in a rotation direction thereof.
Rotation for substantial integration with the drum mechanism of the goal mechanism
The engaging portion and the axial direction or the bearing direction thereof.
Separate from the axis engaging part for substantial integration with the drum body
A music box unit , wherein the rotation transmission shaft is integrally formed of a synthetic resin. 2. The music box unit according to claim 1, wherein the synthetic resin is polyacetal. 3. The rotary engagement part according to claim 1,
Provided at a position further away from the movable body than the axis engaging portion
Music box unit characterized by being performed.