JP2019055364A - motor - Google Patents

Abstract

To provide a motor cost-reducible more than usual.SOLUTION: A motor comprises a case, a coil installed on the case inside, a first magnet and a second magnet installed on the case inside and mutually oppositely arranged by sandwiching the coil in-between, a weight installed on the case inside and connected to the first magnet and the second magnet and an elastic member having a case connection part connected to the case on the case inside and a weight connection part connected to the weight and vibratorily supporting the weight in the prescribed direction.SELECTED DRAWING: Figure 3

Description

  One embodiment of the present invention relates to a vibration motor mounted on a mobile phone, a mobile device, or the like.

  As a type of vibration motor, a linear vibration motor that can generate a relatively large vibration by linear reciprocating vibration is known. For example, Patent Document 1 discloses a configuration of a conventional linear vibration motor. This linear vibration motor has a configuration in which two sets of two magnets connected via a yoke are arranged symmetrically with respect to each other about a coil.

Japanese Patent Laid-Open No. 2006-73941

  The conventional linear vibration motor has four magnets and two yokes. In recent years, however, there has been a strong demand for cost reduction, and studies have been made on reducing the number of parts and facilitating manufacturing without degrading performance.

  The present invention adopts the following means in order to solve the above problems. In the following description, in order to facilitate understanding of the invention, reference numerals and the like in the drawings are appended in parentheses, but each component of the present invention is not limited to these appendices. It should be construed broadly to the extent that contractors can technically understand.

One means of the present invention is to
Case (1),
A coil (7) installed inside the case (1);
A first magnet (6a) and a second magnet (6b) installed inside the case (1) and arranged to face each other with the coil (7) interposed therebetween;
A weight (5) installed inside the case (1) and connected to the first magnet (6a) and the second magnet (6b);
The case (1) has a case connecting portion (4a) connected to the case (1) and a weight connecting portion (4b) connected to the weight (5), and the weight (5) is predetermined. An elastic member (4) that is supported to freely vibrate in a direction,
Motor (100).

  According to the motor having the above configuration, the first magnet and the second magnet are arranged with the coil interposed therebetween. That is, since the magnet is composed of two magnets, the first magnet and the second magnet, the number of magnets is small and the cost can be suppressed. Moreover, according to this motor, sufficient thrust can be obtained.

In the motor, preferably,
The first magnet (6a) and the second magnet (6b) have the same shape and a substantially rectangular parallelepiped shape.

  According to the motor having the above-described configuration, the first magnet and the second magnet are both substantially rectangular parallelepipeds having the same shape and simple shapes. Therefore, the machining of the magnet is easy and the cost can be suppressed. Moreover, since it is a simple shape, it can work easily also when the 1st magnet and the 2nd magnet are assembled | attached, Therefore The manufacturing cost of a motor can be suppressed.

In the motor, preferably,
The first magnet (6a) and the second magnet (6b) are arranged symmetrically with respect to the coil (7) so that the magnetic poles are opposite to each other.

  According to the motor of the said structure, it can be set as the structure which can obtain sufficient thrust.

In the motor, preferably,
The case (1) includes a cover portion (2) in which a flat upper surface portion (2a) and a cylindrical side surface portion (2b) are integrally formed;
A bottom plate portion (3) that is flat and is disposed to face the upper surface portion (2a).

  According to the motor having the above-described configuration, the case is formed by the cover portion and the bottom plate portion, so that the case can be easily manufactured and the manufacturing cost of the motor can be suppressed.

In the motor, preferably,
The coil (7) is installed on the bottom plate (3),
The case connecting part (4a) of the elastic member (4) is connected to the upper surface part (2a),
The elastic member (4) supports the weight (5) so as to vibrate in a substantially vertical direction with respect to the upper surface portion (2a).

  According to the motor of the said structure, it can be set as the structure which a weight can vibrate stably.

In the motor, preferably,
A circuit board (8) for supplying power to the coil (7) is installed on the bottom plate (3).

  According to the motor having the above-described configuration, power can be supplied to the coil with a simple configuration, so that the configuration is not complicated and the manufacturing cost of the motor can be suppressed.

In the motor, preferably,
A vibration space (10) for vibrating the weight (5) is formed in the case (1).

  According to the motor having the above configuration, a space for vibrating the weight is ensured, and a sufficiently large vibration can be obtained.

In the motor, preferably,
The yoke is not installed.

  According to the motor having the above configuration, since the yoke is not installed, the cost can be reduced accordingly.

Another means of the present invention is as follows:
An electronic device (200) including any one of the motors described above.

  According to the electronic device having the above-described configuration, since the motor capable of suppressing the cost is provided, the cost can be reduced.

FIG. 1 is an external perspective view of the motor of this embodiment. FIG. 2 is an exploded perspective view of the motor of this embodiment. 3 is a cross-sectional view taken along the line III-III in FIG. FIG. 4 is an enlarged view of FIG. FIG. 5 is a diagram illustrating an electronic device in which the motor of this embodiment is mounted.

An embodiment according to the present invention will be specifically described according to the following configuration with reference to the drawings. However, the embodiment described below is merely an example of the present invention and does not limit the technical scope of the present invention. In addition, in each drawing, the same code | symbol is attached | subjected to the same component and the description may be abbreviate | omitted.
1. Embodiment 2. FIG. Application example Supplementary matter

<1. Embodiment>
The motor of the present embodiment supports a coil inside the case, two magnets arranged opposite to each other with the coil interposed therebetween, a weight connected to these magnets, and the weight so as to vibrate in a predetermined direction. A linear vibration motor including an elastic member. In addition, the motor of this embodiment has a configuration that does not have a yoke. Hereinafter, the motor of the present embodiment will be specifically described.

  FIG. 1 is an external perspective view of the motor of this embodiment. FIG. 2 is an exploded perspective view of the motor of this embodiment. 3 is a cross-sectional view taken along the line III-III in FIG.

  As shown in FIGS. 1 to 3, the motor 100 of the present embodiment has a case 1 constituted by a cover portion 2 and a bottom plate portion 3. Although not shown, the cover portion 2 has an opening, and the bottom plate portion 3 is disposed so as to close the opening.

  The cover portion 2 is formed by integrally forming a circular flat plate-like upper surface portion 2a and a cylindrical side surface portion 2b. Specifically, since the upper surface portion 2a is formed so as to close one end of the cylindrical side surface portion 2b, the opening portion is formed in the cover portion 2. The bottom plate portion 3 has a flat plate shape and is disposed on the cover portion 2 so as to face the upper surface portion 2a. As described above, the bottom plate portion 3 is disposed so as to block the opening of the cover portion 2.

  In particular, as shown in FIG. 2, an elastic member 4, a weight 5, a first magnet 6 a, a second magnet 6 b, a coil 7, and a circuit board are provided inside the case 1 constituted by the cover portion 2 and the bottom plate portion 3. 8 and a bottom flattening portion 9 are installed. Hereinafter, these members will be described with reference to FIGS.

  The elastic member 4 includes a case connecting portion 4a connected to the inside of the upper surface portion 2a of the cover portion 2, a weight connecting portion 4b connected to the upper surface of the weight 5, and the case connecting portion 4a and the weight connecting portion 4b. It is a leaf | plate spring which has the elastic deformation part 4c formed. The case connecting portion 4 a is formed on the outer peripheral portion of the elastic member 4, and the weight connecting portion 4 b is formed on the inner peripheral portion of the elastic member 4.

  The weight 5 is a substantially columnar weight and is connected to the elastic member 4. The weight 5 is preferably made of a non-magnetic high specific gravity material or the like. For example, tungsten or the like may be used. The weight 5 is connected to the elastic member 4 connected to the upper surface portion 2a. That is, the weight 5 is elastically supported by the elastic member 4 in a suspended manner on the upper surface portion 2a. The weight 5 can vibrate in a substantially vertical direction with respect to the upper surface portion 2a having a flat plate shape. As described above, since the bottom plate portion 3 is disposed to face the upper surface portion 2a, the weight 5 can vibrate in a substantially vertical direction with respect to the bottom plate portion 3 as well. That is, the weight 5 is supported so as to be able to vibrate between the upper surface portion 2 a and the bottom plate portion 3.

  Further, the weight 5 has a thickness capable of vibrating in the vibration space 10 formed inside the case 1. Further, if the volume of the weight 5 is increased, the weight also increases. Therefore, each dimension of the weight 5 may be adjusted as appropriate according to the required thrust and the like. Further, the weight 5 has an opening 5a formed in the vicinity of the center, and the opening 5a is formed with two sets of two protruding portions 5b arranged to face each other. Specifically, four protrusions 5b are formed in total. The opening 5a and the protrusion 5b are configured to connect the first magnet 6a and the second magnet 6b to the weight 5.

  The first magnet 6a and the second magnet 6b have the same shape and are substantially rectangular parallelepiped. The first magnet 6a and the second magnet 6b are arranged so as to face each other with the coil 7 interposed therebetween. The first magnet 6 a and the second magnet 6 b are preferably arranged symmetrically about the coil 7.

  The first magnet 6a and the second magnet 6b are connected to the weight 5 by a protrusion 5b formed in the opening 5a. Specifically, the first magnet 6a and the second magnet 6b are weighted by fitting the first magnet 6a and the second magnet 6b between two sets of two projecting portions 5b arranged to face each other. 5 is connected. In addition, the structure which connects the 1st magnet 6a and the 2nd magnet 6b to the weight 5 may be other methods. For example, when the protrusion 5b is formed, the first magnet 6a and the second magnet 6 are inserted into the weight 5 by fitting the first magnet 6a and the second magnet 6b into the groove formed outside the protrusion 5b. 6b may be connected. Moreover, it is good also as a structure which connects the 1st magnet 6a and the 2nd magnet 6b to the weight 5 without using the projection part 5b.

  The coil 7 is installed so as to be fixed on the bottom plate portion 3. In addition, the coil 7 is installed so that it may be wound along the surface which cross | intersects the baseplate part 3. FIG. That is, the winding axis direction of the coil 7 is a direction along the bottom plate portion 3 and the upper surface portion 2a. The upper surface of the coil 7 may be in contact with the upper surface portion 2a, and the upper surface portion 2a and the coil 7 may be fixed. Thereby, the substantially center part of the upper surface part 2 a is supported by the coil 7, and the coil 7 becomes a support column interposed between the upper surface part 2 a and the bottom plate part 3. For this reason, since the vibration of the upper surface part 2a generated when the motor 100 is driven is suppressed, the generation of abnormal noise can be prevented.

  The circuit board (FPC) 8 is for supplying power to the coil 7 and is installed on the bottom plate portion 3. The circuit board 8 includes external connection terminals 8 a and 8 b disposed so as to be positioned outside the case 1 and coil connection terminals 8 c and 8 d disposed so as to be positioned in the vicinity of the coil 7.

  The bottom flattening portion 9 is installed to alleviate unevenness generated on the inner surface of the bottom plate portion 3 by installing the circuit board 8 on the bottom plate portion 3. By installing the bottom surface flattening part 9, when the weight 5 vibrates, the place where the bottom surface of the weight 5 comes into contact is almost flat, so that the vibration direction of the weight 5 is not shaken and a stable vibration operation is performed. be able to.

<Magnet>
FIG. 4 is an enlarged view of the vicinity of the coil of FIG. In particular, it is a diagram for illustrating the arrangement of the first magnet 6a, the second magnet 6b, and the coil 7. As shown in FIG. 4, the first magnet 6 a and the second magnet 6 b are arranged to face each other with the coil 7 interposed therebetween. Further, the first magnet 6 a and the second magnet 6 b are arranged symmetrically with respect to the coil 7. Therefore, both the first magnet 6a and the second magnet 6b are arranged so that the distance from the coil 7 is the same. The first magnet 6a is arranged so that the N pole is located on the upper surface portion 2a side and the S pole is located on the bottom plate portion 3 side, and the second magnet 6b is located on the upper surface portion 2a side so that the S pole is located on the bottom plate It arrange | positions so that the N pole may be located in the part 3 side. That is, the first magnet 6a and the second magnet 6b are arranged so that the magnetic poles are in opposite directions. Further, for example, the first magnet 6a is arranged such that the south pole is located on the upper surface portion 2a side and the north pole is located on the bottom plate portion 3 side, and the second magnet 6b is located on the upper surface portion 2a side. The S pole may be located on the bottom plate 3 side.

  In addition, the motor 100 of the present embodiment is configured without using a yoke. About the 1st magnet 6a, the 2nd magnet 6b, and the coil 7, it is set as the arrangement | positioning mentioned above and the yoke is not provided. With this configuration, sufficient values can be achieved for the thrust, the vibration amount, the rise time during driving, and the like. In addition, since no yoke is used, the cost can be reduced accordingly. Thus, the motor 100 of this embodiment can suppress cost, without degrading performance.

<2. Application example>
FIG. 5 is a diagram illustrating an electronic device in which the motor of this embodiment is mounted. As shown in FIG. 5, the smartphone 200 includes a motor 100.

  The smartphone 200 is vibrated when the built-in motor 100 is driven. As described above, the smartphone 200 can vibrate, and can execute a vibration function that notifies the user of an incoming call or the like by vibration. Alternatively, it is possible to give an operational feeling to the user by vibrating the motor 100 in synchronization with the user's key operation.

  Thus, in the motor 100 of the present embodiment, the case 1, the coil 7 installed inside the case 1, and the first magnet 6a installed inside the case 1 and arranged to face each other with the coil 7 interposed therebetween. And a second magnet 6b, a weight 5 installed inside the case 1 and connected to the first magnet 6a and the second magnet 6b, a case connecting portion 4a connected to the case 1 inside the case 1, and a weight 5 The elastic member 4 includes a weight connecting portion 4b that is connected and supports the weight 5 in a predetermined direction so as to vibrate freely. Thus, it is the structure which arrange | positions the 1st magnet 6a and the 2nd magnet 6b on both sides of the coil 7. That is, since the magnet is composed of two magnets, the first magnet 6a and the second magnet 6b, the number of magnets is small and the cost can be suppressed. Moreover, according to this motor 100, sufficient thrust can be obtained.

  Moreover, in the motor 100 of this embodiment, since the 1st magnet 6a and the 2nd magnet 6b are the same shape and are a substantially rectangular parallelepiped shape, the process of a magnet is easy and cost can be suppressed. Moreover, since it is a simple shape, when the 1st magnet 6a and the 2nd magnet 6b are assembled | attached, it can work easily, Thereby, the manufacturing cost of the motor 100 can be suppressed.

  In the motor 100 according to the present embodiment, the first magnet 6a and the second magnet 6b are arranged symmetrically with respect to the coil 7 so that the directions of the magnetic poles are opposite to each other. It can be set as the structure which can obtain sufficient thrust.

  Further, in the motor 100 of this embodiment, the case 1 includes a cover portion 2 integrally formed with a flat upper surface portion 2a and a cylindrical side surface portion 2b, and a bottom plate that is flat and is disposed opposite to the upper surface portion 2a. Part 3. Thus, since the case 1 is formed by the cover part 2 and the baseplate part 3, it can be manufactured easily and the manufacturing cost of the motor 100 can be suppressed.

  Moreover, in the motor 100 of this embodiment, the coil 7 is installed in the bottom plate part 3, the case connection part 4a of the elastic member 4 is connected to the upper surface part 2a, and the elastic member 4 has the weight 5 with respect to the upper surface part 2a. Therefore, since the weight 5 is supported so as to be able to vibrate in a substantially vertical direction, the weight 5 can be stably vibrated.

  Moreover, in the motor 100 of this embodiment, since the circuit board 8 which supplies electric power to the coil 7 is installed on the bottom plate portion 3, it is possible to supply electric power to the coil 7 with a simple configuration. In addition, the manufacturing cost of the motor 100 can be suppressed.

  Moreover, in the motor 100 of this embodiment, since the vibration space 10 for the weight 5 to vibrate is formed in the case 1, the space for the weight 5 to vibrate is secured, and it is fully It can be set as the structure which can obtain a big vibration.

  In addition, since the motor 100 according to the present embodiment has a configuration in which the yoke is not installed, the cost can be reduced accordingly.

  In addition, the smartphone 200 of the present embodiment can be configured to include the motor 100. Thus, since the motor 100 which can suppress cost is provided, it is possible to reduce cost.

<3. Supplementary items>
The specific description of the embodiment of the present invention has been given above. The above description is merely an embodiment, and the scope of the present invention is not limited to this embodiment, and is broadly interpreted to the extent that a person skilled in the art can grasp based on the same technical idea. is there.

  In the above embodiment, the weight 5 is supported on the upper surface portion 2a side via the elastic member 4, but the weight 5 may be supported on the bottom plate portion 3 side via the elastic member 4. In this case, for example, the case connecting portion 4 a of the elastic member 4 may be connected to the bottom plate portion 3, and the weight connecting portion 4 b may be connected to the lower surface of the weight 5.

  In the above embodiment, the motor 100 is mounted on the smartphone 200. However, the motor 100 can also be mounted on an electronic device other than the smartphone 200.

  Moreover, although only the characteristic part of the present invention has been described in the above embodiment, the motor of the present invention further includes various configurations of the conventional motor.

  The motor of the present invention is suitably used for a linear vibration motor mounted on, for example, a portable information terminal.

DESCRIPTION OF SYMBOLS 1 ... Case 2 ... Cover part 2a ... Upper surface part 2b ... Side surface part 3 ... Bottom plate part 4 ... Elastic member 4a ... Case connection part 4b ... Weight connection part 4c ... Elastic deformation part 5 ... Weight 5a ... Opening part 5b ... Projection part 6a ... 1st magnet 6b ... 2nd magnet 7 ... Coil 8 ... Circuit board 8a, 8b ... External connection terminal 8c, 8d ... Coil connection terminal 9 ... Bottom flattening part 10 ... Vibration space 100 ... Motor 200 ... Smartphone

Claims (9)

Case and
A coil installed inside the case;
A first magnet and a second magnet installed inside the case and arranged to face each other with the coil interposed therebetween;
A weight installed inside the case and connected to the first magnet and the second magnet;
A case connecting portion connected to the case inside the case, and a weight connecting portion connected to the weight, and an elastic member that supports the weight so as to vibrate in a predetermined direction.
motor. The first magnet and the second magnet have the same shape and a substantially rectangular parallelepiped shape.
The motor according to claim 1. The first magnet and the second magnet are arranged symmetrically with respect to the coil, and the magnetic poles are opposite to each other.
The motor according to claim 1 or 2. The case includes a cover portion in which a flat upper surface portion and a cylindrical side surface portion are integrally formed;
A bottom plate portion that is flat and is disposed opposite to the upper surface portion,
The motor according to any one of claims 1 to 3. The coil is installed on the bottom plate part,
The case connecting portion of the elastic member is connected to the upper surface portion,
The elastic member supports the weight so as to freely vibrate in a direction substantially perpendicular to the upper surface portion.
The motor according to claim 4. A circuit board for supplying power to the coil is installed on the bottom plate part.
The motor according to claim 4 or 5. In the case, a vibration space for vibrating the weight is formed,
The motor according to any one of claims 1 to 6. The yoke is not installed,
The motor according to any one of claims 1 to 7.   An electronic device comprising the motor according to any one of claims 1 to 8.

Images