JP2008082989A - Equipment case - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an equipment case capable of enhancing reception sensitivity of an antenna. <P>SOLUTION: This equipment case is provided with attaching recesses 13, 15 to correspond to the antenna 8, on respective inner faces of a metal case main body 3 storing the antenna 8 in its inside, and a metal caseback 5 attached onto a reverse face of the case main body 3, and magnetic members 14 are provided respectively in the attaching recesses 13, 15. An eddy current is restrained from being generated in accompaniment to a magnetic flux of a magnetic field generated in the antenna 8 in each of the case main body 3 and the caseback 5 by the each magnetic member 14, respective wall thicknesses of the case main body 3 and the caseback 5 are also reduced by the attaching recesses 13, 15, a radio wave is made to advance easily from each thinned portion into the case main body 3, an electric resistance is also made large in each of the case main body 3 and the caseback 5, the eddy current is also restrained from being generated in accompaniment to the magnetic flux of the magnetic field generated in the antenna 8 in each of the case main body 3 and the caseback 5, by an increase of the electric resistance, and the reception sensitivity of the antenna 8 is thereby enhanced with those. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a device case of an electronic device incorporating an antenna.

For example, an electronic wristwatch is known that includes an antenna that receives a standard time radio wave and corrects the time based on the standard time radio wave received by the antenna.
In this type of radio-controlled wristwatch, if there is a metal member in the vicinity of the antenna, it will be difficult for standard time radio waves to reach the antenna, and the magnetic flux generated by the antenna will pass through the metal member, resulting in an eddy current in the metal member. As a result, the reception sensitivity of the antenna decreases.

Therefore, in a conventional radio-controlled wristwatch, as described in Patent Document 1, a magnetic sheet is attached to each inner surface of a metal case body and a metal back cover located in the vicinity of the antenna. The magnetic sheet suppresses the decrease in the receiving sensitivity of the antenna by suppressing the generation of eddy currents due to the magnetic flux generated by the antenna in the metal case main body and the metal back cover. In this case, the magnetic sheet is obtained by kneading a magnetic material powder and a resin powder binder and wrapping them with a protective sheet.
JP 2006-112866 A

  However, in such a conventional radio-controlled wristwatch, a magnetic sheet is simply provided on each inner surface of the metal case main body and the metal back cover located in the vicinity of the antenna. Since the thickness of the case body and back cover at the location located in the vicinity is thick, the magnetic permeability between the case body and back cover is low, and the electrical resistance is also small, so not only the standard time radio waves are difficult to enter the case body but also the antenna As a result, eddy currents are likely to be generated in the case body and the back cover along with the magnetic flux generated by the magnetic field, and therefore there is a problem that sufficient reception sensitivity of the antenna cannot be ensured.

  The problem to be solved by the present invention is to provide a device case capable of increasing the reception sensitivity of an antenna.

In order to solve the above problems, the present invention includes the following components.
In addition, the reference numerals of the drawings attached to the respective elements described in the section of each embodiment described later are attached to the respective constituent elements together with parentheses.

As shown in FIGS. 1 to 3, the invention described in claim 1 is a metal case body (3) in which an antenna (8) is housed, and a metal case attached to the back surface of the case body. In an equipment case with a back cover (5)
Of the case body and the back cover, at least an inner surface of the back cover is provided with a mounting recess (15) corresponding to the antenna, and a magnetic member (14) is provided in the mounting recess. It is a case.

  The invention according to claim 2 is that, as shown in FIGS. 1 to 3, the magnetic member (14) is obtained by mixing and injection-molding a magnetic material powder and a resin powder binder and then sintering the magnetic material powder. It is an apparatus case of Claim 1 characterized by the above-mentioned.

As shown in FIGS. 4 to 6, the invention according to claim 3 is a metal case main body (3) in which an antenna (8) is housed, and a metal case attached to the back surface of the case main body. In an equipment case with a back cover (21) of
The device case is characterized in that a marking (22) is provided on the outer surface of the back cover at a location located in the vicinity of the antenna.

As shown in FIGS. 7 and 8, the invention described in claim 4 is a metal case main body (3) in which an antenna (8) is accommodated, and a metal case attached to the back surface of the case main body. In an equipment case provided with a back cover (31) of
Of the case main body and the case back, at least the case back is formed with a coarse density of metal particles (32).

  In the invention according to claim 5, as shown in FIGS. 7 and 8, the back cover (31) is injection-molded by mixing a powder of metal particles (32) and a binder of resin powder, and then sintered. The device case according to claim 4, wherein the device case is formed.

As shown in FIGS. 9 and 10, the invention according to claim 6 is a metal case main body (3) in which an antenna (8) is housed, and a metal case attached to the back surface of the case main body. In a device case provided with a back cover (41) of
A device case characterized in that a plurality of switch members (42) are provided on the back cover in correspondence with the antennas.

  According to the first aspect of the present invention, at least one of the metal case main body in which the antenna is accommodated and the metal back cover attached to the back surface of the case main body is attached to the inner surface of the back cover. Since the concave portion is provided corresponding to the antenna, and the magnetic member is provided in the mounting concave portion, when the antenna receives a radio wave and generates a magnetic field, the magnetic member generates an eddy current associated with the magnetic flux generated by the antenna on the back cover. Since the thickness of the metal back cover can be reduced by the mounting recess, radio waves can easily enter the case body from the thin part of the back cover. At the same time, the electrical resistance of the back cover can be increased by the thin part of the back cover, and this increase in electrical resistance also suppresses the generation of eddy currents associated with the magnetic flux generated by the antenna on the back cover. It can, these can by increasing the receiving sensitivity of the antenna.

  According to the second aspect of the present invention, the magnetic member is formed by mixing and molding a magnetic material powder and a resin powder binder, and then sintering, so that when the antenna receives radio waves, Magnetic field magnetic flux due to induced electromotive force generated in the antenna can be concentrated and passed along the magnetic member, and eddy current is not generated in the magnetic member due to magnetic field magnetic flux generated in the antenna. In addition to greatly reducing loss due to eddy currents in the back cover, the strength of the magnetic member can be ensured by the configuration in which the magnetic material powder is sintered. For this reason, even if the thickness of the back cover is thin due to the mounting recess, by fixing the magnetic member to the mounting recess of the back cover, the strength of the entire back cover can be sufficiently secured by the magnetic member.

  According to the invention described in claim 3, a location that is provided in the vicinity of the antenna, including a metal case main body in which the antenna is housed, and a metal back cover attached to the back surface of the main body case. Since the engraving is provided on the outer surface of the back cover, the thickness of the metal back cover at the position of the engraving can be reduced. This makes it easier for radio waves to enter the case body from the thin part of the back cover, and the electric resistance of the back cover can be increased by the thin part of the back cover. The increase in resistance can suppress the generation of eddy currents associated with the magnetic flux generated by the antenna on the back cover, thereby increasing the reception sensitivity of the antenna.

  According to the invention described in claim 4, at least the back cover is made of metal particles among the metal case main body in which the antenna is accommodated and the metal back cover attached to the back surface of the case main body. Since the density is formed coarsely, even if the back cover is made of metal, radio waves can easily enter the case body through the gap between the metal particles on the back cover, and the density of the metal particles is low. The electrical resistance of the entire back cover can be increased, and the increase in electrical resistance can suppress the generation of eddy currents due to the magnetic flux generated by the antenna on the metal back cover. Sensitivity can be increased.

  According to the invention described in claim 5, the back cover has a configuration in which the metal powder powder and the resin powder binder are mixed and injection-molded and then sintered. Since it evaporates and scatters, the density of the metal particles can be greatly roughened. For this reason, radio waves can be made to enter the case body more easily from the gap between the metal particles on the back cover, and the electrical resistance of the entire back cover can be sufficiently increased. Because it is possible to greatly suppress the occurrence of eddy currents in the back cover with the magnetic flux of the magnetic field, it is possible to increase the reception sensitivity of the antenna, and because it is a configuration in which metal powder powder is sintered, Sufficient strength of the entire back cover can be secured.

  According to a sixth aspect of the present invention, a metal case main body in which an antenna is housed and a metal back cover attached to the back surface of the case main body are provided, and a plurality of switch members are provided on the back cover. Are provided in correspondence with the antennas, so that radio waves can easily enter the case body through the gaps between the components of the plurality of switch members, thereby increasing the reception sensitivity of the antennas.

(Embodiment 1)
A first embodiment in which the present invention is applied to a radio wave wristwatch will be described below with reference to FIGS.
FIG. 1 is an enlarged side view showing a main part of a radio-controlled wristwatch according to the present invention, FIG. 2 is a plan view showing a back cover of FIG. 1, and FIG. 3 is an enlarged cross-sectional view taken along line AA in FIG. It is.
As shown in FIG. 1, this radio-controlled wristwatch includes a wristwatch case 1.

  As shown in FIG. 1, the watch case 1 includes a case main body 3 which is opened up and down and accommodates a timepiece module 2 therein, a watch glass 4 mounted on an upper inner peripheral surface of the case main body 3, a case A back cover 5 attached to the lower part of the main body 3 is provided. In this case, the timepiece module 2 includes a housing 6 disposed in the case body 3. The housing 6 is assembled with a timepiece movement 7 for indicating and displaying time and an antenna 8 for receiving standard time radio waves, and various electronic components (not shown) necessary for the timepiece function are incorporated. .

  As shown in FIG. 1, the timepiece movement 7 includes a pointer shaft 9, and the pointer shaft 9 protrudes upward through a dial plate 10 provided on the upper surface of the housing 6. 11 is attached, and the pointer 11 moves the dial 10 above to indicate the time. The antenna 8 is a bar antenna, and includes a rod-shaped core formed of a magnetic member such as amorphous or ferrite, and a coil in which a conductor such as copper is wound around the core, and is placed in a magnetic field generated by radio waves. Then, the magnetic flux generated by the magnetic field is concentrated in the core having higher permeability than the surrounding space and linked to the coil, and an induced electromotive force is generated so that the magnetic field is generated in such a direction as to prevent the magnetic flux from changing. ing.

  Although the circuit configuration of the timepiece module 2 is not shown, a control unit that controls the entire circuit, a receiving circuit that detects the induced electromotive force generated in the coil of the antenna 8 and extracts data of the standard time, and a transmitter Based on the standard time data taken out by the receiving circuit, and the control unit corrects the time measured by the time measuring circuit and controls the clock movement 7 to correct the current time. The hands 11 are configured to indicate the time.

  By the way, the case main body 3 is formed of a high strength metal such as stainless steel or titanium, and a parting member 12 is provided below the watch glass 4 inside the case main body 3 as shown in FIG. It is arranged along the inner peripheral surface of the main body 3. Further, as shown in FIG. 1, mounting recesses 13 are provided corresponding to the side surfaces of the antenna 8 on the inner peripheral surface of the case body 3 at a location located in the vicinity of the antenna 8. Is provided with a magnetic member 14 to be described later.

  On the other hand, the back cover 5 is formed in a substantially disk shape with a high-strength metal such as stainless steel or titanium, like the case body 3. As shown in FIGS. 1 to 3, a mounting recess 15 is provided on the inner surface of the back cover 5 in the vicinity of the antenna 8 so as to correspond to the lower surface of the antenna 8. Also, a magnetic member 14 is provided.

  The magnetic member 14 provided in each of the mounting recesses 13 and 15 of the case body 3 and the back cover 5 is formed by mixing a resin powder binder with a magnetic material powder such as ferrite, injection molding, and then sintering. It is a plate-like thing in which the binder of the resin powder is evaporated and scattered, has high magnetic permeability and low electrical conductivity, and each mounting recess 13 between the case main body 3 and the back cover 5 as shown in FIGS. , 15, and by being pressurized and heated in this state, they are integrally fixed in the mounting recesses 13, 15.

  According to the wristwatch case 1, the mounting recesses are formed on the inner surfaces of the metal case body 3 in which the antenna 8 is housed and the metal back cover 5 attached to the back surface of the case body 3. 13 and 15 are provided corresponding to the antenna 8 and the magnetic members 14 are provided in the mounting recesses 13 and 15, respectively. Therefore, when the antenna 8 receives a standard time radio wave and generates a magnetic field, the magnetic member 14 generates a case. Generation of eddy currents accompanying magnetic flux generated by the antenna 8 on the main body 3 and the back cover 5 can be suppressed.

  That is, the magnetic member 14 has a configuration in which a binder of a resin powder is mixed with a magnetic material powder and injection molded and then sintered, so that when the antenna 8 receives a radio wave, the magnetic member 14 is caused by an induced electromotive force generated at the antenna 8. The magnetic flux of the magnetic field can be concentrated and passed along the magnetic member 14, and eddy current associated with the magnetic flux of the magnetic field generated by the antenna 8 is not generated in the magnetic member 14. Loss due to eddy current in the lid 5 can be reliably prevented.

  Further, the case body 3 and the back cover 5 are formed so that the thicknesses of the case body 3 and the back cover 5 are thin by the mounting recesses 13 and 15 provided with the magnetic members 14, respectively. And back cover 5, the standard time radio wave can easily enter the case body 3 from the thin part of the back cover 5, and the thicknesses of the case body 3 and the back cover 5 can be reduced. The thin portions can increase each electrical resistance between the case body 3 and the back cover 5. For this reason, even if the electrical resistance of the case body 3 and the back cover 5 increases, the generation of eddy currents associated with the magnetic flux generated by the antenna 8 in the metal case body 3 and the metal back cover 5 is suppressed. As a result, the receiving sensitivity of the antenna 8 can be increased.

  In this case, since the magnetic member 14 has a configuration in which a binder of resin powder is mixed with a magnetic material powder such as ferrite and injection molded, and then sintered, the strength of the magnetic member 14 can be ensured. The magnetic member 14 is integrated in the mounting recesses 13 and 15 by being pressurized and heated in a state where the magnetic member 14 is disposed in the mounting recesses 13 and 15 of the case body 3 and the back cover 5. Therefore, even if the thicknesses of the case body 3 and the back cover 5 are reduced by the mounting recesses 13 and 15, the strength of the case body 3 and the back cover 5 is sufficiently secured by the magnetic member 14. be able to.

(Embodiment 2)
Next, a second embodiment in which the present invention is applied to a radio wave wristwatch will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected and demonstrated to the same part as Embodiment 1 shown by FIGS. 1-3.
The wristwatch case 20 of this radio-controlled wristwatch has a configuration in which a stamp 22 is provided on the back surface of a metal back cover 21, and the configuration other than this is substantially the same as that of the first embodiment.

  That is, the marking 22 represents a product number, a model name, a company name, etc., as shown in FIG. 4 to FIG. 6 by a concave groove, and is located near the antenna 8 as shown in FIG. The rear cover 21 is concentrated on the back surface (the lower surface in FIG. 5). Also in this case, the back cover 21 is formed in a substantially disk shape with a high-strength metal such as stainless steel or titanium, like the case body 3. Also in the wristwatch case 20, although not shown, the mounting recess 13 is provided on the inner peripheral surface of the case body 3 corresponding to the side surface of the antenna 8, as in the first embodiment. Inside, a magnetic member 14 is provided.

  According to such a watch case 20, the metal case main body 3 in which the antenna 8 is housed and the metal back cover 21 attached to the back surface of the main body case 3 are provided, and the vicinity of the antenna 8 is provided. Since the engravings 22 are concentrated on the back surface (the lower surface in FIG. 5) of the back cover 21 located at the position, the thickness of the back cover 21 at the position where the engraving 22 is provided is reduced as shown in FIG. be able to. For this reason, it is possible to make it easier for standard time radio waves to enter the case body 3 from the thin part of the back cover 21 provided with the inscription 22, and the back cover 21 by the thin part of the back cover 21. The electric resistance of the antenna 8 can be increased, and the increase in the electric resistance can suppress the generation of eddy currents associated with the magnetic flux generated by the antenna 8 in the metal back cover 21. Sensitivity can be increased.

(Embodiment 3)
Next, a third embodiment in which the present invention is applied to a radio-controlled wristwatch will be described with reference to FIGS. Also in this case, the same portions as those in the first embodiment shown in FIGS.
The wristwatch case 30 of this radio-controlled wristwatch has a configuration different from that of the first embodiment in the material of the metal back cover 31 attached to the lower surface of the metal case main body 3 in which the antenna 8 is accommodated. 1 is almost the same configuration.

  That is, the back cover 31 is obtained by mixing a resin powder binder with a powder of metal particles 32, injection molding, and then sintering, thereby evaporating and scattering the resin powder binder. It is formed in a disk shape. Therefore, as shown in FIG. 8, the back cover 31 has a structure in which the density of the metal particles 32 is low and a gap is generated between the metal particles 32, thereby increasing electrical resistance and allowing standard time radio waves to easily enter. Yes. Also in this case, the mounting recess 13 is provided on the inner peripheral surface of the case body 3 corresponding to the side surface of the antenna 8 as in the first embodiment, and the magnetic member 14 is provided in the mounting recess 13. Is provided.

  According to such a watch case 30, the back cover 31 attached to the lower surface of the metal case main body 3 in which the antenna 8 is housed has a configuration in which the density of the metal particles 32 is increased. Can be made easier to enter the standard time radio wave into the case body 3 from between the metal particles 32 of the back cover 31 and the density of the metal particles 32 is low, so that The resistance can be increased, and the increase in electrical resistance can suppress the generation of eddy currents due to the magnetic flux generated by the antenna 8 in the metal back cover 31, thereby improving the reception sensitivity of the antenna 8. Can be increased.

  In this case, the back cover 31 is obtained by mixing the resin powder binder with the powder of the metal particles 32, injection molding, and then sintering the resin powder binder to evaporate and scatter the metal powder. The density of the particles 32 can be greatly roughened. For this reason, the standard time radio wave can be easily entered into the case body 3 from between the metal particles 32, and the electrical resistance of the entire back cover 31 can be sufficiently increased, so that the magnetic field generated by the antenna 8 can be reduced. Since the generation of eddy currents in the back cover 31 due to the magnetic flux can be greatly suppressed, the receiving sensitivity of the antenna 8 can be increased by these, and the powder of the metal particles 32 is sintered. Even if the density of the metal particles 32 is rough, the strength of the back cover 31 can be sufficiently ensured.

  In the third embodiment, the back cover 31 is obtained by mixing the powder of the metal particles 32 and the binder of the resin powder, injection molding, and then sintering and evaporating and scattering the binder of the resin powder. However, the present invention is not limited to this. For example, the case main body 3 is also formed by mixing a metal particle powder and a resin powder binder, injection molding, and then sintering, thereby evaporating the resin powder binder. It may be scattered. In such a case body 3 as well, the density of the metal particles is coarse and gaps are formed between the metal particles, thereby making it easier to enter standard time radio waves and increasing the electrical resistance of the entire case body 3. Therefore, as with the case back 31, the reception sensitivity of the antenna 8 can be increased.

(Embodiment 4)
Next, a fourth embodiment in which the present invention is applied to a radio wave wristwatch will be described with reference to FIGS. Also in this case, the same portions as those in the first embodiment shown in FIGS.
A wristwatch case 40 of this radio-controlled wristwatch has a configuration in which a plurality of switch members 42 are provided corresponding to the antennas 8 on a metal back cover 41 attached to the back surface of the metal case body 3 in which the antenna 8 is accommodated. Other than this, the configuration is substantially the same as in the first embodiment. That is, as shown in FIG. 9, the plurality of switch members 42 are provided on the back cover 41 at a location located in the vicinity of the antenna 8 so as to correspond to the intermediate portion and both end portions of the antenna 8, respectively.

  In this case, as shown in FIG. 10, each switch member 42 fits a pipe 43 into a through hole 41 a provided in the back cover 41 and inserts a shaft portion 44 into the pipe 43. A ring-shaped packing 45 is attached to the outer peripheral surface of the pipe 43, and the shaft portion 44 is slidably provided in the pipe 43 in a state where the packing 45 is pressed against the inner peripheral surface of the pipe 43.

  The packing 45 is made of synthetic resin such as rubber, and the pipe 43 and the shaft portion 44 are preferably made of metal, but may be made of hard synthetic resin. In the wristwatch case 40 as well, although not shown, the mounting recess 13 is provided on the inner peripheral surface of the case body 3 corresponding to the side surface of the antenna 8 as in the first embodiment. Inside, a magnetic member 14 is provided.

  According to such a wristwatch case 40, the metal case main body 3 in which the antenna 8 is accommodated and the metal back cover 41 attached to the back surface of the case main body 3 are provided. Since the plurality of switch members 42 are provided corresponding to the antennas 8 respectively, the gaps between the members in the plurality of switch members 42, that is, the pipes 43 and the shaft portions 44 disposed in the through holes 41 a of the back cover 41, , And the gap between the pipe 43 and the through-hole 41a, the standard time radio wave can be made to enter easily, and thereby the reception sensitivity of the antenna 8 can be increased.

  In the first to fourth embodiments and the modifications thereof, the case where the present invention is applied to a radio wave wristwatch has been described. However, the present invention is not necessarily a wristwatch, and is applicable to various watches such as a travel watch, an alarm clock, a table clock, and a wall clock. In addition, the present invention is not limited to this, and can be widely applied to electronic devices such as mobile phones and portable information terminals.

It is the expanded side part figure which fractured | ruptured and showed the principal part in the radio wave wristwatch to which this invention is applied. (Embodiment 1) It is the top view which showed the back cover of FIG. It is an expanded sectional view in the AA arrow of FIG. It is the enlarged plan view which showed the principal part of the back cover in the radio wave wristwatch to which this invention is applied. (Embodiment 2) It is an expanded sectional view in the BB arrow of FIG. FIG. 5 is an enlarged back view showing the back cover of FIG. 4. It is the expanded side part figure which fractured | ruptured and showed the principal part in the radio wave wristwatch to which this invention is applied. (Embodiment 3) It is the expanded sectional view which showed the A section in the back cover of FIG. It is the enlarged plan view which showed the back cover in the radio wave wristwatch to which this invention is applied. (Embodiment 4) It is an expanded sectional view in CC arrow of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 20, 30, 40 Watch case 2 Watch module 3 Case main body 4 Watch glass 5, 21, 31, 41 Back cover 8 Antenna 13, 15 Mounting recessed part 14 Magnetic member 22 Stamping 32 Metal particle 42 Switch member

Claims (6)

In a device case comprising a metal case body in which an antenna is housed and a metal back cover attached to the back of the case body,
A device case, wherein an attachment recess is provided on at least an inner surface of the case cover in correspondence with the antenna, and a magnetic member is provided in the attachment recess.   2. The apparatus case according to claim 1, wherein the magnetic member is formed by mixing and molding a magnetic material powder and a binder of a resin powder and then sintering. In a device case comprising a metal case body in which an antenna is housed and a metal back cover attached to the back of the case body,
A device case, wherein a stamp is provided on an outer surface of the back cover at a location located in the vicinity of the antenna. In a device case comprising a metal case body in which an antenna is housed and a metal back cover attached to the back of the case body,
Of the case main body and the back cover, at least the back cover is formed with a coarse metal particle density.   The device case according to claim 4, wherein the back cover is injection-molded by mixing a powder of metal particles and a binder of a resin powder and then sintered. In a device case comprising a metal case body in which an antenna is housed and a metal back cover attached to the back of the case body,
A device case, wherein a plurality of switch members are provided on the back cover in association with the antenna.

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