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    • 1. 发明专利
    • Heat transport device and electronic equipment
    • 热输送设备和电子设备
    • JP2010007905A
    • 2010-01-14
    • JP2008165352
    • 2008-06-25
    • Sony Corpソニー株式会社
    • YOSHITAKA HIROYUKIYAJIMA TAKASHIHASHIMOTO MITSUOOTA TOSHIROSHIGEMOTO TATSUHIKOGOTO KAZUO
    • F28D15/02H01L23/427
    • F28D15/046F28D15/0233G06F1/203H01L23/427H01L2924/0002H01L2924/00
    • PROBLEM TO BE SOLVED: To provide a heat transport device permitting easy processing and stable mass production and electronic equipment mounted with the heat transport device.
      SOLUTION: The heat transport device includes: a sealed container; working fluid sealed within the sealed container; and a plurality of plate-shaped members 21-25 each of which has both first holes having a first opening area and second holes having a second opening area smaller than the first opening area. The plurality of plate-shaped members 21-25 are laminated within the sealed container so that the inside of the first holes of the first plate-shaped member out of the plurality of plate-shaped members 21-25 is communicated with the inside of the first holes of the second plate-shaped member adjacent to the first plate-shaped member to hold the working fluid by applying capillary force to the working fluid in the liquid phase, and so that the opening faces of the second holes of the second plate-shaped member are arranged within the opening faces of the first holes of the first plate-shaped member to make the working fluid in the evaporated phase flow to the laminated direction.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供允许容易加工和稳定批量生产的热输送装置以及安装有热传输装置的电子设备。 热交换装置包括:密封容器; 工作流体密封在密封容器内; 以及多个板状构件21-25,其各自具有第一开口面积的第一孔和具有比第一开口面积小的第二开口面积的第二孔。 多个板状构件21-25层叠在密封容器内,使得多个板状构件21-25中的第一板状构件的第一孔的内部与 所述第二板状构件的与所述第一板状构件相邻的第一孔,用于通过向所述液相中的所述工作流体施加毛细管力来保持所述工作流体,并且使得所述第二板状构件的所述第二板状构件的所述第二孔的开口面, 在所述第一板状部件的第一孔的开口面内配置有成形体,使蒸发相的工作流体向层叠方向流动。 版权所有(C)2010,JPO&INPIT
    • 3. 发明专利
    • Heat transport device and electronic equipment
    • 热输送设备和电子设备
    • JP2010002128A
    • 2010-01-07
    • JP2008161366
    • 2008-06-20
    • Sony Corpソニー株式会社
    • SHIGEMOTO TATSUHIKOYOSHITAKA HIROYUKIYAJIMA TAKASHI
    • F28D15/02H01L23/373H05K7/20
    • PROBLEM TO BE SOLVED: To provide a heat transport device capable of enduring internal pressure at a high temperature without adopting a structure which deteriorates heat transport characteristics such as the thickening of an outer wall and the erection of a support column, etc. in the internal structure, and electronic equipment having the heat transport device.
      SOLUTION: The outer wall 3 of the heat transport device 1 comprises nickel 6 having a linear expansion coefficient α
      1 and copper 7 adhered to the inside of the nickel 6 and having a value of a linear expansion coefficient α
      2 larger than the linear expansion coefficient α
      1 . That is, the outer wall 3 comprises bimetal. In the high temperature state, the nickel 6 and the copper 7 adhered to the inside of the nickel 6 are expanded. At this time, since the copper 7 is expanded more largely compared to the nickel, stress 8 is generated in the nickel, that is, in the internal direction of a container 2. The stress 8 withstands stress (internal pressure stress) from the inside to the outside of the container 2 by the internal pressure P generated by heating the heat transport device 1.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种能够耐受高温内部压力的热输送装置,而不采用劣化诸如外壁增厚和支撑柱等的热传递特性的结构。 在内部结构中,以及具有热传输装置的电子设备。 解决方案:传热装置1的外壁3包括具有线性膨胀系数α 1 的镍6和粘附在镍6内部的铜7,其值为线性 膨胀系数α 2 大于线性膨胀系数α 1 。 也就是说,外壁3包括双金属。 在高温状态下,附着在镍6内部的镍6和铜7膨胀。 此时,由于与镍相比铜7的膨胀更大,所以在镍中产生应力8,即在容器2的内部方向上产生应力8.应力8从内部承受应力(内压应力) 通过加热传热装置1而产生的内部压力P向容器2的外部排出。(C)2010,JPO&INPIT
    • 4. 发明专利
    • HEAD SUPPORTING DEVICE
    • JPH02310819A
    • 1990-12-26
    • JP13243189
    • 1989-05-25
    • SONY CORP
    • SHIGEMOTO TATSUHIKO
    • G11B5/11G11B5/60
    • PURPOSE:To eliminate the need for assembling a shielding ring separately from a head supporting member by constituting the head supporting member in such a manner that the shielding ring is integrally formed to the head supporting member formed by sheet metals and a magnetic head is mounted to the inner side of this shielding ring. CONSTITUTION:A head carriage 21 which is the head supporting member is formed of sheets, such as iron sheets, by pressing and the shielding ring 22 is integrally formed by drawing to the upper part of the front end 21a. The magnetic head 7 is mounted by press fitting or adhering, etc., to the inner space 22a of the shielding ring 22. Plural ribs 23 for reinforcement are integrally formed to the lower part of this head carriage 21. The need for assembling the shielding ring separately from the head supporting member is eliminated in this way and, therefore, the number of parts and the man-hours for assembly are drastically reduced and the cost is reduced.
    • 7. 发明专利
    • MAGNETIC DISK DEVICE
    • JPH11126306A
    • 1999-05-11
    • JP22339998
    • 1998-08-06
    • SONY CORP
    • ITO WATARUSHIGEMOTO TATSUHIKOHAYATA YUTAKAFUJITA MASAYOSHI
    • G11B5/29
    • PROBLEM TO BE SOLVED: To execute recording and reproducing of exact information signals to a magnetic disk even with either of first and second transducers for executing the recording and reproducing of the information signals by eliminating the each other's influence of the transducers by varying recording densities. SOLUTION: This magnetic disk device has a magnetic head having a head slider 203, the first transducer 201 which has a base part and a first core part and accesses the information signals at first recording density and the second transducer 202 which has second core part and accesses the information signal at the second recording density of the recording density higher than first recording density and a flat planar member 241 which freely oscillatably supports the magnetic head to a head supporting arm in the state that the head slider 203 exists on the surface side and the base part exists on the other surface side. The first core part is disposed on the vase side and the second core part is disposed in the head slider described above.
    • 9. 发明专利
    • DISK DRIVING DEVICE
    • JPH0562328A
    • 1993-03-12
    • JP22420691
    • 1991-09-04
    • SONY CORP
    • SHIGEMOTO TATSUHIKO
    • G11B3/085G11B17/34G11B21/12
    • PURPOSE:To eliminate a fear of collision between a head and a cassette by widely separating the head by providing a prescribed step on a lifter of a cassette holder. CONSTITUTION:A protrusion 6 is provided between the recording and reproducing head 3a at the tip of a head arm 4 and a fulcrum 5, and also the stop 7 is provided in a part of the lifter 2 of the cassette holder 1 corresponding to the protrusion 6 when the heads 3a and 3b are moved to the side of a further inner circumference than the innermost circumferential track. Under this constitution, the heads 3a and 3b are moved to the further inner circumferential side than the innermost circumferential track at the time of inserting and detaching a disk, and afterward when the lifter 2 interlocked with the holder 1 is lifted, the protrusion 6 is pushed upward by the step 7, and the head arm 4 is turned around the fulcrum as the center, thus widely separating the head 3a.
    • 10. 发明专利
    • IRON CORE TYPE MOTOR
    • JPH02193554A
    • 1990-07-31
    • JP1024989
    • 1989-01-19
    • SONY CORP
    • SUZUKI YUJISHIGEMOTO TATSUHIKO
    • G11B19/20H02K21/22H02K29/00
    • PURPOSE:To reduce the number of parts as well as man-hours by a method wherein a rotor having magnets is attached to the outer periphery of a spindle attached rotatably to the bearing unit of a chassis while an iron core having iron core coils is forced and fixed to the outer periphery of said bearing unit. CONSTITUTION:A cylindrical bearing mounting unit 2, made of synthetic resin, is provided integrally with a chassis 1 while a cylindrical bearing unit 3 is attached to the center of the bearing mounting unit 2 through bonding or force fitting. A spindle 4 is supported rotatably at the center of the bearing unit 3 through bearings. The inner peripheral part 13b of a rotor 13 is screwed to the lower end 4b of the spindle 4 while annular magnets 14 are bonded to the outer periphery 13a of the rotor 13. An iron core 16, having a plurality of iron core coils 15 radially at the tip end thereof, is attached to the outer periphery 3a of the bearing unit 3 to form an iron core type motor 12. Rotation is detected by the sensor 19 of a printed plate 18 on the outer periphery of the rotor 13 below the chasis 1 and the projection 20 of the magnet. A floppy disc 7 is attached to the upper end 4a of the spindle 4 through a magnet chuck 8. According to this method, the number of parts and the manufacturing man- hours of the motor for the disc is reduced.