[ISHIDA, Yoshinori 石田　貴規] 1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501;No. 1 Bedok South Road ４６９２６７　シンガポール　ベドック　サウス　ロード　ナンバー　１ Singapore469267 This refrigerant compressor has a sealed container in which refrigerator oil is stored, wherein either a shaft part that is a main shaft and an eccentric shaft, or a bearing part that is a main bearing and an eccentric bearing, is provided with a tapered part that brings the shaft part and the bearing part into line contact in a state in which the axis of the shaft part is inclined relative to the axis of the bearing part, due to the diameter changing from the longitudinally outward side of a crankshaft toward the center in one axial end side and another axial end side of the bearing part. The ratio C/D of the diameter D of the shaft part to the clearance C between the shaft part and the bearing part is set to a value in the range of 4.0×10−4 to 3.0×10−3, inclusive. The taper depth dB of the tapered part is set to a value of 2.0×10−3 mm or greater. The ratio G/D of the diameter D of the shaft part to the maximum gap G, which is the sum of the clearance C and the total value of the taper depth dB in the corresponding combination of the shaft part and the bearing part, is set to a value of 4.0×10−3 or less. This refrigerant compressor has a sealed container in which refrigerator oil is stored, wherein either a shaft part that is a main shaft and an eccentric shaft, or a bearing part that is a main bearing and an eccentric bearing, is provided with a tapered part that brings the shaft part and the bearing part into line contact in a state in which the axis of the shaft part is inclined relative to the axis of the bearing part, due to the diameter changing from the longitudinally outward side of a crankshaft toward the center in one axial end side and another axial end side of the bearing part. The ratio C/D of the diameter D of the shaft part to the clearance C between the shaft part and the bearing part is set to a value in the range of 4.0×10−4 to 3.0×10−3, inclusive. The taper depth dB of the tapered part is set to a value of 2.0×10−3 mm or greater. The ratio G/D of the diameter D of the shaft part to the maximum gap G, which is the sum of the clearance C and the total value of the taper depth dB in the corresponding combination of the shaft part and the bearing part, is set to a value of 4.0×10−3 or less.

[YAMAMOTO, Kiminobu 山本　公伸, YAMAMOTO, Kiminobu 山本　公伸, NG, Kee Cheng 黄　基清, YAMAMOTO, Kiminobu 山本　公伸, NG, Kee Cheng 黄　基清, TEO, Boon Hooi 張　文輝, YAMAMOTO, Kiminobu 山本　公伸, NG, Kee Cheng 黄　基清, TEO, Boon Hooi 張　文輝, KURAMOCHI, Hiroyuki 倉持　裕行] No.3, Jalan Sesiku 15/2, Shah Alam Industrial Site, Shah Alam Selangor Darul Ehsan, 40200 シャー・アラム、セランゴール・ダルル・エーサン、シャー・アラム・インダストリアル・サイト、ジャラン・セシク１５／２、ナンバー３ Selangor Darul Ehsan40200;1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501 Provided is a ceiling fan in which the roots of a plurality of blades are mounted to a rotationally driven support section. The ceiling fan is provided with fall prevention members each consisting of a wire material and each having a loop. Each of the blades has formed at the root thereof a through-hole through which the loop of a fall prevention member is passed. The support section is provided with engagement sections capable of engaging with the loops of the fall prevention members. The loops of the fall prevention members are arranged capable of engaging with the engagement sections of the support section. When the portion where the support section and a blade are mounted is broken, the loop engages with the engagement section of the support section, and the blade is held by the support section through the loop of the fall prevention member while the inner edge of the root of the blade is located outside the outer edge of the support section.

[ITO, Akira 伊藤　彰, UENO, Tomonaga 上野　智永, HIDAKA, Kishio 日▲高▼　貴志夫, UENO, Mitsuo 上野　光保, SAKAI, Atsushi 坂井　篤] 1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501;1, Furo-cho, Chikusa-ku, Nagoya-shi, Aichi 〒4648601 愛知県名古屋市千種区不老町１番 Aichi4648601;1-6-2, Marunouchi, Chiyoda-ku, Tokyo 〒1008246 東京都千代田区丸の内一丁目６番２号 Tokyo1008246;1-4-12, Kojirakawa-machi, Yamagata-shi, Yamagata 〒9908560 山形県山形市小白川町１丁目４－１２ Yamagata9908560 The present disclosure provides an electromagnetic wave shielding laminated sheet that is lightweight but capable of suppressing transmission and reflection of electromagnetic waves. This electromagnetic wave shielding laminated sheet (1) includes: an electromagnetic wave absorption layer (10) which comprises a matrix and carbon nanotubes dispersed in said matrix and which has a bulk density of not more than 997 kg/m3; and a metal layer (30) which overlaps the electromagnetic wave absorption layer (10).

[KOBAYASHI, Masanori 小林　正則, ISHIDA, Yoshinori 石田　貴規] 1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501;No. 1 Bedok South Road, Singapore ４６９２６７　シンガポール　ベドック　サウス　ロード　ナンバー　１ Singapore469267 A refrigerant compressor comprises: a sealed container in which refrigeration oil is stored; an electric component that is housed in the sealed container and driven by electricity supplied externally; and a compression component that is housed in the sealed container, is deposited in the refrigeration oil, is driven by the electric component, and compresses refrigerant gas supplied externally. The refrigeration oil contains, in a dissolved state, an oil film shortage regulating agent for which the concentration is regulated so as not to precipitate out at least during operation.

[FUKAMI, Tetsuo 深海　徹夫, FUKAMI, Tetsuo 深海　徹夫, KAJITA, Daisuke 梶田　大介, FUKAMI, Tetsuo 深海　徹夫, KAJITA, Daisuke 梶田　大介, AOYAMA, Toshiyuki 青山　俊之, FUKAMI, Tetsuo 深海　徹夫, KAJITA, Daisuke 梶田　大介, AOYAMA, Toshiyuki 青山　俊之, TAKAGI, Kazushige 高木　一樹] 1-6, Megahida-cho, Shikama-ku, Himeji-shi, Hyogo 〒6728033 兵庫県姫路市飾磨区妻鹿日田町１－６ Hyogo6728033;1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501 This display panel comprises a plurality of gate signal lines, a plurality of data signal lines, a plurality of sensor electrode lines, a plurality of pixel electrodes, which are divided into a plurality of groups of pixel electrodes, and a plurality of common electrodes, disposed in a proportion of one common electrode for the pixel electrodes of a respective one of the plurality of groups of pixel electrodes, wherein: each of the plurality of sensor electrode lines overlaps a respective one of the plurality of data signal lines, as viewed in plan; the plurality of sensor electrode lines overlap each of the plurality of common electrodes, as viewed in plan, and at least one sensor electrode line is electrically connected to each of the plurality of common electrodes; and at least one layer of insulating film is formed between the plurality of data signal lines and the plurality of sensor electrode lines, between the plurality of sensor electrode lines and the plurality of common electrodes, and between the plurality of common electrodes and the plurality of pixel electrodes.

[SUZUKI Jun 鈴木　潤, YOSHIZAWA Akihiro 吉澤　昭浩, NOZAKI Hideki 野崎　秀樹, ENDOU Satoshi 遠藤　聡, FUKUTA Kenji 福田　賢二, GOTO Hiroaki 後藤　洋昭] 1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501;1-6, Megahida-cho, Shikama-ku, Himeji-shi, Hyogo 〒6728033 兵庫県姫路市飾磨区妻鹿日田町１－６ Hyogo6728033 This liquid crystal display device has an active matrix type liquid crystal panel. The liquid crystal display device has source lines and gate lines, pixel electrodes, switching elements, a source driver, a gate driver, and a failure inspection circuit. The source lines and the gate lines are disposed in a grid configuration. The pixel electrodes are disposed in pixel regions defined by the source lines and the gate lines. The switching elements are disposed so as to correspond to the pixel electrodes. The source driver drives the source lines. The gate driver drives the gate lines. The failure inspection circuit is connected to the source lines and the gate lines, and inspects the source lines and the gate lines. The failure inspection circuit has monitor input signal lines, monitor output signal lines, determination circuits that detect the voltage levels of output signals from the monitor output signal lines, and expected value comparison circuits that compare outputs from the determination circuits with expected values.

[FUKAMI, Tetsuo 深海　徹夫, FUKAMI, Tetsuo 深海　徹夫, KAJITA, Daisuke 梶田　大介, FUKAMI, Tetsuo 深海　徹夫, KAJITA, Daisuke 梶田　大介, AOYAMA, Toshiyuki 青山　俊之, FUKAMI, Tetsuo 深海　徹夫, KAJITA, Daisuke 梶田　大介, AOYAMA, Toshiyuki 青山　俊之, TAKAGI, Kazushige 高木　一樹] 1-6, Megahida-cho, Shikama-ku, Himeji-shi, Hyogo 〒6728033 兵庫県姫路市飾磨区妻鹿日田町１－６ Hyogo6728033;1006, Oaza Kadoma,, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501 This display panel comprises a plurality of gate signal lines, a plurality of data signal lines, a plurality of sensor electrode lines, a plurality of pixel electrodes, which are divided into a plurality of groups of pixel electrodes, and a plurality of common electrodes, disposed in a proportion of one common electrode for the pixel electrodes of a respective one of the plurality of groups of pixel electrodes, wherein: the plurality of sensor electrode lines are disposed in the same layer as the plurality of data signal lines; each of the plurality of common electrodes overlaps the plurality of sensor electrode lines, as viewed in plan, and at least one sensor electrode line is electrically connected to each of the plurality of common electrodes; and at least one layer of insulating film is formed between the plurality of data signal lines and the plurality of sensor electrode lines, between the plurality of sensor electrode lines and the plurality of common electrodes, and between the plurality of common electrodes and the plurality of pixel electrodes.

[NAITO, Shigeki 内藤　茂樹, TAMURA, Toshiki 田村　俊樹, ASADA, Teppei 朝田　鉄平, ONO, Tatsuji 大野　達司, YAMASHITA, Masaharu 山下　雅治, MOTOMURA, Kazuya 本村　和也] 1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501;1-1, Toyosu 3-chome, Koto-ku, Tokyo 〒1358710 東京都江東区豊洲三丁目１番１号 Tokyo1358710 A method, according to the present invention, for producing a wooden board X33 using palm plants, said method comprising a cutting step, squeezing step, methane fermentation step, conversion step, impregnation step, thin plate drying step, and laminating and bonding step. In the cutting step, a palm plant is cut to obtain a plurality of palm thin plates X21 and waste material X22. In the squeezing step, sugar solutions X7, X8, and X9 are squeezed from the waste material X22. In the methane fermentation step, sugar solutions X7, X8, and X9 are subjected to a methane fermentation treatment to obtain biogas X51. In the conversion step, the biogas X51 is converted into secondary energy. In the impregnation step, a plurality of catalyst-impregnated thin plates X31 are obtained. In the thin plate drying step, a plurality of dry thin plates X32 are obtained by using secondary energy. In the laminating and bonding step, the plurality of dry thin plates X32 are laminated and bonded by using secondary energy. A method, according to the present invention, for producing a wooden board X33 using palm plants, said method comprising a cutting step, squeezing step, methane fermentation step, conversion step, impregnation step, thin plate drying step, and laminating and bonding step. In the cutting step, a palm plant is cut to obtain a plurality of palm thin plates X21 and waste material X22. In the squeezing step, sugar solutions X7, X8, and X9 are squeezed from the waste material X22. In the methane fermentation step, sugar solutions X7, X8, and X9 are subjected to a methane fermentation treatment to obtain biogas X51. In the conversion step, the biogas X51 is converted into secondary energy. In the impregnation step, a plurality of catalyst-impregnated thin plates X31 are obtained. In the thin plate drying step, a plurality of dry thin plates X32 are obtained by using secondary energy. In the laminating and bonding step, the plurality of dry thin plates X32 are laminated and bonded by using secondary energy.

[YAMASHITA, Tomokazu 山下　友和, YAMASHITA, Tomokazu 山下　友和, IGARASHI, Takatoshi 五十嵐　考俊, YAMASHITA, Tomokazu 山下　友和, IGARASHI, Takatoshi 五十嵐　考俊, FUJIMORI, Noriyuki 藤森　紀幸, YAMASHITA, Tomokazu 山下　友和, IGARASHI, Takatoshi 五十嵐　考俊, FUJIMORI, Noriyuki 藤森　紀幸, KATSUNO, Motonari 勝野　元成] 43-2, Hatagaya 2-chome, Shibuya-ku, Tokyo 〒1510072 東京都渋谷区幡ヶ谷２丁目４３番２号 Tokyo1510072;1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501 Provided is an imaging device for which peeling of an insulating member is prevented and which is therefore highly reliable and can be reduced in size. This imaging unit 40 has a semiconductor chip 44 on which an imaging element is formed, and protective glass 49 adhered to the imaging element with an adhesive layer 54c therebetween, the imaging unit being characterized: in that the semiconductor chip 44 is provided with a photoreceptor portion 44a for photoelectrically converting input light to generate an image signal, a peripheral circuit portion 44b for receiving an image signal from the photoreceptor portion 44a and transmitting a drive signal, a guard ring 44d encircling the perimeter of the photoreceptor portion 44a and the peripheral circuit portion 44b, and a plurality of metal dots 44e formed on the outer periphery of the guard ring 44d; and in that the protective glass 49 is adhered with the adhesive layer 54c so as to cover the photoreceptor portion 44a, the peripheral circuit portion 44b, the guard ring 44d, and the metal dots 44e.

[TAKAHASHI Tomohisa 高橋　朋久, TAKAHASHI Tomohisa 高橋　朋久, ICHIMURA Hironobu 一村　博信, TAKAHASHI Tomohisa 高橋　朋久, ICHIMURA Hironobu 一村　博信, YAMASHITA Tomokazu 山下　友和, TAKAHASHI Tomohisa 高橋　朋久, ICHIMURA Hironobu 一村　博信, YAMASHITA Tomokazu 山下　友和, FUJIMORI Noriyuki 藤森　紀幸, TAKAHASHI Tomohisa 高橋　朋久, ICHIMURA Hironobu 一村　博信, YAMASHITA Tomokazu 山下　友和, FUJIMORI Noriyuki 藤森　紀幸, IGARASHI Takatoshi 五十嵐　考俊, TAKAHASHI Tomohisa 高橋　朋久, ICHIMURA Hironobu 一村　博信, YAMASHITA Tomokazu 山下　友和, FUJIMORI Noriyuki 藤森　紀幸, IGARASHI Takatoshi 五十嵐　考俊, TAKAYAMA Yoshiki 高山　義樹] 43-2, Hatagaya 2-chome, Shibuya-ku, Tokyo 〒1510072 東京都渋谷区幡ヶ谷二丁目４３番２号 Tokyo1510072;1006, Oaza Kadoma, Kadoma-shi, Osaka 〒5718501 大阪府門真市大字門真１００６番地 Osaka5718501 The present invention comprises: an imaging element 30; and a flexible substrate 40 which has a first region 40a that is electrically connected to the imaging element 30 and which has at least one first cut piece 40bz of a second region and at least one second cut piece 40cz of a third region remaining on opposite sides 40a1 and 40a2. A cutting line of at least one of the first cut piece 40bz and the second cut piece 40cz is positioned in a region T of an outline projection portion toward a direction of extension E of the imaging element 30 and remains in a rear portion of the first region 40a, the rear portion being separated from the imaging element 30 by a regular interval E1 in the direction of extension E.