JP2019134655A - New model of power distribution box device - Google Patents
New model of power distribution box device Download PDFInfo
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- JP2019134655A JP2019134655A JP2018049758A JP2018049758A JP2019134655A JP 2019134655 A JP2019134655 A JP 2019134655A JP 2018049758 A JP2018049758 A JP 2018049758A JP 2018049758 A JP2018049758 A JP 2018049758A JP 2019134655 A JP2019134655 A JP 2019134655A
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- transmission housing
- sliding
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- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 18
- 230000005540 biological transmission Effects 0.000 claims description 81
- 239000011120 plywood Substances 0.000 claims description 7
- 230000009977 dual effect Effects 0.000 claims description 2
- 238000010248 power generation Methods 0.000 description 4
- 230000004308 accommodation Effects 0.000 description 2
- 238000006243 chemical reaction Methods 0.000 description 2
- 230000007812 deficiency Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000031700 light absorption Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000000630 rising effect Effects 0.000 description 2
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S20/00—Supporting structures for PV modules
- H02S20/30—Supporting structures being movable or adjustable, e.g. for angle adjustment
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
Abstract
Description
本発明は、電力設備領域に関し、具体的には新型の電力配電箱に関する。 The present invention relates to a power equipment area, and more particularly to a new type power distribution box.
配電箱は電力電気器具部品を積載する器具で、現在は配電箱の中の引込み線は通常では直接に送電網或いは太陽光発電設備と接続し、しかし既存の太陽光発電設備は自動的に角度調節を制御することと収容動作を実現できない。 A distribution box is a device for loading electrical appliance parts, and the service lines in the distribution box are usually connected directly to the grid or solar power generation facilities, but existing solar power generation facilities are automatically angled. Controlling the adjustment and accommodating operation cannot be realized.
本発明の目的は、新型の電力配電箱装置を提供することにあり、既存の技術の上記の欠陥を乗り越えることに用いる。 An object of the present invention is to provide a new type of power distribution box device, which is used to overcome the above-mentioned deficiencies of existing technologies.
新型の電力配電箱装置は主台座と前記主台座と接続する配電箱を含み、前記主台座の頂部端面にセット筐体が設置され、前記セット筐体の左右側にゴムパッドが張り合わせ設置され、前記セット筐体の底壁に第一滑り筐体が設置され、前記第一滑り筐体に第一滑り台がスライドに合わせて取り付けられ、前記第一滑り筐体の左右の両側の壁に第一ラックが設置され、前記第一滑り台の頂部端面に左右に対応する上下に拡張する第二滑り筐体が設置され、前記第二滑り筐体に頂部が前記セット筐体を通り抜ける滑り軸がスライドに合わせて取り付けられ、前記滑り軸の頂部に光電装置が取り付けられ、前記滑り軸の内側端面に第二ラックが設置され、左右両側の前記第二滑り筐体の間にそれぞれ第一伝達筐体が設置され、前記第一伝達筐体の下側の前記第一滑り台の内壁体に第二伝達筐体が設置され、前記第一伝達筐体の左右両側に対応し前記第二ラックと相互に噛み合う第一ラックが回転可能に合わせて設置され、左右両側の前記第一ラックがそれぞれ前記第一伝達筐体に回転可能に合わせて設置される第一角錐輪と相互に噛み合い、前記第一角錐輪の前側端に第二角錐輪が相互に噛み合うように設置され、前記第二角錐輪の底部端面に第一回転軸が固定的に取り付けられ、前記第一回転軸が前記第一伝達筐体の内底壁と回転可能に合わせて接続され底部拡張末端が前記第二伝達筐体を通り抜けて、前記第一回転軸の底部端面に第一スプライン内穴が設置され、前記第二伝達筐体に第二滑り台がスライドに合わせて取り付けられ、前記第二滑り台に第一電気ローラーが固定的に取り付けられ、前記第一電気ローラーの先端に前記第一スプライン内穴と合わせて接続する第一スプライン軸が動力が伝達可能なように合わせて設置され、前記第一電気ローラーの底部に第二スプライン軸が動力が伝達可能なように合わせて設置され、前記第一電気ローラーの右側の前記第二滑り台にねじ軸がねじで合わせて取り付けられ、前記ねじ軸の頂部拡張末端が前記第二伝達筐体の内頂壁と回転可能に合わせて接続され、前記ねじ軸の底部拡張末端に第二電気ローラーが動力が伝達可能なように合わせて取り付けられ、前記第二電気ローラーの外表面が第二伝達筐体の内底壁に固定的に設置され、前記第二スプライン軸の直下側の前記第二伝達筐体の内底壁に第二回転軸が回転可能に合わせて設置され、前記第二回転軸の頂部端面に前記第二スプライン軸と合わせて接続される第二スプライン内穴が設置され、前記第二回転軸の底部拡張末端が前記第一滑り台の内壁体の第三伝達筐体を通り抜けて、前記第三伝達筐体が前記第一滑り台の左右両側の端面を貫通し、前記第二回転軸の底部拡張末端に第三角錐輪が固定的に取り付けられ、前記第三角錐輪に伝達装置が動力が伝達可能なように合わせて取り付けられる。 The new power distribution box device includes a main pedestal and a distribution box connected to the main pedestal, a set housing is installed on the top end surface of the main pedestal, and rubber pads are attached to the left and right sides of the set housing, A first sliding housing is installed on the bottom wall of the set housing, and a first slide is attached to the first sliding housing according to the slide, and first racks are mounted on the left and right walls of the first sliding housing. Is installed on the top end face of the first slide, and a second sliding housing that extends vertically corresponding to the left and right is installed, and a sliding axis that passes through the set housing on the second sliding housing is aligned with the slide. The photoelectric device is mounted on the top of the sliding shaft, the second rack is installed on the inner end surface of the sliding shaft, and the first transmission housing is installed between the second sliding housings on both the left and right sides. Under the first transmission housing A second transmission housing is installed on the inner wall of the first slide, and a first rack that meshes with the second rack corresponding to the left and right sides of the first transmission housing is rotatably installed. The first racks on both the left and right sides mesh with each other with a first pyramid ring that is rotatably mounted on the first transmission housing, and a second pyramid ring meshes with the front end of the first pyramid ring. The first rotary shaft is fixedly attached to the bottom end face of the second pyramid ring, and the first rotary shaft is rotatably connected to the inner bottom wall of the first transmission housing. The extended end passes through the second transmission housing, a first spline inner hole is installed in the bottom end surface of the first rotating shaft, and a second slide is attached to the second transmission housing in accordance with the slide, The first electric roller is fixedly attached to the second slide. The first spline shaft is connected to the tip of the first electric roller so as to be connected to the first spline inner hole so that power can be transmitted, and the second spline is installed at the bottom of the first electric roller. The shaft is installed so that power can be transmitted, and the screw shaft is attached to the second slide on the right side of the first electric roller by screwing, and the top extended end of the screw shaft is connected to the second transmission housing. A second electric roller is attached to the inner top wall of the body so as to be rotatable, and a second electric roller is attached to the bottom extended end of the screw shaft so that power can be transmitted. Fixedly installed on the inner bottom wall of the transmission housing, and installed on the inner bottom wall of the second transmission housing immediately below the second spline shaft so as to be rotatable. The top end face of the rotation shaft A second spline inner hole connected with the second spline shaft is installed, and the bottom extended end of the second rotary shaft passes through the third transmission housing of the inner wall of the first slide, and the third transmission housing The body penetrates the left and right end faces of the first slide, the first triangular pyramid is fixedly attached to the bottom extended end of the second rotating shaft, and the transmission device can transmit power to the first triangular pyramid. It is attached together.
有益なことは、前記伝達装置は前記第三伝達筐体に回転可能に合わせて設置されて前記第三角錐輪と相互に噛み合う第四角錐輪を含み、前記第四角錐輪の左右両側にそれぞれ第二ギアが回転可能に合わせて設置されて、前記第二ギアの後側にそれぞれ第三ギアが回転可能に合わせて設置されて、左側の前記第三ギアが左側の前記第一ラックと相互に噛み合い、右側の前記第三ギアに第四ギアが相互に噛み合うように設置され、前記第四ギアの右側が右側の前記第一ラックと相互に噛み合う。 Beneficially, the transmission device includes a fourth pyramid ring that is rotatably fitted to the third transmission housing and meshes with the third triangular pyramid ring, on both left and right sides of the fourth pyramid ring, respectively. A second gear is installed so as to be rotatable, a third gear is installed so as to be rotatable at the rear side of the second gear, and the third gear on the left side is mutually connected to the first rack on the left side. The fourth gear is installed so as to mesh with the third gear on the right side, and the right side of the fourth gear meshes with the first rack on the right side.
有益なことは、前記光電装置は左右両側の前記滑り軸の頂部端面に固定的に取り付けられるヒンジアームと前記ヒンジアームの上側に設置される積合板を含み、前記積合板の底部端面が左側の前記ヒンジアームと固定的に接続され、前記積合板の底部端面に左右に拡張しアリ溝が設置され、前記アリ溝にアリブロックがスライドに合わせて取り付けられ、前記アリブロックの底部端面が右側の前記ヒンジアームと固定的に接続され、前記積合板の頂部端面に光電板が固定的に取り付けられる。 Beneficially, the photoelectric device includes a hinge arm fixedly attached to a top end surface of the sliding shaft on both left and right sides, and a stacking plate installed on the upper side of the hinge arm, and the bottom end surface of the stacking plate is on the left side. The dovetail is fixedly connected to the hinge arm, is extended to the left and right at the bottom end face of the plywood, and a dovetail groove is installed. A photoelectric plate is fixedly connected to the hinge arm, and a photoelectric plate is fixedly attached to the top end surface of the plywood.
本発明の構造が簡単で、操作が便利で、光電装置の角度調節と収容動作を実現でき、太陽光吸収転化率を高めて耐用年数を延長する。 The structure of the present invention is simple, the operation is convenient, the angle adjustment and accommodation operation of the photoelectric device can be realized, the solar light absorption conversion rate is increased and the service life is extended.
下記は図1-図3を交え本発明を詳しく説明する。 The following describes the present invention in detail with reference to FIGS.
図1−図3のように、本発明の実施例に係る新型の電力配電箱装置は、主台座100と前記主台座100と接続する配電箱200を含み、前記主台座100の頂部端面にセット筐体110が設置され、前記セット筐体110の左右側にゴムパッド136が張り合わせ設置され、前記セット筐体110の底壁に第一滑り筐体115が設置され、前記第一滑り筐体115に第一滑り台112がスライドに合わせて取り付けられ、前記第一滑り筐体115の左右の両側の壁に第一ラック114が設置され、前記第一滑り台112の頂部端面に左右に対応する上下に拡張する第二滑り筐体135が設置され、前記第二滑り筐体135に頂部が前記セット筐体110を通り抜ける滑り軸111がスライドに合わせて取り付けられ、前記滑り軸111の頂部に光電装置が取り付けられ、前記滑り軸111の内側端面に第二ラック132が設置され、左右両側の前記第二滑り筐体135の間にそれぞれ第一伝達筐体134が設置され、前記第一伝達筐体134の下側の前記第一滑り台112の内壁体に第二伝達筐体163が設置され、前記第一伝達筐体134の左右両側が対応し前記第二ラック132と相互に噛み合う第一ラック133が回転可能に合わせて設置され、左右両側の前記第一ラック133がそれぞれ前記第一伝達筐体134に回転可能に合わせて設置される第一角錐輪113と相互に噛み合い、前記第一角錐輪113の前側端に第二角錐輪131が相互に噛み合うように設置され、前記第二角錐輪131の底部端面に第一回転軸156が固定的に取り付けられ、前記第一回転軸156が前記第一伝達筐体134の内底壁と回転可能に合わせて接続され底部拡張末端が前記第二伝達筐体163を通り抜けて、前記第一回転軸156の底部端面に第一スプライン内穴155が設置され、前記第二伝達筐体163に第二滑り台161がスライドに合わせて取り付けられ、前記第二滑り台161に第一電気ローラー154が固定的に取り付けられ、前記第一電気ローラー154の先端に前記第一スプライン内穴155と合わせて接続する第一スプライン軸157が動力が伝達可能なように合わせて設置され、前記第一電気ローラー154の底部に第二スプライン軸153が動力が伝達可能なように合わせて設置され、前記第一電気ローラー154の右側の前記第二滑り台161にねじ軸162がねじで合わせて取り付けられ、前記ねじ軸162の頂部拡張末端が前記第二伝達筐体163の内頂壁と回転可能に合わせて接続され、前記ねじ軸162の底部拡張末端に第二電気ローラー164が動力が伝達可能なように合わせて取り付けられ、前記第二電気ローラー164の外表面が第二伝達筐体163の内底壁に固定的に設置され、前記第二スプライン軸153の直下側の前記第二伝達筐体163の内底壁に第二回転軸151が回転可能に合わせて設置され、前記第二回転軸151の頂部端面に前記第二スプライン軸153と合わせて接続される第二スプライン内穴152が設置され、前記第二回転軸151の底部拡張末端が前記第一滑り台112の内壁体の第三伝達筐体122を通り抜けて、前記第三伝達筐体122が前記第一滑り台112の左右両側の端面を貫通し、前記第二回転軸151の底部拡張末端に第三角錐輪151が固定的に取り付けられ、前記第三角錐輪151に伝達装置が動力が伝達可能なように合わせて取り付けられる。 1 to 3, a new power distribution box device according to an embodiment of the present invention includes a main pedestal 100 and a distribution box 200 connected to the main pedestal 100, and is set on the top end surface of the main pedestal 100. A housing 110 is installed, rubber pads 136 are attached to the left and right sides of the set housing 110, a first sliding housing 115 is installed on the bottom wall of the set housing 110, and the first sliding housing 115 A first slide 112 is attached in accordance with the slide, and first racks 114 are installed on the left and right walls of the first slide housing 115, and the top end surface of the first slide 112 is extended up and down corresponding to the left and right. A second sliding housing 135 is installed, and a sliding shaft 111 whose top passes through the set housing 110 is attached to the second sliding housing 135 according to the slide, and a photoelectric device is attached to the top of the sliding shaft 111 A second rack 132 is installed on the inner end surface of the sliding shaft 111, A first transmission housing 134 is installed between the second sliding housings 135 on both right sides, and a second transmission housing 163 is formed on the inner wall of the first slide 112 below the first transmission housing 134. The first transmission housing 134 is installed so that the left and right sides of the first transmission housing 134 correspond to each other and mesh with the second rack 132 so that the first rack 133 can rotate. The first pyramid ring 113 that is rotatably installed in the first transmission housing 134 is meshed with each other, and the second pyramid ring 131 is installed at the front end of the first pyramid ring 113 so as to mesh with each other. A first rotating shaft 156 is fixedly attached to the bottom end face of the second pyramid ring 131, and the first rotating shaft 156 is rotatably connected to the inner bottom wall of the first transmission housing 134 so as to be bottom extended end. Passes through the second transmission housing 163 and is in the first spline on the bottom end surface of the first rotating shaft 156. 155 is installed, a second slide 161 is attached to the second transmission housing 163 in accordance with the slide, a first electric roller 154 is fixedly attached to the second slide 161, and the first electric roller 154 A first spline shaft 157 connected to the front end of the first spline inner hole 155 is installed so that power can be transmitted, and the second spline shaft 153 transmits power to the bottom of the first electric roller 154. The screw shaft 162 is screwed and attached to the second slide 161 on the right side of the first electric roller 154, and the top extension end of the screw shaft 162 is connected to the second transmission housing. 163 is rotatably connected to the inner top wall of 163, and the second electric roller 164 is attached to the bottom extended end of the screw shaft 162 so that power can be transmitted, and the outer surface of the second electric roller 164 Is the second transmission housing Fixedly installed on the inner bottom wall of the body 163, a second rotary shaft 151 is rotatably installed on the inner bottom wall of the second transmission housing 163 directly below the second spline shaft 153, and A second spline inner hole 152 connected to the second spline shaft 153 is connected to the top end surface of the second rotary shaft 151, and the bottom extended end of the second rotary shaft 151 is the inner wall body of the first slide 112. The third transmission housing 122 passes through the left and right end faces of the first slide 112, and a third triangular pyramid ring 151 is formed at the bottom extended end of the second rotating shaft 151. A transmission device is fixedly attached to the first triangular pyramid ring 151 so that power can be transmitted.
有益なことは前記伝達装置は前記第三伝達筐体122に回転可能に合わせて設置されて前記第三角錐輪151と相互に噛み合う第四角錐輪126を含み、前記第四角錐輪126の左右両側にそれぞれ第二ギア127が回転可能に合わせて設置されて、前記第二ギア127の後側にそれぞれ第三ギア123が回転可能に合わせて設置されて、左側の前記第三ギア123が左側の前記第一ラック114と相互に噛み合い、右側の前記第三ギア123に第四ギア121が相互に噛み合うように設置され、前記第四ギア121の右側が右側の前記第一ラック114と相互に噛み合い、これにより前記第一滑り台の昇降スライド作業を自動的に制御する。 Beneficially, the transmission device includes a fourth pyramid ring 126 that is rotatably fitted to the third transmission housing 122 and meshes with the third triangular pyramid ring 151. The second gear 127 is rotatably installed on both sides, the third gear 123 is rotatably installed on the rear side of the second gear 127, and the left third gear 123 is on the left side. The first gear 114 is meshed with each other, the fourth gear 121 is installed on the right third gear 123, and the right side of the fourth gear 121 is mutually connected with the right first rack 114. Engagement, thereby automatically controlling the raising / lowering slide operation of the first slide.
有益なことは前記光電装置は左右両側の前記滑り軸111の頂部端面に固定的に取り付けられるヒンジアーム141と前記ヒンジアーム141の上側に設置される積合板142を含み、前記積合板142の底部端面が左側の前記ヒンジアーム141と固定的に接続され、前記積合板142の底部端面に左右に拡張しアリ溝145が設置され、前記アリ溝145にアリブロック144がスライドに合わせて取り付けられ、前記アリブロック144の底部端面が右側の前記ヒンジアーム141と固定的に接続され、前記積合板142の頂部端面に光電板143が固定的に取り付けられ、これにより光電板143の角度調整作業を実現する。 Beneficially, the photoelectric device includes a hinge arm 141 fixedly attached to a top end surface of the sliding shaft 111 on both the left and right sides, and a stacking plate 142 installed on the upper side of the hinge arm 141, and a bottom portion of the stacking plate 142. The end face is fixedly connected to the left hinge arm 141, and a dovetail groove 145 is installed on the bottom end face of the stacking plate 142 to the left and right, and an ant block 144 is attached to the dovetail groove 145 according to the slide, The bottom end surface of the ant block 144 is fixedly connected to the right hinge arm 141, and the photoelectric plate 143 is fixedly attached to the top end surface of the stacking plate 142, thereby realizing the angle adjustment work of the photoelectric plate 143. To do.
本発明の作業原理は、使用する時に、第二電気ローラー164を起動し第二滑り台161を連れて下にスライドし、第二スプライン軸153が完成に第二スプライン内穴152を通り抜けた後まで、第一電気ローラー154を起動し左側の第三ギア123と第四ギア121をそれぞれに回転させ、第一ラック114の作用を通じて、第一滑り台が上に昇って、つまり光電板143が上に昇って太陽光を吸収し、角度を調整する必要がある時、第二電気ローラー164を起動し第二滑り台161を連れて上にスライドし、第一スプライン軸157が完成に第一スプライン内穴155を通り抜けた後まで、第一電気ローラー154を起動し左右両側の滑り軸111を逆にスライドさせ、これにより光電板143の角度を調整する。 The working principle of the present invention is that, when in use, the second electric roller 164 is activated and slides down with the second slide 161 until the second spline shaft 153 is completed through the second spline inner hole 152. The first electric roller 154 is activated to rotate the third gear 123 and the fourth gear 121 on the left side, and through the action of the first rack 114, the first slide is raised, that is, the photoelectric plate 143 is raised. When it is necessary to adjust the angle by rising and absorbing sunlight, the second electric roller 164 is activated and slides up with the second slide 161, and the first spline shaft 157 is completed. Until after passing through 155, the first electric roller 154 is activated and the sliding shafts 111 on both the left and right sides are slid in reverse, thereby adjusting the angle of the photoelectric plate 143.
本領域の技術者は本発明の全体の意義と構想から離れないもとで、以上の実施例に各種の変型を行うことができ、それらは本発明の保護範囲の中にあり、本発明の保護方案は本発明の特許請求の範囲を基準とする。 Engineers in this area can make various modifications to the above embodiments without departing from the overall meaning and concept of the present invention, and they are within the protection scope of the present invention. The protection scheme is based on the claims of the present invention.
本発明は、電力設備領域に関し、具体的には新型の電力配電箱に関する。 The present invention relates to a power equipment area, and more particularly to a new type power distribution box.
配電箱は電力電気器具部品を積載する器具で、現在は配電箱の中の引込み線は通常では直接に送電網或いは太陽光発電設備と接続し、しかし既存の太陽光発電設備は自動的に角度調節を制御することと収容動作を実現できない。 A distribution box is a device for loading electrical appliance parts, and the service lines in the distribution box are usually connected directly to the grid or solar power generation facilities, but existing solar power generation facilities are automatically angled. Controlling the adjustment and accommodating operation cannot be realized.
本発明の目的は、新型の電力配電箱装置を提供することにあり、既存の技術の上記の欠陥を乗り越えることに用いる。 An object of the present invention is to provide a new type of power distribution box device, which is used to overcome the above-mentioned deficiencies of existing technologies.
新型の電力配電箱装置は主台座と前記主台座と接続する配電箱を含み、前記主台座の頂部端面にセット筐体が設置され、前記セット筐体の左右側にゴムパッドが張り合わせ設置され、前記セット筐体の底壁に第一滑り筐体が設置され、前記第一滑り筐体に第一滑り台がスライドに合わせて取り付けられ、前記第一滑り筐体の左右の両側の壁に第一ラックが設置され、前記第一滑り台の頂部端面に左右に対応する上下に拡張する第二滑り筐体が設置され、前記第二滑り筐体に頂部が前記セット筐体を通り抜ける滑り軸がスライドに合わせて取り付けられ、前記滑り軸の頂部に光電装置が取り付けられ、前記滑り軸の内側端面に第二ラックが設置され、左右両側の前記第二滑り筐体の間にそれぞれ第一伝達筐体が設置され、前記第一伝達筐体の下側の前記第一滑り台の内壁体に第二伝達筐体が設置され、前記第一伝達筐体の左右両側に対応し前記第二ラックと相互に噛み合う第一ギアが回転可能に合わせて設置され、左右両側の前記第一ギアがそれぞれ前記第一伝達筐体に回転可能に合わせて設置される第一角錐輪と相互に噛み合い、前記第一角錐輪の前側端に第二角錐輪が相互に噛み合うように設置され、前記第二角錐輪の底部端面に第一回転軸が固定的に取り付けられ、前記第一回転軸が前記第一伝達筐体の内底壁と回転可能に合わせて接続され底部拡張末端が前記第二伝達筐体を通り抜けて、前記第一回転軸の底部端面に第一スプライン内穴が設置され、前記第二伝達筐体に第二滑り台がスライドに合わせて取り付けられ、前記第二滑り台に第一電気ローラーが固定的に取り付けられ、前記第一電気ローラーの先端に前記第一スプライン内穴と合わせて接続する第一スプライン軸が動力が伝達可能なように合わせて設置され、前記第一電気ローラーの底部に第二スプライン軸が動力が伝達可能なように合わせて設置され、前記第一電気ローラーの右側の前記第二滑り台にねじ軸がねじで合わせて取り付けられ、前記ねじ軸の頂部拡張末端が前記第二伝達筐体の内頂壁と回転可能に合わせて接続され、前記ねじ軸の底部拡張末端に第二電気ローラーが動力が伝達可能なように合わせて取り付けられ、前記第二電気ローラーの外表面が第二伝達筐体の内底壁に固定的に設置され、前記第二スプライン軸の直下側の前記第二伝達筐体の内底壁に第二回転軸が回転可能に合わせて設置され、前記第二回転軸の頂部端面に前記第二スプライン軸と合わせて接続される第二スプライン内穴が設置され、前記第二回転軸の底部拡張末端が前記第一滑り台の内壁体の第三伝達筐体を通り抜けて、前記第三伝達筐体が前記第一滑り台の左右両側の端面を貫通し、前記第二回転軸の底部拡張末端に第三角錐輪が固定的に取り付けられ、前記第三角錐輪に伝達装置が動力が伝達可能なように合わせて取り付けられる。 The new power distribution box device includes a main pedestal and a distribution box connected to the main pedestal, a set housing is installed on the top end surface of the main pedestal, and rubber pads are attached to the left and right sides of the set housing, A first sliding housing is installed on the bottom wall of the set housing, and a first slide is attached to the first sliding housing according to the slide, and first racks are mounted on the left and right walls of the first sliding housing. Is installed on the top end face of the first slide, and a second sliding housing that extends vertically corresponding to the left and right is installed, and a sliding axis that passes through the set housing on the second sliding housing is aligned with the slide. The photoelectric device is mounted on the top of the sliding shaft, the second rack is installed on the inner end surface of the sliding shaft, and the first transmission housing is installed between the second sliding housings on both the left and right sides. Under the first transmission housing Second transmission housing is installed in the inner wall of the first slide, the first gear corresponds to the left and right sides mesh with the second rack and mutual first transmission casing is installed to fit rotatably, The first gears on both the left and right sides mesh with each other with a first pyramid ring that is rotatably mounted on the first transmission housing, and a second pyramid meshes with the front end of the first pyramid ring. The first rotary shaft is fixedly attached to the bottom end face of the second pyramid ring, and the first rotary shaft is rotatably connected to the inner bottom wall of the first transmission housing. The extended end passes through the second transmission housing, a first spline inner hole is installed in the bottom end surface of the first rotating shaft, and a second slide is attached to the second transmission housing in accordance with the slide, The first electric roller is fixedly attached to the second slide A first spline shaft that is connected to the tip of the first electric roller so as to be connected to the inner hole of the first spline so that power can be transmitted, and a second spline shaft is installed at the bottom of the first electric roller. Are installed so that power can be transmitted, and a screw shaft is attached to the second slide on the right side of the first electric roller with a screw, and the top extension end of the screw shaft is connected to the second transmission housing. The second electric roller is attached to the bottom extended end of the screw shaft so that power can be transmitted, and the outer surface of the second electric roller is the second transmission. The second rotation shaft is fixedly installed on the inner bottom wall of the housing, and the second rotation shaft is rotatably installed on the inner bottom wall of the second transmission housing just below the second spline shaft. The second screw is placed on the top end surface of the shaft. A second spline inner hole connected with the pline shaft is installed, and the bottom extended end of the second rotating shaft passes through the third transmission housing of the inner wall of the first slide, and the third transmission housing Passes through the left and right end faces of the first slide, a third triangular pyramid is fixedly attached to the bottom extended end of the second rotating shaft, and a transmission device can transmit power to the first triangular pyramid. It is attached according to.
有益なことは、前記伝達装置は前記第三伝達筐体に回転可能に合わせて設置されて前記第三角錐輪と相互に噛み合う第四角錐輪を含み、前記第四角錐輪の左右両側にそれぞれ第二ギアが回転可能に合わせて設置されて、前記第二ギアの後側にそれぞれ第三ギアが回転可能に合わせて設置されて、左側の前記第三ギアが左側の前記第一ラックと相互に噛み合い、右側の前記第三ギアに第四ギアが相互に噛み合うように設置され、前記第四ギアの右側が右側の前記第一ラックと相互に噛み合う。 Beneficially, the transmission device includes a fourth pyramid ring that is rotatably fitted to the third transmission housing and meshes with the third triangular pyramid ring, on both left and right sides of the fourth pyramid ring, respectively. A second gear is installed so as to be rotatable, a third gear is installed so as to be rotatable at the rear side of the second gear, and the third gear on the left side is mutually connected to the first rack on the left side. The fourth gear is installed so as to mesh with the third gear on the right side, and the right side of the fourth gear meshes with the first rack on the right side.
有益なことは、前記光電装置は左右両側の前記滑り軸の頂部端面に固定的に取り付けられるヒンジアームと前記ヒンジアームの上側に設置される積合板を含み、前記積合板の底部端面が左側の前記ヒンジアームと固定的に接続され、前記積合板の底部端面に左右に拡張しアリ溝が設置され、前記アリ溝にアリブロックがスライドに合わせて取り付けられ、前記アリブロックの底部端面が右側の前記ヒンジアームと固定的に接続され、前記積合板の頂部端面に光電板が固定的に取り付けられる。 Beneficially, the photoelectric device includes a hinge arm fixedly attached to a top end surface of the sliding shaft on both left and right sides, and a stacking plate installed on the upper side of the hinge arm, and the bottom end surface of the stacking plate is on the left side. The dovetail is fixedly connected to the hinge arm, is extended to the left and right at the bottom end face of the plywood, and a dovetail groove is installed. A photoelectric plate is fixedly connected to the hinge arm, and a photoelectric plate is fixedly attached to the top end surface of the plywood.
本発明の構造が簡単で、操作が便利で、光電装置の角度調節と収容動作を実現でき、太陽光吸収転化率を高めて耐用年数を延長する。 The structure of the present invention is simple, the operation is convenient, the angle adjustment and accommodation operation of the photoelectric device can be realized, the solar light absorption conversion rate is increased and the service life is extended.
下記は図1-図3を交え本発明を詳しく説明する。 The following describes the present invention in detail with reference to FIGS.
図1−図3のように、本発明の実施例に係る新型の電力配電箱装置は、主台座100と前記主台座100と接続する配電箱200を含み、前記主台座100の頂部端面にセット筐体110が設置され、前記セット筐体110の左右側にゴムパッド136が張り合わせ設置され、前記セット筐体110の底壁に第一滑り筐体115が設置され、前記第一滑り筐体115に第一滑り台112がスライドに合わせて取り付けられ、前記第一滑り筐体115の左右の両側の壁に第一ラック114が設置され、前記第一滑り台112の頂部端面に左右に対応する上下に拡張する第二滑り筐体135が設置され、前記第二滑り筐体135に頂部が前記セット筐体110を通り抜ける滑り軸111がスライドに合わせて取り付けられ、前記滑り軸111の頂部に光電装置が取り付けられ、前記滑り軸111の内側端面に第二ラック132が設置され、左右両側の前記第二滑り筐体135の間にそれぞれ第一伝達筐体134が設置され、前記第一伝達筐体134の下側の前記第一滑り台112の内壁体に第二伝達筐体163が設置され、前記第一伝達筐体134の左右両側が対応し前記第二ラック132と相互に噛み合う第一ギア133が回転可能に合わせて設置され、左右両側の前記第一ギア133がそれぞれ前記第一伝達筐体134に回転可能に合わせて設置される第一角錐輪113と相互に噛み合い、前記第一角錐輪113の前側端に第二角錐輪131が相互に噛み合うように設置され、前記第二角錐輪131の底部端面に第一回転軸156が固定的に取り付けられ、前記第一回転軸156が前記第一伝達筐体134の内底壁と回転可能に合わせて接続され底部拡張末端が前記第二伝達筐体163を通り抜けて、前記第一回転軸156の底部端面に第一スプライン内穴155が設置され、前記第二伝達筐体163に第二滑り台161がスライドに合わせて取り付けられ、前記第二滑り台161に第一電気ローラー154が固定的に取り付けられ、前記第一電気ローラー154の先端に前記第一スプライン内穴155と合わせて接続する第一スプライン軸157が動力が伝達可能なように合わせて設置され、前記第一電気ローラー154の底部に第二スプライン軸153が動力が伝達可能なように合わせて設置され、前記第一電気ローラー154の右側の前記第二滑り台161にねじ軸162がねじで合わせて取り付けられ、前記ねじ軸162の頂部拡張末端が前記第二伝達筐体163の内頂壁と回転可能に合わせて接続され、前記ねじ軸162の底部拡張末端に第二電気ローラー164が動力が伝達可能なように合わせて取り付けられ、前記第二電気ローラー164の外表面が第二伝達筐体163の内底壁に固定的に設置され、前記第二スプライン軸153の直下側の前記第二伝達筐体163の内底壁に第二回転軸151が回転可能に合わせて設置され、前記第二回転軸151の頂部端面に前記第二スプライン軸153と合わせて接続される第二スプライン内穴152が設置され、前記第二回転軸151の底部拡張末端が前記第一滑り台112の内壁体の第三伝達筐体122を通り抜けて、前記第三伝達筐体122が前記第一滑り台112の左右両側の端面を貫通し、前記第二回転軸151の底部拡張末端に第三角錐輪151が固定的に取り付けられ、前記第三角錐輪151に伝達装置が動力が伝達可能なように合わせて取り付けられる。 1 to 3, a new power distribution box device according to an embodiment of the present invention includes a main pedestal 100 and a distribution box 200 connected to the main pedestal 100, and is set on the top end surface of the main pedestal 100. A housing 110 is installed, rubber pads 136 are attached to the left and right sides of the set housing 110, a first sliding housing 115 is installed on the bottom wall of the set housing 110, and the first sliding housing 115 A first slide 112 is attached in accordance with the slide, and first racks 114 are installed on the left and right walls of the first slide housing 115, and the top end surface of the first slide 112 is extended up and down corresponding to the left and right. A second sliding housing 135 is installed, and a sliding shaft 111 whose top passes through the set housing 110 is attached to the second sliding housing 135 according to the slide, and a photoelectric device is attached to the top of the sliding shaft 111 A second rack 132 is installed on the inner end surface of the sliding shaft 111, A first transmission housing 134 is installed between the second sliding housings 135 on both right sides, and a second transmission housing 163 is formed on the inner wall of the first slide 112 below the first transmission housing 134. The first transmission housing 134 is installed so that the left and right sides of the first transmission housing 134 correspond to each other and mesh with the second rack 132 so that the first gear 133 can rotate. The first pyramid ring 113 that is rotatably installed in the first transmission housing 134 is meshed with each other, and the second pyramid ring 131 is installed at the front end of the first pyramid ring 113 so as to mesh with each other. A first rotating shaft 156 is fixedly attached to the bottom end face of the second pyramid ring 131, and the first rotating shaft 156 is rotatably connected to the inner bottom wall of the first transmission housing 134 so as to be bottom extended end. Passes through the second transmission housing 163, and the first spline inner hole 155 is formed in the bottom end surface of the first rotating shaft 156. Installed, a second slide 161 is attached to the second transmission housing 163 in accordance with the slide, a first electric roller 154 is fixedly attached to the second slide 161, and a tip of the first electric roller 154 is attached. The first spline shaft 157 connected together with the first spline inner hole 155 is installed so that power can be transmitted, and the second spline shaft 153 can transmit power to the bottom of the first electric roller 154. The screw shaft 162 is screwed and attached to the second slide 161 on the right side of the first electric roller 154, and the top extended end of the screw shaft 162 is connected to the second transmission housing 163. The second electric roller 164 is attached to the bottom extended end of the screw shaft 162 so as to be capable of transmitting power, and the outer surface of the second electric roller 164 is connected to the inner top wall so as to be rotatable. Dual transmission housing 163 The second rotating shaft 151 is rotatably installed on the inner bottom wall of the second transmission housing 163 directly below the second spline shaft 153, and is rotatably installed on the inner bottom wall of the second spline shaft 153. A second spline inner hole 152 connected with the second spline shaft 153 is installed on the top end surface of the rotary shaft 151, and the bottom extended end of the second rotary shaft 151 is the first inner wall body of the first slide 112. Passing through the three transmission housings 122, the third transmission housing 122 penetrates the left and right end faces of the first slide 112, and the third triangular pyramid ring 151 is fixed to the bottom extended end of the second rotating shaft 151. The transmission device is attached to the first triangular pyramid ring 151 so that power can be transmitted.
有益なことは前記伝達装置は前記第三伝達筐体122に回転可能に合わせて設置されて前記第三角錐輪151と相互に噛み合う第四角錐輪126を含み、前記第四角錐輪126の左右両側にそれぞれ第二ギア127が回転可能に合わせて設置されて、前記第二ギア127の後側にそれぞれ第三ギア123が回転可能に合わせて設置されて、左側の前記第三ギア123が左側の前記第一ラック114と相互に噛み合い、右側の前記第三ギア123に第四ギア121が相互に噛み合うように設置され、前記第四ギア121の右側が右側の前記第一ラック114と相互に噛み合い、これにより前記第一滑り台の昇降スライド作業を自動的に制御する。 Beneficially, the transmission device includes a fourth pyramid ring 126 that is rotatably fitted to the third transmission housing 122 and meshes with the third triangular pyramid ring 151. The second gear 127 is rotatably installed on both sides, the third gear 123 is rotatably installed on the rear side of the second gear 127, and the left third gear 123 is on the left side. The first gear 114 is meshed with each other, the fourth gear 121 is installed on the right third gear 123, and the right side of the fourth gear 121 is mutually connected with the right first rack 114. Engagement, thereby automatically controlling the raising / lowering slide operation of the first slide.
有益なことは前記光電装置は左右両側の前記滑り軸111の頂部端面に固定的に取り付けられるヒンジアーム141と前記ヒンジアーム141の上側に設置される積合板142を含み、前記積合板142の底部端面が左側の前記ヒンジアーム141と固定的に接続され、前記積合板142の底部端面に左右に拡張しアリ溝145が設置され、前記アリ溝145にアリブロック144がスライドに合わせて取り付けられ、前記アリブロック144の底部端面が右側の前記ヒンジアーム141と固定的に接続され、前記積合板142の頂部端面に光電板143が固定的に取り付けられ、これにより光電板143の角度調整作業を実現する。 Beneficially, the photoelectric device includes a hinge arm 141 fixedly attached to a top end surface of the sliding shaft 111 on both the left and right sides, and a stacking plate 142 installed on the upper side of the hinge arm 141, and a bottom portion of the stacking plate 142. The end face is fixedly connected to the left hinge arm 141, and a dovetail groove 145 is installed on the bottom end face of the stacking plate 142 to the left and right, and an ant block 144 is attached to the dovetail groove 145 according to the slide, The bottom end surface of the ant block 144 is fixedly connected to the right hinge arm 141, and the photoelectric plate 143 is fixedly attached to the top end surface of the stacking plate 142, thereby realizing the angle adjustment work of the photoelectric plate 143. To do.
本発明の作業原理は、使用する時に、第二電気ローラー164を起動し第二滑り台161を連れて下にスライドし、第二スプライン軸153が完成に第二スプライン内穴152を通り抜けた後まで、第一電気ローラー154を起動し左側の第三ギア123と第四ギア121をそれぞれに回転させ、第一ラック114の作用を通じて、第一滑り台が上に昇って、つまり光電板143が上に昇って太陽光を吸収し、角度を調整する必要がある時、第二電気ローラー164を起動し第二滑り台161を連れて上にスライドし、第一スプライン軸157が完成に第一スプライン内穴155を通り抜けた後まで、第一電気ローラー154を起動し左右両側の滑り軸111を逆にスライドさせ、これにより光電板143の角度を調整する。 The working principle of the present invention is that, when in use, the second electric roller 164 is activated and slides down with the second slide 161 until the second spline shaft 153 is completed through the second spline inner hole 152. The first electric roller 154 is activated to rotate the third gear 123 and the fourth gear 121 on the left side, and through the action of the first rack 114, the first slide is raised, that is, the photoelectric plate 143 is raised. When it is necessary to adjust the angle by rising and absorbing sunlight, the second electric roller 164 is activated and slides up with the second slide 161, and the first spline shaft 157 is completed. Until after passing through 155, the first electric roller 154 is activated and the sliding shafts 111 on both the left and right sides are slid in reverse, thereby adjusting the angle of the photoelectric plate 143.
本領域の技術者は本発明の全体の意義と構想から離れないもとで、以上の実施例に各種の変型を行うことができ、それらは本発明の保護範囲の中にあり、本発明の保護方案は本発明の特許請求の範囲を基準とする。 Engineers in this area can make various modifications to the above embodiments without departing from the overall meaning and concept of the present invention, and they are within the protection scope of the present invention. The protection scheme is based on the claims of the present invention.
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