JP2010194943A - Composite metal plate used for equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To eliminate a deflection and a distortion, by lightening a weight of equipment or a telescopic cover, and by enhancing a physical strength, to improve planarity, smoothness, slidability, and sweepability, to smooth an operation, and to sufficiently exhibit a function. <P>SOLUTION: The equipment (telescopic cover) is constituted of this composite metal plate 1 integrated, with an adhesive or laser welding, by inserting a large number of honeycomb groove plates 3 with 1-10 mm of one side and 0.5-10 mm of depth, narrowed with continuous arrangement of grooves of triangle, square, pentagon, hexagon 4, circle, ellipse, trapezoid and sector shape, in a metal plate with 0.1-1.0 mm of plate thickness, between a metal plate 2 having 0.5-1.6 mm (0.3-0.8 mm) of plate thickness and the metal plate 2. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

本発明は、産業機器、輸送機器、建築機器、事務機器、家庭機器等の機器に用いる複合金属板に関するもので、特に、テレスコピックカバーに用いる複合金属板に関するものである。   The present invention relates to a composite metal plate used for equipment such as industrial equipment, transportation equipment, building equipment, office equipment, and household equipment, and more particularly to a composite metal plate used for a telescopic cover.

前述した機器に用いる金属板においては、物理的強度を保持する観点より金属板の板厚を厚くすると、機器として重量が重くなって、機器の性能を適切に発揮できなく、場合によると、機器の作動に支障が発生するばかりか、大型化する等の問題があった。   In the metal plate used in the equipment described above, if the thickness of the metal plate is increased from the viewpoint of maintaining physical strength, the weight of the equipment becomes heavy and the performance of the equipment cannot be exhibited properly. In addition to problems with the operation of the system, there were problems such as an increase in size.

産業機器、輸送機器、建築機器、事務機器、家庭機器等の機器、特に、大型飛行機、高速鉄道車両、電気自動車、コンピュータ等においては、軽量化が求められており、これらの機械、機器、資材、用品やその部材として用いる金属板の板厚を薄くする傾向が強く、従来、金属板の板厚が０．５〜１．６ｍｍのもを使用すると、自重によって金属板が撓んだり、歪んだりし易くなる他、物理的強度が２分の１程度に弱くなるばかりか、金属板の平面性、平滑性を確保し難いために、機器の作動に悪影響が発生して故障等の原因になる問題があった。   Industrial equipment, transportation equipment, building equipment, office equipment, household equipment, etc., especially large airplanes, high-speed rail vehicles, electric cars, computers, etc., are required to be lighter. These machines, equipment, and materials There is a strong tendency to reduce the thickness of the metal plate used as a product or its member. Conventionally, when a metal plate having a thickness of 0.5 to 1.6 mm is used, the metal plate is bent or distorted by its own weight. In addition to being easy to drip, the physical strength is weakened to about half, and it is difficult to ensure the flatness and smoothness of the metal plate. There was a problem.

特に、各種の機器に付設するテレスコピックカバーの金属板としては、金属板の軽量化の要請は非常に強く、金属板の板厚を薄くする傾向があり、従来、金属板の板厚が０．３〜０．８ｍｍのもを使用すると、自重による金属板の撓み、歪みが顕著になるばかりか、物理的強度が５分の１〜３分の１程度に弱くなり、また、平面性、平滑性の維持が困難となるために、テレスコピックカバーの摺動性、スウーピング性等に支障が発生して故障等の原因になっており、機器の大型化につれてテレスコピックカバーが大型化すると、この弊害が顕著に現れていた。 In particular, as a metal plate of a telescopic cover attached to various devices, there is a strong demand for weight reduction of the metal plate, and there is a tendency to reduce the plate thickness of the metal plate. When using 3 to 0.8 mm, not only the deflection and distortion of the metal plate due to its own weight will be noticeable, but the physical strength will be weakened to about 1/3 to 1/5, and the flatness and smoothness will be reduced. Since it is difficult to maintain the operability of the telescopic cover, the sliding and sweeping properties of the telescopic cover are hindered, causing a failure. It appeared remarkably.

特願出願公開平成６年第２６２７２４号公報 特願出願公開平成７年第１７８５７２号公報Publication of Japanese Patent Application No. 262724, 1994 Publication of Japanese Patent Application No. 178572, 1995

本発明は、前述した機器に用いる金属板として、従来、物理的強度が弱いために使用されていなかった、板厚が０．５〜１．６ｍｍの薄い金属板をあえて用いるものであり、この薄い金属板は２枚合わせても物理的強度が弱いものであるが、この２枚の板厚の薄い金属板の間に、多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を金属板に連続して絞ったハニカム溝板、すなわち、多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の中空部分を保有する特異な物理的メカニズムを示す構造板を挿填して複合金属板として形成することによって、機器の軽量化を図るとともに物理的強度も強くして、機器の金属板の自重による撓み、歪みをなくし、機器の金属板の平面性、平滑性の維持し、その作動をスムースにし、機器の機能を十分に発揮させることに目的がある。   The present invention dares to use a thin metal plate having a thickness of 0.5 to 1.6 mm, which has not been used because of its low physical strength. Even if two thin metal plates are combined, the physical strength is weak, but between these two thin metal plates, there are many triangles, squares, pentagons, hexagons, circles, ellipses, trapezoids, and fan shapes. Honeycomb groove plate that is continuously squeezed into a metal plate, that is, a structure that shows a unique physical mechanism with numerous triangular, quadrilateral, pentagonal, hexagonal, circular, elliptical, trapezoidal, and fan-shaped hollow portions By forming a composite metal plate by inserting the plate, the weight of the device is reduced and the physical strength is increased, so that bending and distortion due to the weight of the device metal plate are eliminated, and the flatness of the device metal plate is achieved. Maintain its smoothness, its operation The smooth, there is a purpose to be to fully exert the function of the device.

特に、本発明は、テレスコピックカバーで用いる金属板として、従来、物理的強度が弱いために使用されていなかった、板厚が０．３〜０．８ｍｍの薄い金属板をあえて用いるものであり、この薄い金属板は２枚合わせても物理的強度が弱いものであるが、この２枚の板厚の薄い金属板の間に、多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を金属板に連続して絞ったハニカム溝板、すなわち、多数の六角形の中空部分を保有する特異な物理的メカニズムを示す構造板を挿填して複合金属板、すなわち、多数の六角形の中空部分を保有する特異な物理的メカニズムを示す構造板を挿填して複合金属板として形成することによって、テレスコピックカバーの軽量化を図るとともに物理的強度も強くして、テレスコピックカバーの自重による撓み、歪みをなくし、テレスコピックカバーの平面性、平滑性の維持し、テレスコピックカバーの摺動性、スウィーピング性を改善して、テレスコピックカバーの作動をスムースにし、テレスコピックカバーの機能を十分に発揮させることに目的がある。   In particular, the present invention dares to use a thin metal plate having a plate thickness of 0.3 to 0.8 mm, which has not been used because of its low physical strength, as a metal plate used in a telescopic cover, Even if two of these thin metal plates are combined, the physical strength is weak, but between these two thin metal plates, many triangles, squares, pentagons, hexagons, circles, ellipses, trapezoids, A honeycomb grooved plate in which fan-shaped grooves are continuously squeezed into a metal plate, that is, a composite metal plate, that is, a large number of metal plates inserted into a structural plate showing a unique physical mechanism having a large number of hexagonal hollow portions By inserting a structural plate showing a unique physical mechanism that has a hexagonal hollow part and forming it as a composite metal plate, the telescopic cover is reduced in weight and physical strength is increased. Eliminates deflection and distortion due to the weight of the cover, maintains the flatness and smoothness of the telescopic cover, improves the sliding and sweeping properties of the telescopic cover, smoothes the operation of the telescopic cover, and fully functions the telescopic cover There is a purpose in making it show.

さらに、本発明は、前述した複合金属板の金属板と金属板の間にスリット部を形成し、このスリット部内に連結板を差し込んで、複数枚の複合金属板を接続して拡大することによって、機器、特に、テレスコピックカバーの大型化に対応することに目的がある。   Furthermore, the present invention provides an apparatus by forming a slit portion between the metal plates of the composite metal plate described above, inserting a connecting plate into the slit portion, and connecting and enlarging a plurality of composite metal plates. In particular, there is a purpose to cope with an increase in the size of the telescopic cover.

本発明は、機器に用いる複合金属板に関するもので、板厚が０．５〜１．６ｍｍの金属板と金属板の間に、板厚が０．１〜１．０ｍｍの金属板に一辺が１〜１０ｍｍで深さが０．５〜１０ｍｍの多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を連続して絞ったハニカム溝板を挿填して接着剤またはレザー溶接して一体化した複合金属板によって機器を構成することに特徴がある。   The present invention relates to a composite metal plate used for equipment, and a metal plate having a thickness of 0.1 to 1.0 mm has a side of 1 to 1 between a metal plate having a thickness of 0.5 to 1.6 mm. Adhesive or leather by inserting honeycomb groove plates that are continuously squeezed into a large number of triangles, squares, pentagons, hexagons, circles, ellipses, trapezoids, and fan-shaped grooves with a depth of 10 to 10 mm and a depth of 0.5 to 10 mm It is characterized in that the device is constituted by a composite metal plate welded and integrated.

また、本発明は、テレスコピックカバーに用いる複合金属板に関するもので、板厚が０．３〜０．８ｍｍの金属板と金属板の間に、板厚が０．１〜１．０ｍｍの金属板に一辺が１〜１０ｍｍで深さが０．５〜１０ｍｍの多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を連続して絞ったハニカム溝板を挿填して接着剤またはレザー溶接して一体化して複合金属板を形成し、複数枚の複合金属板によってテレスコピックカバーを構成したことに特徴がある。   Further, the present invention relates to a composite metal plate used for a telescopic cover, and a metal plate having a thickness of 0.1 to 1.0 mm has a side between a metal plate having a thickness of 0.3 to 0.8 mm. Inserts and adheres honeycomb grooved plates that are continuously squeezed with a large number of triangles, squares, pentagons, hexagons, circles, ellipses, trapezoids, and fan-shaped grooves with a depth of 1 to 10 mm and a depth of 0.5 to 10 mm It is characterized in that a composite metal plate is formed by integration by welding with an agent or leather, and a telescopic cover is constituted by a plurality of composite metal plates.

さらに、、本発明は、前述した機器、特にテレスコピックカバーに用いる複合金属板に関するもので、ハニカム溝板を挿填するについて、金属板と金属板の間にスリットを形成し、このスリット内に連結板を差し込んで、複数枚の複合金属板を接続して拡大したことに特徴がある。   Furthermore, the present invention relates to a composite metal plate used for the above-described device, particularly a telescopic cover. When inserting a honeycomb groove plate, a slit is formed between the metal plate and the connecting plate is provided in the slit. It is characterized by being inserted and enlarged by connecting a plurality of composite metal plates.

本発明は、前述した機器で用いる金属板として、従来の金属板の板厚より薄い複合金属板の間に、多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を連続して配列したハニカム溝板、すなわち、多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の中空部分を保有する特異な物理的メカニズムを示す構造板、を挿填した複合金属板を用いることによって、従来の板厚の金属板を用いた場合に比較して、金属板の軽量化（２〜５分の１）を図るとともに、自重による金属板の撓み、歪みをなくし、物理的強度を増大（２〜３倍）して、金属板の平面性、平滑性を確保し、機器やその部材の作動をスムースにし、各種の機械、機器、資材、用品の機能を長期間発揮することが可能である。   In the present invention, as a metal plate used in the above-described apparatus, a number of triangular, quadrilateral, pentagonal, hexagonal, circular, elliptical, trapezoidal, and fan-shaped grooves are continuously formed between composite metal plates that are thinner than the conventional metal plate thickness. A composite sheet with a unique physical mechanism with a number of triangular, quadrilateral, pentagonal, hexagonal, circular, elliptical, trapezoidal, and fan-shaped hollow sections By using a metal plate, the metal plate is reduced in weight (2 to 1/5) as compared with the case of using a metal plate having a conventional thickness, and the bending and distortion of the metal plate due to its own weight are eliminated. , Increase the physical strength (2-3 times), ensure the flatness and smoothness of the metal plate, smooth the operation of the equipment and its members, and extend the functions of various machines, equipment, materials and supplies It is possible to exert a period.

また、本発明は、テレスコピックカバーで用いる金属板として、前述した複合金属板を使用することによって、従来の板厚の金属板を用いた場合に比較して、テレスコピックカバーの金属板の軽量化を図るとともに、自重によるテレスコピックカバーの金属板の撓み、歪みをなくし、耐磨耗性の向上等の物理的強度を増大して、テレスコピックカバーの金属板の平面性、平滑性を確保し、テレスコピックカバーの摺動性、スウーピング性を改善して、テレスコピックカバーの作動をスムースにし、テレスコピックカバーの機能を十分に発揮させることに目的がある。 In addition, the present invention reduces the weight of the metal plate of the telescopic cover by using the above-described composite metal plate as the metal plate used in the telescopic cover, as compared with the case of using a metal plate having a conventional plate thickness. In addition, the telescopic cover metal plate can be bent and distorted by its own weight, and the physical strength, such as improved wear resistance, can be increased to ensure the flatness and smoothness of the telescopic cover metal plate. The purpose of this is to improve the slidability and the sweeping property, to make the operation of the telescopic cover smooth and to fully exhibit the function of the telescopic cover.

本発明の複合金属板の一例を説明すると、図１に示すように、複合金属板1は、従来から機器において用いられているステンレス金属板またはメッキ金属板の板厚より薄い、板厚０．５〜１．６ｍｍ（機器の場合）または板厚０．３〜０．８ｍｍ（テレスコピックカバーの場合）の金属板２と金属板２の間に、板厚０．１〜１．０ｍｍの金属板に多数の六角形の溝４を連続して絞って配列したハニカム溝板３をサンドイッチ状に挿填して接着剤またはレーザー溶接によって一体化して形成する。 An example of the composite metal plate of the present invention will be described. As shown in FIG. 1, the composite metal plate 1 is thinner than the plate thickness of a stainless metal plate or a plated metal plate conventionally used in equipment. A metal plate having a thickness of 0.1 to 1.0 mm between the metal plate 2 having a thickness of 5 to 1.6 mm (in the case of equipment) or a thickness of 0.3 to 0.8 mm (in the case of a telescopic cover). A honeycomb grooved plate 3 in which a large number of hexagonal grooves 4 are continuously squeezed and arranged is inserted in a sandwich shape and integrated by an adhesive or laser welding.

ハニカム溝板３には、図２と図３に示すように、六角形の溝４を間隔を置いて連続して多数個、多列に絞って配置した板厚０．１〜１．０ｍｍの金属板であって、この六角形の溝４は、その一辺が１〜１０ｍｍで深さが０．５〜１０ｍｍであって、このハニカム溝板３を金属板２と金属板２の間に挿填して一体化して複合金属板１を形成したものであり、そのハニカム溝板３の持つ多数の六角形の中空部分を保有する特異な物理的メカニズムによって、従来の板厚の金属板を用いた場合に比較して、重量としては２分の１〜１０分の１に軽量化されるばかりか、金属板の撓み、歪みはなく、物理的強度も２〜３倍に増大し、金属板の平面性、平滑性を保てる特性がある。 As shown in FIG. 2 and FIG. 3, the honeycomb groove plate 3 has a plate thickness of 0.1 to 1.0 mm in which a large number of hexagonal grooves 4 are continuously arranged at intervals to be squeezed into multiple rows. This hexagonal groove 4 is a metal plate having a side of 1 to 10 mm and a depth of 0.5 to 10 mm. The honeycomb groove plate 3 is inserted between the metal plate 2 and the metal plate 2. The composite metal plate 1 is formed by filling and integrating, and the conventional metal plate having a thickness of the hexagonal hollow portion of the honeycomb grooved plate 3 is used by a unique physical mechanism. Compared to the case where the weight of the metal plate is reduced, the weight is reduced to one-half to one-tenth, the metal plate is not bent or distorted, and the physical strength is increased two to three times. The flatness and smoothness can be maintained.

ハニカム溝板３の溝４としては、六角形が望ましいが、六角形の溝４以外に、三角形、四角形、五角形、円形、楕円形、台形、扇形の溝４であってもよく、これらの溝４よりなるハニカム溝板３を金属板２の間に挿填して形成した複合金属板１は、六角形の溝４を金属板２の間に挿填して形成した複合金属板1に比較して、物理的強度において、多少劣るが、ほぼ同様の強度を発揮する。 The groove 4 of the honeycomb grooved plate 3 is preferably a hexagonal shape, but in addition to the hexagonal groove 4, a triangular, quadrangular, pentagonal, circular, elliptical, trapezoidal, fan-shaped groove 4 may be used. The composite metal plate 1 formed by inserting the honeycomb groove plate 3 of 4 between the metal plates 2 is compared with the composite metal plate 1 formed by inserting the hexagonal grooves 4 between the metal plates 2. And although it is somewhat inferior in physical strength, it exhibits almost the same strength.

金属板２の大きさは、これを用いる機器によって決まるが、通常の場合、３０〜１００ｃｍ×３０〜２００ｃｍの面積にすることが多く、１枚ものの複合金属板１の場合には、ハニカム溝板３の大きさは金属板２の大きさと同じでよいが、機器の大きさによつては、前述した面積より大きい複合金属板１を必要とすることがあるが、この場合には、図４に示すように、ハニカム溝板３の大きさを金属板２の大きさより１０〜２０ｍｍ小さくして、金属板２と金属板２の間にスリット５を形成し、このスリット５に直線または若干の角度を付けて、この内に連結板６を差し込んで、複数枚の複合金属板１を接続して拡大することによって対応してもよい。 The size of the metal plate 2 is determined by the equipment using the metal plate. In the normal case, the size is usually 30 to 100 cm × 30 to 200 cm. In the case of a single composite metal plate 1, the honeycomb groove plate The size of 3 may be the same as the size of the metal plate 2, but depending on the size of the device, the composite metal plate 1 larger than the above-described area may be required. In this case, FIG. As shown in FIG. 2, the size of the honeycomb grooved plate 3 is made 10 to 20 mm smaller than the size of the metal plate 2, and a slit 5 is formed between the metal plate 2 and the metal plate 2. You may respond | correspond by attaching the angle | corner, inserting the connection board 6 in this, and connecting and enlarging the some composite metal plate 1. FIG.

たとえば、機器としてコンピュータのボディで用いる金属板について、本発明の金属板として、板厚０．５ｍｍの１８×４５ｃｍの金属板と金属板の間に、板厚０．３ｍｍの１８×４５ｃｍの鋼鈑に一辺が５ｍｍ、深さが３ｍｍの六角形の溝を、一列に４５個の割合で２０列に相互に近接させて連続して絞って配列したハニカム溝板を装填してエポキシ接着剤によって一体化して形成した複合金属板を使用した。 For example, for a metal plate used in a computer body as a device, as a metal plate of the present invention, an 18 × 45 cm steel plate with a plate thickness of 0.3 mm is provided between a metal plate of 18 × 45 cm with a plate thickness of 0.5 mm. Loaded with honeycomb groove plates in which hexagonal grooves with a side of 5 mm and a depth of 3 mm are squeezed and arranged in close proximity to each other in 20 rows at a rate of 45 in a row and integrated by epoxy adhesive The composite metal plate formed in this way was used.

他方、コンピュータのボディで用いる従来の金属板として、板厚３ｍｍの１８×４５ｃｍの金属板を使用し、前述した本発明の複合金属板と比較するために、両者の金属板の重量、撓み・歪み・物理的強度、平面性、平滑性について測定した結果、本発明の複合金属板の重量は０．９キログラム、自重による撓みと歪みはなく、物理的強度は２倍に優れ、平面性と平滑性も良好であって、コンピュータのボディとして最適であったが、従来の金属板の重量は１．９キログラム、自重による撓みと歪みがあり、物理的強度は２分の１に劣り、平面性と平滑性に難点があり、コンピュータのボディとして適しなかった。 On the other hand, as a conventional metal plate used in the body of a computer, a metal plate of 18 × 45 cm with a thickness of 3 mm is used, and in order to compare with the composite metal plate of the present invention described above, the weight, deflection, As a result of measuring strain / physical strength, flatness and smoothness, the composite metal plate of the present invention has a weight of 0.9 kilograms, no deflection or distortion due to its own weight, physical strength is twice as excellent, and flatness The smoothness was good and it was optimal as a computer body, but the weight of the conventional metal plate was 1.9kg, there was bending and distortion due to its own weight, the physical strength was inferior to half, and it was flat. It was difficult to use as a computer body because of its difficulties in smoothness and smoothness.

次に、本発明の複合金属板１よりなるテレスコピックカバーの一例を説明すると、図１に示すように、複合金属板１は、従来から用いられている金属板の板厚より薄い、板厚０．３〜０．８ｍｍの金属板２と金属板２の間に、ステンレス金属板に多数の六角形の溝４を連続して絞って配列したハニカム溝板３をサンドイッチ状に挿填してエポキシ接着剤によって一体化して複合金属板１を形成し、図５に示すように、この複合金属板1によって形成したパーツカバー７ａ〜ｇの７枚を摺動可能に積層してテレスコピックカバー8を構成して機器９に設置する。 Next, an example of a telescopic cover made of the composite metal plate 1 of the present invention will be described. As shown in FIG. 1, the composite metal plate 1 is thinner than the plate thickness of a metal plate that has been conventionally used. A honeycomb grooved plate 3 in which a large number of hexagonal grooves 4 are continuously squeezed and arranged in a stainless metal plate between a metal plate 2 and a metal plate 2 of 3 to 0.8 mm is inserted into a sandwich and epoxy A composite metal plate 1 is formed by integration with an adhesive, and a telescopic cover 8 is formed by slidably laminating seven parts covers 7a to g formed by the composite metal plate 1 as shown in FIG. And installed in the device 9.

ハニカム溝板３は、板厚が０．１〜１．０ｍｍの金属板に一辺が１〜１０ｍｍで深さが０．５〜１０ｍｍの多数の六角形の溝４を連続して絞ったものであって、前述したように、このハニカム溝板３の持つ多数の中空部分を保有する特異な物理的メカニズムを持つものである。 The honeycomb grooved plate 3 is obtained by continuously squeezing a large number of hexagonal grooves 4 with a side of 1 to 10 mm and a depth of 0.5 to 10 mm on a metal plate having a thickness of 0.1 to 1.0 mm. Thus, as described above, the honeycomb grooved plate 3 has a unique physical mechanism that has a large number of hollow portions.

図５に示すように、前述した複合金属板1をパーツカバー７としてテレスコピックカバー８を構成し、テレスコピックカバー８が自重によって撓んだり、歪んだりすることを防止するとともに、耐磨耗性等の物理的強度を保持し、テレスコピックカバー８の平面性、平滑性を維持して、テレスコピックカバー８の摺動性を確保して、テレスコピックカバー８の作動をスムースにして機能を十分に発揮するものである。 As shown in FIG. 5, a telescopic cover 8 is formed by using the composite metal plate 1 described above as a parts cover 7 to prevent the telescopic cover 8 from being bent or distorted by its own weight, and to prevent wear resistance and the like. The physical strength is maintained, the flatness and smoothness of the telescopic cover 8 are maintained, the slidability of the telescopic cover 8 is ensured, and the operation of the telescopic cover 8 is made smooth and fully functions. is there.

なお、テレスコピックカバー８のパーツカバー７の面積が大きくなる場合には、図４に示すように、２枚の金属板２と金属板２の面積をハニカム溝板３の面積より１０〜２０ｍｍ大きくして、２枚の金属板２の間にスリット５を形成するとともに、このスリット５に直線または若干の角度を持たせた複合金属板１を複数枚作成し、この複数枚の複合金属板１のスリット５内に連結板６を差し込んで、複数枚の複合金属板１を接続して拡大してパーツカバー７としてもよい。 When the area of the parts cover 7 of the telescopic cover 8 is increased, the area of the two metal plates 2 and the metal plate 2 is made 10 to 20 mm larger than the area of the honeycomb groove plate 3 as shown in FIG. Then, a slit 5 is formed between the two metal plates 2 and a plurality of composite metal plates 1 having a straight line or a slight angle are formed in the slit 5. The connecting plate 6 may be inserted into the slit 5, and a plurality of composite metal plates 1 may be connected and enlarged to form the parts cover 7.

また、本発明の複合金属板よりなるテレスコピックカバーの一例を説明すると、テレスコピックカバーで用いる金属板としては、本発明の複合金属板は、板厚０．３ｍｍの７０×２００ｃｍのステンレス金属板と金属板の間に、板厚０．３ｍｍの３０×５０ｃｍのステンレス金属板に、一辺が５ｍｍ、深さが３ｍｍの六角形の溝を、一列に７０個の割合で３３列に相互に近接させて連続して絞って配列したハニカム溝板を装填したを７枚用意し、このハニカム溝板３を前述した金属板２と金属板２の間にサンドイッチ状に挿填してエポキシ接着剤によって一体化して複合金属板１を形成し、図５に示すように、この複合金属板によって形成したパーツカバーの７枚を摺動可能に積層してテレスコピックカバーを構成して機器に設置した。 An example of a telescopic cover made of the composite metal plate of the present invention will be described. As a metal plate used in the telescopic cover, the composite metal plate of the present invention is composed of a 70 × 200 cm stainless metal plate having a thickness of 0.3 mm and a metal plate. Between the plates, a 30 × 50 cm stainless steel plate with a plate thickness of 0.3 mm and hexagonal grooves with a side of 5 mm and a depth of 3 mm are arranged close to each other in 33 rows at a ratio of 70 in a row. Seven sheets of honeycomb groove plates loaded with squeezed and arranged are prepared, and this honeycomb groove plate 3 is sandwiched between the metal plate 2 and the metal plate 2 and integrated with an epoxy adhesive to form a composite. A metal plate 1 was formed, and as shown in FIG. 5, seven parts covers formed by the composite metal plate were slidably laminated to form a telescopic cover and installed in the device.

他方、テレスコピックカバーで用いる従来の金属板として、板厚３ｍｍの７０×２００ｃｍのＳＰＣＣ金属板によってパーツカバー形成し、このパーツカバー７枚を摺動可能に積層してテレスコピックカバーを構成して機器に設置し、前述した本発明のテレスコピックカバーと従来のテレスコピックカバーを比較するために、両者の重量、撓み・歪み、物理的強度、平面性、平滑性について測定した結果、本発明の複合金属板の重量は１４７．２キログラム、自重による撓みと歪みはなく、物理的強度は２倍と優れ、平面性と平滑性も良好であって、テレスコピックカバーとして最適であったが、従来の金属板の重量は２８６キログラム、自重による撓みと歪みがあり、物理的強度２分の１に劣り、平面性と平滑性に難点があり、テレスコピックカバーとして適しなかった。 On the other hand, as a conventional metal plate used in a telescopic cover, a part cover is formed by a 70 × 200 cm SPCC metal plate having a thickness of 3 mm, and this part cover is slidably laminated to form a telescopic cover. In order to compare the telescopic cover of the present invention described above and the conventional telescopic cover, the weight, deflection / strain, physical strength, planarity, and smoothness of both were measured. The weight is 147.2 kilograms, there is no deflection and distortion due to its own weight, the physical strength is twice as good, the flatness and smoothness are good, and it was optimal as a telescopic cover, but the weight of the conventional metal plate 286 kilograms, has deflection and distortion due to its own weight, is inferior in physical strength by half, has difficulty in flatness and smoothness, It was not suitable as Kukaba.

本発明のハニカム溝板を挿填した複合金属板は、軽量化が求められている産業機器、輸送機器、建築機器、事務機器、家庭機器等の機器に用いる複合金属板に関するもので、特に、大型飛行機、高速鉄道車両、電気自動車、コンピュータ等の機器の構成部材およびこれらの機械の部品の構成部材として用いることができる。 The composite metal plate inserted with the honeycomb grooved plate of the present invention relates to a composite metal plate used in equipment such as industrial equipment, transportation equipment, building equipment, office equipment, and household equipment that are required to be reduced in weight. It can be used as a structural member of equipment such as large airplanes, high-speed rail vehicles, electric cars, computers, and components of these machines.

特に、本発明のハニカム溝板を挿填した複合金属板は、軽量化が切望されている機器の主軸頭、ベッド、テーブル、コラム、ピストン、シリンダー等の移動機構に従って摺動するテレスコピックカバーの構成部材として用いることができる。 In particular, the composite metal plate in which the honeycomb groove plate of the present invention is inserted has a telescopic cover configuration that slides according to a moving mechanism such as a spindle head, a bed, a table, a column, a piston, and a cylinder of a device that is desired to be lighter. It can be used as a member.

本発明の金属板と金属板の間にハニカム溝板を挿填して接着剤によって一体化して形成した複合金属板の説明図である。It is explanatory drawing of the composite metal plate formed by inserting a honeycomb grooved plate between the metal plates of the present invention and integrating them with an adhesive. 本発明の六角形の溝を間隔を置いて連続して多数個、多列に絞って配置したハニカム溝板の斜視説明図である。FIG. 3 is a perspective explanatory view of a honeycomb grooved plate in which a large number of hexagonal grooves of the present invention are continuously arranged at intervals and arranged in multiple rows. 本発明の六角形の溝を間隔を置いて連続して多数個、多列に絞って配置したハニカム溝板の説明図である。It is explanatory drawing of the honeycomb grooved board which arrange | positioned the hexagonal groove | channel of this invention continuously in multiple numbers, and restrict | squeezed in multiple rows. 本発明の金属板と金属板の間にスリットを形成して連結板を差し込んで複数枚の複合金属板を接続した状態を示す説明図であるIt is explanatory drawing which shows the state which formed the slit between the metal plate of this invention, inserted the connecting plate, and connected the some composite metal plate. 本発明の複合金属板で形成したパーツカバーを摺動可能に積層して構成したテレスコピックカバーを機器に設置した状態を示す説明図であるIt is explanatory drawing which shows the state which installed in the apparatus the telescopic cover comprised by slidably laminating | stacking the parts cover formed with the composite metal plate of this invention

１ 複合金属板
２ 金属板
３ ハニカム溝板
４ 六角形の溝
５ スリット
６ 連結板
７ パーツカバー
８ テレスコピックカバー
９ 機器



DESCRIPTION OF SYMBOLS 1 Composite metal plate 2 Metal plate 3 Honeycomb groove plate 4 Hexagonal groove 5 Slit 6 Connecting plate 7 Parts cover 8 Telescopic cover 9 Equipment

Claims (3)

板厚０．５〜１．６ｍｍの金属板と金属板の間に、板厚０．１〜１．０ｍｍの金属板に一辺が１〜１０ｍｍで深さが０．５〜１０ｍｍの多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を連続して絞ったハニカム溝板を挿填して接着剤またはレーザー溶接して一体化した機器に用いる複合金属板。 Between a metal plate having a thickness of 0.5 to 1.6 mm, a metal plate having a thickness of 0.1 to 1.0 mm and a large number of triangles and rectangles having a side of 1 to 10 mm and a depth of 0.5 to 10 mm A composite metal plate for use in equipment that is integrated with a honeycomb groove plate in which pentagonal, hexagonal, circular, elliptical, trapezoidal, and fan-shaped grooves are continuously squeezed and adhesive or laser welded. 板厚０．３〜０．８ｍｍの金属板と金属板の間に、板厚０．１〜１．０ｍｍの金属板に一辺が１〜１０ｍｍで深さが０．５〜１０ｍｍの多数の三角形、四角形、五角形、六角形、円形、楕円形、台形、扇形の溝を連続して絞ったハニカム溝板を挿填して接着剤またはレザー溶接して一体化したテレスコピックカバーに用いる複合金属板。 Between a metal plate having a plate thickness of 0.3 to 0.8 mm, a large number of triangles and rectangles having a side of 1 to 10 mm and a depth of 0.5 to 10 mm on a metal plate having a plate thickness of 0.1 to 1.0 mm A composite metal plate used for a telescopic cover in which a honeycomb groove plate in which pentagonal, hexagonal, circular, elliptical, trapezoidal, and fan-shaped grooves are continuously squeezed is inserted and adhesive or leather welding is integrated. ハニカム溝板を挿填するについて、金属板と金属板の間にスリットを形成し、このスリット内に連結板を差し込んで、複数枚の複合金属板を接続して拡大した請求項１または請求項2記載の複合金属板。 3. The honeycomb groove plate is inserted and expanded by connecting a plurality of composite metal plates by forming a slit between the metal plates and inserting a connecting plate into the slit. Composite metal plate.