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    • 1. 发明专利
    • TOY BLOCK (SINGLE ROW)
    • CA160650S
    • 2016-04-12
    • CA160650
    • 2015-02-02
    • HENG ZHANG
    • The design consists of the visual features of the entirety of the TOY BLOCK (SINGLE ROW) shown in the drawings. The seventh variant shows break lines which represent variable length. The block elements repeat at regular intervals throughout the length of the article.Figure 1a is a front view of a first variant of the TOY BLOCK (SINGLE ROW);Figure 1b is a bottom view of the first variant of the TOY BLOCK (SINGLE ROW);Figure 1c is a cross-sectional view of the first variant of the TOY BLOCK (SINGLE ROW) taken along line A-A of Figure 1a;Figure 1d is a plan view of the first variant of the TOY BLOCK (SINGLE ROW);Figure 1e is a right view of the first variant of the TOY BLOCK (SINGLE ROW);Figure 1f is a rear view of the first variant of the TOY BLOCK (SINGLE ROW);Figure 1g is a left view of the first variant of the TOY BLOCK (SINGLE ROW);Figure 2a is a front view of a second variant of the TOY BLOCK (SINGLE ROW);Figure 2b is a bottom view of the second variant of the TOY BLOCK (SINGLE ROW);Figure 2c is a top view of the second variant of the TOY BLOCK (SINGLE ROW);Figure 2d is a right view of the second variant of the TOY BLOCK (SINGLE ROW);Figure 2e is a rear view of the second variant of the TOY BLOCK (SINGLE ROW);Figure 2f is a left view of the second variant of the TOY BLOCK (SINGLE ROW);Figure 3a is a front view of a third variant of the TOY BLOCK (SINGLE ROW);Figure 3b is a bottom view of the third variant of the TOY BLOCK (SINGLE ROW);Figure 3c is a top view of the third variant of the TOY BLOCK (SINGLE ROW);Figure 3d is a right view of the third variant of the TOY BLOCK (SINGLE ROW);Figure 3e is a rear view of the third variant of the TOY BLOCK (SINGLE ROW);Figure 3f is a left view of the third variant of the TOY BLOCK (SINGLE ROW);Figure 4a is a front view of a fourth variant of the TOY BLOCK (SINGLE ROW);Figure 4b is a bottom view of the fourth variant of the TOY BLOCK (SINGLE ROW);Figure 4c is a top view of the fourth variant of the TOY BLOCK (SINGLE ROW);Figure 4d is a right view of the fourth variant of the TOY BLOCK (SINGLE ROW);Figure 4e is a rear view of the fourth variant of the TOY BLOCK (SINGLE ROW);Figure 4f is a left view of the fourth variant of the TOY BLOCK (SINGLE ROW);Figure 5a is a front view of a fifth variant of the TOY BLOCK (SINGLE ROW);Figure 5b is a bottom view of the fifth variant of the TOY BLOCK (SINGLE ROW);Figure 5c is a top view of the fifth variant of the TOY BLOCK (SINGLE ROW);Figure 5d is a right view of the fifth variant of the TOY BLOCK (SINGLE ROW);Figure 5e is a rear view of the fifth variant of the TOY BLOCK (SINGLE ROW);Figure 5f is a left view of the fifth variant of the TOY BLOCK (SINGLE ROW);Figure 6a is a front view of a sixth variant of the TOY BLOCK (SINGLE ROW);Figure 6b is a bottom view of the sixth variant of the TOY BLOCK (SINGLE ROW);Figure 6c is a top view of the sixth variant of the TOY BLOCK (SINGLE ROW);Figure 6d is a right view of the sixth variant of the TOY BLOCK (SINGLE ROW);Figure 6e is a rear view of the sixth variant of the TOY BLOCK (SINGLE ROW);Figure 6f is a left view of the sixth variant of the TOY BLOCK (SINGLE ROW);Figure 7a is a front view of a seventh variant of the TOY BLOCK (SINGLE ROW);Figure 7b is a bottom view of the seventh variant of the TOY BLOCK (SINGLE ROW);Figure 7c is a top view of the seventh variant of the TOY BLOCK (SINGLE ROW);Figure 7d is a right view of the seventh variant of the TOY BLOCK (SINGLE ROW);Figure 7e is a rear view of the seventh variant of the TOY BLOCK (SINGLE ROW); andFigure 7f is a left view of the seventh variant of the TOY BLOCK (SINGLE ROW).
    • 2. 发明专利
    • bloco de construção tetradecahedral
    • BR112016006884A2
    • 2017-08-01
    • BR112016006884
    • 2014-09-25
    • HENG ZHANG
    • HENG ZHANG
    • A63H33/08
    • descreve-se um bloco de construção de tetradecahedron é compreendendo um número de corpos principais da unidade (1), a estrutura, a forma e o volume dum número de corpos principais da unidade (1), sendo a mesma. os corpos principais da unidade (1) são tetradecahedron com seis faces quartadas (8) e oitas faces hexagonais (9). as seis faces quartadas (8) estão igualmente divididas em três grupos, e as duas faces quartadas (8) no mesmo grupo são paralelas. as oitas faces hexagonais (9) são igualmente divididas em quatros grupos, e as duas faces hexagonais (9) no mesmo grupo são paralelas. dois ou mais de corpos principais de unidades (1) estão ligados entre si e / ou ligado de modo fixo, para formar um grupo. um poste (3) é proporcionado em pelo menos uma face quartada (8) em cada corpo principal da unidade (1), e uma ranhura de inserção (2), localizado sobre o mesmo eixo que o poste (3), é proporcionado na outra face quartada (8). os postes (3) de quaisquer dois ou dois grupos de corps principais de unidade (1) cooperam com as ranhuras de inserção (2). um componente formado de dois ou mais de dois corpos principais ligados da unidade (1) do mesmo grupo é um corpo combinado.
    • 3. 发明专利
    • TETRADECAHEDRAL BUILDING BLOCK
    • PH12016500801A1
    • 2016-06-13
    • PH12016500801
    • 2016-04-28
    • HENG ZHANG
    • HENG ZHANG
    • A63H33/08
    • Disclosed is a tetradecahedral building block comprising a number of unit main bodies (1), the structure, shape and volume of each of the number of unit main bodies (1) being the same. The unit main bodies (1) are tetradecahedrons with six square faces (8) and eight hexagonal faces (9). The six square faces (8) are equally divided into three groups, and the two square faces (8) in the same group are parallel. The eight hexagonal faces (9) are equally divided into four groups, and the two hexagonal faces (9) in the same group are parallel. Two or more unit main bodies (1) are plugged together and/or fixedly connected to form a group. A post (3) is provided on at least one square face (8) on each unit main body (1), and an insert groove (2), located on the same axis as the post (3), is provided on another square face (8). The posts (3) of any two or two groups of unit main bodies (1) cooperate with the insert grooves (2). A component formed of two or more than two connected unit main bodies (1) of the same group is a combined body.
    • 4. 发明专利
    • TOY BLOCK (DOUBLE ROW)
    • CA160651S
    • 2016-04-12
    • CA160651
    • 2015-02-02
    • HENG ZHANG
    • The design consists of the visual features of the entirety of the TOY BLOCK (DOUBLE ROW) shown in the drawings. The seventh variant shows break lines which represent variable length. The block elements repeat at regular intervals throughout the length of the article.Figure 1a is a front view of a first variant of the TOY BLOCK (DOUBLE ROW);Figure 1b is a bottom view of the first variant of the TOY BLOCK (DOUBLE ROW);Figure 1c is a cross-sectional view of the first variant of the TOY BLOCK (DOUBLE ROW) taken along line A-A of Figure 1a;Figure 1d is a plan view of the first variant of the TOY BLOCK (DOUBLE ROW);Figure 1e is a right view of the first variant of the TOY BLOCK (DOUBLE ROW);Figure 1f is a rear view of the first variant of the TOY BLOCK (DOUBLE ROW);Figure 1g is a left view of the first variant of the TOY BLOCK (DOUBLE ROW);Figure 2a is a front view of a second variant of the TOY BLOCK (DOUBLE ROW);Figure 2b is a bottom view of the second variant of the TOY BLOCK (DOUBLE ROW);Figure 2c is a top view of the second variant of the TOY BLOCK (DOUBLE ROW);Figure 2d is a right view of the second variant of the TOY BLOCK (DOUBLE ROW);Figure 2e is a rear view of the second variant of the TOY BLOCK (DOUBLE ROW);Figure 2f is a left view of the second variant of the TOY BLOCK (DOUBLE ROW);Figure 3a is a front view of a third variant of the TOY BLOCK (DOUBLE ROW);Figure 3b is a bottom view of the third variant of the TOY BLOCK (DOUBLE ROW);Figure 3c is a top view of the third variant of the TOY BLOCK (DOUBLE ROW);Figure 3d is a right view of the third variant of the TOY BLOCK (DOUBLE ROW);Figure 3e is a rear view of the third variant of the TOY BLOCK (DOUBLE ROW);Figure 3f is a left view of the third variant of the TOY BLOCK (DOUBLE ROW);Figure 4a is a front view of a fourth variant of the TOY BLOCK (DOUBLE ROW);Figure 4b is a bottom view of the fourth variant of the TOY BLOCK (DOUBLE ROW);Figure 4c is a top view of the fourth variant of the TOY BLOCK (DOUBLE ROW);Figure 4d is a right view of the fourth variant of the TOY BLOCK (DOUBLE ROW);Figure 4e is a rear view of the fourth variant of the TOY BLOCK (DOUBLE ROW);Figure 4f is a left view of the fourth variant of the TOY BLOCK (DOUBLE ROW);Figure 5a is a front view of a fifth variant of the TOY BLOCK (DOUBLE ROW);Figure 5b is a bottom view of the fifth variant of the TOY BLOCK (DOUBLE ROW);Figure 5c is a top view of the fifth variant of the TOY BLOCK (DOUBLE ROW);Figure 5d is a right view of the fifth variant of the TOY BLOCK (DOUBLE ROW);Figure 5e is a rear view of the fifth variant of the TOY BLOCK (DOUBLE ROW);Figure 5f is a left view of the fifth variant of the TOY BLOCK (DOUBLE ROW);Figure 6a is a front view of a sixth variant of the TOY BLOCK (DOUBLE ROW);Figure 6b is a bottom view of the sixth variant of the TOY BLOCK (DOUBLE ROW);Figure 6c is a top view of the sixth variant of the TOY BLOCK (DOUBLE ROW);Figure 6d is a right view of the sixth variant of the TOY BLOCK (DOUBLE ROW);Figure 6e is a rear view of the sixth variant of the TOY BLOCK (DOUBLE ROW);Figure 6f is a left view of the sixth variant of the TOY BLOCK (DOUBLE ROW);Figure 7a is a front view of a seventh variant of the TOY BLOCK (DOUBLE ROW);Figure 7b is a bottom view of the seventh variant of the TOY BLOCK (DOUBLE ROW);Figure 7c is a top view of the seventh variant of the TOY BLOCK (DOUBLE ROW);Figure 7d is a right view of the seventh variant of the TOY BLOCK (DOUBLE ROW);Figure 7e is a rear view of the seventh variant of the TOY BLOCK (DOUBLE ROW); andFigure 7f is a left view of the seventh variant of the TOY BLOCK (DOUBLE ROW).
    • 6. 发明专利
    • Bloco de construção tetradecaedrico
    • BR112016006884B1
    • 2022-05-10
    • BR112016006884
    • 2014-09-25
    • HENG ZHANG
    • ZHANG HENG
    • A63H33/08
    • bloco de construção tetradecahedral. descreve-se um bloco de construção de tetradecahedron é compreendendo um número de corpos principais da unidade (1), a estrutura, a forma e o volume dum número de corpos principais da unidade (1), sendo a mesma. os corpos principais da unidade (1) são tetradecahedron com seis faces quartadas (8) e oitas faces hexagonais (9). as seis faces quartadas (8) estão igualmente divididas em três grupos, e as duas faces quartadas (8) no mesmo grupo são paralelas. as oitas faces hexagonais (9) são igualmente divididas em quatros grupos, e as duas faces hexagonais (9) no mesmo grupo são paralelas. dois ou mais de corpos principais de unidades (1) estão ligados entre si e / ou ligado de modo fixo, para formar um grupo. um poste (3) é proporcionado em pelo menos uma face quartada (8) em cada corpo principal da unidade (1), e uma ranhura de inserção (2), localizado sobre o mesmo eixo que o poste (3), é proporcionado na outra face quartada (8). os postes (3) de quaisquer dois ou dois grupos de corps principais de unidade (1) cooperam com as ranhuras de inserção (2). um componente formado de dois ou mais de dois corpos principais ligados da unidade (1) do mesmo grupo é um corpo combinado.
    • 9. 发明授权
    • Imaging reader with asymmetrical magnification
    • 具有不对称放大倍率的成像读取器
    • US08777105B2
    • 2014-07-15
    • US12582954
    • 2009-10-21
    • Igor VinogradovMichael VekslandHeng Zhang
    • Igor VinogradovMichael VekslandHeng Zhang
    • G06K7/10
    • G06K7/10831G02B13/08G02B13/16G02B13/22G06K7/10702G06K7/10722
    • A solid-state imager is mounted in a reader, such as a bi-optical, dual window, point-of-transaction workstation, for capturing light along an optical axis over a field of view from coded indicia. An optical assembly including non-rotationally symmetrical optics is operative for optically modifying and asymmetrically magnifying an image of the indicia and the field of view of the imager along mutually orthogonal directions generally perpendicular to the optical axis, and for increasing resolution of the imager along one of the directions. Preferably, the non-rotationally symmetrical optics includes a cylindrical lens having an aspherical profile along the one direction, and a planar profile along the other of the directions.
    • 固态成像器安装在诸如双光学双窗口交易点工作站的读取器中,用于沿着来自编码标记的视场沿光轴捕获光。 包括非旋转对称光学器件的光学组件可操作用于沿着大致垂直于光轴的相互正交的方向光学修正和不对称放大成像器的图像和成像器的视场,并且为了增加沿着光轴的成像器的分辨率 的方向。 优选地,非旋转对称光学器件包括沿着该一个方向具有非球面轮廓的柱面透镜以及沿着另一个方向的平面轮廓。