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    • 15. 发明授权
    • Solar collector panel
    • 太阳能集热板
    • US4324230A
    • 1982-04-13
    • US168595
    • 1980-07-14
    • Oscar M. Lunsford
    • Oscar M. Lunsford
    • F24J2/05F24J2/24F24J2/34F24J2/46F24J3/02
    • F24J2/4607F24J2/055F24J2/242F24J2/34Y02E10/44Y10S126/903
    • A solar collector panel apparatus is provided which can be easily manufactured in different shapes and capacities. A pair of manifolds is supported in a spaced relationship by one or more conductive tubes. Each tube has a helical wound tube wrapped therearound and having each end operatively connected into one manifold to create a passageway from one manifold to the other. A transparent sleeve is mounted over and spaced from each conductive tube having a helically wound tube thereover and is connected between the manifolds. A reflective material is positioned along one side of each sleeve for reflecting solar energy passing through the sleeve back towards the helically wrapped tube. An input is provided into one manifold and an output from the other manifold. The conductive center tube may be filled with a material, such as a eutectic salt, and act as the supporting framework to hold the manifolds in a spaced, fixed position.A solar collector test apparatus is also provided, which has solar panel support brackets along with a plurality of infra-red lamps mounted in a lamp shroud and spaced a predetermined distance from the solar panel. A pump passes water through a solar panel mounted on the test stand into a recovery tank which is mounted on scales to determine the amount of water passing through the solar panel. Inlet and outlet temperature, inlet fluid pressure and tank temperature monitors are all connected to the system.
    • 提供一种可以容易地以不同形状和容量制造的太阳能收集板装置。 一对歧管以一个或多个导电管以间隔的关系支撑。 每个管具有缠绕在其周围的螺旋缠绕管,并且每个端部可操作地连接到一个歧管中以形成从一个歧管到另一歧管的通道。 透明套管安装在每个导电管的上方并与之隔开,导电管在其上具有螺旋缠绕的管,并连接在歧管之间。 反射材料沿每个套筒的一侧定位,用于将穿过套筒的太阳能反射回到螺旋缠绕的管子。 输入被提供到一个歧管和来自另一歧管的输出。 导电中心管可以填充有诸如共晶盐的材料,并且用作支撑框架以将歧管保持在间隔开的固定位置。 还提供一种太阳能收集器测试装置,其具有太阳能电池板支撑支架以及安装在灯罩中并与太阳能电池板隔开预定距离的多个红外灯。 泵将水通过安装在测试台上的太阳能电池板通入安装在秤上的回收罐,以确定通过太阳能电池板的水量。 入口和出口温度,入口流体压力和油箱温度监控器都连接到系统。
    • 17. 发明授权
    • Solar heat collection
    • 太阳能集热
    • US4096861A
    • 1978-06-27
    • US676156
    • 1976-04-12
    • Vernon O. Bowles
    • Vernon O. Bowles
    • F24D17/00F24J2/24F24J2/34F24J2/42F24J2/46F24J3/02
    • F24J2/24F24D17/0068F24J2/045F24J2/345F24J2/42F24J2/463F24J2/4647Y02B10/20Y02B10/70Y02E10/44Y10S126/903Y10S126/904Y10S126/905
    • The heat of solar radiation is collected through a thin receptor panel directly into a layer of liquid held against and flowable only upwardly along the panel in shallow channels extending between upper and lower plenum spaces in a receptor chamber which is inclined across the path of the sunlight and connected in a flow circuit completely filled with the liquid under low pressure. The liquid in the receptor will accumulate heat in the upper plenum space to exceed a selected minimum temperature and can then be passed through the flow circuit, which extends from the upper plenum space via a heat exchange zone and then back into the lower plenum space. The total volume of liquid filling the system can be so small in relation to the exposed receptor surface area that little sun time is lost in bringing the system to a relatively high temperature for delivery of the collected heat. Further, the receptor is isolated from the ambient air and moisture in a manner enabling it to receive and collect the available solar heat efficiently at all times.
    • 太阳辐射的热量通过薄的接收器面板被直接收集到液体层中,该液体层在沿着阳光的路径倾斜的接收器室中的上通道和下室之间的浅通道中沿着面板保持抵抗并且仅可向上流动 并连接在低压下完全充满液体的流动回路中。 接收器中的液体将在上部空间空间中积聚超过所选择的最小温度,然后可以通过流动回路,该回路从上部空间经由热交换区延伸,然后返回到下部空间。 填充系统的液体的总体积可以相对于暴露的受体表面积这么小,在使系统达到相对较高的温度以输送收集的热量时,太少的时间损失了。 此外,受体与环境空气和湿气分离,使其能够始终有效地接收和收集可用的太阳热。
    • 18. 发明授权
    • Inverted open channel solar heat collector panel
    • 倒置开放式太阳能集热板
    • US3995804A
    • 1976-12-07
    • US606407
    • 1975-08-15
    • Carlos D. FoldsDaniel A. Gilbert
    • Carlos D. FoldsDaniel A. Gilbert
    • F24J2/23F24J2/50F24J3/02
    • F24J2/507F24J2/23F24J2/4618Y02E10/44Y10S126/903Y10S126/904Y10S126/905
    • An inclined heat absorptive and conductive panel including downwardly opening inverted V-shaped grooves formed therein extending downwardly from the upper end portion of the panel toward the lower end portion of the panel is provided. In addition, structure is provided for introducing a heat absorptive liquid into the upper end portions of the grooves and second structure is provided for receiving and collecting liquid from the lower ends of the grooves. The cross sectional shape and size of the grooves is such to allow at least substantially all of the liquid introduced into the upper ends thereof to be retained therein by the cohesive and surface tension properties of the liquid during its movement downwardly through the grooves by gravity toward the lower end of the panel. The panel comprises an inclined partition secured across the interior of an upwardly opening housing and a substantially fluid tight cover is secured across the top of the housing above the panel. Further, the structure by which liquid flowing downwardly to the lower end of the panel is collected includes additional structure whereby a partial vacuum is maintained within the housing between the transparent cover and the heat absorptive panel.
    • 提供了一种倾斜的吸热导电板,其包括形成在其中的向下开口的倒V形槽,其从面板的上端部朝向面板的下端部向下延伸。 此外,提供了用于将吸热液引入槽的上端部的结构,并且第二结构被设置用于从槽的下端接收和收集液体。 槽的横截面形状和尺寸使得至少基本上所有引入其上端的液体全部通过液体在其通过重力向下移动通过凹槽的内聚力和表面张力特性而被保持在其中 面板的下端。 该面板包括跨过向上打开的壳体的内部固定的倾斜隔板,并且基本上流体密封的盖被跨过面板上方的壳体顶部固定。 此外,向下流到面板下端的液体的结构包括另外的结构,由此在透明盖和吸热板之间的壳体内部保持部分真空。
    • 19. 发明授权
    • Variable volume air wall
    • 可变体积空气墙
    • US3981445A
    • 1976-09-21
    • US580247
    • 1975-05-23
    • Warren L. Custer
    • Warren L. Custer
    • F24F5/00F24J2/40F24J3/02
    • F24J2/407F24F5/0075F24F2005/0078Y02B10/20Y02B10/24Y02B30/92Y02E10/40Y10S126/903
    • A temperature modifying system for a building having windows, some of which are exposed to the direct rays of the sun and some of which are not. The system includes a plurality of double paned windows, a heat exchange unit, an air ducting system interconnecting the windows and heat exchange unit, and an air handling unit for forcing air through the ducting system. The air moves sequentially through the heat exchange unit, the air handling unit, the ducting to the windows, through the double paned windows and back through ducting to the heat exchange unit. Each window includes parallel transparent panels spaced apart in a conventional manner, but including apertures for the entrance and exit of air conducted through the system. Light and heat reflecting slat means are mounted between the parallel panels to reflect outwardly the radiant heat from the sun. A temperature sensing device is mounted to measure the temperature of the air exiting from each active window unit. The temperature sensing device is connected with apparatus to regulate valving structure which controls the volume of air admitted to the window enclosure between the panels, i.e., with an increase in temperature the valving structure will move to increase the volume of air passing into the enclosure and thereby remove more heat from the enclosure to reduce the temperature of the exiting air.
    • 用于具有窗户的建筑物的温度调节系统,其中一些暴露于太阳的直接光线,其中一些不是。 该系统包括多个双层窗户,热交换单元,互连窗户和热交换单元的空气管道系统,以及用于迫使空气通过管道系统的空气处理单元。 空气依次通过热交换单元,空气处理单元,通向双层玻璃窗的管道,并通过导管返回到热交换单元。 每个窗口包括以常规方式隔开的平行透明面板,但包括用于通过系统传导的空气的入口和出口的孔。 光和热反射板条装置安装在平行板之间以向外反射来自太阳的辐射热。 安装温度感测装置以测量从每个活动窗单元排出的空气的温度。 温度感测装置与装置连接以调节阀结构,其控制进入面板之间的窗户外壳的空气的体积,即随着温度的升高,阀结构将移动以增加通过外壳的空气的体积, 从而从外壳中除去更多的热量以降低出口空气的温度。