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    • 4. 发明公开
    • DAMPER-INTEGRATED BLOWER HAVING IMPROVED AIRTIGHTNESS
    • 在EINEN DEAMPFER INTEGRIERTES GEBLESSE MIT VERBESSERTER LUFTDICHTIGKEIT
    • EP2990658A1
    • 2016-03-02
    • EP14787993.6
    • 2014-04-22
    • Cendori Co. Ltd.
    • PARK, Mun su
    • F04D25/14F24F13/10F24F7/013F04D29/40
    • F04D25/14F04D29/4206F04D29/4226F04D29/464F04D29/626F04D29/646F24F7/065F24F13/10F24F13/14F24F13/1406
    • The present invention relates to a damper-integrated blower 100 having improved airtightness that is characterized in that a blower casing a 105 on which a suction port 103 is formed and a blower casing b 106 located at the opposite side to the blower casing b 105, the outer periphery of the blower casing a 105 and the outer periphery of the blower casing b 106 being fastened to each other by means of a plurality of casing assembling protruding pieces; a vane stopper protrusion 104b is formed at the center of the bottom surface of the exhaust port 104 of the assembled blower 100, and a vane contact housing part 107 is formed above the exhaust port 104; damper motor screw fixing parts 105a are formed integrally with the outer upper surface of the vane contact housing part 107 adjacent to the exhaust port 104 of the blower casing a 105 on which the suction port 103 is formed and on the surface adjacent to the rear side of the upper side of the fixing frame 104a of the exhaust port 104; a damper motor shaft hole 105b is bored in the outer peripheral surface of the casing of the suction port 103 of a damper motor shaft hole protrusion part 105b' which is integrally formed on the outer upper side of the vane contact housing part 107 adjacent to the damper motor screw fixing parts 105a of the blower casing a 105; a vane rotation shaft 106a protrudes from the inner surface of a damper motor shaft hole protrusion part 105b" of the blower casing b 106 facing the damper motor shaft hole protrusion part 105b' of the blower casing a 105; an eccentric damper motor shaft 201a of a damper motor 201 is introduced into the damper motor shaft hole 105b of the blower casing a 105 so as to connect damper motor fixing brackets 210b facing the damper motor shaft hole 105b with the blower casing a 105; a vane 202B as a single member is connected to the damper motor shaft 201a and the vane rotation shaft 106a located on the inner surface of the damper motor shaft hole protrusion part 105b" so as to open and close the exhaust port 104; and a gasket 202A is coupled to the four edges of the vane 202B, thus providing a vane module 202 having the vane 202B and the gasket 202A assembled integrally with each other.
    • 本发明涉及一种具有改进气密性的阻尼器一体式鼓风机100,其特征在于,形成有吸气口103的鼓风机壳体105和位于鼓风机壳体b 105的相对侧的鼓风机壳体b106, 鼓风机壳体a105的外周,鼓风机壳体b106的外周通过多个壳体组装突出片彼此紧固; 在组装的鼓风机100的排气口104的底面的中心处形成有叶片止动突起104b,在排气口104的上方形成叶片接触容纳部107; 阻尼器马达螺钉固定部105a与叶片接触容纳部107的与上述吸入口103形成的鼓风机壳体a 105的排气口104相邻的外侧上表面一体地形成在与后侧相邻的面 排气口104的固定框架104a的上侧; 阻尼电机轴孔105b在阻尼电机轴孔突出部分105b'的吸入口103的壳体的外周面上钻孔,该阻尼器电动机轴孔突出部分105b'整体地形成在叶片接触件壳体部分107的外侧上 鼓风机壳体a 105的阻尼器马达螺钉固定部105a; 叶片旋转轴106a从鼓风机壳体b 106的阻尼电动机轴孔突出部105b“的内表面突出,与鼓风机壳体a 105的阻尼电机轴孔突出部105b'相对;偏心阻尼电机轴201a 阻尼马达201被引入到鼓风机壳体a 105的阻尼器马达轴孔105b中,以将与阻尼马达轴孔105b相对的阻尼马达固定托架210b与鼓风机壳体a 105相连接;作为单个构件的叶片202B 连接到位于阻尼电机轴孔突出部105b“的内表面上的阻尼电机轴201a和叶片旋转轴106a,以便打开和关闭排气口104; 并且垫圈202A联接到叶片202B的四个边缘,从而提供具有彼此一体组装的叶片202B和垫圈202A的叶片模块202。
    • 9. 发明公开
    • LUFTKLAPPE ZUR DURCHFLUSSREGELUNG INNERHALB EINER ROHRLEITUNG
    • 进气流量控制在管道
    • EP2052191A1
    • 2009-04-29
    • EP07785093.1
    • 2007-08-14
    • Belimo Holding AG
    • BAMBERGER, Georg
    • F24F13/14
    • F24F13/14F24F13/1406F24F13/1426Y10T29/49815Y10T137/6028
    • The invention relates to a device (12), for controlling an airflow (A) in a ventilation duct (10), comprising a least one pivotable air flap (24), which prevents an airflow (A) in the duct (10) when in the closed position. A housing (32) of an actuator for the air flap (24), which may pivot freely about the relevant longitudinal mid plane (LM), is mounted in the inner duct wall (34) of constant cross-section. The elastic air flap (24), symmetrically or approximately symmetrically curved about the longitudinal mid plane (LM) of the ventilation duct (10) and supported under load in a stable position on the duct wall (34), is rigidly fixed to the driveshaft (18) of the actuator, by an angled lever arm (20), with a separation (a), in the region of the apex line (S) thereof. The air flap (24) rests roughly centrally, permanently on the points (36, 38) of contact with the inner duct wall (34), which move with the position of the flap, in a self-centring (36, 38) manner and, in the closed position, contacts the inner duct wall (34) along a sealed, endless peripheral sealing surface (58). The contact points (36, 38) lie on the virtual intersection of the longitudinal axis (LW) of the drive shaft (18) with the duct wall (34). In order to fit or exchange the device (12), an opening (64), in particular, a long rectangle, is cut in the ventilation duct (10). The device (10) is fixed to a section (66) of duct material or transparent material extending beyond the opening in all directions, introduced with the elastic air flap (24) bent up and the opening (64) sealed again.