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    • 1. 发明授权
    • Pneumatic reversible impact device for driving holes in soil
    • 用于在土壤中驱动孔的气动可逆冲击装置
    • US4132277A
    • 1979-01-02
    • US838733
    • 1977-10-03
    • Konstantin K. TupitsynEvgeny N. CherednikovAlexandr D. KostylevVladimir D. PlavskikhVladimir V. KlimashkoKhaim B. TkachAndron T. Karavaev
    • Konstantin K. TupitsynEvgeny N. CherednikovAlexandr D. KostylevVladimir D. PlavskikhVladimir V. KlimashkoKhaim B. TkachAndron T. Karavaev
    • E21B4/14E21B11/02
    • E21B4/145
    • The device comprises a hollow cylindrical body, pointed front at its end which device accommodates a striker forming the front working chamber in said body, and has a cylindrical space at its rear end. Said space receives an air-distributing and reversing mechanism, thus forming the rear working chamber. The air-distributing and reversing mechanism has a bushing which is fixed relative to the body, and an axially movable bushing, both bushings being arranged coaxially, spring-loaded in the axial direction relative to each other, and forming a chamber located in the front part of said mechanism, with the chamber communicating with a source of compressed air and intended to move the movable bushing during reversal of the device. The side wall of the movable bushing has a through hole and a longitudinal external recess, both made in such a manner that during the forward travel of the device the through hole places the chamber formed by the bushings in communication with the source of compressed air while during the backward travel the through hole is covered by the fixed bushing and the chamber formed by the bushings communicates with the atmosphere through the external longitudinal recess.
    • 该装置包括中空圆柱体,其末端指向前部,该装置容纳在所述主体中形成前工作室的撞针,并在其后端具有圆柱形空间。 所述空间接收空气分配和反向机构,从而形成后工作室。 空气分配和反向机构具有相对于主体固定的衬套和可轴向移动的衬套,两个衬套同轴地布置,在轴向方向上相对于彼此弹簧加载,并形成位于前部的腔室 所述机构的一部分,其中腔室与压缩空气源连通并且旨在在装置反向期间移动可移动衬套。 可移动衬套的侧壁具有通孔和纵向外部凹部,两者均以这样的方式制造,使得在装置的向前行进期间,通孔将由衬套形成的腔室与压缩空气源连通, 在向后行进期间,通孔由固定衬套覆盖,并且由衬套形成的室通过外部纵向凹槽与大气连通。
    • 6. 发明授权
    • Reversible, percussive device for ground perforation
    • 用于地面穿孔的可逆式,冲击式装置
    • US4171727A
    • 1979-10-23
    • US804269
    • 1977-06-07
    • Khaim B. TkachAlexandr D. KostylevVladimir M. TerinKonstantin B. SkachkovAlexei D. TerskovMikhail J. BondarVladimir F. Drobyazko
    • Khaim B. TkachAlexandr D. KostylevVladimir M. TerinKonstantin B. SkachkovAlexei D. TerskovMikhail J. BondarVladimir F. Drobyazko
    • E21B7/26E21B11/02
    • E21B7/26
    • A reversible ground perforating device powered by a gaseous medium under ssure, comprising a hollow cylindrical body with a pointed front end. The body accommodates a hammer adapted to reciprocate therein. A front power chamber of variable volume is formed by the hammer in the body. The rear end of the hammer has a cylindrical hollow which forms a rear power chamber of variable volume. The power chambers are interconnected by means of ports provided in the hammer. A stepped cylindrical barrel is located inside the cylindrical hollow in the hammer and coaxially therewith. The barrel is secured in the rear end of the body and the large-diameter portion of the barrel is arranged to interact with the hammer. The wall of the large-diameter portion of the barrel has ports. A spring-loaded stepped sleeve is mounted coaxially with the stepped barrel so that the large-diameter portion of the sleeve is adapted to cover the ports in the barrel. The space between the large-diameter portions of the sleeve and barrel forms an annular chamber. Holes are provided in the sleeve small-diameter portion interacting with the barrel small-diameter portion. A ring is flexedly mounted in the large-diameter portion of the barrel in the front end thereof and coaxially therewith. The space between the ring, the inner surface of the barrel and the outer surface of the sleeve forms an auxiliary annular chamber. The annular chamber is in communication with the source of a compressed gaseous medium during forward movement of the ground perforating device, whereas the auxiliary annular chamber is in communication with this source during reverse movement of the device.
    • 由压力下的气体介质供电的可逆地面穿孔装置,包括具有尖端前端的中空圆柱体。 主体容纳适于在其中往复运动的锤。 可变体积的前功率室由锤体形成。 锤的后端具有形成可变体积的后动力室的圆柱形中空部。 动力室通过设置在锤中的孔相互连接。 一个阶梯式圆筒体位于锤的圆柱形中空部分内并与其同轴。 筒被固定在主体的后端,并且筒的大直径部分布置成与锤相互作用。 桶的大直径部分的壁具有端口。 弹簧加载的阶梯式套筒与台阶式筒同轴地安装,使得套筒的大直径部分适于覆盖筒体中的端口。 套管和桶的大直径部分之间的空间形成环形室。 孔与筒体小直径部分相互作用的套筒小直径部分提供。 环在其前端并与其同轴地弯曲地安装在筒的大直径部分中。 环之间的空间,筒的内表面和套筒的外表面之间形成辅助环形室。 环形室在接地穿孔装置的向前运动期间与压缩气体介质的源连通,而辅助环形室在装置的反向移动期间与该源连通。