SU901413A1 - Machine for loosening frozen soil - Google Patents

Description

The invention relates to a device for loosening frozen soil by a large cleavage, in particular, to vinocline devices. A device for the development of frozen ground is known; drive shaft with screw lug, including to the body, and joint wedges 1 fixed on the hull. The disadvantage of this device is the high energy intensity of the process of loosening the soil, since the chipping of the soil towards the open hole occurs only as a result of the action of proportional forces arising on the wedge surface when the wedge is pressed into the frozen ground. Significant resistance of the soil to the pressing of wedges require the use of a large power drive for the rotation of the screw tip. At the same time, the most effective cleavage is provided by applying to the wedge a transverse force directed toward the open bottom. The closest technical solution to the present invention is a device for loosening frozen soil, sdderkayuschee body, with a water rod with a screw tip and composition-; wedges of upper, middle and lower hinges pivotally interconnected with female springs. The wedges are equipped with stops interacting with the middle links. When wedges are inserted into the ground, the stops provide forced rotation of the middle links of the composite wedges towards the open bottom and directed forced cleavage of the soil 2. A disadvantage of this device is the low efficiency of loosening frozen soils of various strengths because the cleavage starts only at a certain depth of wedges penetration. At the same time on. more durable soils, it is advisable to produce cleavage with a smaller depth of the introduction of wedges. The purpose of the invention is to increase the effectiveness of loosening soils of various strengths by providing a chipped loosening chip independent of depth. The drive rod is made with a threaded section, the device is equipped with a central nut mounted on the drive rod with the ability to interact with its threaded section, and bushings located on the upper links of the wedges and rigidly connected with the central nut, the middle links have rigidly fixed levers, which by means of hinged joints with The central nut is connected to the body by means of a hydraulic cylinder, while the lower links are spring-loaded relative to the middle covering springs. The holes of the hinge bars for connection with the levers are made in the form of vertical grooves, the middle parts are spring-loaded relative to the lower covering springs. Fig. 1 shows a device for loosening frozen soil, the view of the V in Fig. 2, a wedge on the side, before penetration into the soil; figure 3 - the same, with the cleavage of the frozen soil. The device for loosening the frozen ground comprises a housing 1, a driving rod 2 with a screw tip 3 connected to a driving mechanism C, for example, a hydraulic gear motor; Composite wedges with upper links 5, middle links 6 and lower links 7 interconnected by means of hinges 8 and 9 are mounted on the case. Middle links 6 with rigidly fixed levers 10 are connected by means of hinges 11 and 12 of hinged joints 13 with bushings And mounted with the possibility of vertical longitudinal movement on the upper links x 5. The hinges 11 are installed in vertical grooves 15 formed in sharkshae th 13. 13. The sleeves 14 are rigidly interconnected by a traverse 16, the middle part of which is equipped with a central nut. 17 mounted on the drive rod 2. The drive rod sleep 2 wife running thread 18. On the central nut 17 is formed a protrusion connected by means of a hinge 20 to the rod of the control hydraulic cylinder 21 mounted on the housing 1. Outside on links x 5, 6 and 7 wedges cylindrical springs 22 and 23. The device loosens the frozen soil as follows. With the drive mechanism, anisle 4 screw tip 3 is screwed into the array of frozen soil. At the same time, the lower links 7 of the composite wedges are also inserted from above into the ground due to the vertical reaction occurring on the screw tip 3. After the lower links 7 have been inserted to a certain depth depending on the strength of the ground, the control cylinder 21 moves the rod downward. 2, the central nut 17 until it engages with the threaded thread 18. The sleeves also move downwardly, compressing the spring 22, and the hinges 11 move along the vertical grooves 15. Further, the central nut 17 is engaged ue to the running thread 18 by the rotation of the actuator rod 2 moves the crosshead 16 downward and bushings 1. The hydraulic cylinder 21 with a control set in the floating position. The hinge bolts 13, due to the moment of forces relative to the hinges 8, provide a transverse load on the middle links of 6 composite wedges, which turn and thus cleave the frozen soil towards the open bottom. After the central nut 17 is released down from the engagement with the threaded thread 18, the vertical movement of the crosspiece 16 and the sleeves k is stopped. The device is reset to its original position after cleaving the frozen ground by reversing the rotation of the drive lehanizm. At the same time, the central nut is engaged by the spring 22 and moves upward along the driving rod 2 until the gap is selected in the vertical grooves 15 of the hinge bars 13. 13. Thus, the main advantage of the proposed invention is the possibility of breaking the frozen ground. the combined action of axial and shear forces, regardless of the depth of penetration during the development of

The treatment of soils with different strengths, which significantly increases the effectiveness of the destruction of frozen soil, increases productivity and expands the field of application of the device. five

Claims (2)

1. A device for loosening frozen soil, including a housing, a driving rod with a screw tip and a wedge, made of shimirno upper, middle and lower links with female springs, so as to increase the effectiveness of loosening soils of various strength by providing independent of the loosening depth of the chip, the drive rod is made with a threaded section, the device is equipped with a central nut mounted on the drive atanga with the ability to interact with its re Headed area, and sleeves. 136 located on the upper links of the wedges and rigidly connected with the central nut, while the middle links have rigidly fixed levers that are connected to the sleeves by means of hinges and the central nut is connected to the body by means of a hydraulic cylinder, and the lower links are spring-loaded relative to the middle ones spring- 2. The device according to claim, 1, Q tl and ny e with the fact that the holes of the hinge bars for connection with the levers are made in the form of vertical grooves, and the links are spring-loaded relative to the lower covering springs. Sources of information taken into account in the examination 1. USSR author's certificate number 293961. cl. E 02 F 5/30, 19b9. 2. Author's certificate of the USSR N723057, class, E 02 F 5/30, 1978 (prototype). 2f Srig.d