SU817189A1 - Tool with removable percussion device - Google Patents

Description

(54) DRILLS WITH REMOVABLE HYDRAULIC DRILL

Claims (2)

The invention relates to a drilling technique, in particular to drums for percussion rotary drilling of wells with a removable hydraulic hammer. Known projectile with a removable., Hydraulic hammer, which includes an external column pipe with an ishitsev connector, a hydraulic hammer with an annular protrusion that interacts with a ledge of an ishitz connector l. Due to the fact that the interaction area of the annular protrusion on hy.cro of the impactor with the shoulder of the spline connector is small, the device quickly deteriorates, causing the core receiver to jam in the external core tube. Also known is a projectile containing an outer column pipe, a hydraulic hammer, a spline connector and a water sector for transferring impact to the core pipe 2. The disadvantage of this projectile is that the sectors are located in the outer core pipe, due to which inspection and repair of sectors is possible only when lifting the drill string, in addition, when sectors are worn and deformed, and also if the W-pin connector does not open when the drill string is lowered, which is possible in a well with very variable and paspyme rocks syvani fall on parted sector that entail core receiver wedges in the outer core barrel. These drawbacks lead to premature lifting of the drill string, which reduces the reliability of the device and the drilling performance. The purpose of the invention is to improve the reliability of the projectile with a removable hydraulic hammer. This goal is achieved by the fact that the sectors are mounted on the hydraulic hammer, and the sectors are driven in the form of a spring-loaded piston with a rod located in the hydraulic hammer and having an annular groove on the rod to interact with the sectors, the rod having in the lower part a locking element made in the form of a cylinder an annular cavity to accommodate the ends of the sectors. Fig. 1 shows a projectile at the moment when the removable hydraulic hammer after a discharge has reached its workplace, and the drill string is raised above the bottom of a borehole; in FIG. 2, sn d at the moment. when the drill string is put on the bottom of the well, the COMK slotted connector is chick and the flushing fluid flows to the bottom of the well. Snar d contains an outer column pipe 1 with an ishitsem connector 2, in which. ring slopes 3 and 4 are located. In the lower part of the hydraulic hammer 5 along its axis there is a spring-loaded piston 6 with a lock 7, made in the form of a cylinder, in the ring cavity of which are placed the ends of the sections 8. The piston rod 9 of the piston 6 has an annular groove 10, which interacts with sectors. A spring-loaded piston with a rod is driven to extend the sectors. In the lower part of the hydraulic hammer 5, a central opening 11 is made for the passage of the washing liquid. Drain holes 12 are made in the housing of the hydraulic unit 5 in the cavity of the piston 6. The piston 6 rests on the spring 13. In the latch cylinder 7, an annular cavity 14 is formed to place the ends of the sectors 8 in it. The gear works as follows. After descending into the well, a removable hydraulic hammer is dropped into the well, which hangs on the ledge of the outer core pipe (not shown), while the drill string is raised above the bottom of the well. After the flushing fluid is supplied to the drill pipe, it enters through the central hole 11 into the lower part of the hydraulic hammer 5, where the piston 6 is located. The piston 6 moves downward under the pressure of the washing liquid and the clamp 7, which is rigidly connected to the piston 6, releases the ends of the sectors 8. Upon further downward movement, the piston 6 expands the sectors 8 and opens the drain hole 12 through which the flushing fluid flows to the bottom of the well. After turning on the rotation, the drill string is lowered to the bottom of the well, the spline connector 2 is closed and the annular step 4 abuts the sectors 8. The hammer is turned on and the drilling process begins. After cessation of the supply of washing liquid, the piston 6 returns to its initial position under the action of the spring 13. The drill string rises above the bottom of the borehole, the spline connector 2 closes and the ledge 4 moves away from the secateurs 8. When the removable hydraulic hammer is lifted, the ledge 3 sets sector 8 and lock 7 to its original position. Since the drive sectors are located directly on the removable hydraulic hammer, after each intermediate voyage they can be inspected and repaired. The fixing device reliably keeps the sectors from being pulled out when dropping the removable hydraulic hammer into the drill pipe string. Claims with removable hydraulic hammer containing outer column pipe, hydraulic hammer, spline connector and driven sector for transferring impact to the core pipe, characterized in that, in order to improve the reliability of the projectile, the sectors are mounted on the hydraulic shaft and the sectors are made in the form of a spring-loaded piston with a rod located in the hydraulic hammer and having an annular groove on the rod for interacting with the sectors, the rod having in its lower part a locking element made in the form of a cylinder Pa with an annular cavity to accommodate the ends of the sectors. Sources of information taken into account in the examination 1. The author's certificate of the USSR 554397, cl. E 21 V 25/00, 1974. 2. USSR author's certificate for application No. 2301534 / 22-03, cl. E 21 V 25/00, 1975.