DE2026335C - Core lifting device - Google Patents

Description

The invention relates to a lifting device liir with an axially elongated core receiving tube a Kemliebemantcl, which is provided for connection to an axial ejidc of the core receiving tube and then axially extending therefrom, the core elevation having a cylindrical outer surface and has a conical inner surface that widens towards the core receiving tube, wherein the outer surface and the conical inner surface have a common central axis, and with one radial Expandable core lifter, which enables limited sliding movement in the jacket between two end positions is, wherein the core lifter consists of an axially slotted metal ring with a conical outer surface, which is the is adapted conical inner surface of the core lifting jacket. a generally ring-shaped, core tube-side Consists of an upper edge and an opposite annular lower edge.

Such a core lifter is known from US Pat. No. 3,363,705. It has a flat ring with an inner and an outer edge as well as a number of fingers, which are attached with their upper edge to the outer peripheral edge of the ring and extend downward, with a straight line on the ring. annular shoulder is formed. D ^: ·. · The construction of this core lifter is relatively complicated, and its production is accordingly expensive. Above all, however, it has the disadvantage that when drilling the core can get stuck on the ring-shaped shoulder, so that only an insufficient core length is obtained and or material seepage occurs in the core.

Furthermore, US Pat. No. 2,014S06 a basket-shaped core lifter with a tubular body is described, the number of which protrudes upwards and inwardly inclined fingers. The fingers also extend down and wear their ends sliding pieces that are intended to capture the core. Similar core lifters of this type are also in the USA. Patent cuts 2 (XX) -Wi. 2081201, 2019 176 and 2,760,758. All of these core lifters have a complicated construction difficult to manufacture and therefore expensive.

Finally, from US ^{Pat. No. 1 574 1} ) 22 r.och a core drilling device with a core lifter is known, which consists of a radially expandable ring that carries a number of wedge-shaped elements, the inner surfaces of which are closer to the central axis than the outer surfaces of the ring and the outer surfaces of which are radially further away from the central axis than the outer surfaces of the ring. This core lifter must be viewed as unreliable in its mode of operation, since the core is not grasped and held securely.

The object of the invention is to provide a core lifter of the type indicated at the outset, which is characterized by is characterized by a simple design, grips the core with an improved gripping effect and is reliable remains.

According to the invention, this object is essentially achieved in that the ring has a cylindrical, the inner surface engaging the core which extends over substantially most of the axial length of the core lifter has a substantially constant curvature, and a first number distributed over the circumference Has longitudinal slots which are open towards the annular upper edge.

The following is an embodiment of the earth described in more detail with reference to the drawings. In the drawings i:> t

Fig. I is a section in the longitudinal direction through the interior axial end of the drill shank and the inner kernmantle tube with the core lifting device attached to the inner tube,

F i g. 2 shows a section in the transverse direction through the core lifter and core lifter on the line 2-2 of FIG Fig. I,

Fig. 3 is a diagram of the core lifter according to the invention and

F i g. 4 is a view of the core lifter taken essentially from the plane of line 4-4 of FIG. 2.

In Fig. 1, the inner end portion is a. Drill sheep ; cs 11 shown. The game shown forms the game that often referred to as the kernmantle aulkniohr. With the inner end of the drill shaft is through Screwing a rotating core component 12 connected, which is rotated by the drill shaft around a core to 'pipes. The core chisel has a center hole 13th that is provided for drilling the core in a soil formation 14. Inside the drill shaft on one Location for receiving the core with its drilling a core jacket-inner pipe construction with a ■ -. - Inner jacket pipe! 7. a core lift '^ ntel 18, which is connected by screwing to the axially inner end of the inner tube. and a core lifter 19. which can be moved in the core lifter is held. The only part of the Kemmantei in- : P. pipe construction, which is shown. is that innet. axial end of the inner tube of the core lifter and of the core lifter. It is understood, however, that the es -: - h both kernmantle inner tube construction around ei:;); aht - urgent construction act kanii. the duich ei: η drill shaft is extendable. taking as an example for e, such a construction is to be referred to the USA patent specification 2. ■ »S6S. From the USA.-Paient -... it 2 522? 4Q, on the other hand, is a Kermnantel-Inn [ear construction known that is not independent ι drill shaft is extendable.

; the outer end portion 21 of the core lifting jacket 18

! Internal thread 18 e \ that in engagement with

Λ iengewinde stone of nuclear receiving tube.

i .r jacket 18 has an inner ring groove 20. the axially et- ·. · ■> is offset inwards to thread 181 and vn outer transverse ring shoulder 20 "has. the

.: nci plane perpendicular to the central axis LL of the in-

- -s- and outer surface of the kernmantle inner tube : t, and it has a conical surface 23, a chamfered one

'; Ie 24. the essentially cylindrical outer:: ehe 38 "and the conical surface 18 b. The annular groove 20

¹ ..: t an axial surface 20 c. which with respect to the axis' - /. is centered, and a substantially annular edge 20 ή.,

The core lifting coat has an axially elongated, gradually converging axia'e inner surface 23 which --I axial at its outer end with the inner ladialen edge of the surface connects b 20 and connects at its opposite end to the chamfered I laugh 24th The taper is such that the diametrical dimension at surface 24 is smaller than at any other axial point. which is closer to the annular groove 20.

At its inner axial end, the core lifting jacket has the chamfered surface 24, which has progressively increasing diameters in the axial direction towards the core chisel hole. Furthermore, it has an outer conical surface 18 b which has a conicity which serves to form a matching seat on the inclined shoulder 12 a of the core chisel. During drilling, the surface 18 b is advantageously at a distance relative to the surface 12 a, as is the case in FIG. I is shown. It will be understood, however, as far as the invention is concerned, that these surfaces may abut while the core is being drilled. Appropriate McJiumkanäle can accordingly be provided in order to conduct medium from the annular space between the drill shank and the Kcrnhcbemantel to the hole 13 or to the Aibeitsseite 13 b of the core bit.

The core lifter 19 sits in the core lifting jacket in order to carry out an axial movement opposite it and serves to hold a core in place and break it loose while the drill shaft is being extended. The core lifter is formed by a split steel spring ring, which has a smooth cylindrical transverse inner surface 19 α , which ends at the outer end at the outer edge 19 ft. The surface 19 ″ extends essentially over the entire axial length of the jacket and intersects at its axially inner end ίο the smooth transverse inner conical surface! 9 c. which ends at its inner end in the inner edge 19 t / of the core lifter. The central axis LL of the core lifter, the inner tube and the core lifter jacket is at the same distance from de / inner surface 19 a over the entire axial length of the inner surface, while the inner conical surface 19 'is conical in a direction axially inward, that it is progressive in another axial distance from the axis. The core lifter 19 also has a smooth transverse outer axial conical surface: 19 e, the conicity of which matches the surface 23 of the core lifter and which extends axially from the edge 19 b to the edge 19 ίί. In a plane through the central axis LL , the surfaces 19 c and 19 c meet at a point. In addition, the core lifter is divided longitudinally at 29 to make it take a shape with a smaller or a larger diameter, depending on whether it is moved in the core shell opposite it in an outward or inward direction.

The core lifter has a number of axirl extending slots 30 which are evenly distributed over the circumference and which are open to the outer edge 19 b. The axial edge regions 30 α, 30 b of the respective slot 30 are parallel to one another and parallel to a diameter of the core lifter, while the axially inner edge region 30 c, which stretches between the edge regions 30 o and 30 b ^ /, is arranged in one position, which is more than two thirds of the axial distance from the edge 19 b to the edge 19 d . The core lifter further has a number of moving conveniently distributed on the circumference, extending in the axial direction of slots 31 (apart from the continuous slot 29) which are open towards the inner edge d 19th The axial edge areas 31 a and 31 b of the respective slot 31 are also parallel to one another and to a diameter of the core lifting joint, while the axially inner edge area 31 c, which extends between the edge areas 31 ″ and 31 b, lies in one position , which is more than two thirds of the axial distance from the edge 19 d / around the edge 19 /). In each plane perpendicular to the axis of the core lifter * which goes through both sets of slots 30 and 31, the peripheral distance 55 from one slot 31 to the next following slot is essentially the same on either side thereof. Advantageously, the two slots 30, which are located peripherally on both sides of the slot 2 ⁽ FIG. 13), are at the same distance from the latter.

60 The general radius of curvature R of the cylindrical inner surface 19 η of the core lifter is essentially the same as the inner radius of the inner pipe surface 17 α when the core lifter strikes against the edge 20 a or against a stop ring (not shown) 65, if such is in the ring bottom 20 is provided, as has become known from US Pat. No. 3,340,939. The following is a description of the function of the

Device according to the invention. In order to facilitate the description of the operation of the apparatus of the invention, it will be assumed that the drill stem is extended into a hole in an earth formation in a downward direction, although the invention is not limited to drilling in the downward direction. A kernmantle inner tube construction sits in the drill shaft at a point where the core is received with its drilling. Normally at this time the core lifting jacket is located at a considerable distance axially within the annular groove 20, like that in FIG. 1 is shown. Then the drill shank is moved axially inward so that the cutting bit 13 /> of the core bit rests against the annular groove in the hard formation. In this state, core drilling is started. Because of the ring shape of the core chisel, a hole that gets deeper and deeper is cut, creating a rod-like core. As drilling continues, the drill stem and bit move relative to the core, ao such that the core extends through the core bit hole and enters the core jack to abut the adjacent surface of the core lifter. As the axial length of the core increases, the core lifting jacket moves relative to the core lifter. until the core lifter to the annular shoulder 17 b abuts the inner pipe (namely, if no stop ring is provided is provided -if a stop ring in the annular groove 20, it strikes against the stop ring on). Thereafter, the core lifter jacket, the core lifter and the core receiving tube move together axially as a unit relative to the core. In this context, it should be pointed out that in both known core drilling devices, especially for drilling deep holes, a core jacket inner tube construction is connected to a joint so that the rotary movement of the drill shaft is not transmitted to the core jacket inner tube. Rather, the inner tube and the core lifting jacket normally only move in the axial direction with respect to the core as the drill shaft rotates.

After cutting the core to a desired length, for example when a high pressure pulse arrives at the drilling site via known means, drilling is stopped and the drill shank is tightened a short amount. By pulling out the drill shaft, the drill shaft moves axially outward relative to the Kernhebemantcl until the surface 12 a strikes the surface 18 b , provided that appropriate core drilling machines are used. This normally keeps the core lifting jacket out of contact with the core bit. When the 'Kernhcbemantels'' Kernhcbemantels relative to the drill shaft in the manner described leads after the surface 12 α and 18 b a further axial movement of the drill shaft to the outside that the Kcrnhebemantel moves axially with respect to the core and the core lifter, whereby by the entrainment effect of the Core lifter on the core of the core lifter 19 reaches a further axial distance from the annular groove 20 and is compressed in the transverse direction (as a result of the Kcgelflächen 23, 19 c) in order to hold the core positively and break it loose. After breaking loose the core, either the core jacket inner tube construction is pulled out opposite the drill shaft, or both the drill shaft and the core jacket inner tube construction are pulled out, depending on the construction of the core drilling device.

The following dimensions are given as an exemplary embodiment of the invention: The outer diameter of the surface 19 p at the edge 19 ft is approximately 40 mm, at the edge 19 d it is approximately 38 mm. The length X of the core lifter, measured on the axis / .- /. along, is 25.4 mm, while the corresponding length of the surface 19C is 1.2 mm. The distance W of the adjacent part of the edge region 3OC from the edge 19C is about 6.35 mm, while the distance Z of the adjacent part of the edge portion 31 r b of the edge 19 of about 4.75 mm. the peripheral dimension C between the respective edge portions 30 a and 30 b and the edge regions α 31 and 31 b for the respective slots is in a relaxed core lifter about 2.4 mm. The peripheral distance between the edges forming the slot 29 in the case of a relaxed core lifter is approximately 3.2 mm.

The axial length of the slots 30 and 31 is advantageously considerably greater than half the axial length Length of the core lifter, preferably it is even greater than two thirds of the axial length of the core lifter.

With the help of the core lifter according to the invention, a better gripping effect and a longer service life is achieved than with known core lifters. The manufacturing costs are also lower; H. it is less effort in special tools is required.

1 sheet of drawings

^ ⁷ JJg- - ■ > - · -> - · ■

Claims (5)

Patent claims: 1. Kerr.hebevorrichtuüg for a Lxially elongated Core receiving tube with a core lifting jacket, which to. Connection with an axial Er.de des Ke '"" aufnahr.; Erohre> is provided and then axiu, from this wegerstrerki, whereby the core lifting jacket has a cylindrical outer surface and has a conical inner surface that widens towards the core receiving tube, wherein the outer surface and the conical inner surface have a common central axis, and with a radially expandable core lifter that allows limited sliding movement in the jacket between is capable of two end positions. wherein the core lifter consists of an axially protected metal ring with a conical outer surface which is adapted to the conical inner surface of the core lifting jacket. a generally ring-shaped, core tube-shaped upper edge and an opposite one annular lower edge consists, thereby characterized in that the ring has a cylindrical, the core engaging inner surface (19 ″;). the core lifter (19) essentially over the major part of the axial length read a substantially has constant curvature, and a first number distributed over the circumference Has longitudinal slots (3) which are open towards the annular upper edge (19 />). 2. Core lifting device according to claim 1, characterized in that the] ·. .veilige slot (30) has an axial length. which is significantly greater than half the axial length of the core lifter (19) is. 3. Core lifting device according to claim 1 oiler 2, characterized in that the core lifter (19) has a second number of axially elongated slots (31) distributed over the circumference. which are open towards the ring-shaped lower channels (19 ti) and end between the edges. 4. core lifting device according to claim 3, characterized gL indicates that the second slots each are peripherally offset from the first slots. 5. core lifting device according to claim 3 or 4. daduicli characterized in that the slots (30, 31) have a length that is more than two thirds the axial length of the core lifter? (19) is.