BG62058B1 - Rotative roller reamer - Google Patents

Abstract

The reamer is designed for reaming of deep holes bored with adrill and is used in mining. It has improved design and higherreliability of the system of bearing fixation which improves thelubrication of the bearings and greatly reduces the penetration ofabrasive material between the supporting surfaces having reliableand easier free revolution of the roller. Reamer (10) consists ofa body with mutiple rollers (1) fitted in special slits fittedalong its periphery and radially inwards from its outer surface.Each slit has a central and two end parts in which a pair ofbearing units (14) are fitted fixed by means of wedge-type blocksfitted to the body by means of fastener screws (15). Multipleseats are machined to the periphery of each roller (11) in whichthe tools are fitted in the form of inserts (12). Each roller (11)has a shaft (13) with two end parts mounted in bearing blocks (14)to which sealing rings are designed. Walls forming a cylindricalgroove (19) and additional walls forming a hole (31) running fromgroove (19) and external surface (30) of shaft (13) are machinedin the shaft (13) of every roller (11). Piston (21) is mountedfreely sliding in groove (19) between one of its external ends andhole (31). Roller (11) is mounted with a facility for therevolving of the outer surface of shaft (13).8 claims, 3 figures

Description

Technical field

This invention relates to a basic type rotary roller roller, which is used to re-drill drilled holes through a drill, with the ridge located close to the drill bit or some distance above its lower end, and is used in deep hole drilling .

Characteristics of the prior art

Known by AU 594885 is a rotary roller bearing, of the basic type, used for reaming by locally compacting soil-contaminated walls defining a deep hole penetrated into the ground.

The drilled holes are normally drilled with the load on the drill cutters, and the hole is defined by surfaces that must subsequently be stabilized by rotary roller blades so that the soil can be compacted locally, which may otherwise remain brittle and could partially collapsed into the hole.

The known rotary roller reamer consists of a body with multiple rolls having an inner central opening and, accordingly, a number of rolls - a plurality of radially directed outer slots, which are arranged uniformly at certain intervals along the periphery of the body. Each slot has a central part providing free rotation of the rollers and two end portions, each of which carries one bearing block. The blocks bear corresponding bearing sleeves in which the two end parts of the roller shaft are rotated. To increase the life of the bearing sleeve, each bearing is fitted with a rubber O-ring at each end thereof, which has the role of preventing the introduction of abrasive particles between the friction surfaces of the bearing. On the outer periphery of the roll, there are a plurality of sockets housing working members, which are short inserts of tungsten carbide with lined ends extending outward to exert pressure on the soil particles that form the drilled hole. Each bearing block is provided with a wedge-shaped surface and is fixed in its respective end slot through a wedge-shaped block that is secured to the rib body by a fastening screw.

A disadvantage of the known rotary roller roller is that the use of sealing rings mounted on either side of each bearing block, although reducing the propagation of abrasive material between the support friction surfaces of the end parts of the roller shaft and the bearing surfaces, does not solve the problem with the inability to keep the lubricant in the bearings from leaking. The leakage is caused by the pressure difference existing between the support surfaces on the outside of the drilling tool, which can become significant when the deep orifice requires re-firing due to the very high pressure, which in some cases can reach as high as 3000 psi (20000 Pa). If the reamer is close to the puncture tool (which is a common requirement), this requires working close to the bottom of the hole where sand or silt can often be present. In practice, it has been found that they are trapped in the bearing between the support surface of the shaft end parts and the bearing surface, which is accompanied by premature damage to the bearings and their seals.

In addition, the bearings are placed outside the rollers and the structure of the bearing blocks is subjected to atmospheric pressure, which, when immersed in the drilled hole containing water, results in a large difference in pressure between the inner and outer blocks, causing them to clog. abrasive material along the sealing rings and reaching the bearing surfaces, which impedes the work process.

Even when the ridge is positioned some distance above the bottom end of the drill bit, if the hole is deep and reaches spouting water. The latter will carry the sand and silt up the ridge. Very high pressure registrations are usually due to the spouting water.

Another disadvantage of this riber is that the high axial load that occurs when it is driven down is completely absorbed by the axial bearing, which exerts excessive strain on the bearings and reduces their durability.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a rotary roller roller with improved construction and increased reliability of the bearing scheme, which improves lubrication of the bearings and significantly reduces the penetration of abrasive material between the support surfaces, when reliably and reliably free rotation of the roller.

The problem is solved by a rotary roller reamer of the type used for re-drilling of the drilled holes, consisting of a body with multiple rolls, placed in corresponding slots, located along the periphery and radially inwards from the outer surface of the body of the reamer. Each slot has a central part and two end portions in which a pair of bearing blocks are mounted, fixed by wedge-shaped blocks, secured to the body by means of fasteners. At the periphery of each roll, there are a plurality of sockets housing working members, which are in the form of inserts with rounded ends of the projecting outward part. Each roll has a shaft with two end parts mounted in the bearing blocks to which sealing rings are provided. According to the invention, walls defining a cylindrical groove drawn in an axial direction and additional walls defining an opening extending from a cylindrical groove to an outer surface of the shaft are formed in the shaft of each roll. A piston is mounted freely sliding into the cylindrical groove between one outer end and the opening defined by the additional walls. The roll is configured to rotate the outer surface of the shaft and is designed so that the piston is mounted with the possibility of linearly moving non-pressure transmitted to its outer end, transferring this pressure to the lubricant located in the cylindrical channel, pushing it through the hole to the bearing surface.

In one preferred embodiment, the rotary roller reamer according to the invention is configured so that the cylindrical channel is open to one end of the shaft, to which end walls are formed defining a ventilation opening extending from the open outer end of the cylindrical channel to the environment surrounding the rib. . The vent is connected to the outer end of the cylindrical conduit to transmit atmospheric pressure from the environment surrounding the ridge to the outer end of the piston.

According to this embodiment, it is possible for the rotary roller roller to comprise walls defining an additional groove drawn in an axial direction from the other end of the shaft and other additional walls defining a second opening extending from the second cylindrical groove to the outer surface of the shaft. Each of these openings, formed by the additional walls, is diametrical.

The rotary roller roller may preferably also be designed such that the second cylindrical groove ends at the other end of the shaft with a plug.

In another preferred embodiment of the invention, the ridge is further provided with a tube housed in the shaft, the first cylindrical groove being defined by its inner surface.

The rotary roller reamer according to this embodiment is well designed so that the outer surface of the shaft is substantially cylindrical, but with a flat portion to which each diameter hole is open.

According to another embodiment of the invention, a deep groove ball bearing is mounted in the structure of the rotary roller bearing mounted between two pairs of sealing rings, located one pair at each end of the shaft. The outer sealing ring of each pair is designed to seal the space between the bearing block, the shaft and the roller, preventing abrasion material from entering between their contact surfaces. The inner sealing ring of each pair is designed to prevent leakage of lubricant.

The rotary roller reamer according to the invention is provided with fastening screws mounted between the bearing blocks and the shaft to limit its rotation.

The advantages of the reamer are that the arrangement of the bearing blocks is more satisfactory, which is achieved by the piston moving freely in the cylindrical hydraulic groove and located between the support surface of the roller and the space outside it, thus affecting the lubricant, which is located in the cylindrical channel, with a pressure equal to almost atmospheric, thus reducing the difference in charges and at the same time ensuring the retention of the lubricant in the bearing structure.

As a result of this improvement and the success of the simultaneous use of end bearing blocks and locking wedges, it is possible to adopt the design of a roller rotating about a stationary shaft. This in turn makes it possible to use methods in which lubrication can be greatly improved and the penetration of abrasive material between the support surfaces is significantly reduced.

Another advantage of the reamer is that the sealing of the friction surfaces is significantly improved due to the use of two pairs of sealing rings, which makes it possible to further use ball or roller bearings to maintain the free rotation of the reamer. In addition, the bearing structure is better because of the presence of an additional bearing mounted between the shaft and the roller, which absorbs some of the high axial pressure obtained by inserting the rib in the hole.

Explanation of the annexed figures

One preferred embodiment of the invention is described in further detail and is illustrated in the accompanying drawings, of which:

Figure 1 is a partial view of the body of a reamer showing two of the three roller sets.

Figure 2 is a longitudinal section through FIG. 1 and drawn on a slightly larger scale.

Figure 3 is a cross-sectional view taken through line 3-3 of FIG. 2, drawn on an even larger scale.

Examples of carrying out the invention

According to this embodiment, the rotary roller reamer 10 is of a type used to re-drill a drilled hole, typically located close to the punching tool or preferably mounted slightly above its lower end. The functions of a reiber of this type are, first, to preserve the size of the hole when, due to wear, the effective diameter of the drill is reduced, and second, to smooth the surface of the drilled hole.

The construction of such a riber fulfills these functions.

The reamer 10 shown in FIG. 1 consists of a body which carries several rollers 11, each of which is a plurality of working members, made in the form of inserts 12 of tungsten carbide with rounded ends, established by a press assembly in sockets formed on the outer periphery of the rollers 11. The rolls 11 are housed in corresponding slots located at the periphery and radially inward from the outer surface of the rib body 10. Each slit has a central portion and two end portions in which a pair of bearing blocks 14 are mounted, fixed by wedge-shaped blocks attached to body fasteners 15. Each roll 11 has a shaft 13 whose end parts are mounted in the bearing blocks 14.

Since the wedge-shaped surfaces and their blocks can be easily dismantled, in this embodiment, each end portion of the shaft 13 is secured to the respective bearing block 14 also by means of fastening elements such as fastening brackets or as shown in FIG. 2 with concealed head screws 15 which come out together with the bearing blocks 14 when they are dismantled so that the screws 15 can be removed separately and access is not difficult.

Centrally, with a slight indentation in the edges, grooves 19, partially shown in FIG. 2 formed by the walls of an opening located at one end of the shaft 13 and a pipe 20 located at its other end. The wall of the pipe 20 serves as a heat-conducting wall, thereby reducing the temperature of the bearing close to it. The one shown in FIG. 2, the pipe 20 comprises a piston 21, which may conveniently be of elastomeric material and can slide freely therein. The outer end of the pipe 20 is open to a vent 22 formed in the body of the reamer 10 and the piston 21. As it is mounted freely sliding, it transmits such pressure inside the cylindrical channel 19, which is the atmospheric pressure around the punching tool, with very little difference.

This greatly improves the bearing structure. The shaft 13 is fixed as indicated and the roller rotates around it with a large bearing surface, thus reducing the load on the friction surfaces of the bearing. The rammer 10 is driven downwards by a very large axial load, for part of which is provided an additional deep-groove ball bearing 24 made of annular series of balls located in grooves 25 in shaft 13, and of a circular slit 26 formed in the inner wall of the roller 11. These balls may be inserted before mounting the inserts 12 of the roller 11 as shown in FIG. 2. The deep groove ball bearing 24 can absorb both axial and radial loads while operating the rib 10.

The inside of the roll 11, in the area of the cylindrical groove 19, is filled with grease through a plug 27. This grease is pushed through the piston 21, which supplies it with pressure like the outer one, which flows through the vent 22. It is possible to use two pairs elastic sealing rings 28, 29, the two rings 28 being mounted between the shaft 13 and the roller 11 and intended to prevent grease from leaking, and the other two rings 29 sealing the space between the bearing slots 14, the ends of the shaft 13 and the body of the roller 11 , as the main u nktsiya is to restrict the penetration of abrasive material to the sealing rings 28. The additional their function is to limit the access of moisture.

In order to provide access to the friction between the friction surfaces, two flat surfaces 30 connected to the cylindrical grooves 19 through diametrical openings 31 are formed to the shaft 13, and this provides lubrication, which is of great importance in the complex environment of the drilled hole, such as the flow of grease is pushed out of the pipe 20 to the flat surfaces 30 and through them to the supporting surfaces of the shaft 13 by atmospheric pressure exiting from outside.

Claims (8)

Claims 1. A basic type rotary roller roller used for drilling through drilled holes consisting of a body with multiple rolls placed in corresponding slots located at the periphery and radially inward from the outer surface of the rib body, each slot having a central a part and two end pieces in which a pair of bearing blocks are mounted, fixed by wedge-shaped blocks, secured to the body by means of fasteners, and a plurality of sockets are arranged at the periphery of each roll, in which elements, in the form of inserts with rounded ends of the projecting outward part, each roll having a shaft with two end parts mounted in the bearing blocks, to which are provided sealing rings, characterized in that the shaft (13 ) on each roll (11) are formed walls defining a cylindrical channel (19) drawn in an axial direction and additional walls defining an opening (31) extending from the cylindrical channel (19) to an outer (30) surface of the shaft (13). ), wherein the piston (21) is mounted freely sliding in a cylindrical jug (19) between its outer end and the opening (31), the roller (11) being rotatably mounted on the outer surface of the shaft (13) and constructed so that the piston (21) can be moved under the influence of the pressure transmitted to its outer end, in which it is possible to transmit this pressure to the lubricant located in the cylindrical groove (19) by pushing it through the opening (31) to the bearing surface. A rotary roller reamer according to claim 1, characterized in that the cylindrical groove (19) is open to one end of the shaft (13), to which an end defining walls defining a ventilation opening (22) extending from the open outer the end of the cylindrical channel (19) to the environment surrounding the ridge (10), the ventilation opening (22) being connected to the outer end of the cylindrical channel (19) to transmit atmospheric pressure from the environment surrounding the ridge (10) to outer end of piston (21). A rotary roller reamer according to claim 2, characterized in that it contains walls defining an additional channel, which is a second cylindrical channel (19) drawn in an axial direction from the other end of the shaft (13), and other walls defining a second opening. (31) extending from the second cylindrical channel (19) to the outer surface (30) of the shaft (13), each of the openings (31) being diametrical. Rotary roller reamer according to claim 3, characterized in that the second cylindrical groove (19) ends at the other end of the shaft (13) with a plug (27). A rotary roller reamer according to any one of the preceding claims 1 to 4, characterized in that an additional tube (20) is housed in the shaft (13), the first cylindrical channel (19) being defined by the inner $ pipe surface (20). Rotary roller reamer according to claim 4, characterized in that the outer surface (30) of the shaft (13) is substantially cylindrical, but also has a flat part (30) to which each diametric orifice (31) is opened. A rotary roller bearing according to any one of the preceding claims 1 to 15 ⁶ 'characterized in that a deep groove ball bearing (24) is provided between two pairs of sealing rings (28, 29) arranged one pair at each end of the shaft (13), such as the outer sealing ring (13). 29) of each pair is intended to seal the space between the bearing block (14), the shaft (13) and the roller (11), preventing the entry of abrasive material between their contact surfaces, and the inner sealing ring (28) of each pair is designed to prevent leakage of lubricant. A rotary roller reamer according to any one of the preceding claims 1 to 7, characterized in that fixing screws are mounted between the bearing blocks (14) and the shaft (13) to limit its rotation.