RU2221128C1 - Plant for service line driving, gears to form and expand holes, fixture to align shaft of expanding gear with driving rod - Google Patents

Abstract

FIELD: service line driving through artificial and natural obstacles with use of hole expanding gears. SUBSTANCE: present invention includes group of inventions forming single inventor's intention. First object of intention is plant for service line driving with rotator of shaft of expanding gear that includes planetary reduction gear. Torque is transmitted through driving rods to shaft of expanding gear either from drive gear wheel of reduction gear or from pole. Mechanism moving carriage comes in the form of chain-and-sprocket transmission arranged by circuit of carriage double travel. Second and third objects of invention are sectional expander forming holes and expander enlarging holes. Rear section of first expander comprises cylindrical rollers stabilizing direction of movement and rear section of second expander includes conical collapsible rollers fitted with additional eccentric bushings. Fourth object of invention is fixture aligning shaft of expanding gear with driving rod which is supplemented with mechanisms turning guide in vertical and horizontal planes and mechanism of its reciprocating motion. EFFECT: increased reliability and efficiency, reduced labor input to driving operations. 7 cl, 19 dwg

Description

The present invention relates to construction equipment, and more specifically to installations for trenchless laying of communications (cable, heat, water, drainage, sewer and other networks) using well rails. The proposed installation is mainly intended for laying communications in the ground through artificial and natural barriers (roads and railways, airfields, underground structures, streets, sidewalks, lawns, parks, etc.).

Closest to the proposed technical solution is the installation (carriages) for launching the rails for the purpose of formation (expansion) of wells in the ground into which communications are then laid (RF patent No. 2000390). The installation consists of a base pivotally connected to the base of the guide, which is mounted with the possibility of rotation in a vertical plane and fixed in intermediate positions, a mechanism for turning the guide, the carriage with the ability to move it along the guide, a mechanism for moving the carriage and rotator to drive the roll shaft through a set of drive rods interconnected with support couplings in contact with the walls of the well. In the known installation, when the drive rods rotate, large friction forces arise between the couplings connecting the rods and the borehole walls. This circumstance limits the scope of the installation by the driving range and the diameter of the borehole for communication. In addition, the installation does not provide adjustment of the position of the guide in the horizontal plane, thereby increasing the complexity of the work on its installation in a given direction.

The closest analogue of the proposed reamer for well formation is the reamer (application No. 98104119, B.I. No. 35, 1999), which is made sectional and includes a drive shaft located eccentrically on the drive shaft and connected to the latter by eccentric bushings mounted on bearings rolling with the possibility of rotation relative to the drive shaft conical rollers and spacers installed between the eccentric bushings in each roller to prevent axial movement of the eccentric bushings. The disadvantages of the known design of the roll can be attributed to the low accuracy of penetration. In heterogeneous soils, the roller deviates from a given direction.

The closest analogue of the proposed reamer for expanding the well is a reamer (application No. 98104119, B.I. No. 35, 1999), containing a drive shaft connected to the drive rod, eccentric bushings mounted on the drive shaft, rolling bearings mounted on the eccentric bushings, on which with the possibility of rotation relative to the drive shaft, conical rollers gradually increasing in diameter are installed, sealing elements located between the end of each roller and the flange of the corresponding eccentric sleeve, a device for pulling into a widened communication well connected with the end of the drive roll shaft by means of a swivel.

A disadvantage of the known design of the reamer is the small resource of its work, since with minor curvature of the well, the front end of the shaft can break. In addition, the reamer may be lost due to the inability to extract it from the well due to jamming during the expansion process.

The closest in technical essence and the achieved result to the proposed device for centering the roll shaft with a drive rod is a device for centering and guiding pipelines during trenchless laying of communications (AS USSR No. 945301 B.I. No. 27, 1982), containing a platform mounted on the bottom of the receiving pit, a guide, an adjustment mechanism mounted between the platform and the guide, comprising a jack for raising and lowering the guide, a mechanism for moving the guide left or right in a horizontal plane.

The known design of the device does not provide rotation of the guide in the vertical and horizontal planes, and also does not provide reciprocating movement of the guide, which increases the complexity of the centering of the roll shaft with the drive rod.

The aim of the present invention is to expand the scope of the installation for trenchless laying of communications and reducing the complexity of the work; improving the accuracy of penetration of the reamer for well formation and increasing the reliability of its operation; an increase in the service life of the reamer for expanding the well and an increase in the reliability of its operation, as well as a decrease in the laboriousness of the centering of the reamer shaft with the drive rod.

This goal is achieved in that the rotator for driving the roll shaft includes a planetary gear comprising a pinion gear, a carrier, a set of satellites mounted in the carrier, and a central wheel meshed with the pinion gear through the satellites, while selecting torque through the drive rods on the rolling shaft is produced either from the pinion gear or from the carrier, and the mechanism for moving the carriage is made in the form of a chain transmission according to the scheme of doubling the stroke of the carriage, and the installation is additionally bzhena mechanism for rotating the guide in the horizontal plane, which is designed as a flange connection, and the mechanism for rotating the guide in a vertical plane formed by the type of screw - nut.

The rear section of the rolling mill for the formation of a well consists of cylindrical rollers stabilizing the direction of movement, the first and last rollers of this section having a conical shape, while in the first and last rollers of the rolling sections there are installed angular contact rolling bearings, pressed from the rear roller by a screw, and in a spring is installed on the drive shaft tail to tighten all the eccentric and spacer sleeves to each other to select a gap between them.

The reamer for expanding the well is made sectional, the rear section of the reamer consists of folding conical rollers equipped with additional eccentric bushings mounted on the drive shaft and rolling bearings located between the eccentric bushings and additional eccentric bushings, while the front end of the drive shaft of the first section of the racer is connected to the drive rod by means of an articulated cam clutch, which is made in the form of two half couplings pivotally connected to each other by a shaft m, while the outer surfaces of the coupling halves further set of rolling bearings, one of which is mounted with the outer spherical bearing surface, and on the other - a tapered roller with internal spherical surface interacting with the outer surface of the support.

Moreover, the reamer for expanding the well is equipped with a device for tightening the communication into the extended well, including a shell and a cone, on which crackers are mounted with the possibility of their movement in the radial direction using a screw rod located inside the cone.

For centering the drive shaft of the reamer expanding the well with the drive rod, the device is additionally equipped with mechanisms for turning the guide in the vertical and horizontal planes and a mechanism for reciprocating movement of the guide with the possibility of placement on the last reamer.

The invention is illustrated by a specific example of its implementation and the accompanying drawings, in which:

Figure 1 - installation for trenchless laying of communications.

Figure 2 is a view along arrow A in figure 1.

Figure 3 - planetary gear. The selection of torque from the drive gear.

Figure 4 - planetary gear. Selection of torque from the carrier.

5 is a drive rod.

6 is a flange.

Fig.7 is a section aa in Fig.6.

Fig. 8 shows a tool for forming wells.

Fig.9 - node a in Fig.8.

Figure 10 - node B in Fig.8.

11 is a reamer for expanding wells.

Fig.12 - node a in Fig.11.

Fig.13 - node B in Fig.11.

Fig.14 - node In Fig.11.

Fig.15 - node G in Fig.11.

Fig - a device for centering the shaft of the roll with a drive rod.

Fig.17 is a section aa in Fig.16.

Fig is a diagram of the formation of wells through the road.

Fig. 19 is a diagram of a well expansion and pulling communication through an automobile road into an expanded well.

Installation for trenchless laying of communications figure 1, 2 consists of a base 1 connected by a hinge 2 with a guide 3, which is mounted with the possibility of rotation in vertical and horizontal planes, as well as fixing in intermediate positions, the carriage 4 with the possibility of its movement along guide; a carriage moving mechanism 5, made in the form of a chain drive according to a doubled stroke pattern, of a rotator 6 for driving the roll shaft through a set of drive rods 7, which is mounted on the carriage; and anchors 8 mounted on the base. The mechanism for rotating the guide in the horizontal plane is made in the form of a flange connection 9, and the mechanism for turning the guide in the vertical plane is made like screw-nut 10.

In the installation, screw stops 11 are installed on the ends of the base and the guide on both sides with the possibility of their movement and interaction with the walls of the working pit. The anchors installed on the base and intended for mounting the unit to the ground are equipped with a removable hydraulic motor 12. The rotator for driving the roll shaft is equipped with a planetary gear (Figs. 3, 4), which contains the pinion gear 13, carrier 14, a set of satellites 15 mounted in the carrier , and the central wheel 16, which is meshed with the pinion gear by means of satellites, while the selection of torque from the rotator through the drive rods to the roll shaft is performed either from the pinion gear (Fig. 3) or from the carrier (Fig. 4).

The drive of the rolling motor from the rotator is carried out through the drive rod (Fig. 5), one end of which is fastened with a flange connection 17 and a locking pin 18 (Fig. 6) with a flange 19 mounted either on the pinion gear or on the planet carrier gear with bolts 20 (FIG. 3), and the other end is secured via a spline connection 21 (FIG. 5) and locking pin 22 through a set of drive rods to the roll shaft. The torque from the rotator is transmitted through the pinion gear or carrier to the flange, then through a spline coupling 23 (Fig. 7), mounted in the flange with the possibility of its limited rotation relative to the axis of the flange, then through the drive rod to the roll shaft.

The reamer for well formation (Figs. 8, 9, 10) is made sectional and consists of a drive shaft 24 located eccentrically on the drive shaft and connected to the latter by eccentric bushings 25 mounted on bearings 26 for rotation relative to the drive shaft of the conical rollers 27 and installed between the eccentric bushings in each roller spacer bushings 28 to prevent axial movement of the eccentric bushings. The rear section of the rolling mill consists of cylindrical rollers 29 stabilizing the direction of movement, the first and last rollers 30 of this section having a conical shape. In the first and last rollers of the rolling sections, angular contact rolling bearings 31 are installed, pressed from the rear roller by bushings 32, 33, 34, 35 with a screw 36, and a spring 37 is installed in the rear of the rolling roller on the drive shaft to preload all eccentric and spacer bushings to each other to select a gap between them, and between the bushings 34 and 35, a sealing element 38 is installed.

An expansion tool for expanding the boreholes of FIGS. 11-15, comprising a drive shaft 39 connected to the drive rod, eccentric bushings 40 mounted on the drive shaft, rolling bearings 41 mounted on the eccentric bushings, on which conical rollers gradually increasing in diameter are mounted relative to the drive shaft 42, sealing elements 43 located between the end of each roller and the flange of the corresponding eccentric sleeve, connected to the end of the drive shaft of the roll by means of a swivel 44 a fixture 45 for drawing into an extended communication well. The reamer is sectional, the rear section of which consists of folding conic rollers 46 equipped with additional eccentric bushings 47 mounted on the drive shaft and bearings 48 located between the eccentric bushings and additional eccentric bushings, while the front end of the drive shaft of the first section of the racer is connected to the drive rod by means of an articulated cam clutch 49, eliminating the breakage of the roll shaft during bending of the well. The cam clutch includes two half couplings 50, 51 pivotally connected to each other by a shaft 52, while bearings 53 are additionally mounted on the outer surfaces of the half couplings, on one of which a support 54 with an external spherical surface is mounted, and on the other a conical roller 55 with an internal spherical surface interacting with the outer surface of the support. Folding rollers provide easy removal of the reamer from the well if necessary, for example, when the reamer encounters an obstacle. This is achieved by the fact that with a left rotation (reverse) of the rolling shaft, the axes of all the rollers of the rear section are shifted towards the axis of the well, resulting in a gap between the outer surface of the rollers and the well wall.

The device for pulling into the extended communication well (Fig. 15) includes a shell 56 and a cone 57 on which crackers 58 are mounted with the possibility of their movement in the radial direction with the help of a screw rod 59 located inside the cone.

The device for centering the roll shaft with the drive rod (Fig. 16, 17) contains a platform 60 installed on the bottom of the receiving pit, a guide 61, an adjustment mechanism mounted between the platform and the guide, comprising a jack 62 for raising and lowering the guide and a mechanism 63 for moving the guide left or right in the horizontal plane. According to the invention, for centering the drive shaft of the reamer expanding the well with the drive rod, the device is additionally equipped with mechanisms for turning the guide in the vertical and horizontal planes 64 and a mechanism for reciprocating movement of the guide 65 with the possibility of placement on the last reamer.

Installation for trenchless laying of communications works as follows. Consider this by the example of drilling a well under a highway (Fig. 18, 19). Before starting work, two pits are torn from two sides of the road: a worker 66 and a receiving 67. Installation 68 is installed in the working pit so that the axis of the roll 69 and the axis of the drive rods 70 are directed along the design axis 71 of the future well for communication. The installation is connected using hoses 72 to a pumping station 73 installed outside the working pit.

When the drive is turned on, the roller self-tightens into the ground. When the reamer moves, the soil is displaced in the radial direction and a well 74 is formed around which a compacted soil zone 75 is created. After the reamer enters the receiving pit, it is removed and a reamer is connected to the drive rod to expand the well (Fig. 19). The connection of the roll to the drive rod is carried out using a device (not shown) for centering the roll shaft with the drive rod. The expansion of the well and pulling in the extended well 76 of the communication 77 is carried out in the direction from the receiving pit to the worker. When the well expands around it, a compacted soil zone 78 is formed, which helps to increase the durability of the communication.

Claims (7)

1. Installation for trenchless laying of communications, including a base, a guide pivotally connected to the base, which is mounted with the possibility of rotation in a vertical plane and fixation in intermediate positions, a guide turning mechanism, a carriage with the ability to move it along the guide, a rotator to drive the rolling shaft by means of a set drive rods and a mechanism for moving the carriage, characterized in that the rotator for driving the roll shaft includes a planetary gear comprising a drive gear, carrier, a set of satellites mounted in the carrier, and a central wheel meshed with the drive gear by means of satellites, while the selection of torque through the drive rods on the roll shaft is made either from the drive gear or from the carrier, and the mechanism for moving the carriage is made in the form of a chain transmission according to the scheme of doubling the stroke of the carriage, and the installation is additionally equipped with a mechanism for turning the guide in the horizontal plane. 2. Installation according to claim 1, characterized in that the mechanism for rotating the guide in the horizontal plane is made in the form of a flange connection, and the mechanism for turning the guide in the vertical plane is made like a screw-nut. 3. An expansion tool for forming a well, which is sectional and includes a drive shaft, eccentrically located on the drive shaft and connected to the latter by eccentric bushings, tapered rollers mounted for rotation relative to the drive shaft and spacer bushings installed between the eccentric bushings in each roller to prevent axial movement eccentric bushings, characterized in that the rear section of the roll consists of stabilizing the direction of movement of the cylindrical rollers, p why the first and last rollers of this section are conical in shape, while in the first and last rollers of the rolling sections there are installed angular contact rolling bearings, pressed from the rear roller by a screw, and a spring is installed on the drive shaft on the drive shaft to preload all eccentric and spacers bushings to each other to select a gap between them. 4. A reamer for expanding a well, comprising a drive shaft connected to a drive rod, eccentric bushings mounted on the drive shaft, eccentric bushings mounted on the eccentric bushings, on which conical rollers gradually increasing in diameter are installed with rotation possibility relative to the drive shaft, sealing elements located between the end face of each roller and the flange of the corresponding eccentric sleeve, connected to the end of the drive shaft of the roll by means of a swivel device e for tightening communication into the extended well, characterized in that the reamer is sectional, its rear section consists of folding conical rollers equipped with additional eccentric bushings mounted on the drive shaft and bearings placed between the eccentric bushings and additional eccentric bushings the end of the drive shaft of the first rolling section is connected to the drive rod by an articulated cam clutch. 5. The reamer according to claim 4, characterized in that the cam clutch includes two coupling halves pivotally connected by a shaft, while bearings are additionally mounted on the outer surfaces of the coupling halves, on one of which a support with an external spherical surface is mounted, and on the other a conical roller with an inner spherical surface interacting with the outer surface of the support. 6. The reamer according to claim 4, characterized in that the device for tightening into the extended communication well includes a shell and a cone on which crackers are mounted with the possibility of moving them in the radial direction using a screw rod located inside the cone. 7. A device for centering the roll shaft with a drive rod, containing a platform mounted on the bottom of the receiving pit, a guide, an adjustment mechanism mounted between the platform and the guide, comprising a jack for raising and lowering the guide, a mechanism for moving the guide left or right in a horizontal plane, different in that for centering the drive shaft of the reamer expanding the well with the drive rod, the device is additionally equipped with mechanisms for turning on ruling in vertical and horizontal planes and a mechanism for reciprocating movement of the guide with the possibility of placement on the last rolling.

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