JP4119489B2 - Supply device for wire supply of rock bolt driving machine - Google Patents

Description

The present invention relates to a wire supply device for a rock bolt driving machine. The supply device includes at least one pair of feed wheels, the wire passes between the wheels during wire supply, and the supply device further includes a single feed motor that rotates the feed wheel.
When a lock bolt is driven, it is necessary to use wire bolt driving for a long hole. In this case, a wire prepared on a reel is pushed into a hole opened by a drill and further bonded thereto. The most common method is to manually push the wire into the hole and then apply adhesive to the hole. This technique is unreliable, labor intensive and dangerous. For example, U.S. Pat. No. 4,728,219 is known in detail regarding the bolt driving machine. In these bolting machines, the adhesive is first fed into the holes and then the wire is mechanically pushed into the adhesive.
In the supply apparatus disclosed in Finnish Publication No. 831,481, supply is performed using three feed wheels which are arranged in a triangular shape and from which bolts are supplied. In this manner, the bolt is bent by pressing the two feed wheels against a third feed wheel located in the middle and opposite the wire, causing the bolt to bend. During normal feeding, the relative positions of the wheels remain fixed.
Such a mechanical feeding method can be adopted as a simple method when the thickness of the wire is always constant. On the other hand, this method cannot be used for so-called spherical anchor wires. Spherical anchor wires have regularly spaced points where the strands of the wire are spread out into smaller sections that are thicker than other sections, allowing the adhesive to penetrate between the strands of the wire. The wire is effectively fixed in place. In a general mechanical supply device, the enlarged section is compressed and cannot be used.
An object of the present invention is to provide a supply device that can supply such a spherical anchor wire while maintaining its shape essentially. In the supply device according to the present invention, at least one feed wheel of the pair of feed wheels is mounted so as to be movable in the lateral direction of the wire with respect to the body of the supply device, and the load means is connected to act on the feed wheel. The feed wheel presses the wire placed between the pair of feed wheels with a required force by the action of the load means, and during this time, the wheel responds to the thickness of the wire laterally with respect to the supplied wire. And is movable.
The basic idea of the present invention is that one feed wheel of a pair of feed wheels or, if necessary, both feed wheels are connected to a load means, which keeps the pressure between the feed wheels substantially constant. is there. Thus, both feed wheels press the wire placed between them with a force set appropriately in advance not to damage the wire, while the wheels move away from each other as the wire thickness changes However, the load remains virtually unchanged. The basic idea of a preferred embodiment of the present invention is that it is composed of two feed wheel pairs, and the wire passes between each feed wheel pair during supply. Another essential feature of the present invention is that each feed wheel of the wheel pair located on the opposite side of the wire is attached to a bogie, which is connected to the two wheels when the enlarged section of the wire reaches the feed wheel pair. By rotating around an attachment shaft in the middle of the wheel, the wheels can move away from each other. Another basic idea is that the bogie is connected from its central axis to a load means, which is actuated by a pressure medium, maintaining the supply force acting on the wire essentially constant and expanding. The supply force is essentially reduced by keeping the bogie part away from the wire and correspondingly having an undoing pressure so that the supply force remains essentially constant as the section passes between the feed wheels. Constant. In another preferred embodiment of the invention, each feed wheel pair consists of one drive wheel and one free rotating wheel, where both feed wheel pairs feed the wire in essentially the same way. Will do. In yet another preferred embodiment, one of the free rotating wheels is a measuring wheel whose rotation generates a measurement signal proportional to the wire feed length, thereby simplifying and facilitating the wire feed length. Can be measured by various methods.
The present invention will be described in more detail with reference to the accompanying drawings.
FIG. 1 is a schematic side view of a supply apparatus according to the present invention.
FIG. 2 is a simplified hydraulic system diagram of the supply apparatus according to the present invention.
FIG. 3 is a schematic side view of another supply apparatus according to the present invention.
FIG. 1 schematically shows a wire feeder according to the present invention. The supply device is composed of a body 1. The supply device is also composed of two pairs of feed wheels, the first pair consisting of feed wheels 2a and 2b and the second pair consisting of feed wheels 3a and 3b. One wheel of each feed wheel pair is in this case wheels 2a and 3a, but is mounted so as not to move relative to it except that it can rotate relative to the body 1. Furthermore, the other wheel of each feed wheel pair, namely wheels 2b and 3b, is attached to a separate bogie section having a bogie frame 4. The feed wheels 2b and 3b are connected so as not to move except that they can rotate with respect to the bogie frame 4. On the other hand, the bogie frame 4 is movably connected to the body 1 so that the bogie frame is fed to the body in a direction essentially perpendicular to the axis of the feed wheel. Can move toward or away from wheels 2a and 3a. For this purpose, the bogie frame 4 is a pressure medium cylinder connected to the load means 6 from the midpoint of the feed wheels 2b and 3b attached to it, in this case the body 1, Is attached so as to be rotatable about the attachment shaft 5. The bogie frame 4 is attached to the piston rod of the pressure medium cylinder and can rotate relative to the rod about an attachment shaft 5 parallel to the axis of the feed wheel. In order to achieve the feeding purpose, the wire 7 is arranged to pass between each feed wheel pair, ie between the feed wheels 2a and 2b and 3a and 3b, respectively, and pressure is applied between them. Due to the pressure provided in the pressure medium in the pressure medium cylinder functioning as the load means 6, when the feed wheels 2a and 2b and 3a and 3b are respectively pushed into the holes filled with adhesive, They will push each other with the force necessary to advance the wires in the required manner.
When the so-called spherical anchor wire shown in FIG. 1 is used, the forward movement of the wire pushes the feed wheels belonging to the same feed wheel pair so that the expanded section 7a of the wire moves away from each other. In this state, one feed wheel mounted on the bogie frame 4, for example the wheel 3b, moves away from the other feed wheel 3a, so that the enlarged section is not damaged and is based on an active pressure medium. Sufficient supply capacity is maintained. Since the other feed wheel pair usually does not change its distance at the same time, the bogie frame 4 naturally rotates around its mounting shaft 5. When the enlarged section 7a passes through the feed wheel pair, the feed wheel 3b moves along the surface of the wire 7 toward the other feed wheel 3a by the pressure action of the pressure medium. A similar movement occurs in the feed wheels 2a and 2b when the enlarged section 7a reaches them.
In order to provide a supply force, each pair of feed wheels includes a feed motor, one of the wheels of each pair includes a motor and the other wheel rotates freely. In the embodiment shown in the figure, feed motors 8a and 8b are installed, the feed motor 8a rotates the feed wheel 2a, and the feed motor 8b rotates the feed wheel 3b. The feed wheel 2b rotates freely with respect to the bogie frame 4, and the feed wheel 3a rotates freely with respect to the body 1 correspondingly. The feed wheel 3a is preferably configured as a measuring wheel that gives a signal to the sensor 9 during rotation, so that the supply length of the wire 7 can be accurately measured and the supply state of the wire into the hole is easy. Can be monitored.
The feed wheel 3a is provided with recesses 3a ′ machined at regular intervals around the feed wheel 3a. Correspondingly, the body 1 is provided with a sensor 9 for generating an electric pulse when the recess reaches it. The sensor 9 is preferably an inductive sensor that operates even in difficult environments and has high reliability. Of course, other types of sensors known per se can be used for measuring the rotation of the measuring wheel 3a and for measuring the supply length of the wire.
FIG. 2 schematically shows the hydraulic system of the supply device of FIG. 1 in relation to the operation of the supply device. At the time of supplying the wire, the pressure fluid is supplied to the load means 6 through the duct 10a, whereby the hydraulic cylinder piston 6a acting as the load means comes out and is connected to the bogie frame 4 shown in FIG. Feed wheels 2b and 3b shown in the upper part of FIG. 1 are attached to the body 1 and pushed toward the feed wheels 2a and 3a shown in the lower part of the figure. By adjusting the pressure in the duct 10a, the pressure applied to the wire between the feed wheels is moderated and, for example, when a spherical anchor wire is used, the expanded section of the wire is not compressed. In order to keep the load essentially constant, the duct 10a is connected to a pressure reservoir 11 having a pressure of, for example, 50 bar. As the enlarged section of the wire passes between the feed wheels, the piston 6a moves and the pressure fluid flows from the duct 10a into the pressure reservoir 11 and vice versa, so that the pressure remains essentially unchanged. is there. The pressure medium is released through the duct 10a as the piston 6a moves forward, but for example when setting a new wire between the feed wheels or for some other reason to move the piston 6a all the way back. It is also possible to supply a pressure medium through this duct. Also shown in FIG. 2 are feed motors 8a and 8b, which are hydraulically connected in parallel, pressure fluid is simultaneously supplied to each motor through duct 12a, and the pressure fluid flowing in the motor is duct 12b. Released through. The pressure fluid coming through the duct 12a reaches the control circuit 13, where it is distributed through separate ducts 14a and 14b to the feed motors 8a and 8b, respectively. In order to rotate both motors at the same speed, the control circuit 13 is composed of pressure control throttles 15a and 15b that are controlled by the pressure of the pressure fluid passing through the other motor. In this method, since the control circuit 13 distributes the pressure fluid to each motor at exactly the same flow rate, their rotational speeds are also the same. As a result, both feed wheel pairs constantly pull the wire at the same speed and do not cause slipping or idle rotation.
FIG. 3 is a schematic side view of another embodiment of the supply apparatus according to the present invention. Although the supply apparatus shown in this figure is another method, it corresponds to that shown in FIG. 1, and for example, reference numerals are attached to corresponding parts. The difference is that instead of the bogie part, each upper feed wheel 2b and 3b is provided with a separate loading means 6 'and 6 ", respectively. In this embodiment, the feed wheels 2b and 3b are slidable. Since the body 1 is movably installed by a known method such as a mechanism, the body 1 can move toward or away from the counterpart feed wheels 2a and 3a. The load means 6 ′ and 6 ″ of each upper feed wheel 2b and 3b are, for example, hydraulic cylinders connected to pressure reservoirs as shown in FIG. 2 or pneumatic cylinders which have been given sufficient pressure in advance. is there. Air or gas stored in the pneumatic cylinder allows the drive wheels 2b and 3b to move backward and forward depending on the wire thickness without adding pressure fluid ducts or other extra parts .
Although the present invention has been described with reference to examples only in the above specification and drawings, the present invention is not limited thereto in any way. The feed motors can be arranged in different ways and can be connected hydraulically in series so that, for example, the same pressure fluid flows through each motor in different ways. The wire feed measurement can also use a different measuring device known per se, and if desired, a separate feed motor can be used in each feed wheel. The load means 6 may be a pressure medium cylinder directly connected to the bogie as shown, or may be indirectly attached to it by different mechanical transmission means. Further, in the drawing, two of the feed wheels are fixedly attached to the body 1, and the other two wheels 2b and 3b are movable and rotatably attached to the bogie frame. However, it is also possible to connect the fixedly arranged feed wheels 2a and 3a to their own bogie frames. In fact, although this arrangement is not always necessary, the embodiment shown in FIG. 1 is very useful in use. It is also possible to attach the feed motor to, for example, three feed wheels or all wheels. If only one set of feed wheel pairs is used, the loading means can be connected to act on one in the wheel, and similarly if two sets of feed wheel pairs are used Can include loading means on one or both wheels of each feed wheel pair, which keeps the compressive force essentially constant at a preset level, while the feed wheels are It is possible to approach and move away from each other without causing substantial fluctuations in the compressive force in response to changes in the thickness of the sheet.

Claims (9)

At least one pair of the feed wheels arranged to pass between the feed wheels when the wire is supplied, load means for pressing the feed wheel pairs against each other, and rotating the feed wheel when the wires are supplied A feed device for supplying a wire of a rock bolt driving machine including one feed motor, wherein at least one feed wheel of the feed wheel pair moves in a direction perpendicular to the wire with respect to the body of the supply device The load means is operatively connected to the feed wheel, the feed wheel pressing the wire placed between a pair of feed wheels with a required force, whereby the wheel is fed to the wire which is, in the vertical direction, depending on the thickness of the wire Lock bolt driving tool of the wire feed supply device, characterized in that the movable. 2. The supply device according to claim 1, wherein the supply device includes two feed wheel pairs, and the load means is connected to act on at least one feed wheel of each feed wheel pair. A supply device for supplying a wire of a rock bolt driving machine. 3. The supply device according to claim 2, wherein one feed wheel of each pair of feed wheels is attached to a bogie frame movable with respect to a body of the supply device, and the bogie frame is attached to the frame. A supply device for supplying a wire of a rock bolt driving machine, wherein the feed wheel is rotatably connected to the load means. The supply device according to any one of claims 1 to 3, wherein the supply device includes two feed motors, and the feed motor rotates one feed wheel of a pair of feed wheels. A supply device for supplying a wire of a rock bolt driving machine, characterized in that: The supply device according to any one of claims 1 to 4, wherein the feed motor is disposed in a plurality of pairs of feed wheels and rotates the feed wheels provided on opposite sides of the wires. A supply device for supplying a wire of a rock bolt driving machine, characterized in that: 6. The supply device according to claim 1, wherein the load means is a pressure medium cylinder. 7. The supply device according to claim 6, wherein the bogie frame is directly connected to a piston rod of the pressure medium cylinder acting as the load means. apparatus. The supply device according to any one of claims 1 to 7, wherein at least one of the feed wheels is a measurement wheel, and the supply device rotates the measurement wheel and the rotation. A supply device for supplying a wire of a rock bolt driving machine, comprising a sensor for detecting the supply length of the wire. 9. The supply device according to claim 8, wherein the measuring wheel is a feed wheel that freely rotates.

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