KR20200064483A - Bit for enlarging excavation hole - Google Patents

Abstract

Provided is a reaming bit which enables a simple and rapid operation. The reaming bit of the present invention comprises: a cylindrical body (10) having a plurality of entrances (12) for allowing the inside and the outside to communicate with each other; a plurality of upper wing bits rotatably supported by a support shaft (32) inside the body (10) to be unfolded to the outside of the body through the entrances (12); a plurality of lower wing bits rotatably supported by the support shaft (42) inside the body (10) corresponding to a lower portion of the upper wing bits, unfolded to the outside of the body through the entrances (12), and having a length extending to the outside more than that of the upper wing bits; a hydraulic cylinder (20) installed inside the body (10) to vertically move a piston (22); and a wing bit opening and closing means allowing lower ends of the wing bits to be unfolded to the outside of the entrances or to enter the inside of the entrances in accordance with the ascending and descending of the piston (22) by the driving of the hydraulic cylinder (20).

Description

Bit for enlarging excavation hole

The present invention relates to a bit for expansion, which is used for excavation construction, and more particularly, to a bit for expansion, which is configured to further expand the diameter of a drilling hole made of a constant diameter.

In general, it can be said that the construction of excavators in civil works mainly depends on bits. However, since it can be said that forming an excavation hole using a bit is directly related to the size of the bit, there is no limit to the size of the excavation hole that can be excavated. Therefore, a certain size or more of the excavator uses special equipment. In order to perform a relatively large-diameter excavation with such equipment, there is a disadvantage that it takes a long time despite using expensive equipment.

In order to solve this disadvantage, various bit assemblies having a wing bit have been proposed, and as an example, Korean Patent Application No. 10-2014-0129354 can be cited. In general, a bit having a wing bit for expansion, it is common to use a structurally complex mechanism or a hydraulic cylinder to maintain the state in which the wing bit is extended. And, for example, in the case of using a hydraulic cylinder, if the hydraulic cylinder breaks down, there is no way to fold the wing bit under construction, which is causing many difficulties in reality.

An object of the present invention is to provide an easy-to-expand bit for expanding an excavation hole formed to a predetermined size.

Another object of the present invention is to provide a drilling bit that is configured to remove the drilling component from the excavation hole without damage even when the hydraulic device is not operated.

The wing bit of the present invention includes a cylindrical body having a plurality of entrances communicating with the inside and the outside; A plurality of upper wing bits that are rotatably supported by a support shaft inside the body and can be extended to the outside of the body through a doorway; A plurality of lower wings having a length that is rotatably supported by a support shaft inside the body corresponding to the lower portion of the upper wing bit, can be extended to the outside of the body through an entrance, and extends outward more than the upper wing bit. beat; A hydraulic cylinder installed inside the body and capable of moving the piston in the vertical direction; And according to the lifting and lowering of the piston by the driving of the hydraulic cylinder, the lower end of the wing bit is configured as a wing bit opening and closing means to be opened to the outside of the doorway or to enter the inside of the doorway. Here, at least a part of the upper wing bit or the lower wing bit is a bit body which is rotatably supported about the support shaft, and a bit body which is rotatably supported with respect to the bit body and is provided with a plurality of biton tips on the outer surface. It is preferably configured.

According to the present invention as described above, it is expected that the advantage of making a large excavation hole more than a certain diameter more convenient. For example, in the case of using a hammer and a bit of a large diameter from the beginning, it took not only a lot of time, but also had an economical burden on the super-large equipment. You can also expect.

And when looking at the structure of the expansion bit of the present invention, the wing bit is extended or folded using a hydraulic cylinder, but it is configured to be able to fold the wing bit even when an abnormality occurs in the hydraulic cylinder. Therefore, it can be said that there is an advantage that can be quickly dealt with in the event of an abnormality in the hydraulic system during work. In addition, according to the specific shape and function of the wing bit of the present invention, it is expected that the most effective expansion operation is possible while expanding upward.

1 is an exemplary cross-sectional view showing a folded or unfolded state of the bit for expansion according to the present invention.
Figure 2 is an exemplary view of the wing bit of the first embodiment of the present invention.
Figure 3 is an exemplary view of the wing bit of the second embodiment of the present invention.
Figure 4 is an exemplary cross-sectional view for explaining the operation of the expansion bit of the present invention.

Next will be described in more detail with respect to the present invention based on the embodiment shown in the drawings.

As shown in Figure 1, the expansion bit of the present invention, a cylindrical body 10 and a plurality of wing bits (30, 40) which are installed on the body (10) and can be expanded from inside to outside by rotation ). And it is the same as in the prior art to perform the expansion operation while rotating the entire bit itself (not shown).

The upper portion of the cylindrical body 10 is provided with a connecting portion 2 that is connected to an external device (not shown) in order to put a bit for the expansion hole into the lower portion of the excavation hole. Since the connection part 2 is a configuration that has been widely applied so far, description of this part will be omitted.

In the center of the cylindrical body 10, a hydraulic cylinder 20 is supported in the vertical direction, and a lower portion of the hydraulic cylinder 20 is linearly reciprocated vertically by hydraulic pressure in and out of the hydraulic cylinder 20. A piston (or push rod) 22 for performing the movement is installed. And the wing bits (30, 40) in the present invention is installed in multiple stages, in the illustrated embodiment, it is installed in two stages, and is composed of an upper wing bit (30) and a lower wing bit (40). Able to know.

For example, three upper wing bits 30 are preferably installed at the same height, and the lower wing bits 30 are the same. The wing bits 30 and 40 are rotatably supported around the support shafts 32 and 42 on the inner surfaces of the body 10, respectively. Here, it can be seen that the support shafts 32 and 42, which are rotational support points, are set to a height higher than or equal to the middle of the wing bits 30 and 40.

Looking at the unfolding operation of the bit for expansion of the present invention, when the piston 22 is lowered by the driving of the hydraulic cylinder 20, the wing bits 30 and 40 are lowered toward the outside with respect to the support shafts 32 and 42. By rotating, it is in a state protruding outward as shown in Fig. 1C. And, as can be seen from (b) and (c), it can be seen that the upper wing bit 30 has a smaller length than the lower wing bit 40, so that the unfolded outer diameter is small. In the body 10 of the portion where the wing bits 30 and 40 are installed, entrances 12 for entrance and exit of the wing bits are respectively formed.

In addition, various embodiments are possible in a mechanical configuration in which the wing bits 30 and 40 are expanded outward according to the descending of the piston 22. In the illustrated embodiment, the expansion ring 52 and the reduction ring 54 are installed at regular intervals in the piston 20 to allow the wing bits 30 and 40 of each layer to enter and exit through the doorway 12. It is. The expansion ring 52 and the reduction ring 54 are installed in the same manner for the wing bits of different heights, respectively. And between the expansion ring 52 and the reduction ring 54, each wing bit (30,40) is provided so that the inner ends (32,42) of the wing bits (30,40) can be located.

Therefore, even in the present embodiment, when the piston 20 descends, the expansion ring 52 descends and pushes the inner upper ends 31 and 41 of the wing bits 30 and 40 downward. Therefore, the wing bits (30, 40) is rotated so that the lower end is spread outwardly around the support shafts (32, 42), and is in a state as shown in (c) via (b).

And when the piston 20 rises, the reduction ring 54 rotates the inner upper ends 31 and 41 of the wing bits 30 and 40 upward. Accordingly, the wing bits 30 and 40 rotate clockwise around the support shafts 32 and 42 to enter the inside of the doorway 12 and return to the state shown in (a). In this embodiment, when the position of the support shafts 32 and 42 of the wing bits 30 and 40 is set to a position that can enter the body 10 by the weight of the wing bit, the reduction ring 54 It is expected that it is possible to omit the configuration of.

Next, the wing bits 30 and 40 of the present invention will be described with reference to FIGS. 2 and 3. 2 shows one embodiment of the wing bit 30 installed on the upper portion. As shown in the enlarged view of FIG. 1, the wing bit 30 that can be installed on the upper side is a bit body 33 rotatable about a support shaft 32 and an outer side of the bit body 33 It consists of a bit rotating portion 34 that is rotatably supported at the end.

It can be said that the bit rotation part 34 is rotatably supported around the rotation support shaft 38 between, for example, the bit body 33. In addition, it is clear that a plurality of button tips 36 are installed on the outer surface of the bit rotation part 34 to further maintain the construction work. Here, the body 10 in the expansion bit of the present invention performs the expansion operation while rotating as a whole by the power transmitted from the upper portion of the prior art.

The bit rotation part 34 in the present invention rotates according to the reaction with the ground contacted by the rotation of the body 10 as described above. Therefore, a separate drive source does not need to be installed for the rotation of the bit rotation unit 34. The wing bit 30 having such a configuration is used as the upper wing bit in the illustrated embodiment, but it is natural that it cannot be limited to this position.

3 shows another type of wing bit 40 that can be used in the present invention. It can be seen that the wing bit 40 of this embodiment has a plurality of button tips 46 installed only on its upper and outer surfaces. It will be understood that the mounting portion of the button tip 46 is considered to perform the expansion work while the bit of the present invention rises.

Although the wing bit 40 is used as the lower wing bit in the present invention, it is natural that the present invention cannot be limited by these embodiments. Therefore, the above-described wing bit 30 or wing bit 40 will be able to selectively determine its position, but the wing bit installed on the lower side must have a more outer position than the wing bit installed on the upper side, which is advantageous for construction work. It is natural.

Next, with reference to FIG. 4, the overall operation of the expansion bit of the present invention will be described. As shown in (a), an excavation hole having a predetermined diameter is formed using a general hammer and bit, and an existing tool is removed as shown in (b). Next, as shown in (c), the expanding bit of the present invention is introduced to reach the lowest surface of the drilling hole as shown in (d).

At the lowest surface of the excavation hole, the high pressure oil is supplied to the hydraulic cylinder 20 to move the piston 22 downward. The wing bit (30,40) is spread outward according to the downward movement of the piston 22 has been described through a sufficient embodiment above. Then, the multi-stage wing bit (30,40) in the unfolded state through the connecting portion 2, the external device (Rod) is to rotate the present invention bit.

When the bit for expansion of the present invention is rotated, the wing bits 30 and 40 in a state protruding to the outside of the body 10 perform an expansion operation to further expand the drilling hole with respect to the inner surface of the drilling hole. In the expansion operation of the excavation hole, the bit rotation part 34 installed on the outer surface of the wing bit 30 located at the top will perform the operation while rotating, and the button tip 36 is more effective among these rotation operations. It is thought to enable excavation. In addition, the wing bit 40 is expected by the button tip installed only on the upper surface and the outer surface, an effective excavation operation will proceed.

And since the expansion bit of the present invention moves upward from the bottom of the excavation hole, it is preferable to design the upper wing bit 30 to have a shorter length than the lower wing bit 40. By designing the wing bits 30 and 40 so as to have such a length, it will be possible to smoothly expand to an excavation hole having a larger diameter.

A cross section of an excavation hole in a state in which a certain section of expansion work is completed is shown in (e). Here, when the expansion work is completed, the wing bits 30 and 40 are folded and folded into the body 10, and then taken out from the excavation hole. And folding the wing bit (30,40) means that by pulling the piston 22 upward, the wing bit (30,40) enters the inside of the doorway (12).

Here, an important point in the configuration of the present invention is when the hydraulic cylinder 20 fails. For example, even when the hydraulic pressure of the hydraulic cylinder is lost and the piston 22 cannot be raised, the bit for expansion can be lifted through an external device (rod) connected through the connection portion 2. When the entire expansion bit is lifted, the wing bit in the unfolded state is folded into the inside of the doorway 12 by reaction with the excavation surface.

Thus, the wing bit (30,40) is folded into the inside of the doorway 12, the reaction force of the excavation surface acting on the rising wing bit (30,40), such as the body (force pressing the wing bit downward) This is because the entrance 12 is molded so that the wing bits 30 and 40 can enter the inside of the body 10. Since the hydraulic cylinder 20 is designed to pass through the doorway 12 while rotating around the support shafts 32 and 42 as the piston 22 moves only in the vertical direction, the reaction force of the excavation surface As the wing bit is folded, it is possible to enter the doorway 12 inside.

Various other modifications are possible to those skilled in the art within the scope of the basic technical idea of the present invention as described above, and of course, the protection scope of the present invention is based on the matters described in the appended claims. It can be said that it should be interpreted.

In the illustrated embodiment, it has been described that the wing bits 30 and 40 are spread outward or inward by the expansion and contraction rings provided on the piston 22. However, in conjunction with the vertical movement of the piston 22, the wing bit (30, 40) is pivoted around the support shafts (32, 42) while being configured to expand outward or enter the inside, various changes are possible, of course to be. For example, it is natural for a person skilled in the art that the same operation can be achieved by simply configuring the link between the inner ends of the wing bits 30 and 40 and the piston 22 via a link. do.

2 ..... connections
10 ..... Body
12 ..... Entrance
20 ..... Hydraulic cylinder
22 ..... piston
26 ..... connecting ring
30 ..... upper wing bit
32, 42 ..... Support shaft
40 ..... lower wing bit

Claims (1)

A cylindrical body (10) having a plurality of entrances (12) communicating inside and outside;
A plurality of upper wing bits that are rotatably supported by the support shaft 32 inside the body 10 and can be extended to the outside of the body through the doorway 12;
It is rotatably supported by the support shaft 42 from the inner side of the body 10 corresponding to the lower portion of the upper wing bit, and can be extended outward of the body through the doorway 12, and more outward than the upper wing bit. Multiple lower wing bits with extended length
A hydraulic cylinder 20 installed inside the body 10 and capable of moving the piston 22 in the vertical direction; And
According to the lifting and lowering of the piston 22 by the driving of the hydraulic cylinder 20, the lower end of the wing bit is configured as a wing bit opening/closing means to spread outwardly or enter the inside of the doorway;
At least a portion of the upper wing bit or the lower wing bit, the bit body 33 is rotatably supported around the support shafts 32 and 42, and is rotatably supported with respect to the bit body 33 and the outer surface The bit for expansion, characterized in that consisting of a bit rotating body 34 is provided with a number of biton tips.

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