JPS58195691A - Civil engineering tool and protection from abnormally high cutting load - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to the field of earthmoving tools, such as those used in rock and coal cutting machines or channel construction and road maintenance machines.

For purposes of explanation, the invention will be described with respect to a road planer, a particular type of road construction and road maintenance equipment.

The tools to which this invention relates are the base,
It consists of a block (sometimes called a lug) and a bit that is in contact with the processing medium. Bits can be of any of several types known in the art.

A normal consequence of utilizing tools in a corrosive processing medium, such as soil, is that the tools wear out and therefore have to be cleaned.

The time during exchange is greater than when the bit is tipped with a negative wear resistant material such as tungsten carbide (i3!).

The tool is mounted on a rotating rotor to drive the bit into the soil. Often, the base and block are welded to the rotor, and the bit is removably attached to the block. In normal operation, only the bits should be replaced and not the &"'. However, it is recognized that the block itself can also become worn or even broken. In this case, the entire machine should be put out of operation. , an ILC welding machine must be deployed to remove the old block and then install the new block. Leaving such an expensive machine idle involves considerable expense.

Therefore, it is desirable to also make the blocks interchangeable, as shown, for example, in U.S. Pat. No. 2,905,456, U.S. Pat.

This is just a K that partially solves the problem.

That is, if an underground obstruction is encountered, such as a buried railway track, manhole ring, expansion plate or deck plate on a bridge, an abnormally high cutting load will be applied to the bit and the base itself will be stripped from the rotor. Become. If this happens, the '□jJ' machine must be shut down and placed as before!
I have to do it for 1 month. , □・11° One way to improve this situation is to make the base and block sufficiently heavy to withstand the cutting force. This is shown, for example, in US Pat. No. 3,749,449. The result of this design is that the rotor becomes very heavy due to the reinforced base and block, and the force available for cutting action through the bit is somewhat reduced. Of course, such a design would also be expensive.

The present invention overcomes these drawbacks of the prior art.

Therefore, one object of the present invention is to provide a base and block assembly that is both electrically conductive and durable.

Another object of the invention is to make the base block assembly more usable and efficient.

Yet another object of the invention is to allow the blocks of the base-block assembly to be replaceable, yet firmly held by the base during operation.

Yet another object of the invention is that the base of the block assembly is protected from abnormal cutting loads. It is to do so.

In accordance with the present invention, a sump assembly for use with an earthmoving bit is disclosed. A base and a block that engages within the base is provided.

The block has a shank part and a tool holder part.

A tool holder portion extends from the first end of the shank portion and is adapted to receive an earthmoving bit. A mechanism is also provided for preferentially disabling the block when subjected to abnormally high cutting loads.

The base has a T-shaped quad formed by the intersection of a vertical slot and a horizontal slot. The block has a T-shaped portion extending from the second end of the shank portion. When fully engaged, the T-shaped portion slides into the T-shaped recess.

The deactivation mechanism is located on the shank portion and preferably comprises:
It is on the shank part between the tool holder part and the T-shaped part. Preferably, the deactivation mechanism also consists of a segment of the shank part whose cross-sectional area is reduced relative to the remainder of the shank part. Most preferably, the reduced cross-sectional area segments consist of groups arranged along at least one aspect of the shank portion.

The base also has a top portion consisting of two intersecting surfaces.

Each top portion surface is inclined relative to the horizontal plane. The block also has a bottom portion consisting of two intersecting surfaces extending outwardly from the first end of the shank portion. Each bottom surface is inclined with respect to the horizontal. The top surface of the crested base where the block engages the base directly opposes the bottom surface of the block. Preferably, the angle that each of the top portion surfaces of the base makes with the horizontal plane and the angle that each of the bottom portion surfaces of the block make with the horizontal plane is about lO.

Further preferably, the horizontally slotted top portion surfaces of the base diverge from each other towards the rear of the base. The T-shaped portion and bottom surface of the block are also parallel to each other toward the rear of the block.
Diverges to +'. When the block moves backwards in the pace, the diverging grin pace and the block wedge into engagement.

Also in accordance with the present invention, the base block assembly preferably includes a mechanism for retaining the block in fixed engagement engagement within the pace. Preferably, the retention mechanism comprises a fastening means and a threaded recess formed in the rear of the shank portion.
and a hole formed at the rear of the T-shaped recess. The holes and threaded recesses align when the block engages the base. The fastening means passes through the bore and engages the threaded recess.

In accordance with the present invention, a block for use with an earthmoving bit is disclosed. A tool holder portion is provided extending from the shank portion and a first end of the shank portion and adapted to receive an earthmoving bit. A mechanism is also provided for preferentially disabling the block when subjected to abnormal cutting loads.

Preferably, the block also It has a T-shaped portion extending from the two ends.

Preferably, the deactivation mechanism is located on the shank portion! More preferably, the deactivation mechanism is on the shank part between the tool holder part and the T-shaped part. The deactivation mechanism consists of a segment of the shank part whose cross-section 11-area is narrower than the rest of the shank part. Most preferably, the reduced cross-sectional area segments consist of a small group of shank portions arranged along one circumference.

The block also has a bottom portion consisting of two intersecting surfaces extending outwardly from the first end of the shank portion. The surface of each paper section is inclined with respect to the horizontal plane. Preferably, each of the bottom portion surfaces makes an angle with the horizontal of about 10 degrees. Preferably, the T-shaped part and the bottom part surfaces diverge from each other towards the rear of the block.

Accordingly, a method for preserving the base of a block assembly when used with an earthmoving bit is also disclosed. The method consists of preferentially weakening the block and engaging it with the base so that the block fails when exposed to an abnormally high cutting load l. Preferably, the preferential materializing process step consists of reducing the cross-sectional area of a portion of the block. Most preferably, the process step of reducing the cross-sectional area consists of forming groups along at least one circumference of the block.

The essence of the invention will be further understood from the following detailed description taken in conjunction with the accompanying drawings.

Referring to the drawings, FIG. 1 shows a base 2 and a block 4 as would normally be provided on a rotor 6. As shown in FIG. As shown,
The base is welded to the rotor as shown at 8.

FIG. 2.3 shows a block 4 with a base 2 and an earthmoving bit 1o. The illustrated bit is a rotatable bit with a dedicated keeper, but it could be any of several types known in the art. 4 shows a cross section of the base of FIG. 3 showing the engagement of the base, block and fastening means; FIG.

4-8, an assembly for use with an earthmoving bit according to the present invention is disclosed. There is a block 4 that engages the base 2 and the pace. The block has a shank portion 12 and a first end 1 of the shank.
6 has a tool holder portion 14 which extends and is adapted to receive an earthmoving bit 10. A mechanism is also provided for preferentially hv stopping the block when subjected to abnormally high cutting loads.

The base has a T-shaped recess 18 formed by the intersection of a vertical slot and a horizontal slot ρ.

The block has a T-shaped section extending from the second end of the shank portion. The T-shaped portion slidably engages the T-shaped quadrant.

Preferably, the deactivation mechanism is located on the shank portion 12. Further advantageously, the deactivation mechanism can also be arranged on the shank part between the tool holder part and the T-shaped part: □. The deactivation mechanism consists of a shank part λ-piece whose cross section is reduced compared to the rest of the shank part. Most preferably, the reduced cross-section segment comprises a group of holes arranged along at least one aspect of the shank portion.

To achieve the objectives of the invention, it is necessary that the groups be arranged along at least one aspect. However, it is also within the scope of the invention for the groups to be arranged on two or three or all circumferential surfaces of the shank portion.

Similar designs are also within the scope of this invention, such as any thinning of the cross-section of the shank.

The base may also have a top part consisting of two intersecting surfaces, 31). Each top portion surface is inclined relative to the horizontal plane 32. The block also has a bottom portion consisting of two intersecting surfaces, each bottom portion extending outwardly from the first end 16 of the shank portion, each bottom portion being inclined relative to the horizontal plane 36. When the block engages the base, the top of the base will be closed. Wow. □1. A = Ministry A, 2.0 O,.

This is best seen in Figure 2, where the top surface is 38
is opposite the bottom surface.

Purpose of tilting the bottom part surface and the top part surface 15- This is to accommodate the lateral load of the earthwork bit.

The angle 40 that each of the top surfaces of the base makes with the horizontal plane and the angle 40 that the bottom surface of the block makes with the horizontal plane are approximately 1
Preferably, the angle is 0 degrees.

Preferably, the horizontal slots 22 of the base and the top portion surfaces diverge from each other towards the rear 42 of the base. The T-shaped section and bottom surface of the block similarly diverge from each other toward the rear portion 44 of the block. As the block moves rearward within the base, the divergence of the shears causes a wedge engagement between the base and the block.

In addition, the present invention is provided with a mechanism for holding the base and the block in an immovably engaged state. It is desirable to avoid such MAs.

Preferably, the retention mechanism comprises a fastening means, a threaded recess 48 formed in the rear part 44 of the shank portion, and a hole formed in the rear part 42 of the T-shaped recess '8.

The holes and threaded recesses 48 align when the block engages the base 16-. The fastening means passes through the hole and engages with the four threaded parts.

The fastening means is a bolt 46 and a lock washer 47 as shown in FIG. However, similar fastening means such as bolts and springs are also within the scope of this invention.

In accordance with the invention, a block 4 is disclosed for use with earthmoving bit 10. an earthmoving bit l extending from the shank portion 12 and the first end 16 of the shank;
A tool holder portion 14 adapted to receive an O is provided. A mechanism is also provided for preferentially disabling the block when subjected to abnormally high cutting loads. The block also has a T-shaped portion 24 extending from the second end of the shank portion.

Preferably, the deactivation mechanism is located on the shank portion;
Furthermore, it is preferably arranged on the shank part between the tool holder part and the T-shaped part. The deactivation mechanism consists of a segment of the shank portion whose cross-sectional area is reduced relative to the remainder of the shank portion. Most preferably, the reduced cross-sectional area segment consists of a grouping arranged along at least one circumferential surface of the shank portion.

Although groups are specifically shown and described, any similar feature that reduces the cross-sectional area of the shank portion is also within the scope of the invention.

The block has a bottom portion consisting of two intersecting surfaces extending outwardly from the first end 16 of the shank portion. Each bottom portion surface is inclined relative to the horizontal plane 36. The purpose of sloping the surface is to accommodate the side load of the earthmoving bit. Preferably, the angle 4 formed by each bottom surface with a horizontal plane is
0 is about 10 degrees. 5. .

4 also has barbs, T-shaped portions and bottom portion surfaces that diverge toward the rear portion 44 of the block.

In accordance with the present invention, a method of protecting the base of a beu-block assembly when used with an earthmoving bit is disclosed. This method is an unusually difficult amputation! [consisting of engaging the block with the base] preferentially weakening the block so as to render it inoperable when exposed to.

This method only renders the block inoperable or deformed to prevent further use when exposed to abnormal cutting procedures, thereby preventing the base from being stripped from the rotor. It is expected.

Preferably, the preferentially weakening process step consists of reducing the cross-sectional area of a portion of said block. Most preferably, the process step of reducing the cross-sectional area consists of forming a grouping along at least one circumferential surface of the block. Although specifically illustrated as the most preferred method of weakening the groups preferentially, similar designs that reduce the cross-sectional area of the blocks are also considered to be within the scope of the invention. .

Many modifications may be made within the scope of the claims.

19-

[Brief explanation of the drawing]

FIG. 1 is a perspective view of the base block assembly on the rotor. FIG. 2 is a front view of the base block assembly with earthmoving bit. FIG. 3 is a side view of the same. FIG. 4 is a side view of the block. FIG. 5 is a front view of the block. FIG. 6 is a rear view of the block. FIG. 7 is a front view of the base. FIG. 8 is a side view of the base. × × 2 ... Base 4 ... Block 6 ... Rotor 1 (1...
Bit 12...Shank part 14...Tool holder part 16...First end 18...T-shaped concave part added...Vertical slit B...Horizontal slot 24... T-shaped part... Second attack... Group chart... Top surface 32... Horizontal surface 34... Bottom surface 36... Horizontal surface 40... Corner 42... Rear of base 44... Rear part of block 48... Screwed recess)... Engraving of hole drawing (no change in content) Door. E, 2', 5, 3, f76 Procedural amendment 1. Display of the case Showa era, Japanese Patent Application No. 58797 2, Title of the invention: Earthmoving tools and method for protecting against abnormally high cutting loads 3, Person making the amendment Relationship to the case Patent applicant address: 1565, Pennsylvania, United States of America
0 Ladrobe B-O Box 231 Name Kennametal Incorporated 4, Agent 512-

Claims (1)

Claims: 1. A block adapted to receive an earthmoving bit, the block having a base, a shank portion and a tool holder portion engaging the base and extending from a first end of the shank portion; an assembly for use with an earthmoving bit, comprising a mechanism for preferentially disabling said block when subjected to abnormal cutting loads. 2 the base has a T-shaped portion formed by the intersection of a vertical slot and a horizontal slot, the block has a T-shaped portion extending from a second end of the shank portion, said T-shaped portion An assembly according to claim 1, wherein the assembly is slidably engaged with the volume portion. 3. An assembly according to claim 2, wherein a deactivation mechanism is located on the shank portion between the tool holder portion and the T-shaped portion. 4. The assembly of claim 1, wherein a deactivation mechanism is located on the shank portion. 5. An assembly as claimed in claim 3 or 4, in which the deactivation mechanism comprises a segment of the shank part whose cross-sectional area is reduced relative to the remainder of the shank part. 6. The assembly of claim 5, wherein said reduced cross-sectional area segments comprise groups arranged along at least one circumferential surface of said shank portion. 7. The base includes a top portion consisting of two intersecting surfaces, each of said top portion surfaces being inclined relative to a horizontal plane, and wherein the block extends outwardly from a first end of its shank portion. each of said bottom portion surfaces being inclined with respect to a horizontal plane, and wherein said pace top portion surface directly opposes said block bottom portion surface when said block engages said base; An assembly according to claim 3, wherein the assembly is adapted to: 8. The assembly of claim 7, wherein each of the top portion surfaces of the base and each of the bottom portion surfaces of the block make an angle of about 10 degrees with the horizontal plane. 9 The horizontal slot and the top surface of the base diverge from each other towards the rear of said base, the T-shaped part and the bottom surface of the block likewise diverge from each other towards the rear of said block, and said block 8. The assembly of claim 7, wherein said base and block are wedged into engagement by said divergence when moving rearwardly within the base.
5. The assembly according to claim 1, further comprising a mechanism for holding the block in a non-descending state. 11 the retention mechanism comprises a fastening means, a threaded recess formed in the rear part of the shank portion, and a hole formed in the rear part of the T-shaped recess, and the retaining mechanism An assembly according to claim 10'Xj4, wherein the four threaded portions are aligned such that the fastening means passes through the bore and engages the threaded recess. 12 a shank portion and a tool holder portion extending from a first end of said shank portion and adapted to receive an earthmoving bit, the block preferentially failing when subjected to abnormally high cutting loads; A block for use with an earthmoving bit, consisting of a mechanism for 13. The block of claim 12 comprising a T-shaped portion extending from the second end of the shank portion.
□ 14 The function stop mechanism is connected to the tool holder part and the T
14. The block of claim 13, wherein the block is located -5° on said shank portion between the shaped portion and λ. 15. The device of claim 12, wherein a deactivation mechanism is located on the shank portion. 16. A block according to claim 14 or claim 15, in which the deactivation mechanism comprises a segment of the shank part whose cross-sectional area is reduced relative to the remainder of the shank part. 17. The block of claim 16, wherein said reduced cross-sectional area segments comprise groups arranged along at least one circumferential surface of said shank portion. 18. Claim 14, further comprising a bottom portion consisting of two diagonal surfaces extending outwardly from the first end of the shank portion, each of the bottom portion surfaces being inclined relative to a horizontal plane. Blocks listed. 19. The block of claim 18, wherein each of said bottom portion surfaces makes an angle with a horizontal plane of about 1 degree.Additionally, said T-shaped portion and bottom portion surfaces diverge from each other toward the rear of the block. 4-21 Base for use with an earthmoving bit, method for securing the base of a block assembly, the block being and engaging the block vessel with the base. 22. The method of claim 21, wherein the step of reducing the cross-sectional area of a portion of the block comprises reducing the cross-sectional area of a portion of the block. 23. The method of claim 22, comprising forming a.