KR102070324B1 - A Attachment Spacing Parts for Heavy-Duty - Google Patents

Abstract

The present invention relates to an attachment distance adjusting part for heavy equipment that fills the gap between the attachment and the mounting portion of the heavy equipment. In the attachment interval adjustment part for heavy equipment according to an embodiment of the present invention, in the attachment interval adjustment part for heavy equipment for heavy equipment installed so as to fill the gap between the mounting portion formed on the end of the excavator arm and the hinge connection of the attachment, the gap The adjusting part is a gap adjusting body formed in a plate shape of a predetermined shape to have a thickness to fill the gap between the hinge connection portion between the attachment and the mounting portion, is formed in the center of the gap adjusting body is coupled so that the coupling pin can pass through It consists of a configuration including a pin hole having a shape and diameter of the pin, and a fixing groove formed in the space between the outermost end of the gap adjusting body and the pin hole in contact with the protrusion of the attachment side plate portion, wherein the gap adjusting body is made of a non-metallic material. The outer peripheral end of the gap adjusting body It is formed to have a larger thickness than the fixing groove. Therefore, the deformation can be minimized, the manufacturing cost can be reduced, and there is an advantage of easy removal.

Description

Attachment Spacing Parts for Heavy-Duty

The present invention relates to a connection structure of the attachment arm of the attachment and the heavy equipment, and more specifically, the attachment gap adjustment for the heavy equipment mounted to fill the gap in the hinge connection of the mounting portion of the attachment to be mounted by using a pin on the end of the heavy equipment arm It is about parts.

In general, since heavy equipment requires a large force, hydraulic mechanisms are installed to operate by hydraulic pressure, and attachments for performing various operations using hydraulic pressure of hydraulic oil supplied through the hydraulic mechanisms are installed.

Exemplary heavy equipment is an excavator, and the excavator is operated by hydraulic mechanisms such as cylinders and hydraulic pumps, and the end of the arm combines attachments such as buckets, hydraulic breakers, compactors and rippers to perform various tasks. Can be done.

On the other hand, the attachment installed on the arm end of the excavator can be easily removed by replacing various attachments in the form of fixing the coupling pin in the state that the tool mounting portion of the end of the arm is inserted between the both side plate portion between the side plate portion. there was.

However, as a gap occurs in the hinge connection portion with the tool mounting portion positioned between both side plate portions of the attachment, there is a problem that the attachment or the coupling pin is loose due to vibration generated during the operation using the attachment, and at the same time, the damage occurs. .

In order to prevent this, as shown in FIGS. 1 and 2, in the related art, a spacer (30, Spacer) made of a metal material, which fills a gap between a hinge connection part of the attachment 10 and the tool mounting part 50, is inserted. By minimizing the breakage was prevented.

However, while the wear of the existing metal spacer 30 occurs during use, when wear occurs due to continuous use, a gap occurs in the hinge connection portion of the attachment and the tool mounting portion, which causes the spacer 30 to attach the attachment 10. Breakage, such as easily separated and deformed in the) was not possible to reassemble, or there was a problem that repeated departure occurs.

In addition, since the coupling pin 20 is installed in the insertion hole 12 formed in the side plate portion of the attachment 10 in the state coupled to the center of the spacer 30, not only the installation work was difficult, The metal material is expensive to manufacture, and the workability of separating the spacer into the insertion hole also has a problem that is lowered.

In addition, the conventional spacer 30 has a problem in that it is difficult to process the process of adjusting the spacing according to the gap gap between the attachment portion and the hinge connection portion of the tool mounting portion is difficult to process such as changing the dimensions.

Korean Registered Patent Publication No. 10-1803581 (August 29, 2017)

The present invention has been made to solve the above problems, while improving the durability to minimize the wear caused by continuous operation, at the same time can be easily manufactured in large quantities by making an engineering plastic material, reducing the production cost At the same time, its purpose is to provide attachment spacing adjustment parts for heavy equipment that can be easily installed to improve workability.

The attachment spacing component for heavy equipment according to an embodiment of the present invention for achieving the above object is a spacing adjusting body made of a plate shape of a predetermined shape so as to have a thickness to fill the gap between the hinge connection portion and the mounting portion, the A pin hole formed at the center of the gap adjusting body and having a shape and diameter coincident with that of the coupling pin so that the coupling pin can penetrate, and formed in a space between the outermost end of the gap adjusting body and the pin hole to contact the protrusion of the attachment side plate part. It is made of a configuration including a groove, the spacing adjusting body is formed of a non-metal material is formed so that the thickness of the outer peripheral end of the outermost end of the spacing adjusting body has a thickness thicker than the fixing groove.

The gap adjusting body may be fastened in a fitting manner such as an interference fit or a loose fit to the protrusion of the side plate portion to which the fixing groove is coupled.

The gap adjusting body may be fixed by being fitted into protrusions protruding inwardly of both side plate portions of the attachment.

Inserted into the fixing groove may include a gap adjusting plate for adjusting the distance between the attachment and the mounting portion in the form of adjusting the depth in which the protrusion is inserted.

According to the present invention, since the attachment is installed in the protrusion formed around the inner circumference of the insertion hole into which the insertion pin is inserted, the operator can easily engage and separate, and the thickness of the outer circumferential portion into which the protrusion is inserted is thicker than the fixing groove. By improving the durability, it can be easily prevented from being broken, and because it is made of synthetic plastic material engineering plastics can be easily manufactured as well as can reduce the production cost.

In addition, the interval adjusting plate is inserted into the fixing groove can adjust the interval in the form of adjusting the insertion depth of the protrusion.

1 is an exploded perspective view showing a state of mounting a spacer for adjusting the conventional spacing.
2 is a cross-sectional view showing a state in which a spacer for adjusting a conventional spacing is mounted.
Figure 3 is an exploded perspective view showing a state of mounting the attachment spacing component for heavy equipment according to an embodiment of the present invention.
Figure 4 is a perspective view of the attachment spacing component for heavy equipment according to an embodiment of the present invention.
Figure 5 is a cross-sectional view showing a state in which the attachment spacing component for heavy equipment according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 3, the hinge 200 of the attachment 200 and the mounting unit 500 is provided with an attachment spacing adjusting part 100 for heavy equipment according to an embodiment of the present invention, the attachment 200 and the mounting unit 500. Referring to the coupling structure of the) in detail, inserting the mounting portion 500 of the heavy equipment in the space between the pair of attachment 200 side plate portion 210 are spaced apart from each other, one side plate portion of the attachment 200 After inserting the coupling pin 300 into the insertion hole 230 formed on the 210 to sequentially pass through the insertion hole 230 formed on the mounting portion 500 and the other side plate portion 210, the other side plate portion 210 Attachment portion 500 of the excavator arm, which is a heavy-duty attachment 200, in the form of fixing using the release prevention pin 370 in a state in which the fixing ring 350 is inserted into the outer peripheral portion of the end of the coupling pin 300 protruding outward) ) Is combined.

Meanwhile, a protruding portion 250 protruding to reinforce rigidity may be formed along the circumference of the insertion hole 230 at an inner circumference of the insertion hole 230 of both side plate portions 210 into which the coupling pin 300 is inserted. .

When the attachment 200 is coupled to the mounting part 500, one end portion of the coupling pin 300 that is not inserted into the insertion hole 230 is caught by the hook portion 310 that extends over the outer circumference of the insertion hole 230. Is formed may be over the outer surface of the one side plate portion 210.

Then, the other end of the coupling pin 300 penetrated and inserted from one side plate portion 210 to the outer surface of the insertion hole 230 of the other side plate portion 210 may protrude, and the protrusion of the coupling pin 300 protrudes. Attach the coupling pin 300 to the other end in the form of fitting the release prevention pin 370 to the separation prevention hole 330 penetrated in the radial direction of the coupling pin 300 in the state in which the fixing ring 350 is inserted into the protruding portion. It may be fixed so as not to leave at 200.

As shown in Figure 4 and 5, the attachment spacing adjusting part 100 for heavy equipment according to an embodiment of the present invention has a configuration comprising a spacing adjusting body 110, a fixing groove 150 and a pin hole 130 Can be done.

The spacing adjusting body 110 is formed in the shape of a plate of a predetermined shape and the pin hole 130 is the same as the shape and diameter of the coupling pin 300 so that the coupling pin 300 can pass through the center of the spacing body 100 Is formed, and a fixing groove 150 is formed in the space between the outermost end of the spacing adjusting body 110 and the pin hole 130 in contact with the protrusion 250 of the side plate portion 210 of the attachment 200.

The gap adjusting body 110 may fill the gap gap between the hinge connection portion positioned between the pair of side plates 210 in a state in which the attachment 200 and the mounting portion 500 are coupled by the coupling pin 300. have.

Here, when the side plate portion 210 of the attachment 200 and the mounting portion 500 of the heavy equipment is spaced apart from each other, not only may cause damage of the attachment 200 according to the work of the heavy equipment, severe vibration There is a risk of cracking or damage to the mounting portion 500 coupled to the attachment 200 due to.

In order to prevent this, the spacing adjusting body 110 may be formed to have a thickness to fill a gap spaced between the attachment 200 and the mounting portion 500.

In the embodiment, the spacing adjusting body 110 is formed in a circular shape, but may be formed in a polygon or any shape, and the thickness of the spacing adjusting body 110 depends on the spacing between the attachment 200 and the mounting part 500. It can be formed in various thicknesses.

In addition, the gap adjusting body 110 may be formed of a non-metallic material so as to be easily manufactured, and the non-metallic material may be a material having high abrasion resistance to prevent wear.

For example, the non-metallic material forming the spacing body 110 may be made of Teflon, ceramic, synthetic resin, urethane, polymer, engineering plastic, or the like.

In this case, when the gap adjusting body 110 is formed of a non-metallic material, it can be manufactured in a form of dipping from a metal mold, so that it is easy to process and mass-produced compared to the metal material, and the manufacturing cost is reduced. Even if it is deformed, it can be easily restored to its initial shape by the elastic force.

As shown in Figure 4 and 5, the pin hole 130 through which the coupling pin 300 is formed in the central portion of the attachment interval main body 110 for heavy equipment according to an embodiment of the present invention, the pin hole 130 ) May be inserted through the coupling pin 300 for coupling the attachment 200 to the mounting portion 500 of the heavy equipment.

On the other hand, the pin hole 130 is formed with a diameter corresponding to the diameter of the coupling pin 300, when the coupling pin 300 is coupled to the mounting portion 500 and the attachment 200, it can be inserted through.

In the exemplary embodiment, the pin hole 130 is formed in a circular shape, but may be formed in various shapes such as a polygon having an inscribed circle having a diameter corresponding to the diameter of the coupling pin 300.

As shown in Figure 4 and 5, the attachment interval main body 110 for heavy equipment according to an embodiment of the present invention is a fixing groove 150 is formed in the space between the outermost end and the pin hole 9130, the fixing groove 150 may be fixed to the outermost end of the gap adjusting body 110 to the inner protrusion 250 protruding to reinforce the insertion hole 230 in the side plate portion 210.

On the other hand, the fixing groove 150 may be formed on the surface facing the side plate portion 210 in the spacing adjuster 110, the fixing groove 150 has the same depth as the protruding height of the protrusion 250 or It can be formed to have a deeper depth.

In addition, the fixing groove 150 may be formed in a size to which the protrusion 250 may be inserted and inserted around the center of the pin hole 130 and a shape corresponding to the protrusion 250.

On the other hand, the fixing groove 150 may be inserted into the gap adjusting plate (not shown) having a predetermined thickness and the adjustment plate ball is formed having a diameter of the size corresponding to the pin hole 130 in the center, the plurality of gap adjusting plate is overlapping the fixed groove ( 150) may be installed.

Here, the spacing plate adjusts the depth between the mounting portion 500 of the heavy equipment and the side plate portion 210 of the attachment 200 by adjusting the depth that the protrusion 250 is inserted into the fixing groove 150 according to the number of overlapping insertion. Can be.

In addition, since the thickness of the outermost end of the gap adjusting body 110 is thicker than the fixing groove 150, the durability is high, thereby minimizing the occurrence of deformation.

The operation and effects between the components described above will be described.

The attachment interval adjusting part 100 for heavy equipment according to an embodiment of the present invention is a protrusion 250 formed inside the side plate portion 210 of the attachment 200 of the gap adjusting body 110 of the gap adjusting body 110. Insert to be inserted into the fixing groove (150).

At this time, the gap adjusting body 110 fitted to the protrusion 250 may be fixed to the protrusion 250 of the attachment 200 by interference fit, loose fitting, or adhesive, and the gap adjusting body 110 may be attached ( The coupling pins 300 of the side plate portion 210 of the 200 may be inserted into and fixed to the protrusions 250 for each insertion hole 230.

Here, the protrusion 250 is inserted into the fixing groove 150 by inserting the gap adjusting plate into the fixing groove 150 according to the distance between the side plate portion 210 of the attachment 200 and the mounting portion 500 of the heavy equipment. The gap that is filled by the attachment interval adjusting part 100 for heavy equipment in the form of adjusting the depth can be adjusted.

Then, when the gap adjusting body 110 is inserted into the inner protrusion 250 of the insertion hole 230, the coupling pin (in the state of inserting the mounting portion 500 of the heavy equipment between the side plate portion 210 of the attachment 200 ( 300 is inserted through the insertion hole 230 of any one side plate portion 210 of the attachment 200 so as to fit through the pin hole 130 of the spacing adjusting body 110 and the mounting portion 500 of the heavy equipment. Inserted so that the end protrudes into the insertion hole 230 of the side plate portion 210.

Then, the coupling pin 300 in the form of fitting the escape prevention pin 370 to the escape prevention hole 330 in the state in which the fixing ring 350 is inserted into the end protruding into the insertion hole 230 of the other side plate portion 210. ).

The attachment interval adjusting part 100 for heavy equipment according to the embodiment of the present invention installed as described above minimizes the occurrence of the gap between the side plate portion 210 of the attachment 200 and the mounting portion 500 of the heavy equipment to minimize the flow of the construction tool. By doing so, the occurrence of breakage and wear can be minimized.

Therefore, the attachment spacing adjusting part 100 for heavy equipment according to the embodiment of the present invention is inserted into the insertion hole 230 by being fixed to the protrusion 250 formed around the insertion hole 230 of the attachment 200. As there is no part to be improved, the maintenance is improved and the deformation is minimized, and since it is formed of non-metallic material, it is easy to manufacture, and the manufacturing cost can be reduced, and it can be easily replaced even if deformed or damaged. Productivity can be improved.

In addition, the gap adjusting plate is installed in the fixing groove 150 to adjust the depth of the protrusion 250 is inserted into the fixing groove 150 can adjust the distance between the attachment 200 and the mounting portion 500.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the present invention is easily changed from the embodiments of the present invention by those skilled in the art to which the present invention pertains. It includes all changes and modifications to the scope that comes.

100: Spacing part
110: spacing adjustment body 130: pin hole 150: fixing groove
200: attachment
210: side plate 230: insertion hole
250: protrusion
300: coupling pin
310: hanger 330: separation prevention ball
350: retaining ring 370: release prevention pin
500: mounting part

Claims (3)

In the attachment interval adjustment part 100 for heavy equipment for heavy equipment, which is installed to fill the gap between the mounting portion 500 and the hinge connection of the attachment 200 formed at the end of the excavator arm,
The gap adjusting part 100,
Spacing adjusting body 110 made of a plate shape of a predetermined shape to have a thickness to fill the gap between the hinge connection portion gap between the attachment 200 and the mounting portion 500,
The pin hole 130 is formed in the center of the spacing adjusting body 110 and the shape and diameter of the coupling pin 300 to match the coupling pin 300, and
Is formed in the space between the outermost end of the gap adjusting body 110 and the pin hole 130 is made of a configuration including a fixing groove 150 in contact with the protrusion 250 of the side plate portion 210 of the attachment 200 ,
The gap adjusting body 110 is formed of a non-metal material is formed so that the thickness of the outer peripheral end of the gap adjusting body 110 has a thickness thicker than the fixing groove 150,
Insertion interval for heavy equipment, characterized in that it comprises a spacing adjusting plate inserted into the fixing groove 150 to adjust the depth between the attachment portion 200 and the mounting portion 500 to adjust the depth of the protrusion is inserted. Adjustment parts. According to claim 1, wherein the spacing body 110,
Attachment spacing adjustment parts for heavy equipment, characterized in that the fastening groove 150 is coupled to the protrusion 250 of the side plate portion 210 to which the fixing groove 150 is coupled, or is fastened by a fitting method such as loose fitting or by using an adhesive. .
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