KR20090111930A - Method for attaching reinforce to bottom plate of the excavator arm - Google Patents

Abstract

PURPOSE: An installation method of a reinforcing member is provided to increase fatigue life of an arm bottom plate by preventing stress concentration of the bottom plate. CONSTITUTION: A double reinforcement plate(22) is adhered to a bottom plate(11) using an adhesive(30) and fixed by welding a reinforcing rib(21). A connecting hole is formed on the double reinforcement plate and the reinforcing rib. The adhesive is coated on one side of the double reinforcement plate. The reinforcing rib is adhered to the double reinforcement plate. A bolt passes through a connecting hole of the reinforcing rib and the double reinforcement plate. A nut is screwed at end of the bolt.

Description

Method for attaching reinforce to bottom plate of the excavator arm}

The present invention is to install a reinforcing member to protect the lower plate of the excavator arm from external impact, the reinforcement of the excavator arm lower plate to prevent damage to the lower plate by fatigue cracking of the weld generated for installation of the reinforcing member It relates to a method of installing the reinforcing member for.

In general, the arms of an excavator equipped with a bucket are subject to a lot of impact during the excavation work, especially in the case of the lower plate of the arm, since the collision of rocks and other objects occurs frequently during the excavation work. A reinforcing member is provided on the lower plate of the excavator arm to protect the lower plate.

1 is a perspective view showing a state in which the rib-shaped reinforcement is installed on the lower plate of the conventional excavator arm, Figure 2 is a cross-sectional view showing a state in which the rib-shaped reinforcement of Figure 1 is installed on the lower plate, Figure 3 is a lower portion of the conventional excavator arm 4 is a perspective view illustrating a state in which a double plate and a rib-shaped reinforcement are installed in the plate, and FIG. 4 is a cross-sectional view illustrating a state in which the double plate and the rib-shaped reinforcement of FIG. 3 are installed in the lower plate.

The reinforcing member 20 used to reinforce the lower plate 11 of the excavator arm 10 is formed by installing a plurality of rib-shaped reinforcing materials 21 on the lower plate 11 as shown in FIGS. 1 and 2. 3 or 4, a double reinforcement plate 22 may be installed on the lower plate 11, and a plurality of rib-shaped reinforcements 21 may be installed.

First, when reinforcing the lower plate 11 using the rib-shaped reinforcing material 21, a plurality of rib-shaped reinforcing materials 21 are arranged to have a predetermined distance from each other in the width direction of the lower plate 11, each The bottom plate was reinforced by intermittent or continuous welding of both ends of the rib-shaped reinforcement.

However, the intermittent or continuous welding of the rectangular rib-shaped reinforcement causes stress concentration at the tip or weld of the rib-shaped reinforcement, and the fatigue concentration of the arm lower plate is continuously damaged due to the stress concentration. There was a problem causing.

Next, when reinforcing the lower plate 11 using the double reinforcement plate 22 and the rib-shaped reinforcement 21, the double reinforcement plate is welded to the excavator arm lower plate, and a plurality of rib-shaped reinforcement is again placed thereon. The bottom plate was reinforced by intermittent or continuous welding.

However, even when the double reinforcement plate and the rib-shaped reinforcement are welded, the fatigue crack generated in the welded portion of the double reinforcement plate or the welded portion of the reinforcement grows, causing fatigue breakage through the lower plate of the arm. Frequently occurred.

The present invention has been made in consideration of the above problems, an object of the present invention by reinforcing the lower plate of the excavator arm using a double reinforcement plate and a plurality of rib-shaped reinforcement, by attaching a double reinforcement plate using an adhesive, Installation method of reinforcement member for reinforcement of excavator arm lower plate which can increase fatigue life of lower plate because double reinforcement plate becomes load non-construction type and there is no welding part around double reinforcement plate. In providing.

In addition, when fatigue cracks are generated due to stress concentration in the welded portion of the rib-shaped reinforcement, the cracks grow vertically to the excavator arm lower plate and do not penetrate, but grow along the adhesive interface. The present invention provides a method of installing a reinforcing member for reinforcing an excavator arm lower plate to easily maintain and repair by re-installing only a damaged double reinforcing plate or rib type reinforcing material.

Reinforcing member installation method of the present invention to achieve the object as described above and to perform the problem for eliminating the conventional defects in installing a reinforcing member consisting of a double reinforcement plate and rib-shaped reinforcement to the lower plate of the excavator arm, The double reinforcing plate is characterized in that attached to the lower plate with an adhesive.

In addition, the double reinforcing plate is attached to the lower plate with an adhesive, the rib-shaped reinforcing material is welded and fixed to the double reinforcing plate, characterized in that the double reinforcing plate is attached to the lower plate.

In addition, the double reinforcing plate and the rib-shaped reinforcement is characterized in that the metal or composite material to be integrally manufactured and attached to the lower plate.

In addition, by applying an adhesive between the double reinforcement plate and the rib-shaped reinforcement material, and attaching the double reinforcement plate and each rib-shaped reinforcement by bolts to combine the double reinforcement plate and rib-shaped reinforcement, and then double reinforcement The plate is attached to the lower plate.

Further, in order to couple the rib-shaped reinforcement to the double reinforcing plate, the upper portion is narrow and the lower portion forms a plurality of slots having a small cross section, and each rib-shaped reinforcing member is coupled to the lower end of the rib-shaped reinforcement. The lower portion of the upper portion is narrow and the lower portion is processed to have a wide cross-section to combine the double reinforcement plate and the rib-shaped reinforcement, characterized in that for attaching the double reinforcement plate to the lower plate.

At this time, after the double reinforcement plate and the rib-shaped reinforcement is coupled, in order to prevent the separation of the rib-shaped reinforcement coupled to the slot locking plate for restraining one end of the rib-shaped reinforcement to the double reinforcement plate with bolts It is characterized by.

According to the present invention having the characteristics as described above, by attaching the reinforcing member to the lower plate of the excavator arm using an adhesive rather than welding, material deformation or stress concentration of the reinforcing member or the lower plate by the heat of welding does not occur, fatigue Damage to the lower plate due to cracking can be prevented, thereby extending the fatigue life of the excavator arm lower plate.

In addition, when fatigue cracking occurs in the reinforcing member, only the damaged reinforcing member can be replaced, thereby facilitating maintenance and repair of the excavator arm.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Figure 5 shows a state diagram showing the installation process of the reinforcing member according to a preferred embodiment of the present invention, Figure 6 shows a cross-sectional view showing a state in which the reinforcing member is installed by the method as shown in FIG.

The present invention by attaching a reinforcing member 20 consisting of a double reinforcement plate 22 and rib-shaped reinforcement 21 to the lower plate 11 of the excavator arm 10 by using an adhesive 30, a double reinforcement plate (22) becomes a load non-transmissive structure, the stress concentration does not occur due to the absence of welds around the double reinforcing plate 22, thereby increasing the fatigue strength as compared to the conventional, thereby increasing the fatigue life of the lower plate 11 It was made to be possible.

Meanwhile, in attaching the reinforcing member 20 to the lower plate 11, the rib-shaped reinforcing members 21 are fixed to the double reinforcing plate 22 by intermittent or continuous welding before fixing the reinforcing member 20, and then the adhesive 30 The double reinforcement plate 22 may be attached to the lower plate 11 by using. In this case, since the high temperature heat generated during welding for fixing the rib-shaped reinforcement 21 is not transferred to the lower plate 11, the lower plate 11 can be prevented from structurally weakened by the welding heat.

In addition, even when fatigue cracks are generated and grown due to stress concentration at the tip or weld portion of the welded rib-shaped reinforcement 21, the cracks grow through the adhesion interface between the double reinforcing plate 22 and the lower plate 11, and thus fatigue is generated. Damage to the lower plate 11 due to cracks can be prevented. Therefore, when fatigue damage occurs, conventionally, the entire excavator arm 10 should be replaced, but according to the present invention, even when fatigue cracks are generated in the welded portion of the double reinforcement plate 22 and the rib-shaped reinforcement 21, the lower plate ( 11) since the fatigue damage does not occur, the continuous use is possible as long as the adhesive surface of the double reinforcing plate 22 and the lower plate 11 is not separated, and the adhesive surface can be used by re-adhesive even if the adhesive surface is separated. have.

In fixing the reinforcement member 20 to the lower plate 11 using the adhesive 30 as described above, the double reinforcement plate 22 and the rib-shaped reinforcement 21 constituting the reinforcement member 20 in one piece. It can also be made and attached. In this case, by simplifying the shape of the reinforcing member 20, there is an advantage that can reduce the manufacturing labor.

Meanwhile, the double reinforcement plate 22 and the rib-shaped reinforcement 21 formed in one piece as described above may be manufactured using metal or a known composite material.

7 is a perspective view showing a state of fastening the double reinforcement plate and the rib-shaped reinforcement of the present invention with a bolt.

In the mutual coupling of the double reinforcement plate 22 and the rib-shaped reinforcement 21 may be coupled to each other using a bolt 41 and an adhesive, without welding, in this case, the double reinforcement plate 22 and each The plurality of fastening holes 21a and 22a through which the bolt 41 penetrates are formed in the rib-shaped reinforcing material 21.

On the other hand, when the double reinforcing plate 22 and the rib-shaped reinforcement 21 formed with the fastening holes 21a and 22a are prepared as described above, adhesive is applied to one surface of the double reinforcing plate 22 to which the rib-shaped reinforcement 21 is installed. After application, the rib-shaped reinforcement 21 is attached to the double reinforcement plate 22, and then through the fastening holes 21a and 22a provided in the double reinforcement plate 22 and the rib-shaped reinforcement 21. After arranging the bolt 41, the double reinforcement plate 22 and the rib-shaped reinforcement 21 are coupled to each other by fastening the nut 42 to the end of the bolt 41.

As such, the double reinforcement plate 22 and the rib-shaped reinforcement material 21 coupled to each other by the adhesive 30 and the bolt 41 may be manufactured using a metal or a known composite material, and the double reinforcement plate 22 may be used. When the composite material is manufactured, an additional bushing 43 is additionally installed in the fastening hole 22a of the double reinforcing plate 22.

8 is a perspective view showing a state in which the double reinforcement plate and the rib-shaped reinforcement of the present invention is coupled by the slot, Figure 9 is a cross-sectional view of the double reinforcement plate and rib-shaped reinforcement coupled to the slot as shown in FIG. .

In the coupling of the double reinforcement plate 22 and the rib-shaped reinforcement (21) may be configured to be mutually coupled by the slot (51).

In this case, a plurality of slots 51 having a narrow upper portion and a lower portion having a wide cross section are formed at regular intervals in the double reinforcement plate 22, and a lower end portion of each rib-shaped reinforcement 21 is slot 51. The lower end of each rib-shaped reinforcement (21) to be coupled to the upper portion is processed to have a narrow cross section in the lower shape.

As described above, when the double reinforcement plate 22 is formed in the slot 51 and the processing is completed so that the lower end of the rib-shaped reinforcement 21 has a shape corresponding to the slot 51, each rib-shaped reinforcement 21 By inserting into the slot 51 of the double reinforcement plate 22 to combine the double reinforcement plate 22 and the rib-shaped reinforcement (21).

On the other hand, the locking plate for restraining one end of the rib-shaped reinforcement (21) in order to prevent each of the rib-shaped reinforcement (21) inserted into the slot 51 of the double reinforcement plate 22 to escape from the slot 51 ( 52 may be further installed.

The locking plate 52 prevents the rib-shaped reinforcement 21 from being separated by preventing the rib-shaped reinforcement 21 inserted into the slot 51 from moving along the slot 51. It is fixedly installed by the bolt 53 to the double reinforcing plate 22 to restrain one end of the 21.

When the double reinforcement plate 22 and the rib-shaped reinforcement 21 are combined using the slot 51 as described above, when a part of the rib-shaped reinforcement 21 is damaged, only the damaged rib-shaped reinforcement 21 is easily removed. There is a replaceable advantage.

Meanwhile, the adhesive 30 used to attach the double reinforcement plate 22 to the lower plate 11 is not particularly limited, and an adhesive used to attach a metal and a metal or a composite material and a composite material may be used. It is preferable to use a metal adhesive such as a commercial flexus adhesive in order to secure the

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view showing a state where the rib-shaped reinforcement is installed on the lower plate of the conventional excavator arm,

Figure 2 is a cross-sectional view showing a state in which the rib-shaped reinforcement of Figure 1 is installed on the lower plate,

Figure 3 is a perspective view showing a state in which the double plate and rib-shaped reinforcement is installed on the lower plate of the conventional excavator arm,

4 is a cross-sectional view showing a state in which the double plate and rib-shaped reinforcement of Figure 3 is installed on the lower plate,

Figure 5 is a state diagram showing the installation process of the reinforcing member according to a preferred embodiment of the present invention,

6 is a cross-sectional view showing a state in which the reinforcing member is installed by the same method as in FIG.

Figure 7 is a perspective view showing a state of fastening the double reinforcement plate and rib-shaped reinforcement of the present invention with bolts,

8 is a perspective view showing a state in which the double reinforcement plate and the rib-shaped reinforcement of the present invention is coupled by a slot,

FIG. 9 is a cross-sectional view of the double reinforcement plate and rib-shaped reinforcement coupled by the slot as in FIG. 8; FIG.

<Explanation of symbols for the main parts of the drawings>

(10): excavator arm 11: lower plate

(20): reinforcement member (21): rib type reinforcement

(22): double gusset plate (30): adhesive

(41): bolt 51: slot

(52): Locking plate 53: Bolts

Claims (6)

In installing the reinforcing member 20 consisting of the double reinforcement plate 22 and the rib-shaped reinforcement 21 to the lower plate 11 of the excavator arm 10, Installing the reinforcing member for reinforcing the excavator arm lower plate, characterized in that for attaching the double reinforcing plate (22) to the lower plate (11) with an adhesive (30). The method of claim 1, The double reinforcing plate 22 is attached to the lower plate 11 with an adhesive 30, After the rib-shaped reinforcing material 21 is fixed by welding to the double reinforcing plate 22, the reinforcing member for reinforcing the excavator arm lower plate, characterized in that for attaching the double reinforcing plate 22 to the lower plate (11). How to install. The method of claim 1, The double reinforcing plate (22) and the rib-shaped reinforcement (21) is made of a metal or a composite material integrally manufactured by attaching to the lower plate (11) characterized in that the installation method of the reinforcing member for reinforcing the lower arm plate. The method of claim 1, The double reinforcement plate 22 and each rib-shaped reinforcement 21 are fastened by bolts 41 together with an adhesive applied between the double reinforcement plate 22 and the rib-shaped reinforcement 21 to be mutually attached. After combining the reinforcement plate 22 and the rib-shaped reinforcement (21), Installing the reinforcing member for reinforcing the excavator arm lower plate, characterized in that for attaching the double reinforcing plate (22) to the lower plate (11). The method of claim 1, In order to couple the rib-shaped reinforcement 21 to the double reinforcing plate 22, a plurality of slots 51 having a small cross section having a narrow upper portion and a wide shape are formed, The lower end of each rib-shaped reinforcement 21 is machined to have a cross-section with an upper portion of a narrow and lower portion so that the lower end of each rib-shaped reinforcement 21 is coupled to the slot 51 and a double reinforcement plate 22. After joining the ribbed reinforcement (21), Installing the reinforcing member for reinforcing the excavator arm lower plate, characterized in that for attaching the double reinforcing plate (22) to the lower plate (11). The method of claim 5, wherein After the double reinforcement plate 22 and the rib-shaped reinforcement (21) are combined, In order to prevent detachment of the rib-shaped reinforcements 21 coupled to the slot 51, a locking plate 52 for restraining one end of the rib-shaped reinforcements 21 is provided as a bolt 53 to the double reinforcement plate 22. Installation method of the reinforcing member for reinforcing the excavator arm lower plate, characterized in that fastening and fixing.

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