KR101083686B1 - The manufacturing device for axle beam - Google Patents

Abstract

The present invention is an axle beam that is integrally attached to both ends of the trailer arm and supports the shock absorber, coil spring and torsion bar of the rear chassis frame of the vehicle, and processes the end of the axle beam to facilitate welding with the trailer arm. The present invention relates to a device for cutting the cutting block, and more particularly, by introducing a cutting block inside the end processing portion of the axle beam to cut the processing portion while pressing the transfer block from the inside to the outside, thereby eliminating heat deformation and scrap in the product. In addition to excellent product compatibility, the axle beam end processing device provides a clean, accurate and quick machining process.
An end processing apparatus for an axle beam according to the present invention includes a moving means for moving the axle beam (A) and a fixing means for fixing the moved axle beam (A), the axle beam fixed by the fixing means ( Is installed on both sides of the A), the entry stage 3 having a transport means to enter the end processing side of the axle beam (A), and is mounted on one side of the entry stage (3), the outer surface of the processing unit side of the axle beam Support block (2) having a semi-circular groove (21) that can be supported, and is installed orthogonal to the support block (2) on one side of the access platform (3), into the processing unit of the axle beam when entering the entrance (1) Cutting block (1) having a semicircular projection (11) introduced and intersected in pairs with the support block (2) to cut one side of the processing part of the axle beam, and cutting block (1) in the access table (3) One side semi-circular groove cutting part is connected to one side of the side consisting of a pressing means for conveying the cutting block (1) to the pressure block to the supporting block (2) side; The other semi-circular groove cutting part is the same as the one side semi-circular groove cutting part, but oppositely installed such that the support block 2 and the cutting block 1 are located on the other side of the processing part of the axle beam; Same as the one side semicircular groove cutting part, but the supporting block 2 having a semicircular groove 21, the supporting block 2 having an inclined surface 22 instead of the cutting block 1 having a semicircular protrusion 11, A one side inclined surface cutting part provided with a cutting block 1 having an inclined protrusion 11 on one side of the upper and lower processing portions of the axle beam; Same as the one side inclined surface cutting part, but the support block (2), the other side inclined surface cutting part installed opposite to the cutting block (1) to be located on the other side of the processing part of the axle beam;

Description

The end device for axle beams {The manufacturing device for axle beam}

The present invention is an axle beam that is integrally attached to both ends of the trailer arm and supports the shock absorber, coil spring and torsion bar of the rear chassis frame of the vehicle, and processes the end of the axle beam to facilitate welding with the trailer arm. More particularly, the present invention relates to an apparatus for cutting a cutting part by introducing a cutting block into the end processing part of the axle beam, thereby cutting the cutting part while pressurizing the cutting part from the inside to the outside. It relates to an end processing device for the axle beam to be made.

Commonly used axle beams are first cut to fit the vehicle width, then the pipes are shaped to the shape required by the axle beams (reinforcement and bending, etc.), and both ends of the pipes are suitable for attachment to the trailer arm. Finish to manufacture the axle beam. This axle beam is finally welded integrally with the trailer arm and plays an important role in supporting the shock absorber, coil spring and torsion bar of the rear chassis frame of the vehicle.

The axle beam must be processed to the end for welding with the trailer arm, wherein the end processing is attached to the attachment portion according to the shape of the trailer arm while the trailer arm is installed orthogonal to the axle beam. However, the tip of the axle beam should be formed as a semi-circular groove so that the trailer arm has a cylindrical pipe shape.

Looking at the conventional method for processing the semi-circular groove of the end of the axle beam, a cutting method such as laser or plasma, a cutting method such as shell cutting, polishing, grinding, and the like are mainly used.

However, in the same manner as above, the product receives heat during processing, and as a result, the thermal deformation is severe, and as the heat cools, the processed part is naturally heat treated and hardened, which is then broken or cracked around the welded area. In addition, the above methods are expensive to equip equipment, are difficult to handle and maintain, and the cost of products is inevitably increased due to the continuous generation of consumables.

Meanwhile, among the above methods, processing methods such as laser or plasma have to be processed from the outside because the processing unit cannot enter the pipe, which has a disadvantage of having to undergo a separate finishing process by generating scraps inside the processing unit. In the rotary cutting method, scrap was generated on both sides when the rotary cutter was cut while feeding in the groove direction, thereby making it more difficult to finish the scrap.

As such, the scrap generated in the processing process must be removed because the corrosion caused by moisture, water leakage, etc. quickly spreads from the scraps when the scraps remain in the interior when the product is finally finished when the finish is not finished.

Thus, even if the semi-circular groove is formed in the plate in advance, the plate may be manufactured by bending it in the form of a pipe through bending, but since the deformation is severe during the bending process, the processed surface of the final product is often displaced or distorted. Because the end of the weld had to be finished by welding, the reinforcement was not only degraded, but the structural support was not stable.

Accordingly, the applicant of the present application has suggested a method of obtaining a semi-circular groove at a time by a press method through the pre-registered patent No. 0743046. According to the pre-registration technique, when the top plate of the mold descends, the first cam stroke plate advances a pair of notch punches into the axle beam, and then the second cam stroke plate having the V-shaped protrusion descends and the V in the middle of the notch punch is lowered. A semicircular groove was pulled out at one time by splitting along both sides of the groove.

However, in the case of the above, due to the repeated punching process by the press method, the V-shaped protrusions and the grooves are often damaged, so that the defects are severe and the defects of the products are many. In particular, the mold has to be as large as the length of the axle beam. Since it is necessary to have a lot of costs to build a variety of facilities, there was a problem of extremely low productivity and production efficiency and difficult maintenance.

Recently, due to changes in the design and technology of the vehicle, the trailer arm on the axle beam is inclined slightly inward in the orthogonal direction as shown in FIGS. 1 and 2. It was. However, as described above, it is difficult to simultaneously process the grooves and the surface in one facility, and there is a problem that a separate cutting process must be performed separately.

The present invention was developed in order to solve the above conventional problems at once, and after inserting the cutting block into the end of the axle beam end, the cutting block is pressurized from the inside to the outside while supporting one side of the processing unit as the supporting block. By suggesting the cutting method to dedicate the parts for each groove or surface by machining, the machining can be completed in one facility, and there is no heat deformation, scrap, etc. in the product, and it is not only compatible with the product. The processing area is clean and accurate, but the processing is done quickly, product defects are low, the frequency of failure is low, the handling and maintenance is convenient, and the management cost and maintenance cost are low, so that various facilities can be built at low cost. The purpose is.

An end processing apparatus for an axle beam according to the present invention includes a moving means for moving the axle beam (A) and a fixing means for fixing the moved axle beam (A), the axle beam fixed by the fixing means ( Is installed on both sides of the A), the entry stage 3 having a transport means to enter the end processing side of the axle beam (A), and is mounted on one side of the entry stage (3), the outer surface of the processing unit side of the axle beam Support block (2) having a semi-circular groove (21) that can be supported, and is installed orthogonal to the support block (2) on one side of the access platform (3), into the processing unit of the axle beam when entering the entrance (1) Cutting block (1) having a semicircular projection (11) introduced and intersected in pairs with the support block (2) to cut one side of the processing part of the axle beam, and cutting block (1) in the access table (3) One side semi-circular groove cutting part is connected to one side of the side consisting of a pressing means for conveying the cutting block (1) to the pressure block to the supporting block (2) side;

The other semi-circular groove cutting part is the same as the one side semi-circular groove cutting part, but oppositely installed such that the support block 2 and the cutting block 1 are located on the other side of the processing part of the axle beam;

Same as the one side semicircular groove cutting part, but the supporting block 2 having a semicircular groove 21, the supporting block 2 having an inclined surface 22 instead of the cutting block 1 having a semicircular protrusion 11, A one side inclined surface cutting part in which a cutting block 1 having an inclined protrusion 11 is installed on one side of upper and lower processing portions of the axle beam;

Same as the one side inclined surface cutting part, but the support block (2), the other side inclined surface cutting part installed opposite to the cutting block (1) to be located on the other side of the processing part of the axle beam;

The present invention can be implemented at a low cost while simplifying the overall equipment by adopting the end processing device of the axle beam as described above, and it is easy to replace the cutting block and the support block according to the product according to the semi-circular groove size or the angle of the inclined surface according to the product Excellent compatibility and convenient handling and maintenance, and the parts are processed exclusively for each part, so that the processing is done quickly, improving productivity and work efficiency, and completing the processing in one facility. Since the cutter hardly breaks or damages, the cutting surface is clean and precise, as well as the defects are low, the frequency of failure is low, and the life of tools and parts can be maintained for a long time. It has an economic effect.

1 is an illustration of the attachment of the axle beam and the trailer arm
Figure 2 is a cross-sectional view of Figure 1
Figure 3 is an exemplary view showing a semi-circular cutting block and the support block of the present invention
4 is an exemplary view of the process of FIG. 3.
5 is an exemplary view showing an inclined cutting block and the supporting block of the present invention.
6 is an exemplary view of the process of FIG.
7 is an exemplary view showing a processing part completed by the present invention.
Figure 8 is an overall cross-sectional view of a planar semicircular groove cutting part of the present invention
9 is an exemplary view showing the moving means and the fixing means of FIG.
10 is an exemplary cross-sectional view of FIG. 9 viewed from the side.
11 is a detailed illustration of FIG. 8;
12 is a cross-sectional view of the cutting block seen from the front of FIG.
FIG. 13 is a cross-sectional view of the support block of FIG. 11 as viewed from the front
Figure 14 is a schematic cross-sectional view showing a part of one side slope cutting part of the present invention
15 is a cross-sectional view of FIG. 14 as viewed from the front.
Figure 16 is an exemplary cross-sectional view of a part of the other inclined plane cutting part of the present invention from the front
17 is an exemplary cross-sectional view of FIG. 16 viewed from the side.

The present invention is to arrange the supporting block (2) and the cutting block (1) forming a pair of male and female to be cut so that the machining portion when crossing the semicircular groove 21 and the semi-circular projection 11 as shown in FIG. It is divided into that having, with the inclined surface 22 and the inclined protrusion 11 as shown in Figure 4, the entire block may be used for cutting, but preferably it is ideal to use a cutting tip attached only to the processing site.

At this time, as shown in Figure 3, the cutting block (1) having a semi-circular projection (11) and the supporting block (2) having a semi-circular groove 21 is for processing a semi-circular groove of the end of the axle beam, looking at the cutting process As shown in Fig. 4, first, the cutting block 1 having the semicircular protrusion 11 and the support block 2 having the semicircular groove 21 enter the end processing part of the fixed axle beam at the same time. At this time, the support block (2) is to support the outer surface of one side of the axle beam processing unit, the cutting block (1) is introduced into the axle beam processing unit and then the cutting block (1) is pressurized to the support block (2) side axle The semicircular groove at the end of the beam can be cut simply.

5 and 6 show the cutting block 1 and the inclined surface 22 having the inclined protrusion 11 instead of the cutting block 1 having the semicircular protrusion 11 and the supporting block 2 having the semicircular groove 21. If the upper and lower inclined surfaces of the end of the axle beam are cut in the same manner as described above using the excitation support block 2, the end processing part of the axle beam can be completed by pulling left and right up and down as shown in FIG.

Hereinafter, a preferred embodiment for cutting the processing part of the end of the axle beam using the support block 2 and the cutting block 1 will be described.

As shown in FIG. 8, the present invention provides a moving means for transporting the axle beam A, a fixing means for fixing the moved axle beam A, and an access table 3 entering from both sides of the fixed axle beam A. ), A supporting block (2) installed on one side of the access table (3) so as to support the outer surface of one side of the processing part of the axle beam, and a cutting block installed to be introduced into the processing part of the axle beam on one side of the access table (3). (1) and the press means for connecting the cutting block (1) on one side of the access stand (3) is basically configured to pressurize the cutting block 1 to the supporting block (2) side.

As above, the cutting parts are installed separately for each processing part so that the cutting part of the axle beam can be divided into left, right, top and bottom.The one side semicircle groove cutting part, the other side semicircle groove cutting part, one side slope cutting part and the other slope cutting part Is placed.

The shape and position of the supporting block (2) and the cutting block (1) according to the axle beam processing portion for each part is the semicircular groove (21), semicircular protrusion (11), inclined surface (22) and inclined protrusion (11). It is installed so as to correspond to the left and right, up and down, respectively, and the parts for cutting the left and right and the top and bottom of the inclined surface 22 of the semi-circular groove 21 may change the processing order, but the semi-circular groove must be processed first inclined protrusion 11 ), The semicircular groove cutting part should be placed before the slope cutting part.

Hereinafter, an embodiment according to the basic configuration of each part of the present invention will be described in more detail.

First, the moving means for moving the axle beam may be a conveyor or the like, but preferably includes a grip arm 4 which grips the axle beam so as to simplify the process of each cutting part, and the grip arm 4 is It is ideal to be moved by using an automated facility such as a conventional crane or robot arm.

Next, when the axle beam is moved by the gripping arm 4 as described above, the fixing means for fixing the axle beam may be used as a means such as pressing or binding to a pedestal or a mounting frame. After establishing a mounting block 51 corresponding to the shape of the axle beam to be made, and allowing the moving means to seat the axle beam on the seating block 51, a pair of grips on both sides of the outer surface of the seated axle beam Ideally, the block 5 is held and fixed.

At this time, the seating block 51 is preferably mounted on the top of the base to facilitate replacement according to the size and shape of the axle beam, the grip block 5 is the front end is engaged, such as clutch type to improve the coupling force between each other when gripping It is desirable to.

In the above, the pressing means of the holding block 5 may mobilize a mechanical device such as a gear or a chain operated by a motor, but preferably, there is no damage to the axle beam, and the air cylinder AS is operated quickly. Is ideal.

When using the gripping block 5 as an air cylinder (AS) as described above, sliding means that the gripping block 5 can be linearly moved, such as a sliding plate or a rail, so that the entry direction is constant and accurate engagement is achieved ( After building S), it is preferable to connect and install the air cylinder (AS).

At this time, the gripping block 5 is a gripping block 5 on the operating table after laying the operating table rather than directly connected to the sliding means (S) or the air cylinder (AS) to facilitate replacement according to the size or shape of the axle beam (5). Is preferably mounted.

Next, the access table 3 is provided on both sides of the axle beam fixed by the fixing means, and has a conveying means to enter the end processing part side of the axle beam.

The transfer means of the access table 3 may mobilize mechanical equipment such as gears and chains operated by a motor, but it is preferable to use an air cylinder AS so that the operation can be performed quickly.

As described above, when the access platform 3 is constructed as an air cylinder AS, the access platform 3 includes sliding means S capable of linearly moving the access platform 3 such as a bed, a rail and a slide plate so that the access direction is constant. It is desirable to install and connect with the air cylinder (AS).

In addition, the access platform 3 is preferably provided with a positioning means such that the supporting block 2 and the cutting block 1 are accurately positioned on the processing part of the axle beam, which may be achieved by a sensor. However, it is ideal to install a stopper at the tip of the access stand (3), and the stopper is provided with a cushioning means as much as possible so as not to be impacted when contacted with the access stand (3), or having a buffering force such as rubber, etc. Good to use

In the case of the processing groove cutting part, a groove for accommodating the left and right sides of the processing part is formed at the introduction part of the end of the axle beam in the case of the processing groove cutting part. Mounting the support block (2) on one side of the groove portion, it is preferable to mount the cutting block (1) in the receiving space.

The accommodating space is provided with a detachable member, such as a fixed plate, which allows the cutting block 1 to be taken out of the accommodating space while preventing the cutting block 1 from being separated, so that the cutting block can be easily replaced according to the size or shape of the processing groove. It is preferable to.

The structure of the receiving space may be simply formed as shown in Figure 11, but preferably, the support block of the cutting block (1) by adopting the sliding means (S) such as a bed, rail, sliding plate, etc. (2) The pressure transfer to the side should be smooth.

And the structure of the access table 3, in the case of the inclined surface cutting part, as shown in Fig. 14, 16 forms a support plate that can support the upper or lower surface of the processing portion on the inlet side of the axle beam end, and inside the orthogonal to the support plate The receiving block 2 is formed on the top or bottom of the support plate by forming an accommodating space, and the cutting block 1 is mounted on the accommodating space, and the structure of the accommodating space is the same as that of the processing groove cutting part.

Next, the supporting block 2 is installed in the access table 3 so as to support the outer surface of the processing unit side of the axle beam, and in the same case as the supporting block 2 having the semicircular groove 21, FIG. 11 and FIG. As shown in Fig. 13, it is attached to the groove part of the entrance stand 3 of the processing groove cutting part, and in the case of the support block 2 having the inclined surface 22, it is mounted on the base of the inclined surface cutting part as shown in Figs. .

And when mounting the support block (2) to the access stand (3) can be fixed immediately by providing a simple mounting space as shown in Figure 13, by forming a separate support member, the shape, size, replacement, It is desirable to facilitate adjustment of the mounting position and the like.

On the other hand, the support block (2) should be able to discharge the cut cut, but not shown in the case of the support block (2) with a semi-circular groove 21, the rear end of the semi-circular groove 21 is extended and delivered Prevents water from pinching and at the same time incise a portion of the rear end of the extension to allow the delivery to fall. In addition, in the access table 3, a drop hole may be formed at the bottom or the rear of the support block 2 to secure the discharge passage, and additionally, a support stand or an air discharge port may be disposed to smoothly discharge the conveyed material.

Next, the cutting block 1 is installed in the receiving space of the access table 3 so that the cutting block 1 can be introduced into the processing part of the axle beam, and the cutting block 1 is easily replaced according to the size or shape of the axle beam. Rather than installing directly in the receiving space, it is preferable to install a separate operating table, so that the cutting block 1 is mounted on the operating table.

Next, the pressurizing means for pressurizing the cutting block 1 to the supporting block 2 side may employ mechanical equipment such as gears, chains, screws, etc., operated by a motor, but is preferably simple and quick to operate. It is ideal to use a hydraulic cylinder (US) with excellent pressure.

When the pressurizing means is used as the hydraulic cylinder (US) as described above, it may be installed on one side of the receiving space of the access table 3 to connect the operating rod of the hydraulic cylinder (US) with the cutting block (1).

At this time, the cutting block (1) is to be introduced into the processing unit of the axle beam when entering the access table (3), it is preferable to provide a fixed position means so as not to exceed a certain range in the direction of the support block (2) after cutting. However, the positioning means may be achieved by forming a stopper before and after the cutting block (1), but the movement range is short and is operated with a small width, it is ideal to set the operating width of the sensor or the hydraulic cylinder (US) itself.

Although the present invention has been described in the above embodiments, those skilled in the art will be able to make various modifications and changes without departing from the spirit and scope described in the embodiments of the present invention. And the drawings presented in the present invention to remove the parts that may not fit the projection and obscure the gist to highlight the features by way of illustration for convenience.

1: cutting block 11: semicircle
12: inclined protrusion 2: support block
21: Semicircle groove 22: Slope
3: entry platform 4: phagearm
5: Gripping block 51: Seating block
A: Axle Beam B: Trailer Arm
AS: Air Cylinder US: Hydraulic Cylinder
S: sliding means

Claims (5)

A moving means for moving the axle beam A, and fixing means for fixing the moved axle beam A,
It is installed on both sides of the axle beam (A) fixed by the fixing means, the access table (3) having a conveying means to enter the end processing side of the axle beam (A),
A support block (2) mounted on one side of the access stand (3) and having a semicircular groove (21) capable of supporting an outer surface of one side of the axle beam;
It is installed orthogonal to the support block (2) on one side of the access platform (3), when entering the access platform (1) is introduced into the processing portion of the axle beam and the processing of the axle beam while crossing a pair with the support block (2) Cutting block (1) having a semi-circular projection (11) to cut off one side,
One side semicircular groove cutting part connected to one side of the cutting block (1) in the access table (3), and consisting of pressing means for pressing and feeding the cutting block (1) to the supporting block (2);

The other semi-circular groove cutting part is the same as the one side semi-circular groove cutting part, but oppositely installed such that the support block 2 and the cutting block 1 are located on the other side of the processing part of the axle beam;

Same as the one side semicircular groove cutting part, but the supporting block 2 having a semicircular groove 21, the supporting block 2 having an inclined surface 22 instead of the cutting block 1 having a semicircular protrusion 11, A one side inclined surface cutting part in which a cutting block 1 having an inclined protrusion 11 is installed on one side of upper and lower processing portions of the axle beam;

End side of the axle beam, characterized in that the same as the one side inclined surface cutting part, but the other side inclined surface cutting part installed opposite to the supporting block (2), the cutting block (1) to be located on the other side of the processing part of the axle beam; Device.
The method of claim 1,
The moving means of the axle beam is provided with a gripping arm (4) for holding the axle beam (A), the gripping arm (4) is characterized in that the end of the axle beam to be moved to one of the crane or robot arm Device.
The method of claim 1,
The fixing means of the axle beam is provided with a seating block 51 for seating the axle beam (A), the gripping block (5) for holding the axle beam (A) seated on the seating block 51 from both sides ), And the gripping block (5) is a sliding means (S) on one side of the axle beam end processing apparatus, characterized in that to be fixed by the operation of the air cylinder (AS).
The method of claim 1,
The conveying means of the access table, the end processing apparatus of the axle beam, characterized in that the sliding means (S) on the one side of the access table (3) to be transported by the operation of the air cylinder (AS).
The method of claim 1,
Pressing means of the cutting block, the end of the axle beam processing apparatus, characterized in that the sliding means (S) built on one side of the cutting block (1) to be pressed by the hydraulic cylinder (7).

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