KR20140005532A - Beveling machines - Google Patents

Abstract

A beveling machine of the present invention comprises: a main body (100) with a head part (120); a first bevel gear (140) inserted into a shaft (130) installed in the head part (120); a second bevel gear (240) meshed with the first bevel gear (140); a plurality of first bearings (150) installed at the shaft (130) inserted into a housing (170); an inner wheel type needle bearing (160) installed at an outer circumference of the shaft (130); a height adjusting block (180) installed at a side of the housing (170) and connected to a height adjusting plate (187); a plurality of second bearings (185) installed between the housing (170) and the height adjusting block (180); a rotary cutter (190) fitted at a lower portion of the shaft (130); a cutter fixing member (195) for fixing the rotary cutter (190) at the shaft (130); thereby reducing vibration produced in beveling and preventing damage to a workpiece caused by the vibrations.

Description

Beveling Machines}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a chamfering machine, and more particularly, to a chamfering machine that smoothes a machined surface of a workpiece during chamfering of a workpiece to improve accuracy and surface roughness, Which is about the beveling machine.

BACKGROUND ART [0002] Generally, a chamfer used for rounding or chamfering corner portions of a workpiece is known to rotate the cutter by supplying electricity or by supplying air to the cutter.

As shown in FIG. 1, a conventional air plier has a drive unit and a power transmission unit (not shown) inside a main body 10 including a handle function, and the power of the power transmission unit is transmitted to the head unit 20 And is provided with a spindle 30 that is rotated and received. A cutter 50 is mounted on the front end of the spindle 30 and a body 41 is fixed to the body plate 40 via a case 41 and a guide shaft 42 and a ball bearing 43 between the cutter 50 and the spindle 30. [ 40 are installed.

Accordingly, when air is supplied after the cutter 50 is aligned with the edge of the workpiece P, the driving device provided in the main body 10 is driven by the pressure of the supplied air, And the spindle 30 is rotated by the apparatus. When the spindle 30 is rotated as described above, the cutter 50 is also rotated and the edge of the workpiece P is machined.

However, when the edge of the workpiece P is machined by the cutter 50 provided at the tip of the spindle 30, the workpiece P and the cutter 50 are in contact with each other and the spindle 30 And the internal parts are damaged due to the shock caused by the vibration. Further, the height of the body plate 40 must be adjusted according to the condition of the corner portion formed on the workpiece P, but this can not be controlled.

Korean Patent No. 06658734 (Patent Document 1) is similar to the above-described structure, and includes a rotary shaft inserted into a head portion of a spinner, a rotary mount fitted with the rotary shaft and having a height adjusting groove, A support guide plate and a rotary cutter interposed therebetween. In the prior art, since the cemented carbide plate for reinforcing the surface strength is integrally provided on the lower surface of the support guide plate, wear of the support guide plate due to friction with the workpiece during chamfering operation is prevented, and durability is improved.

Korean Patent No. 0665734 (Registered on December 29, 2006)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a chamfer that can reduce the occurrence of trembling during chamfering work and prevent damage to the workpiece due to trembling when the cutter provided at the tip of the spindle It is in point.

Another object of the present invention is to provide a chamfer provided with a cutter capable of easily discharging chips generated during chamfering work of a workpiece.

It is another object of the present invention to provide a brace that can be easily attached to an existing power tool or an air tool, and can also reduce the load during chamfering by applying a needle bearing.

According to an aspect of the present invention, there is provided a bevel gear comprising: a main body having a head; A first bevel gear inserted into a shaft provided on the head portion; A second bevel gear engaged with the first bevel gear; A plurality of first bearings provided on a shaft inserted into an inner side of the housing; An inner ring type needle bearing installed at the outer periphery of the shaft; A height adjusting block installed at one side of the housing and connected to the height adjusting plate; A plurality of second bearings installed between the housing and the height adjustment block; A rotary cutter fitted to a lower portion of the shaft; And a cutter fixing member for fixing the rotary cutter to the shaft.

The height adjusting plate of the height adjusting block of the present invention is moved upward and downward by adjusting the threaded portion.

The retainer is installed in the lower part of the housing of the present invention to prevent foreign matter from entering the housing.

The chamfer of the present invention comprises: a body; A plurality of gears mounted on the shaft and the drive shaft; A plurality of first bearings; A needle bearing in which at least one through hole is formed in an inner ring; A height adjusting block installed at one side of the housing and connected to the height adjusting plate; A second bearing installed between the housing and the height adjusting block; A cooling blade in which a plurality of grooves are formed on one side and a plurality of blades are formed on the other side; A rotary cutter fitted to a lower portion of the shaft; And a cutter fixing member for fixing the rotary cutter to the shaft.

Chamfering machine of the present invention can reduce the occurrence of vibration during the chamfering operation and at the same time can prevent damage to the workpiece by shaking, so that the work surface of the workpiece is smooth and the surface roughness is good and even if not skilled workers can easily perform chamfering work There is an advantage to this.

Chamfering device of the present invention has the advantage of convenient operation because it can be used to adjust the height of the height adjustment plate by using a height adjustment block according to the conditions of the corner portion.

FIG. 1 is a cross-sectional view showing an example of a conventional air-
2 is a perspective view of a cotton machine according to an embodiment of the present invention,
3 is a cross-sectional view showing a main part of a cotton machine according to an embodiment of the present invention;
FIG. 4 is an exploded perspective view of FIG. 3,
FIG. 5 is a cross-sectional view showing a substantial part of a pickling machine according to another embodiment of the present invention,
FIG. 6 is an exploded perspective view of FIG. 5. FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a chamfer according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 to 4, the bevel gear according to an embodiment of the present invention includes a main body 100, a plurality of first and second bevel gears 140 and 240, a plurality of first and second bearings A height adjusting block 180, a rotary cutter 190, and a cutter fixing member 195, as shown in FIG.

As shown in FIG. 2, the main body 100 is a type of power tool having a head part 120 and is generally used, and an air tool may be applied instead of the power tool.

The first bevel gear 140 is inserted into a shaft 130 installed on the head 120 and the first bevel gear 140 is meshed with a second bevel gear 240 installed on the drive shaft 230. A housing 170 is provided below the first bevel gear 140 and a plurality of first bearings 150 are installed on the shaft 130 inside the housing 170.

A snap ring 152 is installed on one side of the first bearing 150 and the housing 170 and the snap ring 152 is used to prevent the first bearing 150 from being displaced.

A needle bearing 160 is disposed below the first bearing 150 and the needle bearing 160 is disposed on the outer periphery of the shaft 130 in sequence with the first bearing 150 using an inner ring type . The inner ring type needle bearing 160 is a type of bearing using an elongated cylindrical roller and has a high load carrying capability and can be used suitably for high speed. In addition, the needle bearings 160 are lightweight and can maintain a constant radial gap for the entire bearing life.

The height adjusting block 180 is installed on one side of the housing 170 and is screwed to the height adjusting plate 187 so that the height adjusting plate 187 is moved upward and downward It is configured to be movable. That is, the height adjusting plate 187 of the height adjusting block 180 is moved upward and downward by adjusting the screw portion 186. The height adjusting block 180 is screwed to the support body 280 connected to the height adjusting plate 187 by a screw portion 186.

A safety cover 192 is installed on one side of the height adjusting plate 187 to prevent a chip from being spilled by a worker during chamfering work.

A plurality of second bearings 185 are provided between the housing 170 and the height adjusting block 180 and a pair of snap rings 182 and 182 are installed on the upper and lower sides of the second bearings 185 . The snap rings 182 and 182 are used to prevent displacement of the plurality of second bearings 185.

A retainer 175 is installed at the lower portion of the housing 170 to prevent the inflow of foreign matter. The retainer 175 partially covers the rolling elements to keep the rolling elements uniformly to prevent the rolling elements from being caught, and prevents the rolling elements from contacting each other.

The rotary cutter 190 is sandwiched between guide members 205 provided at a lower portion of the shaft 130 and is fixed to the shaft 130 by a cutter fixing member 195. A bearing 201 is inserted into the guide member 205.

The rotary cutter 190 is formed to have an allowance angle of 5 degrees to 60 degrees with respect to the first and second sideways.

5 and 6, the chamfer according to another embodiment of the present invention includes a main body 100, a plurality of gears 140 and 240 inserted in the shaft 330 and the drive shaft 230, A plurality of first bearings 150 provided in the first housing 330, a needle bearing 360, a height adjusting block 180, a second bearing 385, a cooling blade 390, a rotary cutter 190 And a cutter fixing member 195.

Since the main body 100 and the plurality of gears 140 and 240 are similar to those of the above-described embodiment, a detailed description thereof will be omitted. However, although the plurality of gears 140 and 240 have been applied to bevel gears, different gears may be used depending on the needs of the user.

The shaft 330 is formed with a plurality of through holes 332, 334, 334, and 336 spaced apart from each other, as shown in FIG. 6, in order to reduce heat generated during friction with the bearings . The through holes 332 and 334 correspond to the first and second bearings 150 and 385 and the through holes 364 and 364 on the needle bearing 360 side.

The needle bearing 360 is installed on the outer circumference of the shaft 330 and at least one through hole 364 is formed in the inner ring 362. In the above-described embodiment, the needle bearing 360 is composed of one inner ring, but here, two of the needle bearings 360 are configured to rotate respectively. The reason for this configuration is that the through holes 364 formed in the inner ring 362 maintain smooth cooling with each other. That is, when the inner ring 362 is formed of one inner ring 362 and the inner ring 362 is formed of two inner holes 364, the wheel scene cooling is more effective.

The height adjustment block 180 and the height adjustment plate 187 is similar to the above-described embodiment, and the second bearing 385 is applied to one unlike the above-described embodiment.

The cooling blade 390 is fitted to the shaft 330 before inserting the rotary cutter 190, a plurality of grooves 392 is formed on one side, a plurality of blades 394 is formed on the other side. The plurality of grooves 392 of the cooling blade 390 are installed in a cone shape bent in the circumferential direction to discharge the cutting chips to the outside, the plurality of blades 394 of the cooling blade 390 is cooled during rotation Installed at intervals in the circumferential direction to smooth the.

The plurality of grooves 392 are formed in a cone shape bent with respect to the center of the circle, and the depth of the grooves is formed deeper toward the outer periphery. That is, the reason why the plurality of grooves 392 are formed in the shape of the bent cone is to reduce the splashing of chips (not shown) when the cooling blade 390 rotates.

Meanwhile, since the rotary cutter 190 and the cutter fixing member 195 are similar to those of the above-described embodiment, detailed description thereof will be omitted here.

Hereinafter, the operation of the chamfer according to the present invention will be described.

2 and 3, the bevel gear according to one embodiment of the present invention includes a first bevel gear 140 connected to a shaft 130 and a second bevel gear 240 connected to a drive shaft 230 . A housing 170 is installed on the shaft 130 through a plurality of first bearings 150 and a snap ring 152 is installed to prevent the first bearings 150 from being separated. Since the needle bearing 160 of the inner ring type is provided at the lower portion of the first bearing 150, the load can be reduced even if the operator performs the operation while moving the rotary cutter 190 to the left and right during chamfering work.

A height adjusting block 180 is installed on one side of the housing 170 and a height adjusting block 180 is screwed to a supporting body 280 connected to the height adjusting plate 187 so that the supporting body 280 is rotated The height adjustment plate 187 is positioned at an appropriate height. The rotary cutter 190 is fixed to the lower portion of the shaft 130 by the cutter fixing member 195. At this time, since the retainer 175 is provided on the upper side of the rotary cutter 190 to prevent the chips generated during chamfering work of the workpiece P from being introduced, the chips are prevented from flowing into the inside of the housing 170 It is assembled tightly. Since the safety cover 192 is provided on one side of the height adjusting plate 187, chips generated from the workpiece P during the chamfering operation can be prevented from splashing to the operator.

As such, when the rotary cutter 190 is fastened to the head 120 side of the main body 100, the rotary cutter 190 is brought into contact with the workpiece P, and then a power switch (not shown) is turned on ( on), the rotary cutter 190 rotates by driving of a driving source (not shown).

When the rotary cutter 190 rotates, an operator grips the main body 100 of the power tool and performs work.

A chip (not shown) generated on the chamfered surface of the cutter blade 290 of the rotary cutter 190 is discharged through the discharge groove 292 during chamfering work of the workpiece P. [ In addition, since the cutter blade 290 is coated as a whole, the discharged chip can be easily discharged without damaging the surface of the cutter blade 290.

The height adjuster plate 187 is adjusted by rotating the support member 280 screwed with the height adjusting block 180 so that the user can adjust the height appropriately.

Since the needle roller bearing 160 of the inner ring type is applied to the chamfer of the present invention, even if the operator performs work while moving left and right during chamfering work of the workpiece P, there is no vibration of the spindle, And the like.

In addition, since the rotary cutter 190 of the present invention is formed in the range of 5 to 60 degrees in the margin angle of each of the first and second sideways, the load generated during chamfering can be reduced, It is possible to prevent machining interference and trembling since it is possible to raise sufficient clearance between the first day of the next day. Since the cutter blade 290 is formed with a honing processing unit (not shown), it is possible to prevent the cutter blade 290 from being broken and to improve the surface roughness of the workpiece P when chamfering the workpiece P .

The chamfer according to another embodiment of the present invention will not be described in detail with respect to portions similar to those of the above-described embodiment, and only differences will be described.

5 and 6, the bevel gear according to another embodiment of the present invention includes a first bevel gear 140 fitted to a shaft 330, a first bevel gear 140 coupled to a drive shaft 230, Is engaged with the second bevel gear 240 is similar to the above-described embodiment.

In another embodiment of the present invention, the first bearing 150, the second bearing 385, and the needle bearing 360 are configured differently so as to be cooled more effectively, unlike the above-described embodiments.

Since the through holes 332 334 334 and 336 formed in the shaft 330 are provided corresponding to the first bearing 150, the needle bearing 360 and the second bearing 385, air is circulated and is generated in the bearing Heat can be reduced. Particularly, since the inner ring 362 of the needle bearing 360 is divided into two and each has a plurality of through holes 364 as shown in Fig. 5, air (air) is injected between the shaft 330 and the needle bearing 360 So that cooling can be smoothly performed. Since the through holes 336 and 332 of the shaft 330 are formed at positions corresponding to the first and second bearings 150 and 360, the first and second bearings 150 and 360 can be cooled by supplying air when the first and second bearings 150 and 360 are overheated.

Since the cooling blade 390 of the present invention is configured to rotate together with the shaft 330 when rotating, the plurality of grooves 392 formed at one side of the cooling blade 390 can be used for the chamfered head And the air (air) can be circulated by the plurality of blades 394 formed on the other side. That is, since the blade 394 rotates internally, air is supplied to the plurality of through holes 332, 334, and 336 formed in the shaft 330 so that the first and second bearings 150 and 360 and the needle bearing 360 Can be cooled.

The rotary cutter 190 is brought into contact with the workpiece P in a state where the rotary cutter 190 is fastened to the head portion 120 side of the main body 100 like the above embodiment and then the power switch The rotary cutter 190 is rotated by the driving of a driving source (not shown).

When the rotary cutter 190 rotates, an operator grips the main body 100 of the power tool and performs work.

Since the cooling blade 390 is also rotated in the chamfering operation, the chamfer according to another embodiment of the present invention can smoothly discharge chips generated during the chamfering operation, and a plurality of blades 394 So that cooling between the shaft 330 and the first and second bearings 150 and 360 and the needle bearing 360 can be smoothly maintained.

The chamfer of the present invention can also cool the heat generated in the needle bearing 360 by dividing the inner ring 362 of the needle bearing 360 into two and forming the through hole 364 in the inner ring 362 It is possible to prolong the life of the cotton machine.

As described above, the chamfer of the present invention can cool the first and second bearings (150, 360) and the needle bearing (360), thereby prolonging the life of the take-up machine.

The chamfer of the present invention can be widely applied to the field of cotton drilling that can perform various machining such as edge machining or chamfering of the workpiece.

100: main body 120: head part
130: shaft 140, 240: first and second bevel gears
150, 185: first and second bearings 160: needle bearing
170: housing 175: retainer
180: height adjusting block 187: height adjusting plate
190: rotary cutter 192: safety cover
195: cutter fixing member 360: needle bearing
390: cooling blade

Claims (10)

A main body having a head portion;
A first bevel gear inserted into the shaft provided in the head portion;
A second bevel gear installed on a drive shaft and engaged with the first bevel gear;
A plurality of first bearings installed on a shaft inserted into the housing;
A needle bearing installed at an outer circumference of the shaft and having an inner ring type;
A height adjusting block installed at one side of the housing and connected to the height adjusting plate;
A plurality of second bearings installed between the housing and the height adjustment block;
A rotary cutter fitted to the lower portion of the shaft;
Chamfering device comprising a cutter fixing member for fixing the rotary cutter to the shaft. The method of claim 1,
The first bearing has a snap ring is provided on one side, a pair of snap ring is installed on both sides of the second bearing. The method of claim 1,
The height adjusting plate of the height adjustment block is chamfering, characterized in that moved up and down by adjusting the screw portion formed between the height adjustment block and the support. The method according to claim 1 or 3,
Chamfer, characterized in that the safety cover is installed on one side of the height adjustment plate. The method of claim 1,
Chamfering device, characterized in that the retainer is installed in the lower portion of the housing to prevent the inflow of foreign matter. A body;
A plurality of gears respectively inserted in the shaft and the drive shaft;
A plurality of first bearings;
A needle bearing having at least one through hole formed in the inner ring;
A height adjusting block installed at one side of the housing and connected to the height adjusting plate;
A second bearing installed between the housing and the height adjustment block;
A cooling blade having a plurality of grooves formed at one side and a plurality of blades formed at the other side;
A rotary cutter fitted to the lower portion of the shaft;
Chamfering device comprising a cutter fixing member for fixing the rotary cutter to the shaft. The method according to claim 6,
Wherein the inner ring of the needle bearing is divided into two parts. The method according to claim 6,
The plurality of grooves of the cooling blades are installed in the shape of a cone bent in the circumferential direction to discharge the cutting chips to the outside, the plurality of blades of the cooling blades are installed at intervals in the circumferential direction to facilitate the cooling during rotation. Chamfering machine, characterized in that. The method according to claim 6,
The shaft is chamfering, characterized in that a plurality of through holes are formed at intervals to cool the heat generated in the bearing. The method according to claim 6,
And the through hole of the shaft is formed to correspond to the through hole of the first and second bearings and the needle bearing side.

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