KR100736322B1 - Vibration prevention structure of hand grinder - Google Patents

Abstract

The present invention is a vibration preventing structure of the hand grinder to not only generate vibration during the grinding work, but also to perform the grinding work stably, and to perform precision machining and to reduce the fatigue of the worker. In this regard, the configuration is that the high-pressure air supplied from the air supply means is installed inside the cylinder 10 through the air supply port 41 of the rear plate 40 and the blades 21 are equally spaced on the outer circumferential surface thereof. The rotor is supplied to the rotor 20 is installed to rotate the rotor and the rotational force of the rotor is rotated through the rotational force transmission means 50 to rotate the rotary shaft 60, the grinder wheel 61 is installed at the front end of the grinder wheel In the conventional hand grinder to grind the cylinder 10, the rotor 20 is installed is made of an elliptical with a transverse inner diameter (R) larger than the longitudinal inner diameter (r). An air supply hole 11 and an air discharge hole 12 are formed in a cylinder having an elliptical shape, and the same diameter as the longitudinal inner diameter r of the cylinder is formed inside the cylinder in which the air supply hole and the air discharge hole are formed. Anti-vibration structure of the hand grinder, characterized in that the rotor 20 having a.

Hand Grinder, Anti-vibration, Cylinder, Rotor, Blade

Description

Vibration prevention structure of hand grinder

1 is a schematic cross-sectional view of a rotor installed in a cylinder of a conventional hand grinder;

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a schematic cross-sectional view of a hand grinder according to the present invention;

4 is a cross-sectional view taken along line A-A of FIG. 3 of the present invention;

Figure 5 is an excerpt perspective view illustrating the anti-vibration structure of the hand grinder according to the present invention.

** Description of the symbols for the main parts of the drawings **

10 cylinder 11 air supply hole

12 air discharge hole 13 chamber portion

20: rotor 21: blade

22: blade insertion hole R: longitudinal diameter of the cylinder

r: transverse inner diameter of cylinder

The present invention relates to an anti-vibration structure of a hand grinder, and more particularly, by forming a chamber part in which the same air pressure is generated on both sides of a cylinder in which rotors with blades installed at equal intervals are seated, and by the air pressure of the chamber part. Rotor of the rotor installed at equal intervals of the blades is not only strong, but also stable rotation without swinging, so that no vibration occurs during the grinding work, it is possible to stabilize the grinding work accordingly, and also to perform precision processing It can be, and relates to the vibration preventing structure of the hand grinder to reduce the fatigue of the operator.

In general, the hand grinder is a tool operated by high pressure air and attaches grinder wheels of various sizes to the ends of the rotating body to perform various types of machining operations by high-speed rotational and frictional forces. It is used for surface finishing of welded parts in shipbuilding and heavy industry, finishing of metal castings, surface processing such as aluminum die casting, as well as finishing work of metal, wood, ceramic, etc. The same applies to water mold making. In addition, it can be used for sophisticated finishing operations such as the removal of inclined metal surfaces or protrusions, surface mapping, external shape and correction of castings, and fusion.

In order to be applied in various fields as well as the processing of the precise portion as described above, the attached grinder wheel must maintain a high workability and for this purpose, the rotor should be designed to generate a high torque by air force. In addition, there should be little variation in output while maintaining the grinder's linear speed high.

In addition, it is ergonomically designed for precision work, so that the operator should not be tired even for a long time and the weight of the tool should be light and easy to hold by hand so that the worker can work hand in hand for fine work. In addition, in order to increase the precision of the machined part, it should be manufactured so that there is no vibration of the rotating part and the rotational precision is high.

On the other hand, for the application in the above-mentioned fields, the grinder wheel should be operated at a high speed, but at too high speed, there is a problem in that the rotational speed should be limited according to the size of the grinder wheel due to the limitation of tensile stress caused by the centrifugal force of the grinder wheel.

For example, when the diameter of the grinder wheel is 180mm, the rotation speed is limited to 7,600 RPM. When the diameter of the grinder wheel is 100mm, the upward adjustment is used to 11,000 RPM. However, it is important to note that no reduction in output should occur even when operating at high speeds, and also a small reduction in torque.

The hand grinder, which is conventionally used in consideration of the various conditions described above, is shown in FIGS. 1 and 2 and will be described in detail with reference to the following.

1 is a schematic cross-sectional view of a conventional hand grinder in a state where a rotor is installed in a cylinder, and FIG. 2 is a cross-sectional view of the AA line of FIG. 1, which performs a machining operation by the rotational force and the frictional force of the grinder wheel 61. The operation of the grinder is through the air supply hole 81 formed at one side of the cylinder 80 of the cross section and the air supply port 71 formed on one side of the rear plate 70 is supplied air from the rear of the hand grinder The air supplied to the inside of the cylinder 80 is supplied to the rotor 84 in which the blades 83 installed in the cylinder 80 are installed at equal intervals. However, the diameter of the rotor 84 is formed smaller than the inner diameter of the cylinder (80).

The rotor 84 supplied with the air as described above is rotated by the air force, and the rotational force is rotated by the bevel gear, which is the rotational force transmission means 50, and the rotary shaft (61) at which the grinder wheel 61 is installed at the front end thereof. As the 60 is rotated, the grinder wheel 61 grinds the object.

However, a number of parts are installed at the rear of the rear plate 70, which is conventional and a detailed description thereof will be omitted. In addition, a number of components are installed in the rotary shaft 60 for smooth rotation and safe support of the rotary shaft, but this is also common and a detailed description thereof will be omitted. The cylinder 80 is installed in the case 30.

In the conventional hand grinder having the above-described configuration, the cylinder 80 in which the rotors 84 are installed with the blades 83 installed at equal intervals has a circular shape, and an air supply hole is formed at one side of the circular cylinder 80. 81 is formed and the air discharge hole 82 is formed at the other side, so that air is supplied from the air supply hole 81 formed at one side of the cylinder 80 to be discharged to the air discharge hole 82. A predetermined air pressure is generated between the rotor 84 and the cylinder 80 on the side, so that the rotor 84 is pushed toward the air supply hole 81 by the pressure to cause an eccentricity.

As described above, when the rotor 84 is eccentric in the cylinder 80, it causes vibration while rotating, and the vibration is transmitted to the hand grinder, so that it is not possible to perform stable work during grinding work, and accordingly, precision workability There is a disadvantage in that it is reduced and the fatigue of the operator is increased.

In addition, when the rotor 84 causes an eccentricity in the cylinder 80, the teeth of the bevel gears, which are the rotational force transmission means 50, are inaccurate, and thus the rotational force to the rotational shaft 60 is not accurately transmitted, thereby the grinder. As the rotational force of the wheel 61 is reduced, the grinding efficiency of the target is lowered.

The present invention has been invented to solve this problem in view of the above problems, the object of which is to form a cylinder in which the blades are installed at equal intervals of the rotor is installed in an elliptical with a transverse inner diameter larger than the longitudinal inner diameter, the elliptical The chambers, the air supply holes and the air discharge holes are formed on both sides of the cylinder, and the rotor has the same diameter as the longitudinal inner diameter of the cylinder, so that the rotation of the rotor rotated in the cylinder is made stable without vibration. In addition to the stable operation, it is possible to provide precise machining accordingly, and to provide a vibration preventing structure of the hand grinder to reduce the fatigue of the operator.

Vibration resistant structure of the hand grinder according to the present invention for achieving the above object, the high pressure air supplied from the air supply means is installed in the cylinder 10 through the air supply port 41 of the rear plate 40 The rotor 21 is supplied to the rotor 20 on the outer circumferential surface at equal intervals to rotate the rotor, and the rotational force of the rotated rotor is provided with a grinder wheel 61 installed at the front end through the rotational force transmission means 50. In a conventional hand grinder in which 60 is rotated so that the grinder grinds an object,

The cylinder 10 in which the rotor 20 is installed is made of an oval having a larger transverse inner diameter R than a longitudinal inner diameter r, and an air supply hole 11 and an air discharge in the elliptical cylinder 10. The rotor 20 having a diameter equal to the longitudinal inner diameter r of the cylinder is formed inside the cylinder 10 in which the hole 12 is formed and the air supply hole 11 and the air discharge hole 12 are formed. Consists of installed.

The chamber 13 is provided at both sides of the cylinder in the lateral direction, and the air discharge holes 12 are formed at both sides of the chamber 13, respectively, and the air supply holes 11 are formed in the cylinder 10. ) Are formed in the upper and lower diagonal directions of the cylinder 10, respectively, the blades 21 are equally spaced in the rotor 20, the blade insertion hole 22 is formed in the rotor 20, so that the blade 21 ) Is installed to be retractable and the depth of the blade insertion hole in which the blade 21 is removably installed is formed to be the same or deeper than the width of the blade 21, the air supply port 41 of the rear plate 40 It is formed in each of the positions corresponding to the air supply hole 11 formed in the cylinder (10).

When described in detail with reference to the accompanying drawings, the hand grinder anti-vibration structure of the present invention having the characteristics as described above are as follows.

First, the operation of the hand grinder which performs the machining operation by the rotational force and the frictional force of the grinder wheel 60 will be described in brief. As shown in FIG. 3, the air supplied to the rear air inner bushing A is installed in the rear plate ( Through the air supply port 41 of the 40 and the air supply hole 11 of the cylinder 10 is supplied to the rotor 20 installed at equal intervals, that is, a rotating body installed in the cylinder 10, that is, the blades 21. do.

The rotor 20 supplied with the air as described above is rotated by the air force, and the rotational force thereof is rotated by the bevel gear, which is the rotational force transmitting means 50, and the rotary shaft having the grinder wheel 61 installed at the front end thereof ( As the 60 is rotated, the grinder wheel 61 grinds the object.

On the other hand, a number of parts are installed at the rear of the rear plate 40, which will be omitted since it is conventional. In addition, the rotating shaft 60 is provided with a number of parts for the smooth rotation and safe support of the rotating shaft 60, but this is also a conventional description will be omitted.

The present invention provides a cylinder 10 installed between the rear plate 40 and the front plate 42 and a rotating body installed in the cylinder 10, that is, a blade 21, a rotor 20, and the cylinder ( It is invented from the air supply hole 11 and the air discharge hole 12 formed in the 10 and the chamber portion 13 formed on both sides of the cylinder 10, the rotor 20 is a cylinder ( 10) It is to prevent the vibration of the hand grinder by rotating the rotor 20 so as not to swing when rotating inside.

Therefore, this invention demonstrates the effect | action which achieves the objective of this invention in detail only the structure which becomes said summary.

4 and 5, the cylinder 10 in which the rotor 20 is installed is formed of an elliptical shape having a larger transverse inner diameter R than a longitudinal inner diameter r, and formed of the elliptical cylinder 10. ) Is provided with an air supply hole 11 and an air discharge hole 12, the longitudinal direction of the cylinder 10 inside the cylinder 10, the air supply hole 11 and the air discharge hole 12 is formed A rotor 20 having the same diameter as the inner diameter r is provided. The reason why the longitudinal inner diameter r of the cylinder 10 and the diameter of the rotor 20 are the same is that the rotor 20 has a cylinder ( This is to control up and down flow by making point contact at upper and lower part when rotating inside 10).
In addition, the rotor 20 inserted and rotated inside the cylinder 10 has the shortest portion of the longitudinal inner diameter r of the cylinder 10 because its diameter is the same as the longitudinal inner diameter r of the cylinder 10. It may be understood that the point of contact force is generated between the outer diameter of the rotor 20 and the rotor 20 cannot be rotated in the cylinder 10, but this is the shortest portion of the longitudinal inner diameter r of the cylinder 10. The point contact is made between the outer diameters of the rotor 20, and the air pressure supplied from the air supply hole 11 described below reaches the blade 21 to rotate the rotor 20, thereby rotating the rotor 20 by the air pressure. Since the rotational force of 20 is stronger than the contact force due to the point contact, the rotor 20 is smoothly rotated.
On the other hand, the point contact portion between the shortest portion of the longitudinal inner diameter r of the cylinder 10 and the outer diameter of the rotor 20 rotates several times so that the wear occurs due to friction of the point contact portion. Is broken up and thus the rotation of the rotor 20 becomes smoother.

In addition, chamber portions 13 are formed on both sides of the cylinder 10 in which the rotor 20 is installed. The reason for forming the chamber portion 13 is that the chamber portions (both sides) of the rotor 20 are rotated when the rotor 20 is rotated. Since there is a predetermined predetermined air pressure in 13), both sides of the rotor 20 rotated by the air pressure receive a uniform air pressure, and thus the rotor 20 is stably rotated to prevent the occurrence of vibration. Of course, the air pressure is applied to the blade 21 installed in the rotor 20 in the chamber 13 formed on both sides, so that the rotational force of the rotor 20 also becomes stronger.

 In addition, an air supply hole 11 is formed in the cylinder 10, and the air supply hole 11 is for supplying air to the inside of the cylinder 10, and the supplied air pressure blade 21 is provided. And the blade 21 under the air pressure rotates the rotor 20 while rotating. However, the air supply hole 11 is preferably formed in the diagonal direction of the upper and lower parts of the cylinder 10, respectively, because the air pressure applied to the blade 21 is uniform and strong to stabilize the rotation of the rotor 20. Of course, in order to strengthen the rotational force.

In addition, the air discharge hole 12 is for discharging the air supplied from the air supply hole 11, which is preferably formed through the cylinder 10 on both sides of the chamber portion 13, respectively. The reason is to maintain the same air pressure in the chamber portion 13 on both sides so as to be made stable without any bias to any one side during the rotation of the rotor 20.

In addition, the blade 21 which is installed at equal intervals in the rotor 20 has a blade insertion hole 22 formed in the rotor 20 so that the blade 21 is fitted in and out so that the blade 21 is fitted ( The depth of the blade insertion hole 22 into which the 21 is removably installed is formed to be equal to or deeper than the width of the blade 21.

The reason for this is that when the rotor 20 is rotated in the cylinder 10, the blade 21 also rotates together, and the blade 21 installed in the rotor 20 is the longitudinal inner diameter of the cylinder 10. (r) In order to be completely inserted into the blade insertion hole 22 at the end, that is, the upper and lower ends, the chamber portion 13 is formed so as to be pulled out toward both sides.

If the blade 21 is not completely inserted into the blade insertion hole 22 at the longitudinal inner diameter (r) end of the cylinder 10, that is, the upper and lower ends, the rotor 20 may not rotate, and the inserted blade If the (21) is not drawn out to both sides of the transverse inner diameter R, that is, both sides, there is a problem that the rotor 20 does not rotate because it does not receive the air force supplied from the air supply hole 11.

Meanwhile, an air supply port 41 is formed in the rear plate 40 installed at the rear of the rotor 20, and the air supply port 41 corresponds to the air supply hole 11 formed in the cylinder 10. It is preferable to form each in a position. The reason is that when the air supply port 41 is not formed at a position corresponding to the air supply hole 11 but is formed only on one side, air is directed to both sides of the chamber portion 13 of the cylinder 10. This is because the rotation force of the rotor 20 is weakened, and the rotor is biased to one side because it is not supplied and is supplied only to one side.

Vibration-proof structure of the hand grinder according to the present invention as described above, because the rotor is stably rotated without shaking, the vibration does not occur during grinding work, the grinding work can be stable, and precise machining accordingly It can also, and there is an advantage that can reduce the fatigue of the operator.

The vibration preventing structure of the hand grinder of the present invention as described above forms the cylinder in an elliptical shape having a larger transverse inner diameter than the longitudinal inner diameter, and forming the respective chamber portion, the air supply hole and the air discharge hole in the elliptical cylinder. Of course, by making the rotor to have the same diameter as the longitudinal inner diameter of the cylinder, the rotation of the rotor rotated in the cylinder is made stable without vibration, it is possible to stabilize the grinding work, as well as the precision machining accordingly In addition, there is an effect that can reduce the fatigue of the operator.

In addition to the above effects, each air supply hole is formed in the rear plate, and the air supply hole and the air discharge hole are formed on both sides of the cylinder, thereby reducing the weight of the hand grinder, thereby facilitating handling and operation. It can be effective.

Claims (6)

The high pressure air supplied from the air supply means is installed inside the cylinder 10 through the air supply port 41 of the rear plate 40 and the rotors 20 are provided at equal intervals on the outer circumferential surface of the rotor 20. The rotor is supplied to rotate the rotor and the rotational force of the rotated rotor rotates the rotary shaft 60 in which the grinder wheel 61 is installed at the tip through the rotational force transmission means 50 so that the grinder wheel grinds the object. In the grinder, The cylinder 10 in which the rotor 20 is installed is made of an oval having a larger transverse inner diameter R than a longitudinal inner diameter r, and an air supply hole 11 and an air discharge hole 12 in the elliptical cylinder. And a rotor (20) having the same diameter as the longitudinal inner diameter (r) of the cylinder is installed in the cylinder in which the air supply hole and the air discharge hole are formed. The vibration preventing structure of the hand grinder according to claim 1, wherein chambers (13) are provided at both sides of the cylinder in the transverse direction. The vibration preventing structure of the hand grinder according to claim 1 or 2, wherein the air discharge holes are formed at both sides of the chamber part, respectively. The vibration preventing structure of the hand grinder according to claim 1, wherein the air supply holes formed in the cylinder are formed in diagonal directions of the upper and lower portions of the cylinder. According to claim 1, wherein the blades are equally spaced in the rotor blades are formed in the rotor blade insertion hole 22 is installed so that the blade is retractable and the depth of the blade insertion hole in which the blade is removably installed is the depth of the blade Vibration preventing structure of the hand grinder, characterized in that formed in the same or deeper than the width. The vibration preventing structure of the hand grinder according to claim 1 or 4, wherein the air supply holes of the rear plate are formed at positions corresponding to the air supply holes formed in the cylinder.

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