KR100887107B1 - Apparatus for adjusting belt tension in motor - Google Patents

Abstract

The present invention relates to a belt tensioning device of a motor. The belt tensioning device includes a pair of supports (38a, 38b) opposed to the base in the longitudinal direction to support the motor (10); A rotating shaft 46 which penetrates through one side of the pair of supports 38a and 38b laterally; A revolving part 16 on which one side rotatably receives the rotating shaft 46 while seating the motor 10 and rotatably disposed with respect to the supports 38a and 38b; And a position adjusting means for adjusting the position of the swinging portion 16, wherein the position adjusting means has one side 50 fixed to the swinging portion 16 so as to swing integrally with the swinging portion 16, and the other side. A friction plate 48 formed with an arc-shaped slot 52 and a screw hole 54 outside the arc-shaped slot, and a positioning block screwed with the screw hole 54 on the other side of the friction plate 48 ( 60, a positioning bolt 62 which is screwed so as to be relatively movable with the positioning block 60, and a screw which is formed on the side walls of the supports 38a and 38b and screwed with the arc-shaped slot 52. And a hole 42. As such, the tension of the belt caught on the pulley of the motor can be easily adjusted by turning the motor about a predetermined point outside the motor and then fixing the position again.

Motor, Belt, Tension, Friction, Positioning, Slewing

Description

Belt tensioning device for motors {APPARATUS FOR ADJUSTING BELT TENSION IN MOTOR}             

1 is a perspective view showing an example of a method of adjusting the belt tension of a motor according to the prior art.

Figure 2 is a perspective view of the belt tensioning device of the motor according to the present invention coupled to a general motor.

3 is a partially cutaway perspective view of the belt tensioning device of the motor according to the present invention with the motor separated;

4 is an exploded view of the belt tension adjusting device of the motor shown in FIG.

5 is an exploded view of the buffer mechanism of FIG. 4.

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

7 is a conceptual diagram illustrating the principle of operation of the device according to the invention.

<Explanation of symbols of main parts in drawings>

10: motor 14: belt

16: mounting plate 32: through hole                 

36: elastic insert 38a, 38b: support plate

48: friction plate 60: positioning block

62: positioning bolt

The present invention relates to a device for fixing the motor to the base for transmitting power to the blower by the belt, and more specifically, the belt caught on the pulley of the motor by turning the motor about a certain point outside the motor and then fixing it again. It relates to a belt tension adjusting device of the motor that can adjust the tension of the motor.

Generally, a blower is used to supply air at a chemical plant or an industrial site. Such a blower receives power from a motor using a belt and a coupling called a V belt, and a method of using a belt is widely used. However, in the case of transmitting power using the belt, the belt may be stretched and loosened due to the impact, vibration and contact of the work site. If the tension of the loosened belt is not adjusted in this way, an accident due to the detachment of the belt may occur.

Fig. 1 shows an example of the conventional method of adjusting the tension of the belt thus loosened. Referring to FIG. 1, a motor 101 for driving a blower (not shown) through a belt 103 (not shown) wound around a pulley 102 is mounted on a bottom fixing plate 106 and installed on a floor or base. do. At this time, the fixing plate 106 is installed on the floor by fixing means (not shown), and the motor 101 has a bracket 104 installed at the lower portion of the slit 105 of the fixing plate 106 by bolts 107. Coupled to the fixing plate 106.

When the motor 101 provided in this way is used for a considerable period of time, the belt 103 is loosened due to the above-described causes, and thus the required tension cannot be maintained. Then, the screw hole of the bracket 104 which releases the motor 101 from the fixing plate 106 by releasing the bolt 107 fastened to the rear end of the slit 105, that is, the right rear side of the drawing, is located on the front end side of the slit 105. The next motor 101 is moved to the front of the fixing plate 106, that is, to the front left of the figure so as to be positioned. Then, the bolt 107 is again fastened to the screw hole of the bracket 104 and the tip side of the slit 105 to fix the motor 101 to the fixing plate 106 to adjust the tension of the belt 103 tightly. .

This conventional belt tensioning method has the following problems. First, the belt must be pulled while the belt is caught by the pulley of the motor to increase the tension of the belt, which is a difficult task for the operator because proper tension means are not provided. On the other hand, the belt may be removed first to move the motor, and then the motor may be fixed again. In this case, there is a problem that it is difficult to obtain an appropriate tension required for the belt. In addition, because the distance between the motor and the pulleys of the blower is increased, it is also necessary to fasten the belt between the pulleys again. This same problem also applies to replacing old belts.                         

Therefore, when the belt is loosened, a means is required to easily move the motor to obtain the belt tension as necessary and to easily replace the old belt.

The present invention has been made to solve the above-described problems of the prior art, an object of the present invention is to easily adjust the tension of the belt caught in the pulley of the motor by turning the motor around a certain point outside the motor and then fixing it again. It is to provide a belt tensioning device of the motor.

It is another object of the present invention to provide a belt tension adjusting device of a motor having a shock absorbing mechanism on one side so as to absorb a moment even when a shock is applied to the motor during operation, thereby maintaining a constant load on the belt.

An apparatus for fixing a motor to a base for transmitting power by a belt provided according to a feature of the present invention for achieving the above object of the present invention, wherein the base 10 is fixedly opposed to the base to support the motor 10. A pair of supports 38a and 38b; A rotating shaft 46 which penetrates through one side of the pair of supports 38a and 38b laterally; A revolving part 16 on which one side rotatably receives the rotating shaft 46 while seating the motor 10 and rotatably disposed with respect to the supports 38a and 38b; And a position adjusting means for adjusting the position of the swinging portion 16, wherein the position adjusting means has one side 50 fixed to the swinging portion 16 so as to swing integrally with the swinging portion 16, and the other side. A friction plate 48 formed with an arc-shaped slot 52 and a screw hole 54 outside the arc-shaped slot, and a positioning block screwed with the screw hole 54 on the other side of the friction plate 48 ( 60, a positioning bolt 62 which is screwed so as to be relatively movable with the positioning block 60, and a screw which is formed on the side walls of the supports 38a and 38b and screwed with the arc-shaped slot 52. A belt tensioning device for a motor is provided that includes a hole 42.

Various features and advantages of the invention, which will be described in connection with the following detailed description and the accompanying drawings, will be apparent to those skilled in the art.

Figure 2 is a perspective view of the belt tension adjusting device of the motor according to the present invention coupled to a general motor, Figure 3 is a partially cutaway perspective view of the belt tension adjusting device of the motor according to the present invention separated from the motor, Figure 4 is Figure 3 5 is an exploded view of the belt tension adjusting device of the motor shown in FIG. 5, FIG. 5 is an exploded view of the shock absorbing mechanism of FIG. 4, and FIG. 6 is a cross-sectional view taken along the line AA of FIG. 5. 2 to 6 will be described in connection with the following for clarity.

Referring to Figure 2, the motor 10, the belt 14 is wound around the pulley 12 is fixedly coupled to the belt tensioning device 20 of the present invention. The belt tensioning device fixedly seats the motor 10 on the seating plate 16, which is fastened to the seating plate 16 by the bracket 18 being fastened to the seating plate 16 by bolts 18. Is fixed to.

The seating plate 16 is pivotable to the pair of side support plates 38a and 38b by the shock absorbing mechanism 28, the rotating shaft 46 and the pair of friction plates 48 as shown in FIG. 3. Is fitted. The support plate 16 is fixed to the bottom or the base by bolts 19, each of which has a rotary shaft coupling hole 40 in the middle.

3 and 4, the mounting plate 16 has four motor fixing holes 22 for fastening with the bracket of the motor 10 and three clamps for fixing the lower shock absorbing mechanism 28. Six clamping holes 24 inside the motor fixing hole 22 for fastening with the 26 are drilled. The motor and clamp fixing holes 22 and 24 are firmly fastened to the motor 10 and the clamp 26 by bolts, respectively, to stably couple the seating plate 16 to the motor 10 and the shock absorbing mechanism 28. Let's do it. On the other hand, four bolts are used for fixing the motor and six for fixing the clamp, but only some of them are shown in FIG. 4 for convenience. Meanwhile, in the present embodiment, the main body of the shock absorbing mechanism 28 is composed of an integral pillar, but the first square hollow pillar and the second square hollow pillar having a diagonal length substantially coincident with the inner width of the first square pillar are separately manufactured. Afterwards, the second square hollow pillar is assembled into the first square pillar to facilitate the fabrication.

The shock absorbing mechanism 28 coupled to the lower side of the seating plate 16 has a square pillar shape having a square cross section as shown in FIG. 4, and protrusions 30 having a square cross section at both ends are provided. Formed. These protrusions 30 are configured to be fitted to the open portions 50 of the square roadway, respectively, formed on one side of the friction plate 48. In addition, the shock absorbing mechanism 28 is provided with a through hole 32 for receiving the rotation shaft 46 in the longitudinal direction.

In this configuration, the protrusions 30 of the shock absorbing mechanism 28 fit into the opening 50 of the friction plate 48 and the rotation shaft 46 is the rotation shaft of the right plate 38b of the support plate. It is inserted into the coupling hole 40, passes through the longitudinal through hole 32 of the shock absorbing mechanism 28, and then one end thereof protrudes into the rotation shaft coupling hole 40 of the left plate 38a. One end of the protruding rotating shaft is coupled to the support plates 38a and 38b by washers and nuts. At this time, the through hole 32 of the shock absorbing mechanism 28 has an inner diameter slightly larger than the outer diameter of the rotating shaft 46 so as to accommodate the rotation shaft 46 so as to be rotatable. The seating plate 16 and friction plate 48 coupled to the instrument can pivot about the support plates 38a and 38b about the axis of rotation.

The rotation of the friction plate 48 is performed by interlocking three positioning screw holes 54 formed at the front end of each opening 50 of the friction plate and a position adjustment mechanism installed in front of the friction plate 48. do. The position adjustment mechanism is screwed into the inner side of each of the position adjustment block 60, a pair of position adjustment blocks 60, each of which has a cutout portion into which the front end of the friction plate 48 is inserted, thereby rotating. A pair of positioning bolt 62 which displaces a positioning block up and down, and the fixing bracket 44 provided in the front-end | tip of the said support plate, respectively. Each of the positioning blocks 60 is coupled to any one of the screw holes 54 of the friction plate 48 at the front end thereof with the bolts 61 so as to be moved up and down by the rotation of the positioning bolts 62. The displacement causes the friction plate 48 to pivot about the rotational axis 46. Meanwhile, the fixing bracket 44 is open to the upper side and the inner side of the supporting plates 38a and 38b to accommodate the positioning bolt 62, and the positioning bolt 62 is opened to the friction plate 48. It is fixed against the movement in the longitudinal direction. The nut 63 is coupled to the lower side of the positioning bolt 62 so as not to swing in the fixing bracket 44. That is, the fixing bracket 44 is open to the extent that the lower side is fitted with the nut 63 and the upper side is opened to the extent that the upper side is fitted with the positioning bolt 62.

The friction plate 48 is formed on the other side of the opposite side of the opening 50, the arc slots 52 are formed adjacent to the three screw holes 54, respectively, and each of the support plates 38a and 38b Two screw holes 42 corresponding to these slots 52 are formed up and down. These arc-shaped slots 52 and two screw holes 42 are interposed between the friction guides 56 formed with the screw holes corresponding to the screw holes 42 at predetermined positions of the arc-shaped slots 52, and bolts 58. The fastening by means to fix the friction plate 48 and the combined seating plate 16 relative to the support plate (38a, 38b). The friction guide 56 is shown as being separated from the support plates 38a and 38b, but is preferably manufactured separately and fixed to the support plates 38a and 38b by a method such as welding.

5 and 6, the shock absorbing mechanism 28 consists of a rectangular cross section pillar as described above. The above-described protrusions 30 are formed at both ends of the pillar, and four insert receiving holes 34 are formed in the pillar in the longitudinal direction along four corners of the pillar. Each of these receiving holes is inserted with a generally isosceles right triangle insert 36 made of elastic rubber. The shock absorbing mechanism 28 having such a configuration is seated at the bent portion of the three clamps 26 described above, and then coupled to the seating plate 16 as the clamp 26 is screwed to the seating plate 16. .

When the shock absorbing mechanism 28 is coupled to the seating plate 16 as described above, the shock absorbing mechanism 28 absorbs the vibration transmitted from the motor 10 to reduce the shock applied to the motor 10 and the tension adjusting device 20 of the present invention. do. In addition, as the impact is reduced, the impact on the belt 14 is also reduced, so that the stretching of the belt 14 and its loosening can also be prevented.

The operation of the belt tension adjusting device 20 of the motor of the present invention having such a configuration will be described with reference to FIG.

When the belt 14 of the motor 10 mounted on the tension adjusting device 20 of the motor having the configuration as described above is loosened, first, it is fastened to the arc-shaped slot 52 of the friction plate 48. Turn the nut of the bolt (58) to release the fastening between them. At this time, these bolts 58 do not need to be completely separated from the arc-shaped slot 52, and the degree of release of the fastening is sufficient to release the mutual compression between the friction plate 48 and the friction guide 56. Next, the position adjustment bolt 62 is rotated to rotate the friction plate 48 about the rotation axis 46 to a certain degree. In this case, when the adjusting bolt 62 is rotated to the right, the positioning block 60 is displaced upwards, and the friction plate 48 is thus pivoted clockwise. On the other hand, when the adjusting bolt 62 is rotated to the left, the positioning block 60 is displaced downward, and the friction plate 48 is thus rotated counterclockwise. Of course, the displacement of the adjustment block 60 according to the rotation of the adjustment bolt 62 may be different from the above.

As the friction plate 48 is pivoted in this manner, the seating plate 16 and the seated motor 10 coupled thereto are also pivoted. That is, as shown in FIG. 7, when the coupling point of the friction plate 48 and the positioning block 60 moves from P1 to P2 around the rotation center C _R of the rotation axis by an angle α, the motor 10 The center is moved from C1 to C2 by the same angle α around the center of rotation CR. As a result of the dashed line, the moved motor 10 'is moved away from the pulley of the blower, for example, to which the pulley is linked, which pulls the belt 14' to apply tension. The moved motor 10 'and the pulled belt 14' at this time are shown in dashed lines.

In this way, when the required tension is applied to the belt 14 ', the rotation of the positioning bolt 62 is stopped and the bolt 58 and the nut fastened to the arc-shaped slot 52 are tightened again to close the friction plate 48. It is fixed to the friction guide 56 and the support plates 38a and 38b.

The tension adjustment of the belt is completed by the above-described process, and the same method can be applied to replacing the old belt.

The belt tension adjusting device of the motor according to the present invention as described above can easily adjust the tension of the belt caught on the pulley of the motor by easily turning the motor about a certain point outside the motor. It is also easy to replace old belts. In addition, the shock applied to the motor and the tension adjusting device can be reduced by absorbing the vibration and the overload transmitted from the motor by using the shock absorber. Accordingly, the impact on the belt is also reduced, so that the stretching of the belt and the resulting loosening can also be prevented. In addition, the vibration of the motor is absorbed by the shock absorbing can reduce the noise of the workplace.

Although the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art may vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. It will be appreciated that modifications and variations can be made.

Claims (3)

In the device for fixing the motor 10, which transmits power by the belt 14 to the base, A pair of supports (38a, 38b) opposed to and fixed in the longitudinal direction to the base to support the motor (10); A rotating shaft 46 which penetrates through one side of the pair of supports 38a and 38b laterally; A revolving part 16 on which one side rotatably receives the rotating shaft 46 while seating the motor 10 and rotatably disposed with respect to the supports 38a and 38b; It is provided with a position adjusting means for adjusting the position of the pivot 16, The position adjusting means, Friction plate 48 having one side 50 fixed to the turning part 16 to pivot integrally with the turning part 16 and having an arc slot 52 and a screw hole 54 outside the arc slot on the other side. ); A positioning block 60 which is screwed with the screw hole 54 on the other side of the friction plate 48; A positioning bolt 62 which is screwed to be relatively movable with the positioning block 60; And And a screw hole (42) formed on the sidewalls of the support (38a, 38b) and screwed to the arc-shaped slot (52). The method of claim 1, The belt tension of the motor, characterized in that the lower end of the positioning bolt 62 is releasably fixed to the supports (38a, 38b) by a fixing bracket 44 formed on the front end of the support (38a, 38b) Adjustment device. The method according to claim 1 or 2, The pivot 16 includes a shock absorbing mechanism 28 disposed around the axis of rotation, The buffer mechanism 28, A main body having a longitudinal through hole 32 for receiving the rotation shaft 46; An elastic body (36) inserted in the longitudinal direction to the inner side adjacent to the circumference of the main body; And And a fastener (26) for fastening the shock absorbing mechanism to the pivot portion.

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