KR20230097616A - coupling using carbon fiber - Google Patents

Abstract

To minimize the occurrence of torque ripple and improve precision, the present invention is provided in a ring shape so that the first shaft unit is inserted, and the first shaft insertion hole is formed through the central portion in the longitudinal direction; A second ring portion spaced apart from the first ring portion in the longitudinal direction and provided in a ring shape so that the second shaft portion is inserted so that the second shaft insertion hole is aligned with the first shaft insertion hole in the central portion in the longitudinal direction and formed through; And when the first ring part is rotated, in a twisted state along the circumferential direction, both ends are melt-bonded to the outer circumferential surfaces of the first ring part and the second ring part along the circumferential direction so as to transmit torque ripple-corrected rotational force to the second ring part. And provides a coupling using carbon fibers including a rotation transfer unit provided in a form in which a plurality of carbon fiber woven fabrics are arranged crosswise in a first direction and in a second direction perpendicular to the first direction.

Description

Coupling using carbon fiber {coupling using carbon fiber}

The present invention relates to a coupling using carbon fiber, and more particularly, to a coupling using carbon fiber in which torque ripple generation is minimized and accuracy is improved.

In general, an inspection chamber is used for environmental tests such as temperature and humidity during performance tests of motors or generators. At this time, the motor or generator is used in various industrial fields, and precise inspection must be performed in the inspection step in order to apply it to industries requiring high precision.

Here, in the conventional motor or generator inspection method, a motor for inspection is prepared, the motor to be inspected is connected to the axis of the motor for inspection, and then a chamber having a space inside is moved to the motor to be inspected so that the motor to be inspected is in the chamber. The inspection was conducted while placed in the inner space.

At this time, the inspection motor is disposed outside the chamber, and a shaft connected between the inspection motor and the inspection target motor is also exposed to the outside. In addition, environmental tests according to constant temperature and humidity were conducted in a state where the test subject motor was insulated and blocked from the outside by the chamber.

And, a coupling for power transmission is used between the motor for inspection and the motor to be inspected. Such a coupling may be provided in a disk type, Oldham type, or jaw type, and may be provided in a material such as metal or urethane to buffer misalignment of the shaft.

Here, as the motor for inspection is driven, the motor to be inspected that is power-connected through the coupling may be interlocked and rotated. At this time, each type of coupling has a different torsional rigidity due to different buffering power.

However, if the torsional rigidity of the coupling is strong, the torque transmission ability is excellent, but there is a problem in transmitting the torque ripple component, and when the torque ripple component is transmitted, there is a problem in that it is difficult to use in an application field in which the torque ripple component must be suppressed.

Accordingly, there is a need to develop a coupling capable of minimizing transmission of a torque ripple component while having strong torsional stiffness.

Korean Patent Publication No. 10-2008-0062286

In order to solve the above problems, an object of the present invention is to provide a coupling using carbon fiber in which torque ripple generation is minimized and accuracy is improved.

In order to solve the above problems, the present invention is provided in a ring shape so that the first shaft portion is inserted into the first ring portion through which the first shaft insertion hole is formed in the longitudinal direction in the central portion; A second ring portion spaced apart from the first ring portion in the longitudinal direction and provided in a ring shape so that the second shaft portion is inserted so that the second shaft insertion hole is aligned with the first shaft insertion hole in the central portion in the longitudinal direction and formed through; And when the first ring part is rotated, in a twisted state along the circumferential direction, both ends are melt-bonded to the outer circumferential surfaces of the first ring part and the second ring part along the circumferential direction so as to transmit torque ripple-corrected rotational force to the second ring part. And provides a coupling using carbon fibers including a rotation transfer unit provided in a form in which a plurality of carbon fiber woven fabrics are arranged crosswise in a first direction and in a second direction perpendicular to the first direction.

Here, the rotation transfer unit is provided to extend along the first direction, but is provided to extend along the second direction, and a first pattern woven body that is densely arranged and arranged at a mutually uniform interval along the second direction. It is preferable to include a second pattern woven body that is closely spaced and arranged at mutually uniform intervals along one direction, cross-arranged perpendicularly to at least one side of the radially outer and inner sides of the first pattern woven body, and is wound and laminated. .

At this time, the first pattern weaving body and the second pattern weaving body are multi-layered so that the allowable maximum value of the rotational force transmitted from the first ring unit to the second ring unit is determined corresponding to the number of layers of the carbon fiber weaving body. And it is preferable that each outer circumferential surface of the second ring portion is laminated and bonded radially outward along the circumferential direction.

In addition, the first pattern woven body and the second pattern woven body are preferably disposed inclined at an angle of 45° to the penetration direction of the first shaft insertion hole and the second shaft insertion hole.

Further, in the first ring part and the second ring part, a plurality of first dimple grooves and second dimple grooves are recessed in a zigzag shape along the circumferential direction at the inner end of each outer circumferential surface opposite to the end of the rotation transmission part, and each of the above It is preferable that the first dimple groove and each of the second dimple grooves are recessed in a round shape in a concave shape toward the inside in the radial direction, and the first dimple groove and the second dimple groove are spaced apart from each other at regular intervals.

Through the above solution, the present invention provides the following effects.

First, since both ends of the rotation transmission unit provided as a multi-layered carbon fiber woven fabric capable of organic movement are coupled to the outer circumferential surfaces of the first ring unit and the second ring unit spaced apart from each other, damage to equipment due to misalignment of the axis during rotational force transmission is prevented and durability is improved. can be improved

Second, since the second pattern weave is vertically intersected in multiple layers in the radial direction of the first pattern weave and combined by winding and stacking in the rotation transfer unit, the elastic force during organic movement of the rotation transfer unit is improved and the maximum allowable value of the transmitted rotational force is increased, Even in the event of an instantaneous surge in rotational force, breakage of the rotation transfer unit is prevented, and thus durability can be remarkably improved.

Third, both ends of the rotation transfer unit in each of the first dimple grooves and each of the second dimple grooves formed in a zigzag shape on the outer circumferential surfaces of the first ring part and the second ring part are bent and deformed as they are thermally pressed by the heat press device. Since surface contact is made and melt-bonded, the maximum allowable value of the rotational force transmitted from the first ring part to the second ring part can be remarkably increased.

Fourth, based on the through direction of the first shaft insertion hole and the second shaft insertion hole, the arrangement angles of the entire first pattern weaving body and the second pattern weaving body are differently adjusted and set at the time of manufacture. Measurement of the maximum allowable torque value It is possible to provide a synergistic effect that can be provided with a rotation transfer unit in which the maximum allowable value can be easily adjusted to be applied to.

Fifth, the first pattern woven body and the second pattern woven body disposed at an angle of 45° to the penetration direction of the first shaft insertion hole and the second shaft insertion hole are twisted during rotation in the circumferential direction and act on each of the woven bodies. Since the resisting force is alleviated, the transmitted power can be further improved compared to the case of parallel and vertical arrangement.

1 and 2 are exemplary views showing a manufacturing process of a coupling using carbon fiber according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing a coupling using carbon fiber according to an embodiment of the present invention.
Figure 4 is a perspective view showing a state of use of a coupling using carbon fiber according to an embodiment of the present invention.
5 is an exploded perspective view showing a coupling using carbon fibers according to an embodiment of the present invention.
6 is a side view of a coupling using carbon fibers according to an embodiment of the present invention.
7 is a side view showing a first modified example of a coupling using carbon fibers according to an embodiment of the present invention.
8 is a side view showing a second modified example of a coupling using carbon fibers according to an embodiment of the present invention.
9 is a side view showing a third modified example of a coupling using carbon fibers according to an embodiment of the present invention.

Hereinafter, a coupling using carbon fiber according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are exemplary views showing a manufacturing process of a coupling using carbon fibers according to an embodiment of the present invention, and FIG. 3 is a cross-sectional side view showing a coupling using carbon fibers according to an embodiment of the present invention. 4 is a perspective view showing a state of use of a coupling using carbon fibers according to an embodiment of the present invention, and FIG. 5 is an exploded perspective view showing a coupling using carbon fibers according to an embodiment of the present invention, 6 is a side view of a coupling using carbon fibers according to an embodiment of the present invention.

As shown in FIGS. 1 to 6, the coupling 100 using carbon fiber according to an embodiment of the present invention includes a first ring part 10, a second ring part 20, and a rotation transmission part 30. include

In addition, the method of manufacturing a coupling using carbon fiber according to an embodiment of the present invention is to prepare a first ring part, a second ring part, and a rotation transmission part, one end of the rotation transmission part is coupled to the first ring part, and the other end of the rotation transmission part Including a series of steps of coupling to the second ring part.

First, referring to FIG. 1, in the first step, the first shaft portion 1a of the inspection drive unit that selectively outputs torque is provided in a ring shape to be inserted, and the first shaft insertion hole 11 penetrates the central portion in the longitudinal direction. The second shaft insertion hole 20a formed in the central portion so that the second shaft portion 1b of the first ring portion 10 formed and the second shaft portion 1b of the driving device to be inspected which is provided in a ring shape and is provided as one of a motor to be inspected and a generator to be inspected is inserted. ) is formed through the second ring portion 20 and the rotation transmission portion 30 provided as carbon fibers are prepared.

Here, the first step is the step of forming the first shaft insertion hole 11 in the longitudinal direction in the first ring part 10, and the second shaft insertion hole in the second ring part 20 ( 20a) may further include a step of penetrating in the longitudinal direction.

On the other hand, referring to Figure 1, in the second step, one end of the rotation transmission portion 30 is disposed on the outer circumferential surface of the first ring portion 10, radial direction along the circumferential direction of the first ring portion (10) A thermal press device 200 disposed while covering the outside thermally presses one end of the rotation transfer unit 30 toward the inner side in the radial direction of the first ring unit 10 so that one end of the rotation transfer unit 30 is the first end of the first ring unit 30. It is melt-bonded to the ring part 10.

At this time, in the second step, the rotation transfer unit 30 is provided as at least one layer of carbon fiber woven fabric, and one end portion of the thermal pressing device 200 along the outer circumferential direction of the first ring unit 10 ) is preferably melt-bonded at the same time.

Here, the thermal press device 200 presses one end of the rotation transfer unit 30 radially inward in a state in which one end of the rotation transfer unit 30 is heated to a melting temperature or higher for melting the first end of the first rotation transfer unit 30. It may be melt-bonded to the outer circumferential surface of the ring part 10 .

On the other hand, referring to FIG. 2, in the third step, the second ring part 20 is disposed spaced apart from the first ring part 10 in the longitudinal direction and is inserted into the first shaft insertion hole 11 and the second shaft The holes 20a are aligned in the longitudinal direction, the other end of the rotation transfer unit 30 is disposed on the outer circumferential surface of the second ring unit 20, and the thermal press device 200 is connected to the rotation transfer unit 30. The other end of the rotation transmission part 30 is melt-bonded to the second ring part 20 by thermally pressing the other end of the second ring part 20 in the radial direction along the circumferential direction.

Here, the third step is a step in which the thermal press device 200 disposed to surround the radially outer side of the first ring portion 10 is moved to the radially outer side of the second ring portion 20 along the longitudinal direction. may further include. Of course, in some cases, the thermal press device 200 is not moved and the first ring part 10 and the second ring part 20 are moved in the longitudinal direction so that the outer surface of the second ring part 20 is thermally pressed. It may also be aligned radially inwardly of the device 200 .

At this time, in the third step, it is preferable that the other end of the rotation transmission part 30 is simultaneously melted and bonded to the outer circumferential surface of the second ring part 20 through the thermal press device 200 along the circumferential direction.

Here, the thermal press device 200 presses the other end of the rotation transfer unit 30 radially inward in a state in which the other end of the rotation transfer unit 30 is heated to a melting temperature or higher for melting, It may be melt-bonded to the outer circumferential surface of the second ring part 20 .

And, in the third step, the first ring part 10 and the second ring part 20 are spaced apart from each other and aligned along the longitudinal direction, the first ring part 10 and the second ring part 20 It is preferable that the separation space (s) is formed between and inside the rotation transfer unit 30 in the radial direction.

The coupling 100 using the carbon fiber may be applied to a load test device (not shown) for driving devices used for environmental tests such as temperature and humidity when testing the performance of a motor to be inspected and a generator to be inspected, The field of application is not limited thereto. At this time, the coupling 100 using the carbon fiber may be provided to mediate a power connection between the first shaft portion 1a and the second shaft portion 1b of the driving device to be inspected.

For example, the test drive unit (not shown) of the load test device (not shown) for the drive device is power-connected to a test drive device (not shown) provided with any one of a test target motor and a test target generator, and is disposed in the longitudinal direction It may include a first shaft portion (1a) and a load generator (not shown) that is power-connected to the rear side of the first shaft portion (1a) and selectively outputs torque. At this time, it is preferable to understand that the load generating unit (not shown) may be provided as a motor, and the first shaft part 1a is provided as a rotating shaft of the load generating unit. In addition, it is preferable to understand that the first shaft portion 1a protrudes forward from the load generating portion (not shown).

In addition, the inspection drive unit (not shown) is power-connected between a pair of carbon fiber couplings 100 to measure the torque of the drive device to be inspected, and is rotatably seated on the top of a seating unit (not shown) and A supported torque sensor (not shown) and power connected to the first shaft portion 1a are rotatably inserted into a through hole (not shown) formed in a vertical partition wall portion (not shown) of the main chamber (not shown). and may further include a spindle (not shown) power-connected to the driving device to be inspected. At this time, a supporting means (not shown) connected to the seating part (not shown) may be provided below the torque sensor (not shown).

In addition, one side of one of the couplings 100 using carbon fiber is power-connected to the end of the first shaft portion 1a, and the torque sensor (not shown) is connected to the other side of the coupling 100 using carbon fiber One side of the case) may be connected. In addition, one side of the other one of the couplings 100 using carbon fibers is connected to the other side of the torque sensor (not shown), and the other side of the coupling 100 using carbon fibers is connected to the spindle (not shown) One side may be power connected. At this time, the other side of the spindle (not shown) may be power-connected to the inspection target driving device (not shown).

Therefore, a couple of couplings 100 using a pair of carbon fibers are disposed between the driving device to be inspected and the load generating unit (not shown), and the torque sensor (not shown) is attached to the seating part (not shown) Since it is supported on the top of the torque ripple component transmitted can be further alleviated.

On the other hand, referring to FIGS. 3 to 6, the coupling 100 using the carbon fiber is provided in a ring shape so that the first shaft portion 1a is inserted, and the first shaft insertion hole 11 is formed in the central portion in the longitudinal direction. It is preferable to include the first ring portion 10 formed through.

In addition, the coupling 100 using the carbon fiber is disposed apart from the first ring portion 10 in the longitudinal direction and provided in a ring shape so that the second shaft portion 1b of the driving device to be inspected is inserted into the central portion. It is preferable that the two-axis insertion hole 20a includes the second ring portion 20 formed through and aligned with the first shaft insertion hole 11 in the longitudinal direction.

Here, the first ring portion 10 and the second ring portion 20 are provided to have a predetermined thickness in the longitudinal direction and are most preferably made of a metal material such as iron or aluminum, but are not limited thereto.

In addition, the first shaft insertion hole 11 and the second shaft insertion hole 20a have various sizes corresponding to the diameters of the second shaft portion 1b and the first shaft portion 1a of the driving device to be inspected. can be set up and formed.

In addition, the first ring part 10 and the second ring part 20 may be set to have respective outer diameters corresponding to each other, and in some cases may be set to have different outer diameters from each other.

In addition, in the first ring part 10, the first dimple groove 14 is zigzag along the circumferential direction and the longitudinal direction of the first ring part 10 at the inner end of the outer circumferential surface opposite to the end of the rotation transmission part 30. In the form of a plurality of places may be formed to be depressed in the radial direction.

In addition, in the second ring part 20, the second dimple groove 24 is zigzag along the circumferential direction and the longitudinal direction of the second ring part 20 at the inner end of the outer circumferential surface opposite to the end of the rotation transfer part 30. In the form of a plurality of places may be formed to be depressed in the radial direction.

Here, it is preferable that each of the first dimple grooves 14 and each of the second dimple grooves 24 be recessed in a round shape in a concave shape toward the inner side in the radial direction. In addition, it is preferable that the distances between the first dimple grooves 14 and the distances between the second dimple grooves 24 are spaced apart from each other at uniform intervals and aligned.

Accordingly, each of the first dimple grooves 14 and the second dimple grooves 24 formed concavely in a zigzag shape on the outer circumferential surfaces of the first ring part 10 and the second ring part 20 As both ends of the rotation transfer unit 30 are thermally pressed by the thermal press device 200, they are bent, deformed, surface-contacted, and melt-bonded, so that the maximum allowable rotational force transmitted from the first ring unit to the second ring unit until fracture occurs. Significantly increased, the durability of the product can be improved.

On the other hand, the coupling 100 using the carbon fiber includes a rotation transmission part 30 in which both ends are coupled along the circumferential direction to the outer circumferential surfaces of the first ring part 10 and the second ring part 20, respectively. It is preferable to At this time, both ends of the rotation transfer unit 30 may be connected to inner ends of the first ring unit 10 and the second ring unit 20 in the longitudinal direction on the outer surface side, respectively.

Here, both ends of the rotation transfer unit 30 transmit torque ripple-corrected rotational force to the second ring unit 20 in a twisted state along the circumferential direction when the first ring unit 10 is rotated. (10) and each outer circumferential surface of the second ring portion 20 is melt-bonded along the circumferential direction, and a plurality of carbon fiber woven fabrics are provided in a form in which a plurality of carbon fiber woven fabrics are alternately arranged in a first direction and in a second direction perpendicular to the first direction. It is desirable to be

Through this, as the rotation transfer unit 30 is provided with a coil wound as a pure carbon fiber woven body itself rather than a carbon fiber reinforced plastic containing resin, it can be broken according to the maximum allowable torque within a consistent and predictable range. A stable and reliable rotation transmission unit can be provided.

At this time, it is preferable that the rotation transfer unit 30 is provided as a winding material of one or more layers, that is, a multi-ply carbon fiber woven fabric. At this time, the torque ripple means that the output torque periodically increases or decreases as the motor shaft rotates.

In addition, a single-ply carbon fiber woven material is a plurality of carbon fibers connected to both ends of the first ring part 10 and the second ring part 20, respectively, and the first ring part 10 and the second ring part It means an aggregate that is mutually densely arranged along the circumferential direction on the outer surface of (20). That is, in the rotation transfer unit 30, it is preferable that at least one layer of the carbon fiber woven material wound is provided on the outer surfaces of the first ring unit 10 and the second ring unit 20 along the radial direction.

Here, the allowable maximum value of the rotational force transmitted from the first ring part 10 to the second ring part 20 may be determined corresponding to the number of layers of the carbon fiber woven fabric winding material. At this time, when an external force exceeding the allowable maximum value of the rotational force transmitted from the first ring unit 10 to the second ring unit 20 acts, the rotation transmission unit 30 provided as the carbon fiber woven fabric winding It can be broken and used as a torque limiter. That is, if the rotational force transmitted from the first ring part 10 to the second ring part 20 is less than the maximum allowable value, it is not broken and the first ring part 10 and the second ring part 20 are stably interlocked and rotated. , If the maximum allowable value is exceeded, the rotation transfer unit 30 may be broken.

In addition, the rotation transfer unit 30 is preferably arranged sequentially and closely spaced at regular intervals along the circumferential direction at the inner end of each outer circumferential surface of the first ring unit 10 and the second ring unit 20 .

In addition, both ends of the rotation transfer unit 30 are preferably melt-bonded by pressing and heating inward in the radial direction along the circumferential direction to each outer circumferential surface of the first ring unit 10 and the second ring unit 20.

At this time, when the first ring part 10 is rotated, one side of the rotation transmission part 30 made of carbon fiber is first interlockedly rotated along the rotation direction, so that the rotation transmission part 30 is in a twisted state. The other side of the part 30 is rotated secondarily and transmits rotational force to the second ring part 20 .

Here, the first ring part 10 and the second ring part 20 are mutually connected in the longitudinal direction so that the torque ripple is corrected when the rotational force is transmitted to the second ring part 20 by the rotation of the first ring part 10. It is spaced apart, and it is preferable that a separation space (s) is formed between the first ring part 10 and the second ring part 20 and inside the rotation transmission part 30 in the radial direction. Through this, when the first ring part 10 is rotated, rotational force may be transmitted to the second ring part 20 through the rotation transmission part 30 .

In addition, the rotation transmission unit 30 is preferably provided in a form in which a plurality of carbon fiber woven fabrics are arranged in a first direction and in a second direction perpendicular to the first direction.

In detail, the rotation transfer unit 30 preferably includes a plurality of first pattern weaving bodies 31 that are provided to extend along the first direction and are arranged in a densely spaced manner at regular intervals along the second direction. do.

At this time, in one embodiment of the present invention, the first direction is preferably set in the same direction as the extension direction of the first shaft portion (1a) and the second shaft portion (1b), the second direction is the rotation It is preferable to set in the same direction as the circumferential direction of the delivery unit 30 .

That is, the plurality of first pattern woven bodies 31 are arranged along the same direction as the extending direction of the first shaft portion 1a and the second shaft portion 1b, and the first ring portion 10 and the second shaft portion 10 It is preferable that they are arranged densely with each other along the circumferential direction so as to have an outer diameter corresponding to the ring portion 20 .

Further, the rotation transfer unit 30 is provided to extend along the second direction, but is densely arranged at mutually uniform intervals along the first direction, and is arranged on the radially outer and inner sides of the first pattern woven body 31. It is preferable to include a plurality of second pattern woven bodies 32 that are vertically crossed and arranged on at least one side of them and are wound and laminated.

That is, the plurality of second pattern weaving bodies 32 are arranged to extend along the circumferential direction of the rotation transfer unit 30 on at least one of the radially outer and inner sides of the first pattern weaving body 31, It is preferable that the first shaft portion 1a and the second shaft portion 1b are densely arranged and arranged along the same direction as the extending direction.

Here, it is preferable that the first pattern weave body 31 and the second pattern weave body 32 are vertically crossed with each other in the form of '井'. At this time, the first pattern weaving body 31 is formed in a hollow cylindrical shape, and the second pattern weaving body 32 is at least one of the radially outer and inner sides of the first pattern weaving body 31, Preferably, it is preferably laminated by winding on the outer side in the radial direction.

In addition, when both ends in the longitudinal direction of the rotation transfer unit 30 are melt-bonded to the outer circumferences of the first ring part 10 and the second ring part 20, the first pattern weaving body 31 and the second pattern weaving The sieve 32 may be melt-bonded with each other by the thermo-pressing device 200. Moreover, in some cases, an adhesive means may be further provided for bonding between the first pattern woven body 31 and the second pattern woven body 32 .

In addition, the first pattern woven body 31 and the second pattern woven body 32 correspond to the number of layers of the carbon fiber woven body, and the rotational force transmitted from the first ring part 10 to the second ring part 20 It is preferable that the outer circumferential surfaces of the first ring part 10 and the second ring part 20 are laminated and bonded radially outward along the circumferential direction in multiple layers so that the maximum allowable value of is determined.

Accordingly, in the rotation transfer unit 30, the second pattern weave unit 32 is perpendicularly arranged in multiple layers in the radial direction of the first pattern weave unit 31 and is wound and laminated, so that the rotation transfer unit 30 ), the elastic force during the organic movement is improved, the maximum allowable value of the transmitted rotational force is increased, and even when the rotational force instantaneously surges, the breakage of the rotation transmission unit is prevented, and durability can be remarkably improved.

In addition, the arrangement angles of the entirety of the first pattern woven body 31 and the second pattern woven body 32 arranged perpendicularly to each other are the first shaft insertion hole 11 and the second shaft insertion hole 21 ) is preferably set to be adjusted based on the through direction of the.

That is, when manufacturing the coupling 100 using the carbon fiber, the first pattern woven body 31 based on the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 ) and the second pattern weaving body 32, as the arrangement angle of the entire body is differently adjusted and set, a rotation transfer unit 30 in which the maximum allowable value can be easily adjusted to be applied to the measurement of the maximum allowable torque value can be provided. can provide a synergistic effect.

For example, referring to FIG. 6, the first pattern woven body 31 is disposed parallel to the through direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 at an angle of 0 °, The second pattern woven body 32 is disposed perpendicularly at an angle of 90° to the penetrating direction of the first shaft insertion hole 11 and the second shaft insertion hole 21, so that the first pattern woven body 31 It is preferable to be wound on.

Through this, when the rotational force is transmitted to the second ring part 20 by the rotation of the first ring part 10, by the second pattern weaving body 32 wound vertically around the first pattern weaving body 31 Flexible elastic force can be further strengthened.

Meanwhile, FIG. 7 is a side view showing a first modified example of a coupling using carbon fibers according to an embodiment of the present invention.

Referring to FIG. 7 , the first pattern weaving body 31 and the second pattern weaving body 32 are 45 degrees apart from the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 . It is preferable that each is disposed inclined at an angle of °.

Through this, when the rotational force is transmitted to the second ring part 20 by the rotation of the first ring part 10, the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 is 45°. Transmission force transmitted by the first pattern weave body 31 and the second pattern weave body 32 respectively arranged at an angle can be further strengthened.

That is, the first pattern woven body 31 and the second pattern woven body 32 disposed at an angle of 45° to the through direction of the first shaft insertion hole 11 and the second shaft insertion hole 21, respectively. ), when the first ring part 10 and the second ring part 20 are rotated in the circumferential direction, the first pattern woven body 31 and the second pattern woven body 32 are twisted, respectively. Since the resistive force acting on is alleviated, the first pattern woven body 31 is disposed parallel to the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 at an angle of 0°, and the Compared to the case where the second pattern woven body 32 is disposed perpendicularly at an angle of 90° to the penetrating direction of the first shaft insertion hole 11 and the second shaft insertion hole 21, the transmitted power is further improved. It can be.

Meanwhile, FIG. 8 is a side view showing a second modified example of a coupling using carbon fibers according to an embodiment of the present invention.

Referring to FIG. 8, the first pattern woven body 31 is inclined at an angle of 0 ° to 44 ° with the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21, Preferably, the second pattern woven body 32 is inclined at an angle of 46° to 89° with the through direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 .

Through this, when the rotational force is transmitted to the second ring portion 20 by the rotation of the first ring portion 10, the transmission force according to the forward rotation can be further strengthened.

Meanwhile, FIG. 9 is a side view showing a third modified example of a coupling using carbon fibers according to an embodiment of the present invention.

Referring to FIG. 9, the first pattern woven body 31 is disposed inclined at an angle of 46 ° to 89 ° with the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21, Preferably, the second pattern woven body 32 is inclined at an angle of 0° to 44° with the penetration direction of the first shaft insertion hole 11 and the second shaft insertion hole 21 .

Through this, when the rotational force is transmitted to the second ring portion 20 by the rotation of the first ring portion 10, the transmission force according to the reverse rotation, which is the opposite direction to the forward direction, can be further strengthened.

That is, in the present invention, the arrangement angle of the entirety of the first pattern woven body 31 and the second pattern woven body 32, which are arranged perpendicularly to each other and are wound and stacked in the radial direction along the circumferential direction, is the first axis insertion angle. As it is set to be adjusted based on the penetration direction of the hole 11 and the second shaft insertion hole 21, the torque transmission force can be adjusted, and the torque ripple component can be absorbed by organic elasticity. Accordingly, since it is possible to accurately set the torque transmission force to be transmitted, precision during driving can be remarkably improved.

As such, in the coupling using carbon fiber according to the present invention, the first ring portion 10 into which the first shaft portion 1a is inserted and the second shaft portion 1b of the driving device to be inspected are inserted, and the first Since both ends of the rotation transfer unit 30 provided as at least one layer of carbon fiber woven fabric winding material capable of organic movement are coupled to each outer circumferential surface of the second ring unit 20 spaced apart from the ring unit 10 in the longitudinal direction, rotational force During delivery, damage to equipment due to misalignment of axes can be prevented and durability can be improved.

In addition, when the first ring part 10 is rotated, one side of the rotation transmission part 30 is rotated first along the rotation direction and the other side of the rotation transmission part 30 is rotated secondarily in a twisted state, and the second interlocking rotation occurs. Torque ripple is corrected and mitigated through an organic motion that transmits rotational force to the two-ring unit 20, so that the accuracy and reliability of the performance data of the drive device to be tested, which is derived during an environmental test, can be remarkably improved.

In addition, the heat press device is in a state in which multiple layers of carbon fiber woven fabric windings are stacked on the outer circumferential surfaces of the first ring part 10 and the second ring part 20 along the radial direction corresponding to the allowable maximum value of the transmittable rotational force. Through 200, it is possible to precisely set the torque transmission force to be transmitted by melting and bonding by pressing and heating inward in the radial direction along the circumferential direction, so that manufacturing precision can be remarkably improved.

In addition, when an external force exceeding the allowable maximum value of the rotational force transmitted from the first ring unit 10 to the second ring unit 20 acts, the rotation transfer unit 30 provided as a carbon fiber woven fabric winding is broken. Accordingly, since transmission of rotational force is quickly blocked, damage to the inspection drive unit and the drive device to be inspected is prevented in advance, and safety in use can be remarkably improved.

In this case, terms such as "include", "comprise" or "have" described above mean that the corresponding component may be present unless otherwise stated, excluding other components. It should be construed as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs, unless defined otherwise. Commonly used terms, such as terms defined in a dictionary, should be interpreted as being consistent with the contextual meaning of the related art, and unless explicitly defined in the present invention, they are not interpreted in an ideal or excessively formal meaning.

As described above, the present invention is not limited to the above-described embodiments, and it is possible to modify and implement the present invention by those skilled in the art without departing from the scope claimed in the claims of the present invention. And, such modifications fall within the scope of the present invention.

100: coupling using carbon fiber 10: first ring part
10a: first shaft insertion hole 10b: first fastening hole
10c: first fastening member 20: second ring part
20a: second shaft insertion hole 20b: second fastening hole
20c: second fastening member 30: rotation transfer unit
200: thermopressor

Claims (5)

A first ring portion provided in a ring shape to insert the first shaft portion and having a first shaft insertion hole penetrating the central portion in the longitudinal direction;
A second ring portion spaced apart from the first ring portion in the longitudinal direction and provided in a ring shape so that the second shaft portion is inserted so that the second shaft insertion hole is aligned with the first shaft insertion hole in the central portion in the longitudinal direction and formed through; and
When the first ring part is rotated, both ends are melt-bonded to the outer circumferential surface of each of the first ring part and the second ring part along the circumferential direction so as to transmit torque ripple-corrected rotational force to the second ring part in a twisted state along the circumferential direction , Coupling using carbon fibers including a rotation transfer unit provided in a form in which a plurality of carbon fiber woven fabrics are arranged crosswise in a first direction and in a second direction perpendicular to the first direction. According to claim 1,
The rotation transfer unit
A first pattern woven body provided to extend along the first direction and densely arranged at mutually uniform intervals along the second direction;
It is provided to extend along the second direction, but is closely spaced and arranged at mutually uniform intervals along the first direction, and is vertically crossed and arranged on at least one side of the outer and inner radial directions of the first pattern woven body, and is wound and laminated. Coupling using carbon fiber, characterized in that it comprises a second pattern woven body to be. According to claim 2,
The first pattern weaving body and the second pattern weaving body are multi-ply so that the allowable maximum value of the rotation force transmitted from the first ring unit to the second ring unit is determined corresponding to the number of layers of the carbon fiber weaving body. Coupling using carbon fiber, characterized in that the coupling is laminated radially outward along the circumferential direction on each outer circumferential surface of the second ring portion. According to claim 2,
The first pattern weave body and the second pattern weave body are coupled using carbon fiber, characterized in that disposed inclined at an angle of 45 ° to the penetration direction of the first shaft insertion hole and the second shaft insertion hole. According to claim 1,
In the first ring part and the second ring part, a plurality of first dimple grooves and second dimple grooves are recessed in a zigzag shape along the circumferential direction at the inner end of each outer circumferential surface opposite to the end of the rotation transmission part,
Each of the first dimple grooves and each of the second dimple grooves are formed in a round shape in a concave shape toward the inside in the radial direction, and the first dimple grooves and the second dimple grooves are spaced apart from each other at regular intervals. Coupling using carbon fiber to be.

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