KR200263908Y1 - The body of revolution mounted with radiating diode - Google Patents

Abstract

The present invention is a rotating body having a light emitting diode, the bobbin coiled around the ring-shaped body and its inner peripheral surface is coupled to the holder bobbin, the magnet is attached to the holder bobbin by the magnetic force is attached to the inner peripheral surface of the holder magnet The light emitting diode is connected to a thin conductor plate inserted in the terminal S and the terminal el formed by the assembly of the frame outer and the frame inner, and the pin protruding from the bobbin is electrically connected to the conductor plate. It relates to a rotating body provided.

Description

Rotating body with light emitting diodes {The body of revolution mounted with radiating diode}

The present invention relates to a rotating body having a light emitting diode (70), and more specifically, to install and fix the magnet 150 on the central axis of the rotating body, the bobbin 110 is installed on the inner periphery of the rotating body Induced electromotive force is generated in the bobbin by the change of the magnetic flux generated when the bobbin rotates by rotating together with the rotating body, and the light emitting diode is provided so that the light emitting diode 70 connected to the bobbin can be turned on through the induced electromotive force. It relates to a rotating body.

In general, a magnetic flux change is caused by a relative movement of moving a magnet about a coil or a coil about a magnet, and thus an induced electromotive force is generated in the coil. Thus, the induction of electromagnetic induction The principle is used in generators and transformers.

On the other hand, in recent years, such as Patent Publication No. 1999-78816, Utility Model Registration No. 150352, Utility Model Registration No. 201060, and the like by rotating a permanent magnet and an electromagnetic induction coil using the principle of electromagnetic induction inside the rotating wheel Many patents and utility models have been proposed to illuminate a rotating wheel of a transparent body without a separate battery by turning on a light emitting diode connected to an electromagnetic induction coil when the wheel rotates at a constant speed or more.

Korean Utility Model Publication No. 150352 discloses a light emitting diode embedded in a skate roller. According to this, in a typical skate roll furnace, a bearing is installed in the shaft hole at the center of the roller so as to easily drive the roller to both sides, and a bushing can be maintained between the bearings on both sides, and the outer peripheral surface of the bushing is N The magnet having the S pole is installed, and the coil is wound inside the coil box spaced from the outer circumferential surface of the magnet, and the light emitting diode connected to the minus (-) or the plus (+) line of the coil is externally sealed. It is installed between the film and the transparent sealing film inside. In the prior art configured as described above, when the rotating shaft rotates, the magnet and the rotating shaft and the bearing and bushings installed on the rotating shaft rotates. At this time, when the N and S poles of the magnet rotate, magnetic force is generated in the coil intersecting with the polarity, and electricity is generated. have.

This principle is, as is well known, rotating a magnetic pole in a fixed conductor (coil) generates an electromotive force of alternating current on the conductor, which is proportional to the product of the magnetic flux flux generated by the magnetic pole and the rotational speed. do. Therefore, such a prior art is a technique widely known to those skilled in the art, and various kinds of products using the same have been practically used at home and abroad.

In addition, Korean Patent Laid-Open Publication No. 1999-78816 discloses an 'improved generator, a light emitting wheel having the same, and a manufacturing method thereof', whereby a permanent magnet assembly and bearings are fitted on a bearing spacer, and a wheel axle is provided. The bushing fits the diameter of each axle and is assembled. In the armature coil assembly, iron cover parts having excellent magnetization interchangeability are formed to protrude to surround the bobbin, and the magnetic magnet cores of the cover parts are arranged to be offset from each other. As a result, each magnetic magnet is alternately magnetized from different magnetic poles from the permanent magnets so that magnetic flux flows at right angles to the winding direction of the coil, thereby inducing current in the electric magnet in the bobbin by an electromagnetic induction action.

In addition, the armature coil assembly is formed with a lead wire guide protrusion for guiding the lead wire of the armature coil to the outside to facilitate the connection of the light emitting device. The upper part of the lead wire projection portion has a recessed portion in the periphery, so that the lead wire is wound around the recessed portion as much as the length necessary for the connection.

In addition, bearings are fitted to both sides of the armature coil assembly. The bearing can support the bearing spacer and the body of the wheel axle and wheel hub so that only the armature coil assembly rotates while the wheel does not rotate and the permanent magnet assembly does not rotate. A bushing is fitted in the bearing so that the fixed part of the bearing fixes the wheel axle and also the bearing spacer.

The wheel axle is generally a cylinder having a hollow structure, the screw is formed on the inner surface of the wheel axle is bolted at both ends or one end, whereby the bearing spacer is fixed to the end surface of the inner ring of the bearing, and thus the shock absorber and permanent magnet assembly is fixed and the wheel The axle is fixed to the wheel mounting frame so that only the armature including the wheel hub rotates while the wheel of the roller skate rotates and the permanent magnet assembly is fixed.

However, according to the related art, since the circuit board for wiring the light emitting diode is exposed to the outside of the coil box or to the outside of the electromagnetic coil assembly and the hub assembly, a separate bonding operation is performed on the surface of the coil box or the hub assembly. After fixing the circuit board, the transparent sealing film or the wheel tire should be wrapped outside thereof. Therefore, the assembly is very complicated and inconvenient, and the light emitting diode and the circuit board may be easily damaged due to careless handling and external impact. have.

In addition, the number of parts to be assembled and the assembly process is complicated, so that the defective rate in the production line increases, the production efficiency decreases, and a lot of defects, breakdowns and returns occur, resulting in a relatively high production cost. There is another problem that the reliability of is lowered.

Furthermore, the rotary wheels proposed in the related art are mostly used for inline skates or quick boards, and the rotary wheels rotate only when the inline skates or the quick boards are rubbed on the ground, and thus the induced electromotive force is generated. Therefore, since the light emitting diode is turned on, its use range is extremely limited. In other words, the surface of the rotating wheel must be rubbed with the ground to light up the light emitting diode, and the position at which the rotating wheel emits light is also limited to a position close to the ground.

The technical problem to be achieved in the present invention is to solve the above-mentioned problems in a rotating body having a light emitting diode, and to separate the bonding work by fixing a circuit board for wiring of the light emitting diode to a terminal inside the frame. By simplifying the assembly process, the assembly process can be greatly simplified, and the problem that the light emitting diode and the circuit board can be easily damaged due to careless handling and external impact can be solved. By attaching it to a wheel of an existing bicycle, it is possible to turn on the light emitting diode without rubbing the surface of the rotating wheel with the ground, thereby solving the problem of limiting the position where the rotating body emits light from the ground. It is to provide a rotating body having a light emitting diode.

1A is a front view of a rotating body having a light emitting diode of the present invention.

1B is a rear view of a rotating body having a light emitting diode of the present invention.

Figure 1c is a side cross-sectional view of a rotating body having a light emitting diode of the present invention.

Figure 2a is a front view of the frame outer (frame outer) of the present invention.

Figure 2b is a rear view of the frame outer of the present invention.

Figure 2c is a side cutaway view of the frame outer of the present invention.

3A is a front view of a frame inner of the present invention.

Figure 3b is a side cutaway view of the frame inner of the present invention.

4A is a front view of a holder bobbin of the present invention.

Figure 4b is a side cutaway view of the holder bobbin of the present invention.

5A is a front view of the bobbin of the present invention.

5B is a side cutaway view of the bobbin of the present invention.

6 is a front view of the magnet of the present invention.

7 is a front view of the holder magnet of the present invention.

8A is a cross-sectional side view of the terminal L of the present invention.

Figure 8b shows a conductor plate entering the terminal el of the present invention.

※ Explanation of drawing code

10. Frame 20. Hole

30. Bolt hole 40. Light emitting part

50. terminal S 60. terminal L

70. Light emitting diodes 80. Screw holes

90.Screw 100.holder-magnet

110.bobbin 120.pin

130.frame outer 140.frame inner

150.magnet 160.holder-bobbin

170. cup 180. light emitting diode holder

190. Pinhole 200. Electric magnet core

210. Conductor plate 220. Conductor plate insert

230. Light Emitting Diode Insert

Therefore, an object of the present invention, the bobbin 110, the coil wound around the ring-shaped body and its inner peripheral surface is coupled to the holder bobbin 160, the magnet 150 is attached to the inner peripheral surface of the holder magnet 100 is magnetic It is attached to the holder bobbin 160 by a thinner plate 210 inserted into the terminal S (50) and the terminal el (60) formed by the assembly of the frame outer (130) and the frame inner (140). A light emitting diode 70 is connected, and a rotor having a light emitting diode in which a pin 120 protruding from the bobbin 110 is electrically connected to the conductor plate.

In addition, the terminal S (50) and the terminal L (60) is formed inside the frame by the frame outer 130 and the frame inner 140, the light emitting diode holder 180 is formed in the inside of the frame The light emitting diode 70 is inserted into the LED holder, and a thin conductor plate is inserted into the terminal S and the terminal EL to electrically connect the pin 120 of the bobbin to the light emitting diode.

In addition, the holder bobbin 160 is arranged so that the bobbin 110 and the armature core 200 is wound in the axial direction at regular intervals, the electric magnet coil is wound therein and are arranged to deviate from the armature of the holder bobbin of one side Including the other holder bobbin 160 having a structure coupled to the upper end of the holder bobbin surrounding the bobbin, the magnetic pole induced in the magnetic magnet of the one side holder bobbin from the alternating magnetic pole of the magnet 150 during rotation The magnetic poles induced in the magnetic magnet core of the other side holder bobbin are alternately changed, and the current is induced in the bobbin.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1A is a front view of a rotating body having a light emitting diode 70 of the present invention. As shown in the figure, the front of the rotating body having a light emitting diode is the frame outer 130 is located, the center of the rotating body having a light emitting diode has a hole 20 for coupling with the wheels of the bicycle, etc. Three bolt holes 30 are formed in the periphery of the hole for installing the holder bobbin 160, and have three wings. Each wing has a terminal S 50 and a terminal for installing a light emitting diode therein. There is an L 60, and in front of the frame outer 130, there is a light emitting part 40 formed of a transparent material that allows light to pass through when the light emitting diode emits light.

Figure 1b is a cross-sectional view of the back of the rotating body having a light emitting diode of the present invention. As shown in the figure, a frame inner 140 is positioned at the rear side of the rotating body having the light emitting diode, and the bolt inner 30 is formed in the frame inner to install the holder bobbin 160 like the frame outer. It is.

Figure 1c is a side cross-sectional view of a rotating body having a light emitting diode of the present invention. As shown in the figure, the frame outer and the frame inner are coupled, and a light emitting diode is installed in a terminal formed therein, and the light emitting diode is attached to the pin 120 and the terminal of the bobbin 110, It is connected by a thin conductor plate 210. The bobbin is protected by the holder bobbin 160, the holder bobbin is fixed to the frame by bolts. In addition, the magnet 150 is protected by the holder magnet 100, it is attached to the holder bobbin 160 by a magnetic force.

Figure 2a is a front view of the frame outer 130 of the present invention. As shown in the figure, the center of the frame outer has a hole 20 for engaging with the wheel of the bicycle, etc. Three bolt holes 30 for installing the holder bobbin 160 is formed around the hole, It has two wings, each of which has a terminal for installing a light emitting diode therein. In addition, there is a diode holder 180 between the terminal el and the terminal S is provided with a place to install a light emitting diode.

Figure 2b is a rear view of the frame outer of the present invention. As shown in the figure, each wing is formed with a frame el and frame S through which the bobbin 110 and the light emitting diode 70 is electrically connected. Further, a bolt hole for engaging with the frame inner is formed in the outer peripheral surface.

Figure 2c is a side cutaway view of the frame outer of the present invention. As shown in the figure, a groove is formed in the back of the frame outer in the frame outer to form a terminal.

3A is a front view of a frame inner of the present invention. As shown in the figure, a groove for forming a terminal is formed in each wing at the front of the frame inner.

Figure 3b is a side cutaway view of the frame inner of the present invention. As shown in the figure, the frame inner has a hole formed in the center for engaging with a bicycle wheel, etc., the hole around the hole has a bolt hole for engaging with the holder bobbin 160, the outer surface of the frame inner frame outer And screw holes 80 are formed to engage with each other.

4A is a front view of a holder bobbin of the present invention. As shown in the figure, the holder bobbin is formed with a bolt hole for coupling with the frame, a gap for the portion from which the pin 120 from the bobbin is drawn. The holder bobbin is formed of an armature core 200 protruding in the axial direction, the armature cores are spaced apart at regular intervals, and are formed to be shifted from the armature cores formed on the other holder bobbin. This is because, when the armature coil assembly rotates, the cover parts to which the iron cores corresponding to the magnetic poles of the permanent magnets are rotated alternately induce different electromagnetic poles, i.e., the north pole and the south pole, to induce electromagnetic current, thereby inducing an alternating current to the coil in the bobbin. For sake. Each of the magnetic cores are arranged opposite the magnetic poles alternately arranged in the circumference of the permanent magnet, and are magnetized by a change in the magnetic flux from the permanent magnet so as to be magnetized at one polarity in an instant, and the magnetization as the electric coil assembly rotates. The polarity changes periodically. Due to the periodic change in magnetization polarity, the polarity is different, and since the magnetic flux is alternately orthogonal to the winding direction of the coil periodically, electric current is induced in the electromagnetic coil by electromagnetic induction. Through the structure of the electric coil assembly, even if the direction of the winding of the electric coil and the direction of arrangement of the permanent magnets are the same direction, magnetic flux orthogonal to the winding direction of the coil may be formed between the electric coil assembly and the permanent magnet. The current is generated so that the present invention smoothly performs electromagnetic induction.

4B is a side cutaway view of the holder bobbin 160 of the present invention. As shown in the figure, the holder bobbin is formed of an armature core 200 protruding in the axial direction, and the armature cores are formed to be spaced apart at regular intervals, and are formed to deviate from each other with the magnetic magnet cores formed on the other holder bobbin.

5A is a front view of the bobbin 110 of the present invention. As shown in the present invention, the bobbin has a ring shape to contain the armature coil, and a bolt hole for coupling the bobbin to the frame is formed at the front of the bobbin, and guides the lead wire of the armature coil from the bobbin to the outside. Three pins 120 are formed to be coupled to the terminal el and the terminal S of each wing of the frame.

5B is a side cutaway view of the bobbin 110 of the present invention. As shown in the figure, the bobbin has a ring shape to contain the electromagnetic coil, and the outer circumferential surface is formed concave to wind the electromagnetic coil. In addition, the pin 120 for guiding the lead wire to the induced electromotive force generated in the bobbin is projected to the front of the bobbin is connected to the thin conductor plate 210 installed in the terminal.

6 is a front view of the magnet 150 of the present invention. As shown in the figure, the magnet is formed in a cylindrical shape, is attached to the inner peripheral surface of the holder magnet.

7 is a front view of the holder magnet 100 of the present invention. As shown in the figure, the holder magnet is formed in a cylindrical shape, the magnet is attached to the inner peripheral surface, the center is formed with a hole for coupling with the wheel of the bicycle.

8A is a side cutaway view of the terminal el 60 of the present invention. As shown in the figure, the terminal el is formed in the frame and is formed inside the frame by assembling the frame outer and the frame inner. The terminal el is located at the right side of the terminal, and the terminal is provided with a thin conductor plate 210 for connecting the pin 120 of the bobbin 110 and the light emitting diode 70. The thin conductor plate is provided with a light emitting diode insert 230 for connecting with the light emitting diode, and a concave conductor plate insert 220 is formed in the terminal to receive the groove.

Likewise, the terminal S has the same shape as the terminal EL in the opposite direction and is located on the right side of the terminal.

8B shows a conductor plate 210 entering the interior of the terminal el of the present invention. As shown in the figure, the conductor plate is in the form of a thin plate and has a light emitting diode insertion portion on the side of the conductor plate to be connected to the wire 120 of the light emitting diode and the pin 120 of the bobbin.

The effect of the present invention is to fix the circuit board for wiring the light emitting diode to the terminal inside the frame, eliminating the extra bonding work, greatly simplifying the assembly process, and light emission due to careless handling and external impact It is possible to solve the problem that the diode and the circuit board can be easily damaged, and furthermore, by attaching a rotating body having a light emitting diode to a wheel of an existing bicycle or the like, the surface of the rotating wheel is not rubbed with the ground. The light emitting diode can be turned on to solve the problem that the position at which the rotating body emits light is limited to a place close to the ground.

Claims (3)

In the rotating body having a light emitting diode, a bobbin 110 wound around a ring-shaped body and an inner circumferential surface thereof is coupled to the holder bobbin 160, and a magnet 150 is attached to the inner circumferential surface of the holder magnet 100. It is attached to the holder bobbin 160 by magnetic force, the thin conductor plate 210 is inserted into the terminal S (50) and the terminal el (60) formed by the assembly of the frame outer (130) and the frame inner (140). Rotator having a light emitting diode 70 is connected to the light emitting diode 70, and the pin 120 protruding from the bobbin 110 is electrically connected to the conductor plate. The method of claim 1, wherein the terminal S (50) and the terminal L (60) is formed inside the frame by the frame outer 130 and the frame inner 140, the light emitting diode holder 180 in the interior of the frame A light emitting diode 70 is inserted into the LED holder, and a thin conductor plate is inserted into the terminal EL and the terminal S to electrically connect the pin 120 of the bobbin to the light emitting diode. Equipped rotating body According to claim 1, wherein the holder bobbin 160 is arranged to protrude in the axial direction at a predetermined interval between the bobbin 110 and the armature core 200, the electric coil is wound therein and the electric magnet core of the holder bobbin on one side; Electromagnetic core of the one side holder bobbin from the alternating magnetic poles of the magnet 150 is rotated, including the other side holder bobbin 160 is disposed to be offset from each other, coupled to the upper end of the one side holder bobbin having a structure surrounding the bobbin Rotating body having a light emitting diode, characterized in that the magnetic pole induced in the magnetic pole and the magnetic pole of the other holder bobbin is alternately changed to induce a current in the bobbin