KR20100043749A - Power transmission equipment using magnet coupler - Google Patents

Abstract

The present invention relates to a power transmission device using a magnet coupler using a magnet coupler for power transmission inside and outside the case that requires confidentiality, and connects the outside and the inside of the case (1) and has a magnet holder therein. A coupling body (10) for receiving (20) rotatable; A magnet holder 20 accommodated in the coupling main body 10 and installed to be rotatable by the bush 30, and having an internal magnet 40 in the front and a gear 50 in the rear; A drive gear 60 installed by the magnet case 70 so as to be rotatable on the outer side of the coupling main body 10 located inside the case 1 and having an external magnet 80 therein; It is characterized in that the power transmission is made so that the inside and the outside of the case (1) is completely airtight, including, according to the present invention without affecting the essential performance and structural changes of the product according to the existing It can be applied to the product to improve the productivity of the existing leak inspection process, and the durability and safety of the product itself can be improved.

Description

Power Transmission Equipment Using Magnet Coupler

The present invention relates to a power transmission device using a magnet coupler using a magnet coupler for power transmission inside / outside the case that requires confidentiality, and more particularly, between the inside and the outside of a sealed product or part. By providing a magnet coupler between the inside and outside of the case that requires power transmission in power transmission, it prevents leakage of gas and improves durability of the instrument to which it is applied, as well as changes in the shape and size of the gear. The present invention relates to a power transmission device using a magnet coupler that can change the speed or direction of the power supply and to easily adjust the strength of the power transmission force by controlling the magnet Gauss.

In general, the coupling is widely used as a shaft joint member that is attached to a power transmission device such as an industrial machine, an automation facility, and interconnects a drive shaft and a driven shaft, and transmits power at constant speed therebetween.

These couplings are directly connected to the drive shaft and the pump shaft of the power source when used in the fluid pump, but often there is a problem that the overload due to the internal failure of the pump, especially in the case of long-term use, the airtight between the inside and the outside due to the passage of the shaft This is not retained, causing fatal damage to structures and power sources around them.

In order to solve the above problems, a fluid coupling is developed, but such a fluid coupling has a problem in that it is difficult to apply practically because the power transmission efficiency is reduced by the slip, the structure is complicated, and expensive.

In addition, in the related art, an electromagnetic clutch has been developed to control power transmission of a driving shaft and a driven shaft and adjust the rotation speed by using the strength of the electromagnetic field generated by the electromagnetic coil. However, the electromagnetic clutch is complicated and expensive, and there is a problem in that it does not adequately cope with the overload of the driven shaft.

As an advanced embodiment using the strength of the electromagnetic field, a magnet coupling has been developed in which power is transmitted by installing a disk opposite to a driving shaft and a driven shaft, and attaching a magnet to the magnetic shaft to use magnetic force. There is a problem that the slip of the large power transmission efficiency is low.

The technical problem pursued by the present invention to solve the above problems is to provide a magnet coupler between the inside and the outside of the case that requires power transmission in transmitting power between the inside and the outside of the sealed product or component, It is possible to prevent the leakage of the lamp and improve the durability of the applied device, as well as change the speed and direction of power transmission by changing the shape and size of the gear, and the strength of the power transmission power by adjusting the magnet Gauss. It is to provide a power transmission device using a magnet coupler that can be easily adjusted.

Technical means implemented in the present invention to solve the above problems is the coupling body (10) for connecting the outside and the inside of the case (1) and accommodate the rotatable magnet holder 20 therein; A magnet holder 20 accommodated in the coupling main body 10 and installed to be rotatable by the bush 30, and having an internal magnet 40 in the front and a gear 50 in the rear; A drive gear 60 installed by the magnet case 70 so as to be rotatable on the outer side of the coupling main body 10 located inside the case 1 and having an external magnet 80 therein; Including the power transmission device using a magnet coupler, characterized in that the power transmission is made in a state in which the inside and the outside of the case (1) completely confidential.

According to the present invention, by applying to the existing production product without affecting the intrinsic performance and structural changes of the product to improve the productivity of the existing leakage inspection process, and prevents damage to the equipment by idling of the connection part in case of overload It is possible to improve durability and safety.

Preferred embodiments of the present invention as described above will be described in detail by the accompanying drawings.

(A) is an exploded perspective view of this invention, (b) is sectional drawing of the state which assembled a part of (a). 2 is a perspective cross-sectional view illustrating an assembled state of the present invention, Figure 3 is an assembled cross-sectional view of the present invention.

When the components of the power transmission apparatus using the magnet coupler according to the present invention are broadly classified, the outside and the inside of the case (applied to the gas meter in the embodiment of the present invention) 1 of the device to which the present invention is applied is A coupling main body 10 connected in a shielded state, a magnet holder 20 accommodated to be rotatable inside the coupling main body 10, and a coupling main body located inside the case 1 ( It consists of a drive gear 60 provided by the magnet case 70 so as to be rotatable on the outside of the 10).

Coupling main body 10 for connecting the outside and the inside of the case 1 while maintaining a shielding state is a magnet holder coupling portion 11 and the magnet holder 20 for rotatably coupling the magnet holder 20 A bush coupling groove 12 is provided for installing the drive gear coupling part 14 and the coupling body 10 which are partitioned by the partition jaw 13 so as to be coupled to the case. It is configured to include a case coupling portion 15.

The magnet holder 20 coupled to the inside of the coupling body 10 to be rotatable is provided with an undercut 21 for fixing an internal magnet 40 at a front end thereof, and a semicircular face 23 at a rear end thereof. The gear coupling part 24 formed with the groove 22 is provided.

Therefore, when assembling the magnet holder 20 inside the coupling main body 10 of the present invention, first, the through-cut 41 of the internal magnet 40 coincides with the undercut 21 formed at the tip of the magnet holder 20, and then the shaft is aligned. When pushed in the direction, the undercut 21 is deformed and contracted to the center of the shaft to pass through the internal magnet 40 and then restored, thereby preventing the internal magnet 40 from being separated from the magnet holder 20.

In this way, the magnet holder 20 is coupled to the magnet holder coupling part 11 inside the coupling body 10 in a state in which the internal magnet 40 is coupled to the magnet holder 20, wherein the magnet holder 20 is coupled to the coupling body 10. The bush coupling groove 12 formed on the inner surface of the c) and the bush 30 coupled to the bush coupling groove 12 are rotatably installed in the coupling body 10.

The internal magnet 40 and the external magnet 80, which will be described later, are magnetized at intervals of 90 degrees so that the N pole and the S pole cross each other in four directions, and thus are configured to transmit power by mutual attraction force. have.

In addition, a gear 50 having a structure having various shapes and sizes for power transmission is formed in the gear coupling portion 24 formed of the semi-circular surfaces 23 and the grooves 22 provided at the rear end of the magnet holder 20. It is assembled.

On the other hand, the drive gear 60 is installed by the magnet case 70 so as to be rotatable on the outer side of the coupling main body 10 and has an external magnet 80 therein is one side of the magnet case 70. It is formed on the inner surface of one side of the locking jaw 71 and the drive gear 60 formed on the outer circumference and is configured to be coupled in an S shape by the locking groove 61 corresponding to the shape of the locking jaw 71.

Therefore, when the drive gear 60 is coupled to the drive gear coupling portion 14 of the coupling body 10 partitioned by the partition jaw 13, first, the drive gear 60 is provided and the internal Align the positioning grooves 81 of the external magnets 80 with the positioning projections 62 for directing the magnetic poles so that the magnetic poles different from the magnets 40 are positioned, and then the outer side of the magnet case 70. By engaging in the S-shape by the engaging jaw 71 formed in the circumference and the engaging groove 61 formed on one inner surface of the drive gear 60, the operation of assembling the drive gear 60 and the magnet case 70 is easy. However, it is composed of a structure that does not fall easily after assembly.

Figure 4 is a side perspective view illustrating the magnetic flux distribution of the present invention.

As can be seen from the figure, the internal magnet 80 and the magnet holder 20 of the drive gear 60 installed by the magnet case 70 to be rotatable to the outside of the coupling main body 10 is installed The magnet 40 has the N pole and the S pole intersecting in four directions, respectively, and acts to transfer power by pulling forces to each other with the coupling body 10 interposed therebetween, which is the assembled magnet case 70. It is also to be able to serve as a secondary fixing so as not to be separated from the coupling body (10).

 5 is an exemplary view of a state in which the present invention is applied to a gas meter.

As shown in the drawing, the power transmission device using the magnet coupler according to the present invention is installed to transmit power between the upper case 1 and the graduation case 2 of the gas meter which requires full shielding. The drive gear 60 rotates by the flow of gas moving inside the upper case 1, and the external magnet 80 installed in the drive gear 60 rotates simultaneously by the rotation of the drive gear 60. The magnetic force of the tunnel magnet 80 is transmitted to the internal magnet 40 so that the gear 50 provided at the rear end of the magnet holder 20 rotates to drive the driving drum 3 to measure the amount of gas used. It is composed of a structure.

As described above, according to the present invention can be applied to the existing production product without affecting the intrinsic performance and structural changes of the product to improve the productivity of the existing leakage inspection process, and damage the equipment by idling the connection part in the case of overload This prevents the durability and safety of the product itself.

Figure 1 (a) is an exploded perspective view of the present invention, (b) is a cross-sectional view of the assembled state

Figure 2 is a perspective cross-sectional view illustrating an assembled state of the present invention

Figure 3 is an assembled cross-sectional view of the present invention

Figure 4 is a side perspective view illustrating a magnetic flux distribution of the present invention

5 is an exemplary view of a state in which the present invention is applied to a gas meter

[Description of Symbols for Main Parts of Drawing]

1: case 2: graduation case

3: driving drum 10: coupling body

11: magnet holder coupling portion 12: bush coupling groove

13: Compartment Jaw 14: Drive Gear Coupling Part

15: case coupling portion 20: magnet holder

21: Undercut 22: Home

23: semicircular face 24: gear coupling

30: Bush 40: Internal magnet

41: through hole 50: gear

60: drive gear 61: locking groove

70: magnet case 71: locking jaw

80: external magnet 81: positioning home

Claims (5)

A coupling body 10 connecting the outside and the inside of the case 1 and accommodating the magnet holder 20 to be rotatable therein; A magnet holder 20 accommodated in the coupling main body 10 and installed to be rotatable by the bush 30, and having an internal magnet 40 in the front and a gear 50 in the rear; A drive gear 60 installed by the magnet case 70 so as to be rotatable on the outer side of the coupling main body 10 located inside the case 1 and having an external magnet 80 therein; Power transmission device using a magnet coupler, characterized in that the power transmission is made in a state in which the inside and the outside of the case (1) completely confidential. The method according to claim 1, The coupling body 10 which connects the outside and the inside of the case 1 has a magnet holder coupling part 11 for coupling the magnet holder 20 to be rotatable and a bush coupling for installing the magnet holder 20. A groove 12 is provided and includes a drive gear coupling portion 14 partitioned by the partitioning jaw 13 and a case coupling portion 15 for coupling the coupling body 10 to the case. Power transmission device using a magnet coupler, characterized in that the configuration. The method according to claim 1, The magnet holder 20 coupled to the inside of the coupling body 10 to be rotatable is provided with an undercut 21 for fixing an internal magnet 40 at a front end thereof, and a semicircular face 23 at a rear end thereof. Power transmission device using a magnet coupler, characterized in that the gear coupling portion 24 is provided with a groove (22). The method according to claim 2 or 3, The magnet holder 20 is rotated in the coupling body 10 by the bush coupling groove 12 formed on the inner surface of the coupling body 10 and the bush 30 coupled to the bush coupling groove 12. Power transmission device using a magnet coupler characterized in that it is installed to enable. The method according to claim 1, The drive gear 60 is installed by the magnet case 70 so as to be rotatable on the outer side of the coupling main body 10 and has an external magnet 80 therein, the outer side of one side of the magnet case 70. It is formed on the inner surface of one side of the engaging jaw 71 and the drive gear 60 formed on the periphery, characterized in that configured to be coupled in an S shape by the engaging groove 61 corresponding to the shape of the engaging jaw 71. Power transmission device using a magnetic coupler.

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