KR20100089611A - Screw driver - Google Patents

Abstract

PURPOSE: A driver is provided to improve work efficiency by enabling a user to selectively control rotational speed when large torque is required. CONSTITUTION: A driver(D) comprises a front body(100), a rear body(200), a connecting ring(300), one or more side gears(400), a center shaft(500), and an elastic member(600). A second main gear(210) of the rear body and a first main gear(110) of the front body are coaxially arranged. The connecting ring is arranged between the first and second main gears. The side gears are engaged with the first and second main gears at a right angle. A driver bit is coupled to one end of the center shaft. The elastic member moves the center shaft from a contraction position to a return position.

Description

Driver {Screw driver}

The present invention relates to a driver, and more particularly, to a driver that can be fastened or disassembled from an object by rotating a screw or the like.

In general, a screwdriver is a tool that fastens or disengages from an object by providing a rotating torque to a screw, etc., and a screwdriver or a cross screwdriver is widely used.

In the conventional driver, a structure as shown in FIG. 1 is generally employed. Referring to the drawings, the conventional driver 30 is fixedly coupled to the other end of the driver bit 10 and the driver bit 10, one end of which is inserted into a straight groove or cross groove formed in the head of the screw and rotates. And a handle 20 which can be operated by a user to provide a rotational torque so that the screw can be fastened or disengaged from the object.

Such a conventional driver 30 has a rotation speed at which a user rotates the driver 30 when operating the driver 30 and a rotation speed of the driver bit 10 correspondingly rotated, and consequently, the driver bit 10. ), The rotational speed of the screw is the same, so if the screw is to be fastened at a high speed, the work efficiency is reduced.

On the other hand, some drivers have different ratios of the rotational speed of the driver and the rotational speed of the driver bit according to the gear ratio, but such a driver has disadvantages compared to the driver of FIG. 1 when a large rotational torque is required. .

It is an object of the present invention to provide a driver that allows a user to select a case where adjustment of the rotational speed is required and a case where a large rotational torque is required.

Driver according to an embodiment of the present invention for achieving the above object, the front body having a first main gear on the inside; A rear body having a second main gear disposed coaxially with the first main gear inside; A connection ring disposed between the first main gear and the second main gear and having at least one support on an outer circumferential surface thereof; At least one side gear inserted into the support part and provided to be meshed with the first main gear and the second main gear at right angles; A center shaft coupled to a driver bit through a groove formed at one end thereof, the other side of which is inserted through a hole formed at a center of the first main gear, the connection ring and the second main gear, and which is slidable in an axial direction; And an elastic member for providing an elastic force such that the central axis is directed from the contracted position toward the restored position.

Here, the central axis has a circular cross section, the other end of the cross section is in the shape of a polygon, the hole formed in the connection ring is formed to correspond to the shape of the cross section of the other end of the central axis is always engaged, the second main gear The formed hole may be formed to correspond to the shape of the cross section of the other end of the central axis, and may be provided to selectively engage the second main gear with the central axis according to sliding of the central axis.

In addition, the central axis may further include a switch for fixing the central axis at each position, when sliding to the retracted position and the restoring position. Further, the central axis, a pair of fixing grooves are formed along the outer circumferential surface, the switch may include a leaf spring formed with a locking projection at the end to correspond to the fixing groove.

In addition, the rear end of the rear body, may further include an idle ring to facilitate the rotation of the front body.

According to the embodiment of the present invention, the user can select the case where the adjustment of the rotational speed and the case that requires a large rotational torque can improve the work efficiency.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, it should not be construed as being limited to the terms or words used in the specification and claims, nor to the common or dictionary meanings, and that the inventors will properly interpret the concept of terms in order to best explain their invention in the best way possible. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments shown in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, at the time of the present application, these can be replaced It should be understood that there may be various equivalents and variations in the range.

2 is a partial cross-sectional side view of the driver according to an embodiment of the present invention, FIG. 3 is a partial cross-sectional rear view of the driver of FIG. 2, FIG. 4 is a partial cross-sectional front view of the driver of FIG. 2, and FIG. 5 is shown in FIG. 4. 6 is a side view illustrating a coupling relationship between the first and second main gears and the side gears of FIG. 2, and FIG. 7 is a cross-sectional view taken along the line BB of FIG. 6.

Driver D according to an embodiment of the present invention includes a front body 100, the rear body 200, the connection ring 300, the side gear 400, the central axis 500 and the elastic member 600. .

The front body 100 has a first main gear 110 therein. The rear body 200 also includes a second main gear 210 disposed coaxially with the first main gear 110 therein. The first main gear 100 and the second main gear 210 are in the form of a bevel gear (Bevel gear) in order to engage at a right angle with the side gear 400 to be described later. In addition, the rear end of the rear body 200 further includes an idle ring (Idel ring) (800) to facilitate the rotation of the front body 100. Since the idle ring 800 is idling, the palm touches the idle ring 800, and the rotation of the front body 100 is easy.

The connection ring 300 is disposed between the first main gear 110 and the second main gear 210, and has at least one support part 310 on an outer circumferential surface thereof. 6 and 7 show that the support 310 is provided with a total of three.

The side gears 400 are respectively inserted in the support part 310 and provided to be meshed with the first main gear 110 and the second main gear 210 at right angles. The side gear 400 also has the form of a bevel gear like the first main gear 100 and the second main gear 210. 6 and 7, three support parts 310 are provided, and three side gears 400 are also provided.

The central axis 500 is coupled to the driver bit DB through the groove 510 formed at one end thereof. In addition, the other side of the central axis 500 is formed at the center of the hole 110h formed at the center of the first main gear 110, the hole 300h formed at the center of the connection ring 300 and the second main gear 210. It penetrates through the formed hole 210h and is slidable in the axial direction.

In more detail, the central axis 500 has a circular cross section, and the cross section of the other end 520 has a polygonal shape. In addition, although the hole 110h formed at the center of the first main gear 110 is circular, the hole 300h formed at the center of the connection ring 300 and the hole 210h formed at the second main gear 210 are centered. It is formed in a polygon so as to correspond to the shape of the cross section of the other end 520 of the shaft 500. However, while the hole 300h formed in the connection ring 300 rotates in engagement with the central axis 500 at all times, the hole 210h formed in the second main gear 210 rotates in accordance with the sliding of the central axis 500. The other end 520 of the 500 may be selectively engaged or may not be engaged. 7 shows an example in which the polygon is a hexagon.

The elastic member 600 provides an elastic force such that the central axis 500 faces the restoration position RP at the contraction position SP. Here, the contracted position SP means a position where the second main gear 210 and the central axis 500 are engaged with each other, and the restoring position RP means the second main gear 210 and the central axis 500. This means the non-engaged position.

In this way, when the central axis 500 slides to the retracted position (SP) and the restoring position (RP), the switch 700 is provided to fix the central axis 500 in each position. A pair of fixing grooves 530 are formed along the outer circumferential surface of the central axis 500 for the operation of the switch 700, and the switch 700 has a locking protrusion 710a at an end thereof to correspond to the fixing groove 530. The leaf spring 710 is formed.

Hereinafter, the operating principle of the driver according to the embodiment of the present invention will be described. 8 is a partial cross-sectional perspective view of the driver in the retracted position, and FIG. 9 is a partial cross-sectional perspective view of the driver in the retracted position.

First, a case in which the central axis 500 is a restoring position RP, that is, a position where the second main gear 210 and the central axis 500 are not engaged will be described.

When the central axis 500 is the restoring position (RP), the locking projection 710a of the leaf spring 710 is located in the fixing groove 530 at the rear of the pair of fixing grooves 530.

When the user makes the idle ring 800 in contact with the palm, and rotates the front body 100 in a predetermined direction, the first main gear 110 therein is rotated together. At this time, since the first main gear 110 and the central shaft 500 is idling, the rotational force is not transmitted to the central shaft 500. When the first main gear 110 rotates, the side gear 400 meshed with the first main gear 110 at right angles also rotates. When the side gear 400 rotates, the connection ring 300 connected to the side gear 400 rotates, and the central axis 500 engaged by the same cross section as the connection ring 300 rotates, and the side gear ( The second main gear 210 meshed at right angles to 400 also rotates in the reverse direction. For example, the gear ratio of the first main gear 110 and the side gear 400 is 2: 1. When the second main gear 210 rotates, the rear body 200 coupled with the second main gear 210 also rotates. The gear ratio of the first main gear 110 and the second main gear 210 is 1: 1. Since the central shaft 500 is not directly connected to the first main gear 110, but is indirectly connected to the side gear 400 and the connection ring 300, when the front body 100 rotates once, the center is set by the gear ratio. The shaft 500 is to be rotated two times. On the other hand, the rear body 200 rotates but does not affect the rotation of the central axis 500 at all.

In this way, when the central axis 500 is in the restoring position (RP), the rotational speed of the central axis 500 is faster than the rotational speed of the front body 100, so that efficient driver operation is possible.

Next, a case in which the central axis 500 is the contracted position SP, that is, the position where the second main gear 210 and the central axis 500 are engaged will be described with reference to FIG. 9.

As described above, when the central axis 500 is in the restoring position RP and a very large rotational torque is required, the central axis 500 is pushed in the axial direction to naturally move to the contracting position SP. Of course, if the force in the vertical direction is forced to the central axis 500 can be easily moved to the retracted position (SP). When the central shaft 500 is in the contracted position SP, the locking projection 710a of the leaf spring 710 is located in the front fixing groove 530 of the pair of fixing grooves 530.

When the central axis 500 moves to the contracted position SP in this way, the polygonal hole 210h formed in the second main gear 210 meshes with the polygonal cross section of the other end 520 of the central axis 500 to form a second period. The fish 210 and the central axis 500 are engaged.

When the second main gear 210 and the central axis 500 are engaged with each other, the first main gear 110 and the second main gear 210 which are simultaneously engaged with the side gear 400 are rotated in opposite directions. Can't be. That is, the front body 100 and the rear body 200 is locked because of the property to rotate in the opposite direction to each other.

When the central axis 500 is in the contracted position (SP), the front body 100 and the rear body 200 can not be rotated separately, so it is optimized for finishing driver work requiring large rotational torque. .

Meanwhile, when the screw is finished, pressing the button 720 of the switch 700 to move the driver D back to the restoring position RP to fasten the new screw again, the locking projection ( 710a is away from the front fixing groove 530. When the locking projection 710a of the leaf spring 710 moves away from the front fixing groove 530 in this way, the elastic member 600 has an elastic force such that the central axis 500 faces the restoration position RP at the contracted position SP. To provide, the locking projection 710a is moved to the rear fixing groove 530, the central axis 500 is moved to the restoration position (RP).

Thus, according to the embodiment of the present invention, the user can select the case where the adjustment of the rotational speed of the driver (D) and the case that requires a large rotational torque can improve the work efficiency.

As mentioned above, although this invention was demonstrated by the limited embodiment and drawing, this invention is not limited by this, The person of ordinary skill in the art to which this invention belongs, Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a perspective view showing a conventional driver.

2 is a partial cross-sectional side view of a driver according to an embodiment of the present invention.

3 is a partial cross-sectional rear view of the driver of FIG. 2.

4 is a partial cross-sectional front view of the driver of FIG. 2.

5 is a cross-sectional view taken along the line A-A shown in FIG.

FIG. 6 is a side view illustrating a coupling relationship between first and second main gears and side gears of FIG. 2.

FIG. 7 is a cross-sectional view taken along line B-B shown in FIG. 6.

8 is a partial cross-sectional perspective view of the driver in the restored position.

9 is a partial cross-sectional perspective view of the driver in the retracted position.

<Description of the symbols for the main parts of the drawings>

100 Front body 200 Rear body

300 ... connection ring 400 ... side gear

500 ... center shaft 600 ... elastic member

700 ... switch 800 ... idling

Claims (5)

A front body having a first main gear inward; A rear body having a second main gear disposed coaxially with the first main gear inside; A connection ring disposed between the first main gear and the second main gear and having at least one support on an outer circumferential surface thereof; At least one side gear inserted into the support part and provided to be meshed with the first main gear and the second main gear at right angles; A center shaft coupled to a driver bit through a groove formed at one end thereof, the other side of which is inserted through a hole formed at a center of the first main gear, the connection ring and the second main gear, and which is slidable in an axial direction; And And an elastic member for providing an elastic force such that the central axis is directed from the contracted position to the restored position. The method according to claim 1, The central axis has a circular cross section, the other end has a polygonal shape, The hole formed in the connection ring is formed to correspond to the shape of the cross section of the other end of the central axis is always engaged, The hole formed in the second main gear is formed so as to correspond to the shape of the cross section of the other end of the central axis, it characterized in that the second main gear and the central axis is provided to selectively engage with the sliding of the central axis. The method according to claim 1, And a switch for holding the central axis at each position when the central axis slides to the retracted and retracted positions. The method according to claim 3, The central axis, a pair of fixing grooves are formed along the outer peripheral surface, The switch is characterized in that it comprises a leaf spring formed with a locking projection at the end to correspond to the fixing groove. The method according to claim 1, At the rear end of the rear body, The driver further comprises an idle ring to facilitate the rotation of the front body.

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