KR200348972Y1 - A Driver for Vertical Connection - Google Patents

Abstract

The present invention relates to a driver capable of vertical screwing. The driver according to the present invention includes a horizontal driver shaft connected to the handle to rotate in the horizontal direction, a vertical driver shaft connected to the driver end to rotate in the vertical direction, and a torque conversion device for connecting the horizontal driver shaft and the vertical driver shaft, At the ends of the horizontal driver shaft and the vertical driver shaft is formed a projection for engaging with the coupling grooves formed at both ends of the converter, and converts the horizontal torque transmitted from the horizontal driver shaft into a vertical torque in the converter device A converting means for transmitting to the vertical driver shaft is provided. The driver according to the present invention makes it possible to separate the screw or screw perpendicular to the driver axis.

Description

Screwdriver with vertical screw connection {A Driver for Vertical Connection}

The present invention relates to a driver, and more particularly to a driver capable of vertical coupling and separation. Generally, drivers are used to fasten and remove screws. These drivers are manufactured in various forms for screw fastening positions, ease of tightening and robustness, and Utility Model Registration No. 20-0284745 "Portable Multipurpose Driver" is designed for the convenience of carrying a driver. .

The prior art is largely composed of a cover 10, the body 11 and the light emitting portion 12 as shown in FIG. The boxer 101 is installed at the front of the body 11 and the thread 113 is formed at the end thereof so that the cover 10 can be fitted. In addition, the inside of the body 11 is provided with an installation groove 111 to fit the driver shaft 114, and forms a screw thread 112 in the rear portion of the body 11 to emit light 12 To be combined. The light emitting unit 12 coupled to the rear portion of the body 11 is provided with a battery 121, a switch 122, and a light emitting diode 124 to enable work in a dark place. Generally, the driver has a driver shaft formed in a straight or straight shape, and works by inserting the end of the driver shaft into a groove formed in the head of the screw. The conventional driver as described above has a disadvantage in that it is difficult to work when the screw or screw coupling position is where the driver shaft can not be connected in a straight line. The present invention is to solve the problem according to the working position of the conventional driver as described above.

An object of the present invention is to provide a driver that can work even if the screw or the screw is formed perpendicular to the axis of the driver. In order to achieve the above object, the driver according to the present invention divides the driver shaft into a straight part and a vertical part, and connects two parts by using a gear or a bearing or a chain. The gear or bearing or chain converts the rotation of the linear driver shaft into the rotation of the vertical driver shaft, so that it is possible to separate and combine the screw or the screw in a position perpendicular to the shaft, unlike the straight driver.

Another object of the present invention is to provide a driver with a lever that can be used when a large force is required. In general, the screwdriver to tighten the screw by turning the handle, but if the material of the screw is to be tightened, a large torque is required. In this case, the driver according to the present invention allows the generation of a large torque by mounting a lever on the handle portion.

In order to achieve the above object, a screwdriver capable of coupling a vertical screw according to the present invention has a structure as follows.

A horizontal driver shaft connected to the handle and rotating in the horizontal direction, a vertical driver shaft connected to the driver end and rotating in the vertical direction, and a torque converter for connecting the horizontal driver shaft and the vertical driver shaft, the horizontal driver shaft and the vertical driver At the end of the shaft is formed a projection for engaging with the coupling grooves formed at both ends of the conversion device, the conversion device for converting the horizontal rotational force transmitted from the horizontal driver shaft into a vertical rotational force to transmit to the vertical driver shaft in the conversion device Means are installed. As the conversion means provided in the conversion device, a chain, a gear or a ring or the like may be used, and in the case of a chain, a sprocket may be used together as necessary.

1 is a cross-sectional view of a conventional flat-blade driver.

2 (a) shows one embodiment of a screwdriver capable of vertical screw coupling according to the present invention, and (b) shows an enlarged cross-sectional view of a portion indicated by A of (a).

Figure 3 (a) shows another embodiment of a screwdriver capable of vertical screw coupling according to the present invention, (b) is an enlarged cross-sectional view of the portion indicated by B, C of (a), (c) is Connection method of the vertical axis and the horizontal axis, (d) shows the shape of the chain or the ring used to connect the horizontal axis and the vertical axis, respectively.

※ Explanation of drawing code

10 cover 11 body 12 light emitting unit

101: boxer 102: fastener 111: mounting groove

112, 113: Thread 114: Screwdriver Shaft 121: Battery

122: switch 123: light emitting diode

V: Vertical Driver Shaft H: Horizontal Driver Shaft

20: handle 21: horizontal axis appearance 22: converter

23: bearing 24: driver inner shaft 241: connecting screw

242: oil barrier

25: connecting pin 26: driver tip 27: inlet

271 inflow bearing 28 vertical gear 29 horizontal gear

30: lever 31: connection groove 32: protrusion

311: spring 312: ball 33: horizontal chain

331: chain fixing portion 34: conversion chain 35: vertical chain

351: chain fixing part 36, 37: connecting shaft 38: conversion ring

The present invention is described below with reference to the accompanying drawings, but the embodiments shown in the drawings are exemplary and the scope of the present invention is not limited thereto. In addition, in the embodiments shown in the drawings, well-known parts for clarity of explanation are briefly described or omitted, but this does not mean that these parts are excluded from the scope of the present invention.

Figure 2 (a) shows one embodiment of a screwdriver capable of vertical screw coupling according to the present invention.

As shown in FIG. 2A, the driver according to the present invention is connected with the horizontal driver shaft H and the vertical driver shaft V through the converter 22. The horizontal driver H is fixed to the handle 20, and the bearing 23 is installed at the coupling portion of the two parts. The bearing 23 is intended to smoothly rotate the horizontal driver shaft (H) is not necessarily provided. The horizontal driver shaft H is installed in the horizontal shaft exterior 21 and the bearing 23 is coupled to the end of the horizontal shaft exterior 21. At the end of the vertical driver shaft V, a groove formed in the screw or screw head and When the driver's tip is installed, it is usually used interchangeably. That is, it is installed to be interchangeable to use the tip of the various drivers according to the size or shape of the groove formed. The vertical driver shaft V is connected to the converter 22 using the connecting pin 22. The converter 22 serves to convert the horizontal rotational motion of the horizontal driver axis H into the vertical rotational motion of the vertical driver axis V. As shown in FIG. This rotational movement can be accomplished using a variety of means such as gears, chains or bearings or rings. Figure 2 (b) shows one embodiment to enable this conversion. As shown in FIG. 2B, the horizontal driver shaft H is coupled to the converter 22 using the connecting screw 241. The driver inner shaft 24 installed inside the horizontal driver shaft H is coupled to the protrusion 243 provided to protrude outward from the converter 22 in the direction of the outer horizontal driver shaft H to be installed in the converter 22. Rotate the gear 29. This rotation of the horizontal gear 29 rotates the vertical gear 28 meshed with it, and the rotation of the vertical gear 28 is transmitted to the vertical driver axis V. The coupling of the vertical driver shaft (V) and the converter 22 is made in the same way as the connection method of the horizontal driver shaft (H) and the converter (22), both of which are shown in (b) of FIG. 23). Meanwhile, in order to smoothly rotate the horizontal gear 29 and the vertical gear 28 installed in the converter 22, a lubricant inlet 27 is installed on one side of the converter 22, and the inlet 27 is an inlet bearing ( Lubricating oil is supplied to both gears 28 and 29 using 271). In addition, in order to prevent the injected lubricant from flowing toward the horizontal driver shaft H or the vertical driver shaft V, oil blocking walls 242 are respectively provided at both ends of the converter 22. Driver according to the present invention having such a structure is the rotation of the horizontal driver shaft (H) is transmitted to the horizontal gear 29 installed in the conversion device 22 and the rotational force is the vertical gear 28 meshed with the horizontal gear 29 Is passed on. The rotational force or torque converted to the rotation of both gears 28, 29 is transmitted to the vertical driver shaft V which in turn is transmitted to the driver tip 26 to allow the disengagement coupling of the vertically installed screw or screws. The combination of the driver inner shaft 24 and the converter 22 can be made in a variety of ways. Although not shown in FIG. 2B, a connection pin may be used. Another embodiment of the connection method will be illustrated in the description of FIG. 3 presented below. In the embodiment illustrated in FIG. 2B, horizontal and vertical gears are presented as means for converting rotational force, but bearings may be used. Alternatively three bearings or gears may be used although not shown in FIG. 2. Bearings or gears that may be added may be transmission gears or transmission bearings. That is, the transmission gear can be installed to smoothly convert the rotational force between the horizontal gear and the vertical gear. In the same way, the transfer bearing may be installed. Although not specifically illustrated in the embodiment shown in FIG. 2, a worm gear, a bevel gear or a helicut gear may be variously used as necessary. In FIG. 3 below, another embodiment of this conversion method is disclosed.

3 (a) shows another embodiment of a driver according to the present invention, the lever 30 is installed as an additional device. The method of connecting the horizontal driver axis H or the vertical driver axis V is similar to the method shown in FIG. The additionally installed lever 30 is used when a large torque is needed. This lever 30 may be installed in a suitable portion of the handle 20 and is coupled using known means. FIG. 3B is an enlarged view of portions indicated by B and C of FIG. This shows one embodiment in which the driver inner shaft 24 is coupled with the converter 22 in the connecting groove 243. As shown in FIG. 3B, the cross section of the protrusion 243 has a rectangular shape, and the cross section of the coupling groove 31 protruding from the converter 22 has a circular shape. The coupling groove 31 of the driver's inner shaft 32 and the conversion device 22 may be made integrally, or a packing or the like may be installed between the coupling groove 31 and the protrusion 32 to be coupled to each other. In the embodiment shown in b), the spring 311 and the ball 312 are combined. Rotating the inner shaft of the driver rotates the protrusion 32 and the ball 312 contacts the semicircular concave surface installed in the coupling groove 31 so as to correspond to the ball 312 so that the rotational force is transmitted while the coupling groove 31 rotates. Done. This rotational force is transmitted through the bearing to the converter. 3 (c) shows a chain or a ring installed in the converter to convert the rotational force. The two connecting shafts 36 and 37 are rotated in connection with the horizontal driver shaft and the vertical driver shaft, respectively. One end of the horizontal chain 33 is fixed to the horizontal connecting shaft 37 using a chain fixing part 331. The rotation of the horizontal chain 33 is transmitted to the transformation chain 34 and back to the vertical chain 35. One end of the vertical chain 35 is fixed to the vertical connecting shaft 36 by using a chain fixing portion 351. On the other hand, one conversion chain 34 is shown in FIG. According to the present invention, several pieces may be used and a twisted chain may be used as shown in (d) of FIG. 3. As described above, the chain is used to convert horizontal torque to vertical torque, but several gears, sprockets, or rings can be used. Of course, combinations thereof may also be used. Considering the cost of manufacturing, it is most advantageous to use a ring and a separate device that can fix the ring or chain or gear used as a conversion device is needed. Although not shown in the drawings, it is also possible to separate or engage the screw or screw at a non-vertical angle by appropriately adjusting the angle at which the vertically curved portion of the converter, ie, the vertical driver axis and the horizontal driver axis are connected.

Although the configuration of the driver of the present invention has been described with reference to the embodiments shown in the drawings in the detailed description of the present invention, the presented embodiments are illustrative and the scope of the present invention is not limited to the presented embodiments. The technical scope of the present invention is limited only by the claims set forth below.

It is possible to separate the screw or screw vertically of the driver according to the present invention having the configuration as described above. In particular, in the case of using a ring, as a simple connecting device, it is possible to separate screw or screw into a position that cannot be worked with a flat-blade screwdriver.

Claims (7)

In a screwdriver for screwing or screwing together, A horizontal driver shaft connected to the handle and rotating in the horizontal direction; A vertical driver axis connected to the driver tip and rotating in the vertical direction; A rotation force converter connecting the horizontal driver shaft and the vertical driver shaft; At the ends of the horizontal driver shaft and the vertical driver shaft is formed a projection for engaging with the coupling grooves formed at both ends of the converter, and converts the horizontal torque transmitted from the horizontal driver shaft into a vertical torque in the converter device A screwdriver capable of vertical screwing, characterized in that a conversion means for transmitting to the vertical driver shaft is provided. The method according to claim 1, The protrusion and the coupling groove is formed in a cylindrical shape inwardly grooves, one end is fixed to the bottom of the groove and the other end to form a circular groove corresponding to the outer circumferential surface of the ball in the protrusion and coupling groove Driver capable of coupling a vertical screw, characterized in that made. The method according to claim 1, The fixing means of the conversion device is a screw capable of vertical screw coupling, characterized in that made of a horizontal gear and a vertical gear or a horizontal bearing and a vertical bearing. The method according to claim 3, And a transmission gear or a transmission bearing is additionally installed between the horizontal gear and the vertical gear or the horizontal bearing or the vertical bearing. The method according to claim 1, The fastening means is a screw capable of vertical screw coupling, characterized in that made using a horizontal chain, a conversion chain and a vertical chain. The method according to claim 1, The fastening means is a screw capable of vertical screw coupling, characterized in that made using a horizontal ring, a conversion ring and a vertical ring. The method according to any one of claims 5 to 6, The conversion chain and the conversion ring is a screwdriver capable of vertical screw coupling, characterized in that the twisted shape.