JP5624241B1 - Bendable screwdriver - Google Patents

Abstract

[PROBLEMS] To be able to bend the tip of the driver so that it can be operated in a place where the working space is narrow relative to the driver length, and can be handled in the same manner as a general driver in a normal state. Provide a driver. A bendable structure in which the tip of a driver can be fixed substantially vertically and the direction of rotation is changed by a bevel gear 7 to enable screwing work in a narrow work space. In the state where the driver tip is not bent, the driver base 5 and the driver bit 6 are connected via the protrusion 8 or the driver base 5 and the driver bit 6 are fixed using the fixing protrusion 15 and the fixing part 16. By fixing it to the hollow frame 3, it can be handled in the same way as a general driver. [Selection] Figure 3

Description

  The present invention relates to a driver that can be used as a general driver and that can be used for work in a place where the work space is narrow with respect to the driver length, and that can be bent at the tip of the driver.

  Drivers are frequently used in the engineering field, and there are various types. For example, it is widely used for construction, assembly of machines, assembly of precision equipment such as electronic products, and wiring connection in electrical work.

  In this way, due to the high frequency of use of drivers, in recent years there are a wide variety of drivers that are sold, and many drivers that have been devised for specific purposes have been commercialized. For example, there are drivers that are equipped with a ratchet mechanism and that can be rotated quickly, insulating drivers that are used in electrical work where there is a risk of electric shock, and impact drivers that use a hammer to loosen the fixed screws.

  In addition, there are various types such as a Phillips screwdriver, a flat-blade screwdriver, a star-shaped screwdriver, and a hexagon screwdriver depending on the shape of the tip.

  With a general driver, it is difficult to work in a place where the work space is narrow relative to the driver length. In order to solve such problems, an offset driver and a ratchet driver in which the tip of the driver is fixed at 90 degrees and a flexible driver in which the driver's shaft is bent have been developed. However, the tip of the offset screwdriver is completely fixed, and in order to turn the screw, press the tip of the screwdriver against the groove of the screw. Operation is required and work efficiency is poor. The ratchet driver has the same problem as the offset driver because the ratchet mechanism does not operate unless the screws are tightened to some extent. A flexible screwdriver is difficult to apply a large force due to its structure, and is not suitable for work requiring a large torque. In addition, the foldable range is determined to some extent, and there is a problem that a wider working space is required than an offset driver or a ratchet driver when the driver tip is bent substantially perpendicularly to the grip portion.

  After all, it is a simple measure to make a structure that facilitates the screwing operation at the design stage of the equipment that uses screws, or to widen the work space by separating the installation places of the equipment. However, due to the design of the equipment, the working space may be reduced, and for example, farmers need to install large equipment such as threshers, dryers, and rice mills on the premises. At present, the gap is narrow and the working space for equipment maintenance tends to be narrow.

  In such a situation, a screwdriver for narrow places has been developed that facilitates screwing in narrow places, such as when the object gets in the way and the tip of the screwdriver does not reach the screw. Patent Document 1 discloses a screwdriver for a narrow space in which the tip of a screwdriver is bent and the state where the screw is bent is fixed. This screwdriver solves the problem that it is difficult to fix the screw in a narrow place by fixing the tip of the screwdriver in a bent state. However, this screwdriver realizes that it is possible to work in a narrow place, but the usage is limited to a narrow place and is not suitable for use as a general driver.

JP 08-108375 A

  In view of such a conventional problem, the present invention has a structure in which the driver tip portion can be bent so that it can handle work in a place where the working space is narrow relative to the driver length, and the driver tip portion is bent. There is no normal condition to provide a driver that can be used in the same way as a general driver.

  The driver described in claim 1 of the present invention is a driver in which a driver tip portion can be bent. The main body of the driver is divided into two parts, a hollow frame 3 connected by a hinge 10, a driver base 5 and a driver bit 6 having a bevel gear 7, and an inner driver of the hollow frame 3 divided into two parts The auxiliary grip 2 is provided on the hollow frame 3 on the bit 6 side.

  Further, in addition to the features described in claim 1, the driver described in claim 2 of the present invention uses the stopper 4 and the fixing part 9 to fix the driver tip portion substantially vertically. Features.

  Furthermore, the driver described in claim 3 of the present invention, in addition to the features described in claim 1 or 2, in addition to the bevel gear 7 when the driver tip portion is fixed in a substantially vertically folded state, It is possible to change the direction of rotation by using it.

  Furthermore, in addition to the features described in any one of claims 1 to 3, the driver described in claim 4 of the present invention has an auxiliary grip 2 when the driver tip portion is fixed in a substantially vertical bent state. It is characterized in that the screw can be pressed into the screw hole using.

  Furthermore, the driver described in claim 5 of the present invention has the driver base 5 and the driver bit 6 in a state where the driver tip portion is not bent, in addition to the features described in any of claims 1 to 4. The projection 8 can be connected, and when connected by the projection 8, it can be handled in the same manner as a general driver.

  Furthermore, the driver according to claim 6 of the present invention is elastic by the linear member 13 connected to the tip of the protrusion 8 and the elastic member 12 when the tip of the driver is fixed in a substantially vertical state. The member 12 is contracted, and the teeth of the bevel gear 11 having a hole in the center thereof mesh with the bevel gear 7 by the tension of the contracted elastic member 12.

  Furthermore, in the driver according to claim 7 of the present invention, the driver base portion 5 and the driver bit 6 are used as the hollow frame 3 by using the fixing protrusion 15 and the fixing part 16 in a state where the driver tip portion is not bent. In the connected state, it can be handled in the same manner as a general driver.

  As described above, the driver of the present invention has a structure in which the driver tip portion can be bent, and in the state where the driver tip portion is bent substantially vertically, the rotation direction is changed by the bevel gear 7 to Work in a small work space is possible. In this state, the auxiliary grip 2 can be used to press the screw into the screw hole, so that the screwing operation can be performed efficiently. Further, when the driver tip portion is not bent, the driver base 5 and the driver bit 6 are connected via the protrusion 8 or fixed to the hollow frame 3 using the fixing protrusion 15 and the fixing part 16. By doing so, it can be handled in the same way as a general driver.

It is a perspective view which shows the external appearance of the driver of this invention. It is a side view which shows the linear state of the driver of this invention. It is a side view which shows the state which bent the driver of this invention substantially perpendicularly. It is a side view of the modification of this invention. It is a side view of the modification of this invention. It is a side view of the modification of this invention. It is a side view of the modification of this invention. It is a top view of the modification of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the embodiment described below exemplifies a driver for embodying the technical idea of the present invention, and the present invention does not specify the driver as the following. In particular, in this specification, in order to facilitate understanding of the scope of claims, the numbers corresponding to the members shown in the embodiments are referred to as “claims” and “means for solving the problems”. However, the members shown in the claims are not specified as the members in the embodiment. In particular, the dimensions, materials, shapes, relative arrangements, and the like of the constituent members described in the embodiments are not intended to limit the scope of the present invention only to the description unless otherwise specified. It's just an example. Note that the size, positional relationship, and the like of the members shown in each drawing may be exaggerated for clarity of explanation. Furthermore, in the following description, the same name and symbol indicate the same or the same members, and detailed description thereof will be omitted as appropriate.
[Example]

  1 to 3 show a basic usage pattern driver according to an embodiment of the present invention. 1 is a perspective view showing an external appearance of the driver, FIG. 2 is a side view showing a straight state of the driver, and FIG. 3 is a side view showing a state in which the driver is bent substantially vertically.

The driver shown in these drawings includes a grip 1, a hollow frame 3 connected by a hinge 10, a driver base 5 and a driver bit 6 having a bevel gear 7, and a stopper 4 provided on the hollow frame 3 on the driver base 5 side. The fixing part 9 and the auxiliary grip 2 are provided on the driver bit 6 side.

As shown in FIG. 1, the hollow frame 3 is divided into two parts and connected by a hinge 10 that can move 180 degrees. A driver base 5 and a driver bit 6 are provided therein, and each has a structure capable of smoothly rotating inside the hollow frame 3. The hollow frame 3 keeps the axis of the driver base 5 and the driver bit 6 on the same plane even when the driver is bent. Of the hollow frame 3 divided into two, a stopper 4 is provided on the hollow frame 3 on the driver base 5 side, and a fixing part 9 and an auxiliary grip 2 are provided on the hollow frame 3 on the driver bit 6 side. . Here, the driver bit 6 shown in the figure is for transmitting the rotation to the screw by inserting the tip part into the head of the screw and rotating it, but its shape is not limited to one type, It is formed corresponding to the head shape of the screw, and may have various shapes such as a plus shape, a minus shape, or a hexagon shape.

As shown in FIG. 2, in the straight state, the driver base 5 and the driver bit 6 are connected via the protrusion 8, and when the driver base 5 is rotated, the rotation is transmitted to the driver bit 6 via the protrusion 8. In this state, it can be used like a general driver. Here, in order to transmit the rotation from the driver base 5 to the driver bit 6, the protrusion 8 may have a length of about 5 mm, and the shape thereof may be a polygon that can transmit the rotation. In addition, the protrusion 8 shown in figure is represented by the rectangle as an example.

As shown in FIG. 3, the stopper 4 and the fixing part 9 can be fixed in a state where the driver tip portion is bent substantially vertically. In this state, the bevel gear 7 provided on the driver base 5 and the driver bit 6 is fixed. The direction of rotation can be changed by. In this state, the screw can be pressed into the screw hole by using the auxiliary grip 2 provided in the hollow frame 3. Therefore, as shown in FIG. 3, the driver tip portion is fixed in a state of being bent substantially vertically, the auxiliary grip 2 is used to press the screw against the screw hole, and the rotating direction is changed by the bevel gear 7, thereby changing the existing direction. It becomes possible to perform screwing work in a narrow space more efficiently than an offset driver or the like. Here, FIG. 3 illustrates a friction fixing method in which the fixing part 9 is inserted into the stopper 4, but the fixing method is not limited to the friction method, and both the stopper 4 and the fixing part 9 or A fixing method using a magnetic force using a neodymium magnet or the like having a relatively strong magnetic force on one of them may be used.

Since the rotation direction is changed by the bevel gear 7, the clearance between the driver base 5 and the driver bit 6 and the hollow frame 3 is such that the driver base 5 and the driver bit 6 can smoothly rotate inside the hollow frame 3, and is almost loose. It is desirable that there is no. Moreover, the length of the hollow frame 3 should be at least about 2 cm on both the driver base 5 side and the driver bit 6 side, and in a substantially vertical state, it slides and moves by the length of the bevel gear 7, so that much. Any length is possible as long as it is shorter than the length of the driver base 5 and the driver bit 6, respectively.

The grip 1 is preferably made of a synthetic resin having a length of about 5 cm to 10 cm and has a substantially cylindrical shape that is easy to grip. Further, considering that the tip portion is bent, the total length of the driver from the grip 1 to the tip of the driver bit 6 is preferably about 20 cm to 25 cm. Further, considering that the driver tip is bent and inserted into a narrow space, the driver bit 6 is preferably about 3 cm to 5 cm.

The auxiliary grip 2 is preferably about the same length as the driver base 5 and made of metal. Considering the case where the driver tip portion is used without being bent, the diameter of the auxiliary grip 2 is preferably about the same as that of the driver base 5 or thinner than the driver base 5 so as not to hinder the use. The auxiliary grip 2 shown in the figure is represented by a single rod-like member as an example. For example, the auxiliary grip 2 is about 3 cm long, thicker than the driver base 5 and thinner than the grip 1 so as to be easily gripped. It is good also as a structure which formed a handle. The auxiliary grip 2 does not necessarily need to be completely fixed to the hollow frame 3. For example, a protrusion having a screw hole of about 5 mm is provided on the hollow frame 3 side, and a screw corresponding to the screw hole is provided on the auxiliary grip 2. The structure can be cut and attached by screws, or the hollow frame 3 is provided with a 5mm to 1cm protrusion with a hole, and the auxiliary grip 2 is inserted into the hole of the protrusion. Also good. Further, a fixing method using magnetic force instead of friction may be used.

Contact with other parts or substances such as hollow frame 3, stopper 4, driver base 5, driver bit 6, bevel gear 7, projection 8, fixed part 9, hinge 10, etc. It is desirable that the member considered to be a material having mechanical strength such as metal.
[Modification]

  4, 5, 6, 7 and 8 show modifications of the present invention. 4 is a side view showing the straight state of the driver, FIG. 5 is a side view showing the substantially vertical state of the driver, and FIG. 6 is a side view showing the straight state when the fixing protrusion 15 and the fixing part 16 are attached. 7 is a side view showing a substantially vertical state when the fixing protrusion 15 and the fixing part 16 are attached, and FIG. 8 is a top view when the fixing protrusion 15 and the fixing part 16 are attached. In addition, in a modification, the member similar to an Example may be used, and detailed description is abbreviate | omitted suitably.

As shown in FIG. 4, the driver base 14 has a cavity inside, and the elastic member 12 and the linear member 13 can be accommodated in the cavity portion. In the straight state, tension is applied to the elastic member 12 by the linear member 13 connected to the tip of the protrusion 8 and the elastic member 12, and the driver base 5 and the driver bit 6 are connected by the protrusion 8. Here, the elastic member 12 is described using a metal spring, but any elastic member having the same function as this may be used.

As shown in FIG. 5, when the driver tip is fixed in a substantially vertical state by the stopper 4 and the fixing part 9, the elastic member 12 is contracted by the linear member 13 connected to the tip of the protrusion 8 and the elastic member 12. Thus, a stronger tension is applied than in the straight line state of FIG. The protrusion 8 connected to the linear member 13 is pulled by the tension of the contracted elastic member 12, and is provided on the side of the bevel gear 11 and the driver bit 6 having a hole in the center provided on the driver base 5 side. The teeth of the bevel gear 7 mesh strongly.

As shown in FIG. 5, the linear member 13 is pulled by the tension of the elastic member 12, and is in contact with the hole of the bevel gear 11 having a hole in the center, so that the linear member 13 is resistant to friction and has a high tensile strength. A strong wire or piano wire is desirable, but any member that has a certain degree of tensile strength and friction can be used.

As shown in FIG. 6, when the fixing protrusion 15 and the fixing part 16 are attached instead of the protrusion 8, the hollow frame, the driver base 5 and the driver bit 6 are fixed by the fixing protrusion 15 and the fixing part 16. be able to. Therefore, in the straight line state, the rotation of the driver base 5 can be transmitted to the driver bit 6 through the hollow frame so that it can be handled in the same manner as a general driver. Here, in FIG. 6, four pairs of fixing protrusions 15 and fixing parts 16 are shown, but this mechanism operates at least if there is a pair of fixing protrusions 15 and fixing parts 16. This is because it can. Therefore, in order to increase the strength, the number of pairs of the fixing protrusions 15 and the fixing parts 16 may be arbitrarily increased.

As shown in FIG. 7, when the stopper 4 and the fixing part 9 are fixed in a substantially vertical state, the rotating direction can be changed by the bevel gear 7 by removing the fixing part 16 from the fixing protrusion 15.

As shown in FIG. 8, the fixing part 16 has a hole, and the fixing bit 15 is inserted into the hole to fix the driver bit 6 and the hollow frame 3. The fixing method is not limited to one, and a fixing method by friction or a fixing method using magnetic force may be used. Here, the fixing part 16 has a structure in which one end is fixed to the hollow frame 3 and can be moved 180 degrees. Therefore, since the fixing part 16 is moved and fixed to the fixing protrusion 15, the hole of the fixing part 16 is larger than the fixing protrusion 15, and the shape of the fixing part 16 and the fixing protrusion 15 is rectangular. It is desirable. Further, the fixing protrusion 15 only needs to have a height of about 5 mm.

  The driver of the present invention can be used for screwing work in a narrow space, and can also be used as a general driver.

DESCRIPTION OF SYMBOLS 1 ... Grip 2 ... Auxiliary grip 3 ... Hollow frame 4 ... Stopper 5 ... Driver base 6 ... Driver bit 7 ... Bevel gear 8 ... Projection 9 ... Fixed part 10 ... Hinge 11 ... Bevel gear 12 ... Elastic member 13 ... Linear member 14 ... Driver base 15 ... Fixing protrusion 16 ... Fixing parts

Claims (7)

A foldable screwdriver with a driver base (5) and a driver bit (6) with a bevel gear (7 ) inside a hollow frame (3) divided into two and connected by a hinge (10) Of the hollow frame (3) divided into two, a stopper (4) is provided on the hollow frame on the driver base (5) side, and a fixed part ( on the hollow frame (3 ) on the driver bit (6) side ) 9) A driver with an auxiliary grip (2) . 2. The driver according to claim 1, wherein the hollow frame (3) can be fixed substantially vertically using a stopper (4) and a fixing part (9) . The said driver can change a rotation direction using a bevel gear (7) , when fixing in the state which bent the front-end | tip part of the driver substantially perpendicularly. driver. The screwdriver can press the screw into the screw hole by using the auxiliary grip (2) when the driver tip portion is fixed in a substantially vertical bent state. 3. The driver according to any one of 3. The driver base (5) and the driver bit (6) can be connected using a protrusion (8) provided on the driver bit (6) side, and in a state where they are connected by the protrusion (8) , The driver according to any one of claims 1 to 4, wherein the driver can be handled in the same manner as a typical driver. Instead of the driver base with a bevel gear (7) (5), a central driver base (14) with a cavity therein having bevel gears or a hole (1 1) provided in the elastic to the cavity a member (1 2), projections (8) tip and the resilient member (12) driver according to any of claims 1 to 5, provided with a linear member (13) which connects the. Instead of the projection (8), fixing projections driver base and (5) to the driver bit (6) (15) is provided, at Rukoto provided fixing parts to the hollow frame (3) (16), fixed The driver according to any one of claims 1 to 6, wherein the driver base (5) and the driver bit (6) can be fixed in a straight line by using the protrusion ( 15) and the fixing part (16). .