KR20110058197A - Screw holder for driver - Google Patents

Abstract

PURPOSE: A screw holder for a driver is provided to stably drive a screw into a base material by covering the shaft and head units of the screw. CONSTITUTION: A screw holder for a driver comprises a cylindrical body(10), multiple elastic units(11), and support protrusions(12). One end of the cylindrical body is opened, and the other end has a driver insertion hole(H1). The elastic units are arranged from the inlet of the body in a circular shape. The support protrusions are protruded from the inner end of the elastic units and cover the shaft unit of an inserted screw.

Description

Screw holder {screw holder for Driver}

The present invention relates to a screw holder, and more particularly, to a screw holder to be screwed in a stable state while holding the screw so as not to be thrown out when fixing the screw to the base material.

In general, the screw consists of a shaft and a head, a screw is formed around the shaft, the head is formed with a cross (+) or straight (-) groove. The driver consists of an elongated shaft and a handle, and a protrusion is formed at the end of the shaft to be coupled to the groove of the screw.

Therefore, in order to fix the screw to the base material, it is necessary to use a driver, and the protrusion of the driver is coupled to the groove of the screw and rotates the driver, the screw rotates and forms a screw thread on the base material and gets stuck.

In this process, the worker grips the handle of the driver with one hand, grasps the head of the screw with the other hand, and then attaches the screw to the tip of the screwdriver so as to fit the screw of the screwdriver into the groove of the screw and to the base material to be fixed. In this state, the driver is rotated and the force is applied in the vertical direction of the base material.The section where the groove of the screw and the protrusion of the driver are relatively narrow is narrow, so if the direction of applying the force is too small, the screw will spring out. The task was difficult. In addition, there are safety issues such as injury to the screw, which may cause injury to the hand holding the screw, or damage to the face and body caused by the screw that is thrown away. There was a problem of hassle to come down.

Therefore, the present invention has been made to solve the above problems, while being securely wrapped around the periphery of the screw, so that the force applied is exactly in the vertical direction of the base material so that the screw is nailed to maintain a stable state and accurately nailed The purpose is to provide a screw holder.

Screw holder according to the present invention for achieving the above object,

One end is opened and the other end is a cylindrical body formed with a driver insertion hole (H);

A plurality of elastic bands arranged in a circular shape from the opening of the body;

A support protrusion protruding in the center direction at the inner side of the distal end of the elastic band and surrounding the shaft portion of the screw; Characterized in that consisting of.

In addition, the body is characterized in that the guide provided to guide the movement of the driver and prevent the flow therein.

In addition, the body is provided with a housing at its rear end so that the body is inserted into the housing by the connecting means and raised, and the driver is inserted from the rear of the housing so that the tip is positioned in the body, but the inserted driver slides in the housing. The separation prevention plate is provided integrally, characterized in that the compression spring is installed between the back of the body and the separation prevention plate.

In addition, a bushing is provided between the compression spring and the release preventing plate.

In addition, the connecting means is a screw holder, characterized in that to form a male thread around the periphery of the body, and to form a female thread on the inner periphery of the housing to helix coupling.

In addition, the connecting means, protruding the locking jaw around the body, characterized in that the housing is formed by forming a plurality of locking grooves in the longitudinal direction in which the locking jaw of the body is fitted.

In addition, the housing is characterized in that the guide groove is formed to be connected to one side of each engaging groove long.

Since the screw holder according to the present invention having such a structure is screwed into the base material while being inserted into the holder, there is no fear of jumping out of the screw, so that the screw is not lost and picked up, and the screw is held around the shaft and the head of the screw. Since it is driven while maintaining the vertical state from the base material, there is an effect that the screw is very stable.

In addition, the screw inserted into the holder does not escape from the holder until it is lodged, there is an effect to prevent loss, and the length of the holder is adjusted, there is an effect that can be used for all screws regardless of the length of the screw.

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

1A is a perspective view illustrating a screw holder according to a first embodiment of the present invention, and FIG. 1B is a cross-sectional view illustrating a structure of a screw holder according to a first embodiment of the present invention.

As shown in these figures, the screw holder according to the present invention comprises a cylindrical body 10 and an elastic band 11 protruding from the tip of the body 10.

The body 10 has a cylindrical shape with one surface opened and the other end blocked is formed with a driver insertion hole H1 at the center thereof, and when the driver 1 is inserted, the tip of the driver 1 is inside the body 10. It can be located at.

The elastic band 11 is formed to protrude in the longitudinal direction of the body 10 from the opening of the body 10 is formed in a plurality of equal intervals at regular intervals on the circumference. The elastic band 11 is formed to have its own elastic force by the elongated, the inner diameter is expanded and then restored to its original state when the external force is removed. In addition, the support protrusions 12 protrude from the inner peripheral surface of the elastic band 11 in the center direction, and the protruding support protrusions 12 have a circular arrangement as the elastic bands are formed on the circumference and are inserted into screws ( It corresponds to the diameter of the shaft part 2a of 2). In addition, the support protrusion 12 is formed in the inclined surface in the front and rear direction when the head portion 2b of the screw 2 is inserted into contact with the inclined surface of the support protrusion 12, the elastic band 11 is bent and open.

In addition, the body 10 is provided with a guide (1c) for supporting while supporting the movement of the driver (1) straight on the same axis therein. It is sufficient that the guide 1c has a structure that wraps around the inserted driver 1c. By this structure, the driver 1 is correctly guided to the head 2b of the screw 2.

When screwing the screw 2 to the base material 3 using the screw holder according to the present invention having such a structure, first, the screw 2 is inserted into the opening of the body 10. Here, the head 2b of the screw 2 is inserted from the elastic band 11 of the body 10. When the screw 2 is forcibly inserted, the head of the screw 2 is larger than the support protrusion 12. (2b) is large, the elastic band 11 is opened while being in contact with the inclined surface of the support protrusion 12, and when the insertion of the head (2b) is completed, the elastic band 11 is restored to its original state by the self restoring force . In this state, the head portion 2b of the screw 2 is inserted into the body 10 and the shaft portion 2a has a form surrounded by the support protrusion 12 while only the tip thereof protrudes. That is, the head 2b of the screw 2 is held by the inner circumference of the body 10 and the shaft 2a is supported by the support protrusion 12 so that the inserted screw 2 is in the longitudinal direction of the body 10. Only move. Since the elastic band 11 has been restored to its original state, the screw 2 remains inserted without being separated from the body 10 due to the large diameter head 2b.

As such, when the screw 2 is inserted into the body 10, the driver 1 is inserted into the driver insertion hole H1 of the body 10. Then, the inserted screwdriver 1 penetrates the guide 1c in the body 10 to be in close contact with the head portion 2b of the screw 2, and when the screwdriver 1 is slightly rotated to the left and right, the head portion of the screw 2 is rotated. (2b) The groove of the driver 1 fits into the groove. In this state, the tip of the screw 2 is slightly protruded from the end of the body 10, and then the tip of the screw 2 is placed on the base material 3 to be pushed, and the body is held by one hand without holding the screwdriver 1. Holding firmly (10) and rotating while pushing the driver (1) is screwed (2) is rotated in the base material (3). In this process, the shaft portion 2a of the screw 2 is held by the support protrusion 12 and the head 2b is held by the inner circumference of the body 10 so that the screw 2 is lodged without shaking, and the driver 1 also has a body. Since the driver insertion hole (H1) and the guide (1c) of the (10) to hold the screw (2) is embedded in the base material (3) in a stable state without shaking.

Figure 2a is a perspective view showing a screw holder according to a second embodiment of the present invention, Figure 2b is a cross-sectional view showing the structure of a screw holder according to a second embodiment of the present invention.

As shown in these drawings, the screw holder according to the present invention has a housing 20 at the rear end of the body 10 described in the first embodiment, and the body 10 is connected to the housing 20 by the connecting means 30. The driver 1 is inserted from the rear surface of the housing 20 while being inserted into and exited.

The housing 20 has a cylindrical shape, the inner diameter of which is larger than the outer diameter of the body 10 so that the body 10 can be inserted and released from the front. At the rear end of the housing 20, a driver insertion hole H2 into which the driver 1 is inserted is formed, and the driver 1 inserted therein is both the driver insertion hole H1 and the H2 of the body 10 and the housing 20. ) To be exactly centered.

The connecting means 30 forms a male screw thread 31 on the rear circumference of the body 10 and a female screw thread 32 on the inner circumference of the housing 20 so as to be sunk by spiral coupling. As the body 10 is rotated by the structure as described above, the housing 10 emerges from the housing 20.

On the other hand, the driver 1 is inserted from the rear surface of the housing 20 and the tip thereof is positioned in the body 10. The inserted driver 1 has a separation prevention plate 1a sliding in the housing 20 integrally. It is provided with. And a compression spring (SP) is installed between the separation prevention plate (1a) and the back of the body (10). The departure preventing plate 1a is to allow the tip of the driver 1 located in the body 10 to retreat as far as possible while preventing the driver 1 from being separated from the housing 20.

When the driver 1 is rotated by the structure as described above, the release prevention plate 1a integrally provided is also rotated together. In this process, the end of the compression spring SP causes friction with the release prevention plate 1a, thereby compressing the compression spring. Noise caused by the shaking of (SP) is produced. In order to prevent this, a bushing 1b having a hole is provided between the separation preventing plate 1a and the compression spring SP. Accordingly, even if the driver 1 is rotated, the release preventing plate 1a is in friction with the bushing 1b, and the compression spring SP is simply kept in close contact with the bushing 1b that does not rotate, thereby compressing the spring SP. ) Does not occur, so no noise is generated.

In addition, the body 10 is the cover 16 is integrally coupled to the rear end, the driver insertion hole (H1) is formed in the center of the cover (16). The cover 16 may be integrally formed with the body 10, but is intended to be assembled in the body 10 when the guide 1c is integrally formed with the driver 1.

Since the screw holder according to the present invention having such a structure is adjusted in length, both a long screw and a short screw can be used. That is, when a long screw is used, when the body 10 is rotated to protrude forward from the housing 20, the tip of the driver 1 is located at the rear of the body 10 so that the long screw can be inserted. At this time, it is preferable to adjust the length of the body 10 so that the tip of the screw 2 protrudes slightly from the tip of the body 10. In the case of a short screw, the body 10 is rotated to be inserted into the housing 20 so that the tip of the driver 1 is positioned toward the front of the body.

Figure 3a is a perspective view showing the structure of a screw holder according to a third embodiment of the present invention, Figure 3b is a sectional view showing the structure of a screw holder according to a third embodiment of the present invention, Figure 3c 3 is an exploded perspective view illustrating a structure of a screw holder according to a third embodiment of the present invention, and FIG. 3D illustrates a structure of the screw holder according to the third embodiment of the present invention.

As shown in these drawings, the screw holder according to the present invention has the connection means 30 made by another method, and has a structure in which the locking jaw 33 is locked to the locking groove 34.

In more detail, the body 10 has a locking jaw 18 having an elastic restoring force around the rear portion is formed to protrude outward, the locking jaw 33 is formed in the elongated '⊃' shaped cutting groove 35. By forming it, it has self-resilience. In addition, the tip of the locking jaw 33 is formed with an inclined surface, and when the housing 20 is inserted, the inclined surface of the locking jaw 33 comes into contact with the housing 20 to be bent toward the inside of the body 10 and then is restored to its original state. .

The housing 20 has at least two locking grooves 34 in which the locking jaw 33 of the body 10 is fitted in the longitudinal direction thereof. The locking groove 34 has a guide groove 36 formed to one side thereof so that the locking jaw 33 fitted into the locking groove 34 moves to the respective locking grooves 34 along the guide groove 36. do.

By holding the body 10 and the housing 20 in both hands by the structure as described above, when the locking jaw 33 of the body 10 is positioned in the guide groove 36, the body 10 is in the longitudinal direction. Sliding and coming out of the housing 20 and slightly turning the body 10 in the desired position, the locking jaw 33 is inserted into the locking groove 34 and locked to complete the length adjustment. Therefore, even if the length of the screw 2 is short, it can be used by adjusting the length of the holder as shown in Figure 3c.

4A, 4B, 4C, 4D, and 4E illustrate a process of using the screw holder of the present invention having the above structure, which will be described in detail as follows.

First, as shown in FIG. 4A, when the head 2b of the screw 2 is inserted from the tip of the body 10, the support protrusion 12 is in contact with the support protrusion 12 because the head 2b is large. The elastic band 11 is bent outward by the inclined surface of the < RTI ID = 0.0 >), and the head 2b of the screw 2 is inserted into the body 10. < / RTI > At this time, when the head 2b of the screw 2 passes, the elastic band 11 is narrowed to its original state by its restoring force, so that the inserted screw 2 is caught by the head 2b by the support protrusion 12. There is no deviation from the body 10. In recent years, the protrusions at the tip of the driver 1 used in recent years are mostly magnetic, so that the head 2b of the inserted screw 2 is automatically fitted to the protrusions.

In this state, as shown in FIG. 4B, the attachment 4 is positioned on the base material 3, and the body 10 is brought into close contact with the attachment 4, and the driver 1 is rotated while pushing the driver 1. The screw 2 is then rotated and drilled through the attachment 4 and the base material 3. In this process, the support protrusion 12 of the body 10 surrounds and supports the shaft portion 2a of the screw 2 and the head portion 2b of the screw 2 is in close contact with the inner circumference of the body 10. Because it is driven, it is stably driven without shaking, and the driver 1 also has a guide 1c close to the inner circumference of the body 10 at the front end, and at the rear end, the driver grooves 17 and 21 are held in a horizontal state without shaking. The screw 2 is driven in a very stable state since it moves while rotating.

In this case, when the screw 2 is stuck, the head 2b moves forward as shown in FIG. 4C, and comes into contact with the inclined support protrusion 12, and the elastic band 11 is bent to the outside again and unfolded. When the head 2b passes, it is restored to its original state as shown in FIG. 4d. When the screwing of the screw 2 stops, the operation is completed by retracting the driver 4 with FIG. 4E.

1A and 1B are structural diagrams showing a screw holder according to a first embodiment of the present invention.

Figure 2a, 2b is a structural diagram showing a screw holder according to a second embodiment of the present invention.

3A, 3B, 3C, and 3D are detailed views showing the structure of the screw holder according to the third embodiment of the present invention.

4A, 4B, 4C, 4D, and 4E are cross-sectional views of a screw holder according to a third embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1-Driver 1a-Breakaway Plate 1b-Bushing

1c-guide 2-screw 2a-shaft

2b-head 3-base material 4-attachments

10-Body 11-Boulder 12-Supporting Stones

16-cover 20-housing 30-connecting means

31-Male thread 32-Female thread 33-Hanging jaw

34-Jamming groove 35-Cutting groove 36-Guide groove

H1, H2-Screwdriver Insert SP-Compression Spring

Claims (7)

A cylindrical body 10 having one end opened and the other end formed with a driver insertion hole H1; A plurality of elastic bands 11 arranged in a circular shape from the opening of the body 10; And a support protrusion (12) surrounding the shaft portion (2a) of the screw (2) inserted protruding in the center direction inside the distal end of the elastic band (11). The screw holder according to claim 1, wherein the body (10) is provided with a guide (1c) therein for guiding movement of the driver (1) and preventing flow. According to claim 1 or 2, The body 10 is provided with a housing 20 at the rear end so that the body 10 is inserted into the housing 20 by the connecting means 30, and outgoing, The driver 1 is inserted from the rear surface of the housing 20 so that the tip thereof is positioned in the body 10, but the inserted driver 1 is provided with an anti-separation plate 1a sliding in the housing 20 integrally. , Screw holder, characterized in that the compression spring (SP) is installed between the back of the body (10) and the separation prevention plate (1a). 4. A screw holder according to claim 3, wherein a bushing (1b) is provided between the compression spring (SP) and the release preventing plate (1a). The method of claim 3, wherein the connecting means 30 is formed in the male thread (31) around the body 10, the female thread (32) on the inner periphery of the housing 20 is characterized in that the spiral coupling Screw holder. According to claim 3, The connecting means 30, the locking jaw 33 is formed to protrude around the body 10, the housing 20 is the locking jaw 33 of the body 10 is fitted to the locking Screw holder characterized in that the assembly is formed by forming a plurality of grooves (34) in the longitudinal direction. The method of claim 6, wherein the housing 20 is formed by elongating the guide groove 36 on one side of each locking groove 34, the locking jaw 33 is moved to the locking groove 34 through the guide groove (36). Screw holder, characterized in that.

Images