CN113598515B - Holder for portable tool - Google Patents

Abstract

The invention provides a holder for a portable tool, which has a structure capable of preventing the holder from falling off from a belt-shaped mounted body. The holder for a portable tool is characterized by comprising: a holder main body having a carrying tool holding section for detachably holding a carrying tool; and an insertion member that is inserted into the first opening and the second opening formed in the holder main body and is engaged and held by the holder main body, and that surrounds the band-shaped body to be mounted by the holder main body and the insertion member engaged and held by the holder main body, thereby holding the tool holder for a portable device on the body to be mounted, wherein the insertion member has a flat plate portion having a substantially rectangular plate shape and a pair of adjustment projections projecting from a plane on one side of the plate portion, and has a thickness adjustment function for corresponding to the body to be mounted having different thicknesses.

Description

Holder for portable tool

RELATED APPLICATIONS

The application is a divisional application of Chinese patent application with the application number of 201810330954.7, the application date of 2018, 4 and 13 months, and the invention name of 'holder for carrying tools'.

Technical Field

The present invention relates to a portable tool holder for holding a portable tool or the like to a band-shaped body to be attached.

Background

Conventionally, a tool holder for carrying a tool such as a tape measure attached to a belt of an operator is known. For example, patent document 1 discloses a carrier holder having a clip structure for attaching and detaching to and from a belt. Specifically, the clip structure includes a clip main body and a clip piece connected to an upper portion of the clip main body, and the waist belt is used by passing the waist belt through a space (waist belt insertion portion) formed between the clip main body and the clip piece.

The clip is configured to have elasticity, and the clip can be separated from the clip body at the lower end portion of the clip by elastically deforming the clip with a connecting portion connected to the clip body as a fulcrum. Thus, the retainer can be attached to and detached from the waist belt without detaching the waist belt.

Documents of the prior art

Patent document

Patent document 1: japanese utility model registration No. 3163381

Disclosure of Invention

However, in the holder of the above-mentioned patent document 1, since the clip pieces are separable from the clip main body, there is a possibility that the clip pieces are unintentionally opened due to, for example, the holder coming into contact with the outside, and the holder falls off the belt.

Accordingly, an object of the present invention is to provide a holder for a portable tool having a structure capable of preventing the holder from falling off from a band-shaped mounted body.

The present invention has been made to solve the above problems, and a holder for a portable tool according to the present invention includes: a holder main body having a carrying tool holding portion for detachably holding a carrying tool; and

an insertion member that is inserted into a first opening and a second opening formed in the holder main body and is engaged and held in the holder main body,

the tool holder is held by the body to be attached by surrounding the periphery of the band-shaped body to be attached with the holder main body and the insertion member held by engagement with the holder main body,

the insertion member has a flat substantially rectangular plate-shaped plate portion, and a first adjustment convex portion and a second adjustment convex portion that protrude from a plane on one side of the plate portion, and is configured such that: attaching the insertion member to the holder main body such that the first adjustment protrusion and the second adjustment protrusion face toward a base portion side when attaching the tool carrier holder to the attached body having a large thickness; when the tool holder is attached to the attached body having a small thickness, the insertion member is turned over, and the insertion member is attached to the holder main body so that the first adjustment protrusion and the second adjustment protrusion face the opposite sides of the base portion.

According to the present invention, it is possible to provide a tool carrier holder having a structure capable of preventing the tool carrier from coming off a strip-shaped body to be attached.

Drawings

Embodiments of the present invention will be described in detail based on the following drawings, in which:

fig. 1 is a perspective view showing a holder for a portable tool according to an embodiment of the present invention;

fig. 2 is a perspective view showing a holder main body of the holder for a portable tool shown in fig. 1;

fig. 3 is a perspective view showing an insertion member of the holder for a portable tool shown in fig. 1;

fig. 4 is a view showing a process of mounting the holder for a portable tool shown in fig. 1 to a body to be mounted;

fig. 5 (a) is a perspective view showing the anti-slip member, and fig. 5 (b) is a view showing a state where the anti-slip member of fig. 5 (a) is attached to the holder main body of the holder for a portable tool shown in fig. 1;

fig. 6 is a view showing a state where a connector is attached to the holder for a portable tool shown in fig. 1;

fig. 7 is a front view showing a holder for a carrying tool according to other embodiments of the present invention;

FIG. 8 is a rear view of the tool holder of FIG. 7;

fig. 9 is a perspective view showing a holder main body of the holder for a portable tool shown in fig. 7; and

fig. 10 (a) is a perspective view showing one side surface of the insertion member of the holder for a portable tool shown in fig. 7; fig. 10 (b) is a perspective view showing the other side surface of the insertion member of the tool holder shown in fig. 7.

Description of the reference numerals

1. Holder for portable tool

2. Holder body

3. Insert part

3a plate part

3b flange part

3c claw part

3d engaging part

3e first guide projection (guide projection)

3f second guide projection (guide projection)

3g adjusting hole

4. Carrying tool holding part

4a accommodating space

4b frame part

4c stop part

5. Mounting part

5a base

5b first convex part

5c second convex part

5d first opening part

5e second opening part

5f inclined plane

5g concave part

6. Anti-slip member

6a vertical frame part

6b horizontal frame part

6c projection

6d engaging claw part

7. Connecting piece

7a ring part

8. Ring part

20. Holder for portable tool

22. Holder body

23. Insert part

23a plate part

23b flange part

23c claw part

23d middle plate part

23h first adjusting convex part

23i second adjustment projection

23j uneven part

24. Carrying tool holding part

24a receiving space

24b frame part

24c stop

25. Mounting part

25a base

25b first convex part

25c second convex part

25d first opening part

25e second opening part

25h first recess

25i second recess

25j first non-slip projection

25k second non-slip projection

25m guide part

25n notch part

28. Ring part

A, A' mounted body

B bracket

Detailed Description

Hereinafter, embodiments of the present invention will be described by way of example with reference to the accompanying drawings. Fig. 1 shows a portable tool holder 1 according to an embodiment of the present invention.

As shown in fig. 1, the carrier holder 1 according to the present embodiment is used by being attached to a belt-like attached body a such as a belt wrapped around the waist of a user. The portable tool holder 1 includes a holder body 2 and an insertion member 3 inserted into the holder body 2 and engaged and held.

The holder main body 2 has a tool holding portion 4 for holding a tool (not shown) such as a tape measure on the front surface side thereof, and has a mounting portion 5 for mounting to the body a to be mounted on the rear surface side thereof. Here, the portable tool is, for example, a tool such as a tape measure, or a bag for storing a tool.

In the present embodiment, the carrying tool holding portion 4 is configured to detachably hold the carrying tool by inserting a part of the carrying tool or a holder B fixed to the carrying tool by fastening means such as screws from above. In this example, the insertion direction of the portable tool is not particularly limited, although the portable tool is inserted from above.

In the carrier holder 4 of this example, a housing space 4a for housing a part of the carrier or the holder B is formed. The housing space 4a is defined by a frame-like frame portion 4b, and the frame-like frame portion 4b surrounds the front, rear, left, right, and lower directions except above the housing space 4a. The portable tool holding portion 4 includes a stopper portion 4c, and the stopper portion 4c is slidably disposed above the housing space 4a. The frame portion 4B restricts the movement of the rack B disposed in the housing space 4a in the front-rear direction, the left-right direction, and the downward direction, and the stopper portion 4c restricts the upward movement of the rack B disposed in the housing space 4a.

The stopper 4c is configured to slide obliquely downward when the holder B is inserted into the housing space 4a from above. Thereby, the entrance to the housing space 4a is opened, and the stent B can be inserted into the housing space 4a. The stopper 4c is biased obliquely upward by the elastic force of a spring provided therein, and returns to the original position after the passage of the bracket B. The holder B accommodated in the accommodating space 4a is restrained from being pulled out of the accommodating space 4a by the stopper 4 c. Thereby, the cradle B and the carrier fixed to the cradle B are held by the carrier holder 1. When the portable tool is removed from the portable tool holder 1, the portable tool and the stand B can be easily removed by sliding the stopper portion 4c obliquely downward and pulling up the portable tool and the stand B.

The shape and structure of the portable tool holding section 4 are not particularly limited as long as the portable tool holding section can detachably hold a portable tool.

Fig. 2 is a perspective view of the rear face side (mounting portion 5 side) of the holder main body 2. The mounting portion 5 of the holder main body 2 has a base portion 5a, and a first protrusion 5b and a second protrusion 5c protruding rearward from the base portion 5 a. The first convex portion 5b and the second convex portion 5c are substantially rectangular convex portions arranged with a space therebetween so as to extend substantially parallel to each other, and protrude perpendicularly from the base portion 5 a. The first convex portion 5b has a first opening 5d as a through hole, and the second convex portion 5c has a second opening 5e as a through hole. The first opening 5d and the second opening 5e are arranged on substantially the same straight line.

Fig. 3 is a perspective view of the insertion member 3. The insertion member 3 includes a plate portion 3a, a flange portion 3b, a pair of claw portions 3c, and an engagement portion 3d. The plate portion 3a is a flat, substantially rectangular plate, the flange portion 3b is provided at one end portion in the longitudinal direction (y direction in fig. 3) of the plate portion 3a, the pair of claw portions 3c is provided at the other end portion in the longitudinal direction of the plate portion 3a, and the engaging portion 3d is provided between the pair of claw portions 3c at the other end portion.

The flange portion 3b stops the insertion of the insertion member 3 into the first opening portion 5d by abutting the end surface of the first convex portion 5 b. The claw portion 3c is elastically deformable inward in the width direction (x direction in fig. 3) of the plate portion 3a. The tip portions of the claw portions 3c protrude outward in the width direction of the plate portion 3a, and the maximum width of the pair of claw portions 3c is larger than the width of the first opening portion 5d and the second opening portion 5e. When the insertion member 3 is inserted into the first opening 5d and the second opening 5e, the claw portion 3c having the tapered tip of the insertion member 3 is elastically deformed inward in the width direction of the plate portion 3a. When the insertion member 3 is inserted into the second opening 5e, the claw portion 3c engages with the end surface of the second convex portion 5c, thereby preventing the insertion member 3 from being pulled out. The distal end of the engaging portion 3d protrudes from one side (lower side in fig. 3) in the thickness direction (z direction in fig. 3) of the plate portion 3a, and when the insertion member 3 is inserted into the first opening portion 5d, the distal end of the engaging portion 3d engages with the end surface of the first protruding portion 5b, thereby suppressing the insertion member 3 from being pulled out.

The insertion member 3 has a first guide projection 3e (guide projection) and a pair of second guide projections 3f (guide projections). The first guide projection 3e projects from one plane (a plane upward in the z direction in fig. 3) of the plate portion 3a, and the pair of second guide projections 3f projects from side surfaces on both sides in the width direction of the plate portion 3a. The insertion member 3 further includes a pair of adjustment holes 3g, and the pair of adjustment holes 3g are located adjacent to the pair of second guide projections 3f, respectively, and penetrate through the plate portion 3a in the thickness direction of the plate portion 3a. By providing such an adjustment hole 3g, the portion of the plate portion 3a where the pair of second guide projections 3f are provided can be elastically deformed inward. Thus, although the area of the width of the plate portion 3a where the pair of second guiding protrusions 3f are provided is larger than the other portions, the area where the pair of second guiding protrusions 3f are provided is elastically deformed inward toward the pair of adjustment holes 3g, respectively, so that the width of the area where the pair of second guiding protrusions 3f are provided is elastically reduced. Therefore, when the portion provided with the pair of second guide projections 3f is inserted into the first opening 5d, the portion can be pushed into the first opening 5d with a slight force.

When the insertion member 3 inserted into the first opening 5d is inserted into the second opening 5e, the first guide protrusion 3e and the pair of second guide protrusions 3f respectively abut against the inner surface of the first opening 5d, thereby restricting the posture (relative angle) of the insertion member 3 with respect to the holder body 2 to a predetermined orientation. More specifically, immediately before the tip portion (the claw portion 3c and the engaging portion 3 d) of the insertion member 3 inserted into the first opening 5d is inserted into the second opening 5e, the first guide convex portion 3e and the pair of second guide convex portions 3f start to abut against the inner surface of the first opening 5d. The first guide projection 3e restricts the orientation of the plate portion 3a in the thickness direction, and the pair of second guide projections 3f restricts the orientation of the plate portion 3a in the width direction. The predetermined orientation is an orientation in which the distal end portion of the insertion member 3 is easily inserted in accordance with the position of the second opening 5e. Thus, since the distal end portion of the insertion member 3 can be guided to the second opening portion 5e, the insertion member 3 can be inserted into the second opening portion 5e accurately and smoothly without visual confirmation without visual alignment.

The first guide projection 3e and the pair of second guide projections 3f are provided only on a part of the plate portion 3a in the longitudinal direction. This reduces the sliding resistance during the insertion of the insertion member 3 into the first opening 5d, and allows the insertion operation to be performed smoothly. In this example, the first guide protrusion 3e and the second guide protrusion 3f are provided only at a portion of the flange portion 3b with respect to the center of the plate portion 3a in the longitudinal direction.

The shapes of the first opening portion 5d and the second opening portion 5e substantially correspond to the sectional shape of the insertion member 3. A slope 5f is formed on the base portion 5a side of the inner surface of the first opening 5d, and the slope 5f is inclined such that the height of the first opening 5d (the length corresponding to the thickness direction of the plate portion 3 a) gradually decreases from the entrance of the first opening 5d toward the exit of the first opening 5d. The inclined surface 5f is configured to allow the engagement portion 3d of the insertion member 3 to slide and elastically deform the engagement portion 3d smoothly inward in the thickness direction of the plate portion 3a when the insertion member 3 is inserted into the first opening 5d.

The second opening 5e is formed with a concave portion 5g corresponding to the engaging portion 3d of the insertion member 3, and the engaging portion 3d is configured not to engage with the second convex portion 5c.

Hereinafter, a method of attaching the tool holder 1 of the present embodiment to the band-shaped attachment object a will be described with reference to fig. 1 and 4.

As shown in fig. 4, in an inserted state (a state where the second opening 5e is not inserted) where the insertion member 3 is inserted only into the first opening 5d, the holder main body 2 is disposed from the outside of the attached body a so that the attached body a is positioned between the first convex portion 5b and the second convex portion 5c. In the inserted state in which the insertion member 3 is inserted only into the first opening 5d, the claw portions 3c and the engagement portions 3d are engaged with the end surfaces of the first convex portions 5b, whereby the insertion member 3 can be locked (prevented from being pulled out) and held with respect to the holder main body 2.

Next, as shown in fig. 1, the insertion member 3 is inserted into the second opening 5e by passing the insertion member 3 along the inside (user side) of the body a to be attached. As described above, when the insertion member 3 is inserted into the second opening 5e, the posture of the insertion member 3 with respect to the holder body 2 is regulated to a predetermined orientation by the movement of the first guide projection 3e and the second guide projection 3f, and the distal end portion of the insertion member 3 is guided to the position of the second opening 5e.

When the insertion member 3 is inserted into the second opening 5e, the pair of claw portions 3c engage with the end surfaces of the second convex portions 5c, thereby suppressing the insertion member 3 from being pulled out. That is, the insertion member 3 is held by engagement with the holder main body 2. In this way, the attachment of the portable tool holder 1 to the held body a is completed. In this state, the periphery of the body a to be mounted is completely surrounded by the holder main body 2 and the insertion member 3, and there is no fear that the tool-carrying holder 1 may be detached from the body a to be mounted.

When the portable tool holder 1 is detached from the body a to be attached, the pair of claw portions 3c are elastically deformed inward in the width direction by being gripped with fingers, and the insertion member 3 is moved in the extraction direction (upward in fig. 4) while releasing the engagement between the claw portions 3c and the second convex portions 5c, so that the insertion member 3 is extracted from the second opening portion 5e. This enables the portable tool holder 1 to be detached from the body a to be attached. After the insertion member 3 is pulled out from the second opening 5e, the claw portions 3c and the engaging portions 3d are engaged with the end surfaces of the first convex portions 5b, so that the insertion member 3 is held by the holder main body 2, and therefore, there is no fear that the insertion member 3 is lost.

Further, the tool carrier holder 1 may be attached to the body a from a state in which the holder main body 2 is separated from the insertion member 3. That is, the holder body 2 in a state where the insertion member 3 is removed may be arranged at a predetermined position of the body to be attached a, and then the insertion member 3 may be inserted into the first opening 5d and the second opening 5e of the holder body 2 to be attached. Similarly, when the portable tool holder 1 is detached from the body a to be attached, the insertion member 3 may be removed from the holder main body 2 by pulling out the insertion member 3 from the second opening 5e and the first opening 5d.

As described above, the portable tool holder 1 according to the present embodiment is engaged and held in a state in which the periphery of the body to be attached a is completely surrounded by the holder main body 2 and the insertion member 3 so that the insertion member 3 is not pulled out from the holder main body 2. Therefore, it is possible to solve the problem such as the retainer falling off from the waist belt due to opening by contact with the outside or the like the clip structure. That is, according to the carrier holder 1 of the present embodiment, it is possible to prevent the carrier from falling off from the body a to be attached. Further, for example, when attaching and detaching the carrier holder 1 to and from a waist belt, the user can easily attach and detach the carrier holder 1 while holding the waist belt in a state of being rolled around the waist.

In the portable tool holder 1 according to the present embodiment, the first guide projection 3e and the second guide projection 3f are provided on the insertion member 3, whereby the insertion member 3 can be accurately and smoothly inserted into the second opening 5e.

Fig. 5 (a) is a perspective view of the anti-slip member 6 detachable from the holder main body 2. The antiskid member 6 includes a pair of vertical frame portions 6a and a pair of lateral frame portions 6b. Each of the vertical frame portions 6a has a plurality of protrusions 6c formed thereon with irregularities. Further, the one lateral frame portion 6b is provided with an engaging claw portion 6d, and the engaging claw portion 6d is engaged with the undercut (undercut) of the second convex portion 5c to engage and hold the antiskid member 6 to the holder main body 2.

Fig. 5 (b) shows a state where the antiskid member 6 is attached to the holder main body 2. The pair of lateral frame portions 6b are arranged so as to be covered from the outside by the first convex portion 5b and the second convex portion 5c, respectively, and the engaging claw portion 6d is engaged with the second convex portion 5c.

When the portable tool holder 1 in a state in which the anti-slip member 6 has been attached to the holder main body 2 is attached to the body a to be attached, the protrusion 6c is sandwiched between the vertical frame portion 6a protruding toward the insertion member 3 and the insertion member 3, and the surface of the body a to be attached pressed against the vertical frame portion 6a is caught by the protrusion 6c, thereby suppressing the portable tool holder 1 from sliding with respect to the body a to be attached. This can restrict the movement of the tool holder 1 with respect to the body a to be mounted.

The carrier holder 1 according to the present embodiment is suitable for mounting to a mounting object a such as a so-called transverse belt extending substantially horizontally. That is, the holder B is configured to be attachable to and detachable from the housing space 4a of the carrier holder 4 from above in a state where the carrier holder 1 is attached to the horizontal belt.

Fig. 6 shows a connector 7 which is detachable from the holder 1 for a portable tool. By disposing the annular portion 7a between the holder main body 2 and the insertion member 3, the joint 7 can be attached to the tool carrier holder 1. By using such a connector 7, the portable tool holder 1 can be attached to an annular portion or the like other than the band-shaped attached body a, and the range in which the portable tool holder 1 can be attached can be expanded. Further, the plurality of portable tool holders 1 can be connected to each other by engaging the connector 7 with the ring portion 8 provided in the portable tool holder 1.

For example, by attaching the carrier holder 1 to a horizontal belt wound around the waist of the user and connecting the connector 7 of the other carrier holder 1 to the loop portion 8 of the carrier holder 1, the carrier holder 1 positioned below can be arranged below the waist.

Thus, since the tool or the like attached to the tool holder 1 can be disposed below the lumbar bone protruding outward, the possibility of damage due to contact with another tool attached to the lumbar region or with a building can be reduced.

The ring portion 8 of the carrier holder 1 may be coupled to the carrier by a coupling member such as a button or a ring to prevent the carrier from falling.

Other embodiments of the present invention will be described below. The carrier holder 1 according to the above-described embodiment is adapted to be attached to a transverse belt, and the carrier holder 20 according to the present embodiment shown in fig. 7 and 8 is adapted to be attached to a belt-like attached body a' extending in a substantially vertical direction, such as a vertical belt portion of a harness (harness) type seatbelt. That is, in a state of being attached to a longitudinal belt extending in a substantially vertical direction, the attaching and detaching direction of the holder B in the housing space 24a of the carrier holding portion 24 is changed to the vertical direction.

Fig. 7 is a front view of the portable tool holder 20 according to the present embodiment, and fig. 8 is a rear view of the portable tool holder 20. As shown in fig. 7 and 8, the portable tool holder 20 includes a holder body 22 and an insertion member 23 inserted into the holder body 22 and engaged and held.

As shown in fig. 7, the holder main body 22 has, on its front face side, a carrying tool holding portion 24 that holds a carrying tool such as a tape measure; as shown in fig. 8, the holder main body 22 has a mounting portion 25 for mounting to the mounted body a' on the rear face side thereof. Here, the carrying tool is not particularly limited, and may be, for example, a bag for storing articles, in addition to tools such as a tape measure.

In the present embodiment, the carrying tool holding portion 24 is configured to detachably hold the carrying tool by inserting a part of the carrying tool or a holder B fixed to the carrying tool by fastening means such as screws from above. In this example, the holder B and the like are inserted from above, but the insertion direction of the portable tool is not particularly limited.

In the carrying tool holding portion 24 of this example, a housing space 24a for housing a part of the carrying tool or the holder B is formed. The housing space 24a is defined by a frame-like frame portion 24b, and the frame-like frame portion 24b surrounds the front, rear, left, right, and lower directions except above the housing space 24a. The portable tool holding portion 24 includes a stopper portion 24c, and the stopper portion 24c is slidably disposed above the housing space 24a. The frame portion 24B restricts the movement of the rack B disposed in the housing space 24a in the front-rear direction, the left-right direction, and the downward direction, and the stopper portion 24c restricts the upward movement of the rack B disposed in the housing space 24a.

The stopper portion 24c is configured to slide obliquely downward when the holder B is inserted into the housing space 24a from above. Thereby, the entrance to the housing space 24a is opened, and the holder B can be inserted into the housing space 24a. The stopper portion 24c is biased obliquely upward by the elastic force of a spring provided therein, and returns to the original position after the passage of the bracket B. The holder B accommodated in the accommodating space 24a is restrained from being pulled out of the accommodating space 24a by the stopper 24 c. Thereby, the rack B and the carrier fixed to the rack B are held by the carrier holder 20. When the portable tool is removed from the portable tool holder 20, the stopper 24c is slid obliquely downward, and the portable tool and the stand B are pulled upward, so that the portable tool can be easily removed.

The shape and structure of the portable tool holding portion 24 are not particularly limited as long as the portable tool holding portion can detachably hold a portable tool.

Fig. 9 is a perspective view of the rear surface side (mounting portion 25 side) of the holder main body 22. The mounting portion 25 of the holder main body 22 has a base portion 25a, and a first projection 25b and a second projection 25c projecting rearward from the base portion 25 a. The first convex portion 25b and the second convex portion 25c are substantially rectangular convex portions arranged with a space therebetween so as to extend substantially in parallel, and protrude perpendicularly from the base portion 25 a. The first convex portion 25b is formed with a first opening 25d as a through hole, and the second convex portion 25c is formed with a second opening 25e as a through hole. The first opening 25d and the second opening 25e are arranged on substantially the same straight line.

Further, a first concave portion 25h adjacent to the first convex portion 25b and a second concave portion 25i adjacent to the second convex portion 25c are formed in the base portion 25a of the holder main body 22. Thus, when the tool holder 20 is attached to the body a ', the body a' is pressed against the first recess 25h and the second recess 25i, thereby facilitating the operation of inserting the insertion member 23 into the second opening 25e.

Further, the base portion 25a of the holder main body 22 is provided with a first nonslip projection 25j and a second nonslip projection 25k which project perpendicularly from the base portion 25a and whose respective leading ends are formed with recesses and projections. The first and second convex slip prevention portions 25j and 25k are arranged substantially parallel to each other with a space therebetween. The first and second convex nonslip portions 25j and 25k are disposed between the first and second convex portions 25b and 25c and extend perpendicularly to the first and second convex portions 25b and 25c. The body a' to be attached can be pressed against the distal ends of the first and second convex nonslip portions 25j, 25k by being sandwiched between the first and second convex nonslip portions 25j, 25k protruding toward the insertion member 23 side and the insertion member 23. Therefore, the surface of the body a 'to be mounted is caught by the projections and recesses provided at the distal ends of the first and second projecting prevention portions 25j and 25k, and the tool holder 20 is suppressed from sliding with respect to the body a' to be mounted. The carrier holder 20 attached to the attached body a' such as a longitudinal belt may move downward due to its own weight, and is particularly effective in suppressing sliding.

Further, the first and second non-slip convex portions 25j and 25k are preferably provided at intervals from the first convex portion 25 b. With this arrangement, since a space into which the fingers can be inserted is formed between the first nonslip protrusion 25j, the second nonslip protrusion 25k, and the first protrusion 25b, when the insertion member 23 is pulled out from the first opening 25d, the pair of claw portions 23c are sandwiched by the fingers and elastically deformed inward.

In addition, the holder main body 22 is provided with a guide portion 25m for passing the body a 'to be mounted from the inside thereof and maintaining the posture of the holder main body 22 with respect to the body a' to be mounted at a desired angle. A notch 25n for inserting and removing the mounted body a' is formed in the guide 25 m.

The guide 25m is provided at an upper position when attached to an object a' such as a longitudinal belt. With such a configuration, the tool holder 20 can be effectively prevented from being tilted forward. As a result, since the posture of the portable tool holder 20 is stabilized, the portable tool can be easily attached to and detached from the portable tool holder 20. The shape of the notch 25n is narrowed upward. Thus, when the carrier holder 20 is detached from the attachment object a ', the attachment object a ' can be easily taken out from the guide portion 25m, and the attachment object a ' is less likely to fall off from the guide portion 25m during use.

Fig. 10 (a) is a perspective view showing one side surface of the insertion member 23, and fig. 10 (b) is a perspective view showing the other side surface of the insertion member 23. The insertion member 23 includes a plate portion 23a, a flange portion 23b, a pair of claw portions 23c, and a middle plate portion 23d. The plate portion 23a is a flat, substantially rectangular plate, the flange portion 23b is provided at one end portion in the longitudinal direction (y direction in fig. 10) of the plate portion 23a, the pair of claw portions 23c is provided at the other end portion in the longitudinal direction of the plate portion 23a, and the intermediate plate portion 23d is provided between the pair of claw portions 23c at the other end portion.

The flange portion 23b abuts the end surface of the first convex portion 25b, and stops the insertion of the insertion member 23 into the first opening portion 25d. The claw portion 23c is elastically deformable inward in the width direction (x direction in fig. 10) of the plate portion 23 a. The tip portions of the claw portions 23c protrude outward in the width direction of the plate portion 23a, and the maximum width of the pair of claw portions 23c is larger than the widths of the first opening portion 25d and the second opening portion 25e. When the insertion member 23 is inserted into the first opening 25d and the second opening 25e, the claw portion 23c having the tapered tip end is elastically deformed inward in the width direction of the plate portion 23 a. When the insertion member 23 is inserted into the first opening 25d, the claw portion 23c engages with the end surface of the first convex portion 25b, thereby preventing the insertion member 23 from being pulled out. When the insertion member 23 is inserted into the second opening 25e, the claw portion 23c engages with the end surface of the second convex portion 25c, thereby suppressing the insertion member 23 from being pulled out.

The insertion member 23 of the present embodiment has a thickness adjustment function for corresponding to the mounted body a' having different thicknesses. Specifically, in this example, the insertion member 23 is configured to be able to correspond to the attached bodies a' having different thicknesses by being used with the insertion member turned upside down.

As shown in fig. 10a, the insertion member 23 is provided with a first adjustment protrusion 23h and a second adjustment protrusion 23i, the first adjustment protrusion 23h protrudes from one side surface (a plane facing upward in the z direction side) of the plate portion 23a, and the second adjustment protrusion 23i protrudes from one side surface (a plane facing upward in the z direction side) of the plate portion 23d.

When the tool carrier holder 20 is mounted to the body a' to be mounted having a large thickness, the insertion member 23 is mounted to the holder main body 22 so that the first adjustment protrusion 23h and the second adjustment protrusion 23i face the base portion 25a side; when the tool holder 20 is mounted to the small-thickness object a', the insertion member 23 is turned upside down, and the insertion member 23 is mounted to the holder main body 22 so that the first adjustment protrusion 23h and the second adjustment protrusion 23i face the opposite side of the base portion 25 a.

By arranging the first adjustment convex portion 23h and the second adjustment convex portion 23i so as to face the opposite side of the base portion 25a, when the insertion member 23 has been inserted into the first opening portion 25d and the second opening portion 25e, the first adjustment convex portion 23h and the second adjustment convex portion 23i respectively abut against the inner surface of the first opening portion 25d and the inner surface of the second opening portion 25e, and the distance between the base portion 25a and the surface of the insertion member 23 facing the base portion 25a (the distance of the plate portion 23a in the thickness direction) becomes close, so that even the mounted body a' having a small thickness can be firmly sandwiched by the base portion 25a and the insertion member 23. This can effectively suppress the sliding of the tool carrier holder 20 attached to the attached body a' such as a longitudinal belt.

The insertion member 23 has concave-convex portions 23j on both surfaces of the plate portion 23a, and the concave-convex portions 23j prevent the slide of the carrier holder 20 attached to the attached body a'. The concave-convex portion 23j in the present embodiment is formed by a plurality of protrusions extending in parallel in the insertion direction of the insertion member 23, but is not limited thereto. In a state where the insertion member 23 is inserted into the first opening 25d and the second opening 25e (see fig. 8), the concave-convex portion 23j is provided at a position not in contact with the inner surface of the first opening 25d and the inner surface of the second opening 25e. With such a structure, the insertion member 23 can be easily inserted into and removed from the first opening 25d and the second opening 25e.

In this example, in a state where the insertion member 23 is inserted into the first opening 25d and the second opening 25e (see fig. 8), the inner surface shape of the first opening 25d and the second opening 25e facing each other is configured to be the same as the outer surface shape of the insertion member 23. Thus, the insertion member 23 inserted into the first opening 25d and the second opening 25e can move to the upper limit in the thickness direction, and therefore the allowable range of the thickness of the mounted body a' is increased.

Hereinafter, a method of attaching the tool holder 20 of the present embodiment to the belt-like attached object a' will be described.

In the inserted state (state where the second opening 25e is not inserted) where the insertion member 23 is inserted only into the first opening 25d, the holder main body 22 is disposed from the outside of the body a 'to be mounted so that the body a' to be mounted is positioned between the first convex portion 25b and the second convex portion 25c. In the inserted state in which the insertion member 23 is inserted only into the first opening 25d, the claw portions 23c engage with the end surfaces of the first convex portions 25b, whereby the insertion member 23 can be locked (prevented from being pulled out) and held with respect to the holder main body 22.

Next, the insertion member 23 is inserted into the second opening 25e by passing the insertion member 23 along the inside (user side) of the body a'.

When the insertion member 23 is inserted into the second opening 25e, the pair of claw portions 23c engage with the end surfaces of the second convex portions 25c, thereby suppressing the insertion member 23 from being pulled out. That is, the insertion member 23 is held by engagement with the holder main body 22. In this way, the attachment of the tool carrier holder 20 to the held body a' is completed. In this state, the periphery of the body a' to be mounted is completely surrounded by the holder main body 22 and the insertion member 23, and there is no fear that the tool-carrying holder 20 may be detached from the body a to be mounted.

When the portable tool holder 20 is detached from the body a', the pair of claw portions 23c are gripped by fingers and elastically deformed inward in the width direction, and the insertion member 23 is moved in the extraction direction while the engagement between the claw portions 23c and the second convex portions 25c is released, so that the insertion member 23 is extracted from the second opening 25e. This enables the tool holder 20 to be detached from the body a'. After the insertion member 23 is pulled out from the second opening 25e, the claw portion 23c is engaged with the end surface of the first projecting portion 25b, and the insertion member 23 is held by the holder main body 22, so that there is no fear that the insertion member 23 is lost.

Further, the tool carrier holder 20 may be attached to the body a' from a state where the holder main body 22 is separated from the insertion member 23. That is, the holder main body 22 in a state where the insertion member 23 is removed may be disposed at a predetermined position of the attached body a', and then the insertion member 23 may be inserted into the first opening 25d and the second opening 25e of the holder main body 22 to be attached. Similarly, when the tool holder 20 is detached from the attached body a', the insertion member 23 may be pulled out from the second opening 25e and the first opening 25d to separate the insertion member 23 from the holder main body 22.

As described above, the portable tool holder 20 according to the present embodiment is engaged and held in a state in which the periphery of the body to be attached a' is completely surrounded by the holder main body 22 and the insertion member 23 so that the insertion member 23 is not pulled out from the holder main body 22. Therefore, it is possible to solve such problems that the holder falls off from the waist belt due to opening due to contact with the outside or the like as in the clip structure. That is, according to the portable tool holder 20 of the present embodiment, it is possible to prevent the portable tool from falling off the body to be attached a'. Further, for example, when the carrier holder 20 is attached to and detached from the vertical belt, the user can easily attach and detach the carrier holder 20 while holding the vertical belt in a state of being attached to the body.

In the portable tool holder 20 according to the present embodiment, the first adjustment protrusion 23h and the second adjustment protrusion 23i are provided only on one surface of the insertion member 23, whereby the portable tool holder 20 can be attached to a plurality of objects a' having different thicknesses.

The ring 28 of the tool holder 20 may be coupled to the tool by a coupling member such as a button or a ring to prevent the tool from falling.

Claims (1)

1. A holder for a portable tool, characterized in that,

the disclosed device is provided with:

a holder main body having a carrying tool holding portion for detachably holding a carrying tool; and

an insertion member that is inserted into a first opening and a second opening formed in the holder main body and is engaged and held in the holder main body,

the tool holder is held by the body to be attached by surrounding the periphery of the band-shaped body to be attached with the holder main body and the insertion member held by engagement with the holder main body,

the insertion member has a flat substantially rectangular plate-shaped plate portion, and a first adjustment convex portion and a second adjustment convex portion that protrude from a plane on one side of the plate portion, and is configured such that: attaching the insertion member to the holder main body such that the first adjustment protrusion and the second adjustment protrusion face toward a base portion side when attaching the tool carrier holder to the attached body having a large thickness; when the tool holder is attached to the attached body having a small thickness, the insertion member is turned over so that the first adjustment protrusion and the second adjustment protrusion face opposite sides of the base portion, and the insertion member is attached to the holder main body.

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