Hook device in power driven tool

A hook device in a power driven tool includes a hook member having a base disposed along a mounting portion of the body of the power driven tool and having a hook portion extending from the base for engagement with an object such as a waist belt of an operator. The mounting portion of the body includes a pair of engaging slots spaced from each other in a circumferential direction of the mounting portion. The base of the hook member includes a pair of engaging members disposed at both ends of the base in a circumferential direction for engagement with the engaging slots, respectively.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a hook device in a power driven tool. 
2. Description of the Prior Art 
In a power driven tool, a hook member is provided on the tool body for 
engagement with an object such as a waist belt of an operator. 
Japanese Laid-Open Utility Model Publication No. 48-83481 discloses a power 
driven tool which includes a hook member integrally formed with the body 
of the power driven tool and also discloses a hook member mounted on the 
body by screws. 
Japanese Laid-Open Utility Model Publication No. 59-78087 discloses a power 
driven tool which includes a hook member held between a gear cover and an 
inner cover of the tool body in such a manner that the hook member can be 
selectively mounted on either of right and left side of the body. 
However, in case of the former power driven tool, the hook member cannot be 
conveniently used since its position cannot be varied. 
In case of the latter power driven tool, the hook member can be positioned 
at either side of the body. However, since the hook member is held between 
the gear cover and the inner cover, the mounting operation of the hook 
member must be performed at the same time with assembling parts of the 
tool body including the gear cover and the inner cover, and the removing 
operation of the hook member must accompany a disassembling operation of 
the parts of the body. Therefore, the mounting and removing operations of 
the hook member are very troublesome. Additionally, the hook member cannot 
be held in a stable manner because of possible loosening of holding force 
between the gear cover and the inner cover. 
SUMMARY OF THE INVENTION 
It is, accordingly, an object of the present invention to provide a hook 
device in a power driven tool which permits a hook member to be easily and 
reliably mounted on or removed from the body of the power driven tool. 
According to the present invention, there is provided a hook device in a 
power driven tool which includes a hook member having a base disposed 
along a mounting portion of the body of the power driven tool and having a 
hook portion extending from the base for engagement with an object such as 
a waist belt of an operator. The mounting portion of the body includes a 
pair of engaging slots spaced from each other in a circumferential 
direction of the mounting portion. The base of the hook member includes a 
pair of engaging members disposed at both ends of the base in a 
circumferential direction for engagement with the engaging slots, 
respectively. 
The invention will become more fully apparent from the claims and the 
description as it proceeds in connection with the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
A first embodiment of the present invention will now be explained with 
reference to FIGS. 1 to 4. 
Referring to FIG. 1, there is shown a power driven screwdriver 1 having a 
body 2. The upper portion of the body 2 is of substantially cylindrical 
configuration and includes a pair of slots 3 formed on the outer surface 
of its rear portion (left side as viewed in FIG. 1). The slots 3 extend in 
an axial direction of the upper portion of the body and are diametrically 
opposed to each other in a vertical direction. In case of this embodiment, 
the body 2 is separated into two parts by a separating surface S extending 
in a vertical direction, and the slots 3 are formed on the separating 
surface S. Such slots 3 are normally formed on this kind of the body 2 for 
compensation of assembling tolerance. The body 2 further includes a 
plurality of slots 3a symmetrically disposed about an axis of the upper 
portion for ventilation purpose. 
A hook member 4 is made of a steel plate having relatively thin thickness 
and is resiliently deformable. The hook member 4 includes a base 5 curved 
along the outer surface of the upper portion of the body 2 and extends to 
cover substantially half the outer surface in a circumferential direction. 
The base 5 includes a flat portion 5a at the central portion. A pair of 
engaging members 6 are formed on both ends of the base 5 in the 
circumferential direction by bending the ends inwardly toward the body 2 
at right angles. The engaging members 6 are detachably engageable with the 
corresponding slots 3 formed on the body 2. A substantially flat hook 
portion 7 extends from the flat portion 5a in an axial direction of the 
upper portion of the body 2 and has a predetermined width. A substantially 
trapezoidal abutting portion 8 extends obliquely from the flat portion 5a 
to abut on the outer surface of the upper portion of the body 2. The 
abutting portion 8 is formed by partly cutting the hook portion 7 and 
bending the cut portion inwardly. 
The flat portion 5a of the base 5 includes a protrusion 9 which has 
substantially spherical configuration and extends downwardly from the flat 
portion 5a. The forward end of the hook portion 7 is slightly bent 
outwardly for ease of engagement with a waist belt (not shown) of an 
operator. Further the forward end of the abutting portion 8 is bent in the 
axial direction along the outer surface of the body 2. 
The base 5, the engaging members 6, the hook portion 7 and the abutting 
portion 8 are integrally formed with each other by cutting and bending the 
steel plate. 
A spacer 10 is made of synthetic resin and has substantially C-shaped 
configuration in plan view. A concave portion 10a is formed on the central 
portion of the spacer 10 for receiving the protrusion 9 of the base 5. The 
upper surface of a part of the spacer 10 positioned forwardly of the 
concave portion 10a is inclined downwardly. The spacer 10 is interposed 
between the flat portion 5a of the base 5 and the outer surface of the 
body 2 so as to keep the hook member 4 in position. Thus, the spacer 10 is 
inserted between the flat portion 5a and the outer surface of the body 2 
after the engaging members 6 are engaged with the corresponding slots 3, 
respectively, in such a manner that the base 5 extends along the outer 
surface of the body 2 and that the abutting portion 8 abuts on the outer 
surface of the body 2. The spacer 10 therefore resiliently holds the hook 
member 4 so as to keep engagement of the engaging members 6 with the 
corresponding slots 3. The spacer 10 also serves to provide an appropriate 
resiliency to the hook portion 7. 
The operation of the above embodiment will now be explained in connection 
with the mounting operation of the hook member 4. 
Firstly, the base 5 of the hook member 4 is positioned along the outer 
surface of the body 2 at either the right or the left side of the body 2 
in such a manner that the hook portion 7 extends in the axial direction of 
the upper portion of the body 2 and that the abutting portion 8 abuts on 
the outer surface of the upper portion of the body 2. The engaging members 
6 of the base 5 are subsequently engaged with their corresponding slots 3 
of the body 2, respectively. The engaging members 6 are kept in engagement 
with the slots 3 by the resilient force of the base 5 which urges the 
engaging members 6 toward the corresponding slots 3. 
The spacer 10 is thereafter inserted between the flat portion 5a of the 
base 5 and the outer surface of the body 2 in such a manner that the 
concave portion 10a is brought to engage the protrusion 9 of the base 5 so 
as to keep the spacer 10 in position. 
At this stage, the base 5 is forced outwardly by the spacer 10, so that the 
base 5 can be reliably positioned relative to the body 2. Further, the 
abutting member 8 cooperates with the spacer 10 to keep the hook member 4 
in position. Thus, the abutting member 8 abuts on the body 2 at a position 
displaced from the spacer 10 in a forward direction, so that the hook 
member 4 is prevented from rattling movement around the engaging points 
between the engaging portions 6 and the slots 3. 
The hook member 4 can be reliably engaged with the waist belt of the 
operator through the hook portion 7 having the appropriate resiliency, so 
that the power driven screwdriver 1 can be reliably held by the waist 
belt. 
To remove the hook member 4 from the body 2 of the power driven screwdriver 
1, the spacer 10 is removed between the flat portion 5a of the base 5 and 
the body 2 so as to disengage the concave portion 10a from the protrusion 
9. The engaging members 6 are subsequently disengaged from the slots 3, so 
that the hook member 4 is removed from the body 2. 
In case that the hook member 4 is to be mounted on the other side of the 
body 2, the hook member 4 is disposed at a position displaced from the 
previous position by an angle of 180.degree. as shown in FIG. 3, and is 
mounted on the body 2 in the same way as described above. Thus, the hook 
member 4 can be selectively mounted on either the right or the left side 
of the body 2 for convenience of the operator. 
A second embodiment of the present invention will now be explained with 
reference to FIGS. 5 and 6. The second embodiment is a modification of the 
first embodiment incorporating a screw in place of the spacer 10, and the 
construction other than that relating to the screw is the same as the 
first embodiment. Therefore, an explanation of the same construction is 
omitted by affixing to the drawing the same numerals as those of the first 
embodiment. 
A funnel-shaped mounting portion 11 is integrally formed with a flat 
portion 5a of a base 5 of a hook member 4A and extends downwardly from the 
substantially the central portion of the flat portion 5a. The mounting 
portion 11 includes a threaded hole 11a on its cylindrical lower part for 
engagement with a countersunk screw 12. A hook member 7A has a longer 
opening than that of the hook member 7 of the first embodiment. 
The operation of the second embodiment will now be explained. 
Firstly, the base 5 of the hook member 4A is positioned along the outer 
surface of the body 2 at either the right or the left side of the body 2 
in such a manner that the hook portion 7A extends in the axial direction 
of the upper portion of the body 2 and that the abutting portion 8 abuts 
on the outer surface of the upper portion of the body 2. The engaging 
members 6 of the base 5 are subsequently engaged with their corresponding 
slots 3 of the body 2, respectively. 
These steps are the same as those of the first embodiment. 
The countersunk screw 12 is thereafter engaged with the threaded hole 11a 
of the mounting portion 11 so as to bring its one end to abut on the body 
2. The countersunk screw 12 is further tightened to move the base 5 in a 
direction away from the body 2 while the engaging members 6 are in 
engagement with the slots 3, respectively. Thus, the base 5 is forced 
outwardly by the spacer 10, so that the base 5 can be reliably positioned 
relative to the body 2. 
To remove the hook member 4A from the body 2, the countersunk screw 12 is 
loosened, and thereafter the engaging members 6 are disengaged from the 
slots 3. 
As described above, with the second embodiment, the mounting and removing 
operations of the hook member 4A can be easily made by tightening and 
loosening the countersunk screw 12. In other respect, the operation is the 
same as the first embodiment. 
Although with the above embodiments, the engaging members 6 are engaged 
with the slots 3 formed on the separating surface S of the body 2, the 
slots 3a formed on the body 2 for ventilation purpose can be also used for 
engagement with the engaging members 6. In such a case, the mounting 
position of the hook member 4 is displaced to some extent in a 
circumferential direction from the mounting position in case that the 
slots 3 are used in the manner as described above. 
Further, although the above embodiments have been described in connection 
with the hook device for use with the power driven screwdriver, the same 
structure is also applicable to any power driven tools other than the 
power driven screwdriver. 
While the invention has been described with reference to preferred 
embodiments, it is to be understood that modifications or variation may be 
easily made without departing from the spirit of this invention which is 
defined by the appended claims.