EP3124178A1 - Square box spanner tool holder and impact wrench - Google Patents

Abstract

Square tool holder (10) for an impact wrench, with an anvil (1) on which a drive square (2) for receiving a tool, in particular a striking nut is arranged, and with a securing bolt (3) for securing the tool received, wherein the securing bolt (3 ), perpendicular to the axis of rotation (D) of the anvil (1), in the drive square (2) is spring - mounted, wherein the securing bolt (3) has a rounded, preferably hemispherical surface (3 '), which in a rebounded state (AZ) of Locking bolt (3) of a holding surface (2 ') of the drive square (2) protrudes and at least partially sunk in a compressed state of the securing bolt (3) in the holding surface (2'), wherein the securing bolt (3) by at least one in the drive square (2) arranged locking pin (4, 4 ') is secured against falling out.

Description

The present invention relates to a square tool holder for an impact wrench, with an anvil, on which a drive square for receiving a tool, in particular a striking wrench nut, is arranged. The square tool holder has a securing bolt for securing the tool received.

Square tool holders for impact wrenches, in particular for tangential impact wrenches, are basically known from the prior art. They are used to hold tools such as impact wrenches or the like. By means of the locking bolt a recorded on the drive square tool is secured in position.

It is an object of the present invention to provide a square tool holder, which is particularly easy to handle and at the same time stable.

With respect to the square tool holder, the object is achieved in that the securing bolt, perpendicular to the axis of rotation of the anvil, is spring-mounted in the drive square, wherein the securing bolt has a rounded, preferably hemispherical, surface which protrudes in a rebound state of the securing bolt of a holding surface of the drive square and is sunk at least partially in the support surface in a sprung state of the securing bolt. The securing bolt is secured against falling out by at least one securing pin arranged in the drive square.

The invention includes the realization that safety bolts are typically difficult to replace in known prior art square tool receptacles or only cumbersome to repair in case of wear. It has also been recognized as disadvantageous that in prior art square tool receptacles, tool-less attachment and removal of impact wrenches is typically not possible. In contrast to the spring pin of the square tool holder according to the invention is spring-mounted, wherein the securing bolt has a rounded, preferably hemispherical, surface. Thus, a tool-free and thus easy plugging and removing a Schlagschraubernuss is possible.

The square tool holder according to the invention also has the advantage that a weakening of the square cross-section through various holes and blind holes, as is typical in the case of square tool holders of the prior art, can be avoided by securing the locking pin against falling out by at least one locking pin arranged in the drive square , Thus, the square tool holder according to the invention is also particularly stable.

In a preferred embodiment, the locking pin extends parallel to the axis of rotation of the anvil. Preferably, the locking pin is arranged in a blind hole, which extends from an end face of the drive square parallel to the axis of rotation of the anvil. An arrangement of the securing pin and / or the blind hole parallel to the axis of rotation, that is to the axis of action of the anvil and thus longitudinal to tensile and compressive stresses, means a significantly lower susceptibility to fracture of the anvil or the drive square.

Particularly preferably, the diameter of the securing pin is smaller than the smallest located within the drive square diameter of the securing bolt. This allows a comparatively small weakening of the cross section of the drive square.

In a particularly preferred embodiment, the securing bolt is rotationally symmetrical. The securing bolt may have a taper into which the locking pin engages in order to secure the locking bolt in the drive square.

In a further preferred embodiment, the drive square has on its end face a Nutabsatz for receiving a securing element, wherein the securing element in the stored state, the securing pin position secured. It has proved to be advantageous if the securing element is a securing ring or a securing spring.

Preferably, the securing bolt is spring-loaded by a compression spring, in particular a helical spring. The helical spring can be arranged completely in a recess, preferably within a blind hole of the drive square. This is preferably both in the compressed and in the expanded state.

In a particularly advantageous development, a second securing pin, in particular exactly one second securing pin, is provided for securing the securing bolt against falling out. Preferably, the second locking pin is arranged parallel to the first locking pin. It has proven to be advantageous if the first and second locking pin spaced from each other on both sides of the locking bolt are arranged.

The first and second securing pin may be spaced apart from one another, wherein the distance corresponds to a width of a recess of the drive square which is designed to receive the securing bolt and / or the pressure spring.

With regard to the impact wrench, the object is achieved by an impact wrench with a prescribed square tool receptacle for receiving a tool, in particular a wrench nut.

Further advantages will become apparent from the following description of the figures. In the figures, an embodiment of the present invention is shown. The figures, the description and the claims contain numerous features in combination. The skilled person will conveniently consider the features individually and summarize meaningful further combinations.

In the figures, identical and similar components are numbered with the same reference numerals.

Fig. 1

ein erstes Ausführungsbeispiel einer Vierkantwerkzeugaufnahme;

Fig. 2

die Vierkantwerkzeugaufnahme aus Fig. 1 mit angeordnetem Sicherungselement;

Fig. 3

einen Sicherungsbolzen einer erfindungsgemäßen Vierkantwerkzeugaufnahme; und

Fig. 4

eine Schnittdarstellung der Vierkantwerkzeugaufnahme aus Fig. 1 und 2.

Show it:

Fig. 1

a first embodiment of a square tool holder;

Fig. 2

the square tool holder Fig. 1 with arranged fuse element;

Fig. 3

a safety bolt of a square tool receptacle according to the invention; and

Fig. 4

a sectional view of the square tool holder Fig. 1 and 2 ,

Embodiment:

A square tool holder 10 in Fig. 1 has an anvil 1 on which a drive square 2 is arranged for receiving a tool, not shown here, for example a striking nut. The square tool holder 10 has a securing bolt 3 for securing. The safety pin 3 is perpendicular to the axis of rotation D of the anvil 1 movable drive square 2 stored. The safety pin 3 is spring-loaded in the drive square 2 (see Fig. 4 ).

Again Fig. 1 can be removed, the safety pin 3 in this case has a hemispherical surface 3 'on. Im in Fig. 1 illustrated Sprung state AZ of the securing bolt 3 protrudes the hemispherical surface 3 'of the securing bolt 3 from a support surface 2' of the drive square 2 from. In the present case, a support surface is to be understood as meaning in particular a surface on which a tool accommodated on the drive square is supported and transmitted to the tool via the drive forces

The securing bolt 3 is secured against falling out by a first securing pin 4 and a second securing pin 4 '. In this case, the first securing pin 4 and the second securing pin 4 'extend parallel to the axis of rotation D of the anvil. Further, the first locking pin 4 and the second locking pin 4 'in respective blind holes 5, 5' are arranged, which in Fig. 1 are indicated by dashed lines, since they run within the drive square 2. The blind holes 5, 5 'extend starting from an end face 2 "of the drive square 2 parallel to the axis of rotation D of the anvil 1. A not shown surface normal of the end face 2" extends parallel to the axis of rotation D of the anvil. 1

Again Fig. 1 can further be removed, the drive square 2 has at its end face 2 "on a Nutabsatz 6. The Nutabsatz 6 serves to receive a securing element 7, which is intended for securing the position of the first securing pin 4 and the second securing pin 4 ' Fig. 1 can be removed, the securing element 7 is provided as a securing ring. Im in Fig. 1 illustrated embodiment, the securing element 7 is not arranged on the Nutabsatz 6, so that the first locking pin 4 and the second locking pin 4 'can be easily disassemble or replace.

Fig. 2 shows the square tool holder 10 of Fig. 1 , wherein the securing element 7 is received on Nutabsatz 6. Thus, the first locking pin 4 and the second locking pin 4 'are secured in position. A tool, not shown here, for example a wrench nut can be securely attached to the drive square 2.

Fig. 3 shows an example of a safety pin 3 of a square tool holder, not shown here. The securing bolt 3 is rotationally symmetrical, based on an axis of symmetry S of the securing bolt 3. The axis of rotation D of the anvil 1 points into the plane of the paper.

Good to see the hemispherical surface 3 'of the locking bolt 3, which allows a tool-free attaching a Schlagschraubernuss. The securing bolt 3 also has a taper 3 ", which extends in the shape of a belt around the securing bolt 3. The taper 3" serves to receive the securing pins in order to secure the securing bolt 3 in a drive square (cf. Fig. 4 ).

Fig. 4 shows a sectional view of the square tool holder 10 Fig. 1 along the section line AA. The safety pin 3 in Fig. 4 is in a rebound state AZ, that is, its hemispherical surface 3 'protrudes from the support surface 2' of the drive square 2 from. In the present case, only the hemispherical surface 3 'protrudes from the holding surface 2'.

For the purpose of spring mounting of the safety pin 3 is spring-loaded by a coil spring 8. The helical spring 8 is arranged completely in a corresponding recess 8 'in the drive square 2. The in Fig. 4 shown Sprung state AZ of the locking bolt 3 is as it were the maximum deflected state of the locking bolt 3, which is secured by the both sides of the locking bolt 3 arranged locking pins 4, 4 'against falling out. Thus, the locking pins 4, 4 'both an effective means against falling out and a stop limit for the safety pin 3 along the axis of symmetry S of the locking bolt 3 in two positions.

Like also out Fig. 4 it can be seen, the first and second locking pin 4, 4 'are spaced apart by a distance A. The distance A between the first and second locking pin 4, 4 'corresponds to the diameter of the recess 8', in which both the coil spring 8 and, in sections, the locking bolt 3 is mounted.

Due to the elongated extension of the taper 3 'parallel to the axis of symmetry S of the securing bolt 3, there is a movement space between the rebounded state AZ which is in Fig. 4 is shown, and defined the not shown deflected state. The left on both sides by the taper 3 'in the safety pin 3 surfaces serve as a guide surface for guiding the locking bolt 3 within the recess 8' of the drive square 2. 2

LIST OF REFERENCE NUMBERS

1

anvil

2

Square Drive

2 '

Holding surface of the drive square

2 '

End face of the drive square

3

safety bolt

3 '

hemispherical surface of the securing bolt

3 '

Rejuvenation of the locking bolt

4

first locking pin

4 '

second locking pin

5

first blind hole

5 '

second blind hole

6

Nutabsatz

7

fuse element

8th

coil spring

8th'

recess

10

Square tool holder

A

distance

AZ

Sprung state

D

Rotation axis of the anvil

S

Symmetry axis of the securing bolt

Claims (10)

Square tool holder (10) for an impact wrench, with an anvil (1) on which a drive square (2) for receiving a tool, in particular a striking nut nut is arranged, and with a securing bolt (3) for securing the tool received,
characterized in that the securing bolt (3), perpendicular to the axis of rotation (D) of the anvil (1) movable in the drive square (2) is spring-mounted, wherein the securing bolt (3) has a rounded, preferably hemispherical surface (3 ') which protrudes in a rebounded state (AZ) of the securing bolt (3) of a holding surface (2 ') of the drive square (2) and at least partially sunk in a compressed state of the securing bolt (3) in the holding surface (2'), wherein the securing bolt (3) by at least one in the drive square (2) arranged securing pin (4, 4 ') is secured against falling out. Square tool receptacle (10) according to claim 1,
characterized in that the locking pin (4) extends parallel to the axis of rotation (D) of the anvil (1). Square tool receptacle (10) according to claim 2,
characterized in that the locking pin (4) in a blind hole (5, 5 ') is arranged, that extends from an end face (2 ") of the drive square (2) parallel to the axis of rotation (D) of the anvil (1). Square tool receptacle (10) according to one of the preceding claims,
characterized in that the securing bolt (3) is rotationally symmetrical and has a taper (3 ") into which the securing pin (4, 4 ') for securing the securing bolt (3) in the drive square (2) engages. Square tool receptacle (10) according to one of the preceding claims,
characterized in that the diameter of the securing pin (4, 4 ') is smaller than the smallest within the Antriebvierkants (2) located diameter of the securing bolt (3). Square tool receptacle (10) according to one of the preceding claims,
characterized in that the drive square (2) on its end face (2 ") has a Nutabsatz (6) for receiving a securing element (7), wherein the securing element (7) in the received state, the locking pin (4, 4`) position secured. Square tool receptacle (10) according to claim 6,
characterized in that the securing element (7) is a securing ring or a securing spring. Square tool receptacle (10) according to one of the preceding claims,
characterized in that the securing bolt (3) by a compression spring, in particular a coil spring (8) is spring-mounted. Square tool receptacle (10) according to one of the preceding claims,
characterized in that a second securing pin (4 ') for securing the securing bolt (5) is provided against falling out, wherein the second securing pin (4') is preferably arranged parallel to the first securing pin (4). Impact wrench with a square tool receptacle (10) according to one of the preceding claims for receiving a tool, in particular a impact wrench nut.

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