DE102019101955A1 - Two-stage universal tool - Google Patents

Abstract

The invention relates to a two-stage universal tool comprising a socket element (1), a drive element (2) and a spring element (3), the socket element (1) defining an axial direction (11) and a plug-in section (12) and a connecting section ( 13), the plug section (12) having a receiving recess (14), the inner wall of the receiving recess (14) forming a plurality of axial projections (11), one of the projections (15) having an indentation (16), the drive element has a polygonal spherical head (21), the polygonal spherical head (21) having a plurality of curved surfaces (211), the drive element (2) being able to be displaced relative to the bushing element (1) between a first position and a second position, the polygonal Ball head (21) is provided with an elastic locking element (22), the elastic locking element (22) being biased radially outwards in the normal state.

Description

Technical field

The invention relates to a two-stage universal tool.

State of the art

A universal tool is a hand tool that can be rotated at multiple angles and has a socket and a drive rod. A ball head is provided at one end of the drive rod. The ball head is non-rotatable but slidably received in the socket. The drive rod can be moved to a fixed position and a swivel position relative to the bush. When the drive rod is in the fixed position, a radial projection of the drive rod engages in the bushing and cannot be pivoted. When the drive rod is pulled out to the pivot position relative to the bushing, the radial projection of the drive rod is released, whereby the drive rod can be pivoted. This means that the universal tool can perform a multi-angle rotary movement and is therefore suitable for work in a confined space.

However, the drive rod of the conventional universal tool cannot be effectively positioned in the fixed position or the pivot position. The drive rod is easily slidable between the fixed position and the swivel position, so that the user has to bring the drive rod into the desired position again during work. This is very cumbersome.

Object of the invention

For this reason, the inventor aims to offer a two-stage universal tool that can solve the above problems.

Technical solution

To achieve the object, the invention proposes a two-stage universal tool, which has a socket element and a drive element and can position the drive element in a first position or a second position, wherein there is sufficient structural strength between the drive element and the socket element, so that the load capacity is increased for high torque.

The two-stage universal tool according to the invention comprises a socket element which defines an axial direction and has a plug-in section and a connecting section, the plug-in section having a receiving recess, the inner wall of the receiving recess forming a plurality of axial projections, one of the projections having an indentation. The two-stage universal tool further comprises a drive element which has a polygonal ball head, the polygonal ball head having a plurality of curved surfaces, the polygonal ball head being inserted into the receiving recess and the curved surfaces each abutting a projection, the drive element being relative to the bushing element between a first one Position and a second position can be moved, wherein the polygonal ball head is provided with an elastic locking element, wherein the elastic locking element is biased radially outwards in the normal state. The two-stage universal tool further comprises a spring element, which is arranged between the bottom of the receiving recess and the polygonal ball head, so that the drive element is biased in the direction of the second position, and when the drive element is in the first position, the elastic locking element in the indentation engages, wherein the drive element cannot be pivoted about the polygonal ball head relative to the socket element, and if the drive element is moved towards the second position by an external force, the elastic locking element leaves the indentation, as a result of which the drive element around the polygonal ball head opposite the socket element can be pivoted.

Figure list

• 1 and 2 show perspective views of the preferred embodiment of the invention.
• 3 shows an exploded view of the preferred embodiment of the invention.
• 4 to 6 show sectional views of the preferred embodiment of the invention.

Detailed description of the preferred embodiment

The possible embodiments of the present invention, which are not intended to restrict the scope of the present invention, are described below.

1 to 6 show a preferred embodiment of the two-stage universal tool according to the invention, which is a socket element 1 , a drive element 2 and a spring element 3 includes.

The socket element 1 defines an axial direction 11 and has a plug section 12 and a connecting section 13 on. The Plug-in section 12 has a receiving recess 14 , The inner wall of the receiving recess 14 forms several axial projections 11 , One of the ledges 15 has an indentation 16 , The connecting section 13 is used for connection with a turning tool.

The drive element 2 has a polygonal spherical head 21 on. The polygonal ball head 21 has several arches 211 , The polygonal ball head 21 is in the receiving recess 14 and the arches 211 are each on a ledge 15 on. The drive element 2 can be relative to the socket element 1 be moved between a first position and a second position. The polygonal ball head 21 is with an elastic locking element 22 Mistake. The elastic locking element 22 is biased radially outwards in the normal state. In the present embodiment, the polygonal ball head 21 and the receiving recess 14 both hexagonal. In other embodiments, these can have a different number of edges.

The spring element 3 is between the bottom of the receiving recess 14 and the polygonal ball head 21 arranged so that the drive element 2 is biased towards the second position.

If the drive element 2 is in the first position, the elastic locking element engages 22 into the indentation 16 on. The drive element 2 can't around the polygonal ball head 21 opposite the socket element 1 be pivoted. The drive element 2 is with the socket element 1 on a line. Because the elastic locking element 22 into the indentation 16 engages, the drive element 2 not be moved to the second position. If the drive element 2 is moved by an external force in the direction of the second position, leaves the elastic locking element 22 the indentation 16 , causing the drive element 2 around the polygonal ball head 21 opposite the socket element 1 can be pivoted. Therefore, the socket element 1 and the drive element 2 be rotated at multiple angles relative to each other. If the drive element 2 to be moved back to the first position, only an external force is required to the spring force of the spring element 3 overcome, causing the drive element 2 can be returned to the first position so that the drive element 2 can be effectively and quickly positioned in the first position or the second position without being relative to the socket member 1 to slide, which can improve user comfort. In the embodiment, the spring element tapers 3 from the connecting section 13 towards the receiving recess 14 and is due to the connecting section 13 facing end face of the polygonal spherical head 21 on.

The receiving recess 14 also has several wells 17 that are in the axial direction 11 extend. The tabs 15 and the wells 17 are alternately on the inner wall of the receiving recess 14 arranged. Between two neighboring arches 211 of the polygonal ball head 21 is an edge 212 educated. The edges 212 reach into a recess 17 to prevent the polygonal ball head from moving 21 relative to the plug section 12 around the axial direction 11 turns. In the present embodiment, each has a projection 15 an arcuate convex surface. The thickness of the protrusion 15 shrinks to both sides so that when the polygonal ball head 21 is in the second position, the drive element 2 around the polygonal ball head 21 opposite the socket element 1 can pivot.

The two side walls 161 the indentation 16 that are in the axial direction 11 are located, extend in the radial direction of the sleeve member 1 to prevent the elastic locking element 22 from the indentation 16 solves. The dent 16 has in the circumferential direction of the socket member 1 an inclined surface on each side 162 that go to the wells 17 downsized. The ratio of the length of the indentation 16 in the axial direction 11 to the depth of the receiving recess 14 is 1: 7 to 1.5: 7. In the present embodiment, the ratio of the length of the indentation is 16 in the axial direction 11 to the depth of the receiving recess 14 1.3: 7, with the indentation 16 and the elastic locking element 22 have a strong locking ability.

The elastic locking element 22 includes a locking element 221 and a feather 222 , The polygonal ball head 21 has a hole 213 , The locking element 221 is slidable in the hole 213 arranged. The feather 222 is between the bottom of the hole 213 and the locking element 221 , causing the locking element 221 in the hole 213 restricted and pushed outwards in the normal state. In the present embodiment, the locking element 221 a ball to prevent the locking element 221 in the indentation 16 is blocked and not by the indentation 16 can be solved.

The drive element 2 forms one part of a working part 23 and a radial flange 24 , The flange 24 is located between the working part 23 and the polygonal ball head 21 , The working part 23 is used for connection with a wrench or socket. If the drive element 2 the flange is in the first position 24 on the inner wall of the receiving recess 14 on. If the drive element 2 the flange is in the second position 24 not on the inner wall of the receiving recess 14 on.

The inner wall of the receiving recess preferably has 14 at the connecting section 13 opposite end of an annular groove 18th , The ring groove 18th removably takes a locking element 19 on. If the drive element 2 is in the second position, the locking element locks 19 the polygonal ball head 21 so that the polygonal ball head 21 not from the receiving recess 14 can be solved. In the present embodiment, the locking element 19 a C-shaped ring that is detachable in the ring groove 18th is recorded.

In summary, the two-stage universal tool according to the invention can effectively and quickly position the drive element in the first position or the second position by the cooperation of the spring element, the indentation and the elastic locking element, so that handling is improved.

Reference list

1

Socket element

2

Drive element

3

Spring element

11

axial direction

12th

Plug-in section

13

Connecting section

14

Receiving recess

15

head Start

16

indentation

17

deepening

18th

Ring groove

19

Locking element

161

Side wall

162

Sloping surface

21

Ball head

22

Locking element

23

Working part

24

radial flange

211

Arc area

212

edge

213

hole

221

Locking element

222

feather

Claims (10)

Two-stage universal tool, with a socket element (1), which defines an axial direction (11) and has a plug section (12) and a connecting section (13), the plug section (12) having a receiving recess (14), the inner wall of the receiving recess (14) having a plurality forms axial projections (11), one of the projections (15) having an indentation (16); a drive element (2) which has a polygonal spherical head (21), the polygonal spherical head (21) having a plurality of curved surfaces (211), the polygonal spherical head (21) being inserted into the receiving recess (14) and the curved surfaces (211) each bear against a projection (15), the drive element (2) being displaceable relative to the socket element (1) between a first position and a second position, the polygonal ball head (21) being provided with an elastic locking element (22), wherein the elastic locking element (22) is biased radially outwards in the normal state; and a spring element (3) which is arranged between the bottom of the receiving recess (14) and the polygonal ball head (21) so that the drive element (2) is biased towards the second position; wherein when the drive element (2) is in the first position, the elastic locking element (22) engages in the indentation (16), the drive element (2) not being pivotable about the polygonal ball head (21) relative to the socket element (1) and when the drive element (2) is moved towards the second position by an external force, the elastic locking element (22) leaves the indentation (16), whereby the drive element (2) around the polygonal ball head (21) opposite the socket element (1) is pivotable. Two-stage universal tool after Claim 1 , characterized in that the two side walls (161) of the indentation (16), which are located in the axial direction (11), extend in the radial direction of the bushing element (1). Two-stage universal tool after Claim 1 , characterized in that the receiving recess (14) further has a plurality of depressions (17) which extend in the axial direction (11), the projections (15) and the depressions (17) being arranged alternately on the inner wall of the receiving recess (14) are, between two adjacent arc surfaces (211) of the polygonal A spherical head (21) is formed with an edge (212), the edges (212) each engaging in a recess (17). Two-stage universal tool after Claim 3 , characterized in that the indentation (16) in the circumferential direction of the socket element (1) has an inclined surface (162) on both sides, which is reduced to the recesses (17). Two-stage universal tool after Claim 1 , characterized in that each projection (15) has an arcuate convex surface, the thickness of the projection (15) decreasing on both sides. Two-stage universal tool after Claim 1 characterized in that the elastic locking element (22) comprises a locking element (221) and a spring (222), the polygonal spherical head (21) having a hole (213), the locking element (221) being displaceable in the hole (213) is arranged, the spring (222) being located between the bottom of the hole (213) and the locking element (221), as a result of which the locking element (221) is restricted in the hole (213) and is pushed outwards in the normal state. Two-stage universal tool after Claim 1 , characterized in that the drive element (2) integrally forms a working part (23) and a radial flange (24), the flange (24) being between the working part (23) and the polygonal ball head (21), wherein if the drive element (2) is in the first position, the flange (24) abuts the inner wall of the receiving recess (14), and when the drive element (2) is in the second position, the flange (24) is not on the inner wall the receiving recess (14) abuts. Two-stage universal tool after Claim 1 , characterized in that the inner wall of the receiving recess (14) has an annular groove (18) at the end facing away from the connecting section (13), the annular groove (18) releasably receiving a locking element (19), wherein when the drive element (2 ) is in the second position, the blocking element (19) blocks the polygonal spherical head (21), so that the polygonal spherical head (21) cannot be released from the receiving recess (14). Two-stage universal tool after Claim 8 , characterized in that the locking element (19) is a C-shaped ring which is detachably received in the annular groove (18). Two-stage universal tool according to one of the Claims 1 to 9 , characterized in that the ratio of the length of the indentation (16) in the axial direction (11) to the depth of the receiving recess (14) is 1: 7 to 1.5: 7.

Images