DE202013105046U1 - wrench - Google Patents

Abstract

Wrench comprising: -. a first self-body (10) having a first rotatable connection part (11) disposed at one end thereof, the first rotatable connection part (11) being formed as a U-shaped rotatable connection end, a first concave depression (12) on the one a rotatable connection end is disposed, wherein a transversely continuous first guide hole (13) on the first rotatable connection part (11) is arranged, wherein the first guide hole (13) is connected to the first concave recess (12); Figs; a second self-body (20) having a second rotatable connection part (21) disposed at one end, the second rotatable connection part (21) being formed as a U-shaped rotatable connection end, a second concave recess (22) on the one the rotatable connection end is arranged, wherein the second concave depression (22) is aligned with the first concave depression (12) of the first self-body (10), wherein the first and the second concave depression (12, 22) have a same width, wherein a the second guide hole (23) is connected to the second concave recess (22) and wherein the second guide hole (23) and the first guide hole (13) are arranged in the transverse direction through the second guide hole (23) on the second rotatable connection part (21) ) have an equal inner width; Figs; a third self-body (30) formed in the form of a quadrangular block body, one end of the third self-body (30) being received in the first concave depression (12) and the other end received in the second concave depression (22), wherein a third transversely continuous guide hole (31) is disposed at one end of the third body (30), and a fourth transversely continuous guide hole (32) is disposed at the other end, the third guide hole (31) after the first guide hole (13), wherein the third guide hole (31) has an inner width larger than the inner width of the first guide hole (13), the fourth guide hole (32) being aligned with the second guide hole (23), the fourth one Guide hole (32) has an inner width which is greater than the inner width of the second guide hole (23), wherein the fourth guide hole (32) and the third Führu hole (31) have the same inner width and their axial lines are parallel to each other, wherein a fifth guide hole (33) on the third self-body (30) is arranged, wherein the fifth guide hole (33) with the third guide hole (31) and the fourth guide hole (32), wherein an operating recess (34) is arranged on one side of the third self-body (30) in the center, wherein the operating recess (34) is connected to the fifth guide hole (33), wherein a first limiting part (35) is arranged in the opening position of the third guide hole (31), wherein the first boundary part (35) is designed so that the inner width in the opening position of the third guide hole (31) is reduced, wherein a second boundary part (36) in the opening position of the fourth Guide hole (32) is arranged, wherein the second boundary part (36) is designed so that the inner width in the opening position of the fourth guide hole (32 ) is reduced; Figs; an operating assembly (50) disposed on the third body (30) and comprising the four clamping elements (51), two first movement elements (52) and a second movement element (53), the clamping elements (51) in the opening position to the both ends of the third guide hole (31) and the fourth guide hole (32) are received, wherein the inner width of the first guide hole (13) of the first body (10) and the first boundary part (35) are smaller than the diameter of the clamping element (51) in that the clamping element (51) is protected from separation from the first guide hole (13) and the peripheral surface of the clamping element (51) is secured in the opening position of the first guide hole (13).

Description

Technical area

The present invention relates to a wrench, in particular a wrench, wherein the essential connection components are separable from each other.

State of the art

In 17 a conventional wrench is shown with an F-shaped handle part, wherein the wrench a first body 61 , a second body of one's own 62 and a rotatable binding element 63 includes. At one end of the first body 61 is a first rotatable connection part 611 arranged. At the first rotatable connection part 611 is a transversely continuous first guide hole 612 arranged. At the first body 61 a ratchet is rotatably arranged. At the ratchet a plug-in opening is arranged in a certain size. The second body 62 has a certain length, so that the second body 62 can be grasped by hand when performing the panning. At one end of the second body 621 is a second rotatable connection part 621 arranged. The second rotatable connection part 621 is Π-shaped and rotatable on the first rotatable connection part 611 arranged. At the second rotatable connection part 621 is a transversely continuous second guide hole 622 arranged. The second continuous guide hole 622 depends on the first continuous guide hole 612 , At the end of the second continuous guide hole 622 is a threaded hole 623 arranged. The rotatable binding element 63 is through the first continuous guide hole 612 and the second continuous guide hole 622 led, so that the first self-body 61 rotatable with the second body 62 connected is. Said conventional wrench has the following disadvantages: although the first self-body 61 towards the second body 62 is rotatable at an angle, the two are not separable from each other. The normally rotatable on the first body 61 arranged ratchet has more than 30 sizes in metric system and English system. The first own body 61 in a certain size can only be with a single second body 62 interact, so that the development costs of the first body 61 and the second body 62 , the die costs and component costs increase significantly. The wrench with an F-shaped handle after US 7036403 has the same design and the same disadvantages as in the above-mentioned wrench.

Summary of the invention

The present invention has for its object to provide a wrench, wherein the existing in the conventional wrench with an F-shaped handle disadvantages, namely the connection between the individual bodies is inseparable, are repealed.

The object is achieved by a wrench comprising a first body, a second body, a third body and a control unit. The third self-body is in each case rotatably connected to the first self-body and to the second self-body. The operating module is arranged on the third body. When the operation board is moved, the first body is separated from the third body, or the second body is separated from the third body.

Brief description of the drawings

1 shows a wrench according to the present invention in an exploded perspective view shown;

2 shows a third body and a control assembly according to the present invention in an exploded perspective view shown;

3 shows a third self-body and an operating assembly according to the present invention in the assembled state shown in a perspective view;

4 shows a wrench according to the present invention in the assembled state shown in a perspective view;

5 shows a wrench according to the present invention shown in side view;

6 indicates a wrench 5 shown in section along AA;

7 shows a wrench according to the present invention shown in plan view;

8th indicates a wrench 7 shown in section along BB;

9 shows a wrench after the rotation of the second moving element shown in side view;

10 indicates a wrench 9 shown in section along AA;

11 shows a second embodiment of the wrench according to the present invention shown in side view;

12 indicates a wrench 11 shown in section along AA;

13 shows a third self-body and an operating assembly according to the third embodiment of the present invention in an exploded perspective view shown;

14 shows a wrench according to the third embodiment of the present invention shown in section;

15 shows a fourth embodiment of the wrench according to the present invention in an exploded perspective view;

16 shows a third body and a control assembly according to the fifth embodiment of the present invention in an exploded perspective view and

17 shows a conventional wrench with an F-shaped handle part shown in exploded perspective view.

embodiments

As in 1 to 10 and 13 to 16 illustrated, the wrench according to the present invention comprises a first body 10 , a second body of one's own 20 , a third body 30 and a control board 50 , At one end of the first body 10 is a first rotatable connection part 11 arranged. The first rotatable connection part 11 is designed as a U-shaped connection end, on which a first concave depression 12 and a transversely continuous first guide hole 13 are arranged. At the first body 10 an operative end is disposed on which a ratchet is rotatably arranged to drive a workpiece for rotation. The second body 20 has a handle portion of a certain length, which is taken by the hand in the implementation of the panning. At one end of the second body 20 is a second rotatable connection part 21 arranged. The second rotatable connection part 21 is designed as a U-shaped connection end, on which a second concave depression 22 and a transversely continuous second guide hole 23 are arranged. The second concave depression 22 depends on the first concave depression 12 , and the first and second concave indentations 12 . 22 have an equal width. The second guide hole 23 and the first guide hole 13 have an equal inner width. The third body 30 is formed in the form of a quadrangular block body, one end of the third body 30 is in the first concave depression 12 taken up and the other end is in the second concave depression 22 added. At one end of the third body 30 is a third transversely continuous guide hole 31 and at the other end is a fourth transversely continuous guide hole 32 arranged. The third leadership hole 31 depends on the first guide hole 13 , and the third leadership hole 31 has an inner width greater than the inner width of the first guide hole 13 is. The fourth leadership hole 32 depends on the second guide hole 23 , and the fourth leadership hole 32 has an inner width greater than the inner width of the second guide hole 23 is. The fourth leadership hole 32 and the third leadership hole 31 have an equal inner width, and their axial lines are parallel to each other. At the third body 30 is a continuous fifth leadership hole 33 arranged with the third guide hole 31 and the fourth guide hole 32 connected is. On one side of the third body 30 is an operating recess 34 arranged in the middle, the operating recess 34 is with the fifth guide hole 33 connected. In the opening position of the third guide hole 31 is a first boundary part 35 arranged. The first boundary part 35 is designed so that the inside width in the opening position of the third guide hole 31 is reduced. In the opening position of the fourth guide hole 32 is a second boundary part 36 arranged. The second boundary part 36 is designed so that the inner width in the opening position of the fourth guide hole 32 is reduced. The first boundary part 36 and the second boundary part 36 are in the opening position of the third guide hole 31 and the fourth guide hole 32 formed by punching, so that they have a smaller inner width. The control board 50 is on the third body 30 arranged and includes four clamping elements 51 , two first movement elements 52 and a second moving element 53 , The clamping element 51 is in the opening position at both ends of the third guide hole 31 and the fourth guide hole 32 added. The inner width of the first guide hole 13 and the first boundary part 35 is smaller than the diameter of the clamping element 51 so that the clamping element 51 before the separation from the first guide hole 13 is protected, and the peripheral surface of the clamping element 51 is in the opening position of the first guide hole 13 clamped, so that the first self-body 10 and the third body 30 are rotatably connected to each other. The inside width of the second guide hole 23 and the second limiting member 36 are smaller than the diameter of the clamping element 51 so that the clamping element 51 before the separation from the second guide hole 23 is protected, and the peripheral surface of the clamping element 51 is in the opening position of the second guide hole 23 clamped, leaving the second body 20 and the third body 30 are rotatably connected to each other. After the clamping element 51 in the third guide hole 31 or in the fourth guide hole 32 has been recorded, is the opening point of the third guide hole 31 and the fourth guide hole 32 by punching to form the first boundary part 31 and the second boundary part 36 shaped so that the clamping element 51 in the third guide hole 31 or in the fourth guide hole 32 recorded and protected against separation. Every first movement element 52 is in the fifth guide hole 33 added. At the first movement element 52 are a first printing part 521 and a second printing part 522 arranged. The first printing part 521 is against each clamping element 51 pressed. The second movement element 53 is rotatable in the operating recess 34 added. If the second movement element 53 is turned, is the first moving element 52 for movement within the fifth guide hole 33 controlled, so that the first moving element 52 against the clamping element 51 pressed or not against the clamping element 51 is pressed. The first two movement elements 52 are with respect to the second movement element 53 symmetrical to each other.

As in 1 to 4 shown, is the clamping element 51 spherically formed. The operating recess 34 has a thread extending toward you, on the second moving element 53 is a thread 531 arranged the thread 531 is in the operating recess 34 screwed, a third pressure part 532 is on the second movement element 53 arranged and the third pressure part 532 is against the second pressure part 522 pressed.

As in 5 to 8th is the second moving element 53 in the place of the operating recess 34 of the third body 30 screwed. The third printing part 532 is against the second pressure part 522 pressed so that the first pressure part 521 every first movement element 52 against the two clamping elements 51 is pressed, the first two movement elements 52 against four clamping elements 51 are pressed and the clamping element 51 thereby from the location of the third guide hole 31 and the fourth guide hole 32 partially protruding and in the place of the first guide hole 13 and the second guide hole 23 is clamped, creating the first self-body 10 and the third body 30 are rotatably connected to each other and whereby the second body 20 and the third body 30 are rotatably connected to each other.

As in 9 and 10 shown when the second movement element 53 is rotated, namely on the third body 30 arranged second movement element 52 a little bit loose, leaving the third printing part 532 of the second movement element 53 no longer against the first movement element 52 is pressed and the first movement element 52 no longer against the clamping element 51 is pressed, since the first moving element 52 a movement space within the fifth guide hole 33 having. As the clamping element 52 also has a movement space when the clamping element 51 from the terminal of the first guide hole 13 and the second guide hole 23 is separated, are the first eigenbody 10 , the second self body 20 and the third body 30 separable from each other. This is the first self body 10 or the second body 20 or the third body 30 or all components of the control board 50 interchangeable.

In 11 and 12 is shown a further embodiment, wherein no fifth guide hole 33 and no operator recess 34 on the third body 30 are arranged, with no first moving element 52 and no second moving element 53 at the operating group 50 are provided, the operating group 50 two spring bodies 54 has, the two spring body 53 in the third guide hole 31 and in the fourth guide hole 32 are included. The two ends of the spring body 54 are each against a clamping element 51 pressed. When a force on the first self-body 10 or the second body 20 is inserted, is the clamping element 51 from the first guide hole 13 and the second guide hole 23 separated, leaving the first self-body 10 and the third body is detached from the connection or the second body is 20 and the third body 30 detached from the connection.

In 13 and 14 a further embodiment is shown, wherein a fourth printing part 533 and a fifth printing part 534 on the second moving element 53 the operating board 50 are arranged, with no thread 531 and no third pressure part 532 on the second moving element 53 are arranged. The width of the fifth printing part 534 is greater than the width of the fourth pressure part 533 , a clamping ring 55 is planned. The clamping ring 55 is on the second movement element 53 clamped, leaving the second moving element 53 rotatable in the operating recess 34 of the third body 30 is arranged. If the second movement element 53 turned so that the fifth pressure part 534 against the first mover 52 is pressed, pushes the first moving element 52 the clamping element 511 , wherein the clamping element 51 under the effect of the pressure from the first moving element 52 partly in the first guide hole 13 and in the second guide hole 23 protrudes and it is impossible, the first body 10 , the second body 20 and the third body 30 separate from each other. If the second movement element 53 turned so that the fourth printing part 533 after the first two movement elements 52 directed, because the first two movement elements 52 and the clamping elements 51 have a movement space are the first body 10 , the second self body 20 and the third body 30 separable from each other.

As in 15 shown, is a second threaded part 24 in the area of the second guide hole 22 of the second body 20 arranged, wherein a rotatable binding element 40 is provided. A first threaded part 41 is at the end of the rotatable binding element 40 arranged. The rotatable binding element 40 is through the second guide hole 23 and the fourth leadership hole 32 guided and the first threaded part 41 and the second threaded part 24 are bolted together. The second body 20 is rotatable with the third body 30 connected. If the second movement element 53 the operating board 50 is moved, it is only possible, the rotatable connection of the first body 10 with the third body 30 or the separation of the first eigenbody 10 from the third body 30 to control.

In 16 are the third body 30 and the control board 50 shown in exploded view, wherein the clamping element 51 is formed in the form of a stepped round piece.

The present invention thus relates to a wrench comprising a first body 10 , a second body of one's own 20 , a third body 30 and a control board 50 , The first own body 10 has an action end from which a workpiece is driven for rotation. The second body 20 has a handle portion that can be grasped by hand when performing the panning. The third body 30 is rotatable with the first body 10 and with the second body 20 connected. The control board 50 is on the third body 30 arranged. The control board 50 can be moved so that the first body of one's own 10 and the third body 30 are separable from each other or the second body 20 and the third body 30 are separable from each other.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US7036403 [0002]

Claims (7)

Wrench, comprising: - a first body ( 10 ), in which a first rotatable connecting part ( 11 ) is arranged at one end, wherein the first rotatable connection part ( 11 ) is designed as a U-shaped rotatable connection end, wherein a first concave depression ( 12 ) is arranged at the rotatable connection end, wherein a transversely extending first guide hole ( 13 ) on the first rotatable connection part ( 11 ), wherein the first guide hole ( 13 ) with the first concave depression ( 12 ) connected is; A second eigenbody ( 20 ), in which a second rotatable connection part ( 21 ) is arranged at one end, wherein the second rotatable connection part ( 21 ) is designed as a U-shaped rotatable connection end, wherein a second concave depression ( 22 ) is arranged at the rotatable connection end, wherein the second concave depression ( 22 ) after the first concave depression ( 12 ) of the first body ( 10 ), wherein the first and second concave depressions ( 12 . 22 ) have a same width, wherein a transversely continuous second guide hole ( 23 ) on the second rotatable connection part ( 21 ), wherein the second guide hole ( 23 ) with the second concave depression ( 22 ) and wherein the second guide hole ( 23 ) and the first guide hole ( 13 ) have an equal inner width; A third body ( 30 ) formed in the form of a quadrangular block body, one end of the third body ( 30 ) in the first concave depression ( 12 ) and the other end in the second concave depression ( 22 ), wherein a third transverse hole ( 31 ) at one end of the third body ( 30 ), and a fourth transverse guide hole (FIG. 32 ) is arranged at the other end, wherein the third guide hole ( 31 ) after the first guide hole ( 13 ), the third guide hole ( 31 ) has an inner width which is greater than the inner width of the first guide hole ( 13 ), the fourth guide hole ( 32 ) after the second guide hole ( 23 ), the fourth guide hole ( 32 ) has an inner width which is greater than the inner width of the second guide hole ( 23 ), the fourth guide hole ( 32 ) and the third guide hole ( 31 ) have an equal inner width and their axial lines are parallel to each other, wherein a fifth guide hole ( 33 ) on the third body ( 30 ), the fifth guide hole ( 33 ) with the third guide hole ( 31 ) and the fourth guide hole ( 32 ), wherein an operating well ( 34 ) on one side of the third body ( 30 ) is arranged in the middle, wherein the operating recess ( 34 ) with the fifth guide hole ( 33 ), a first boundary part ( 35 ) in the opening position of the third guide hole ( 31 ), wherein the first boundary part ( 35 ) is designed so that the inner width in the opening position of the third guide hole ( 31 ), wherein a second boundary part ( 36 ) in the opening position of the fourth guide hole ( 32 ), wherein the second boundary part ( 36 ) is designed so that the inner width in the opening position of the fourth guide hole ( 32 ) is reduced; An operating board ( 50 ) attached to the third body ( 30 ) is arranged and the four clamping elements ( 51 ), two first movement elements ( 52 ) and a second movement element ( 53 ), wherein the clamping elements ( 51 ) in the opening position at the two ends of the third guide hole ( 31 ) and the fourth guide hole ( 32 ), wherein the inner width of the first guide hole ( 13 ) of the first body ( 10 ) and the first boundary part ( 35 ) smaller than the diameter of the clamping element ( 51 ), so that the clamping element ( 51 ) before the separation from the first guide hole ( 13 ) is protected and the peripheral surface of the clamping element ( 51 ) in the opening position of the first guide hole ( 13 ) is clamped so that the first body ( 10 ) and the third body ( 30 ) are rotatably connected to each other, wherein the inner width of the second guide hole ( 23 ) of the second body ( 20 ) and the second boundary part ( 36 ) smaller than the diameter of the clamping element ( 51 ), so that the clamping element ( 51 ) before the separation from the second guide hole ( 23 ) is protected and the peripheral surface of the clamping element ( 51 ) in the opening position of the second guide hole ( 23 ), so that the second eigenbody ( 20 ) and the third body ( 30 ) are rotatably connected to each other, wherein each first movement element ( 52 ) in the fifth guide hole ( 33 ), wherein a first pressure part ( 521 ) and a second printing part ( 522 ) on the first movement element ( 52 ) are arranged, wherein the first pressure part ( 521 ) against each clamping element ( 51 ), wherein the second movement element ( 53 ) rotatable in the operating recess ( 34 ), wherein the first movement element ( 52 ) against the clamping element ( 51 ) pressed or not against the clamping element ( 51 ) is pressed when the second movement element ( 53 ) is rotated to the first movement element ( 52 ) for movement within the fifth guide hole ( 33 ), the two first movement elements ( 52 ) with respect to the second moving element ( 53 ) are symmetrical to each other. A wrench according to claim 1, wherein an operative end on the first body ( 10 ) and a ratchet is rotatably disposed at the action end to drive a workpiece for rotation. Wrench according to claim 1, wherein the first boundary part ( 35 ) and the second boundary part ( 36 ) in the opening position of the third guide hole ( 31 ) and the fourth guide hole ( 32 ) are formed by punching and their inner width is reduced. Wrench according to claim 1, wherein the clamping elements ( 51 ) are spherical. Wrench according to claim 1, wherein the clamping elements ( 51 ) are formed in the form of a stepped round piece. Wrench according to claim 1, wherein a fourth pressure part ( 533 ) and a fifth printing part ( 534 ) on the second movement element ( 53 ) are arranged, wherein the width of the fifth pressure part ( 534 ) greater than the width of the fourth pressure part ( 533 ), wherein a clamping ring ( 55 ) is provided, wherein the clamping ring ( 55 ) on the second movement element ( 53 ) is clamped, so that the second movement element ( 53 ) rotatable in the operating recess ( 34 ) of the third body ( 30 ) is arranged, wherein the clamping element ( 51 ) under the effect of pressure from the first moving element ( 52 ) partially in the first guide hole ( 31 ) and into the second guide hole ( 32 ) so that the first eigenbody ( 10 ), the second eigenbody ( 20 ) and the third body ( 30 ) are inseparable from each other when the second movement element ( 53 ) is rotated so that the fifth printing part ( 534 ) against the first moving element ( 52 ) and the first movement element ( 52 ) the clamping element ( 51 ), where the first eigenbody ( 10 ) and the third body ( 30 ) are separable from each other and wherein the second body ( 20 ) and the third body ( 30 ) are separable from each other when the second movement element ( 53 ) is rotated so that the fourth printing part ( 533 ) after the first two movement elements ( 52 ), since the first two movement elements ( 52 ) and the clamping elements ( 51 ) have a movement space. Wrench according to claim 1, wherein a thread ( 531 ) on the second movement element ( 53 ), the operating well ( 34 ) has a thread extending after you, so that the thread ( 531 ) in the operating well ( 34 ) is screwed, wherein a third pressure part ( 532 ) on the second movement element ( 53 ), wherein the third pressure part ( 532 ) against the second pressure part ( 522 ) is pressed.

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