DE2757488A1 - Location tool for hexagonal bolts - includes cylindrical housing with internal guide surfaces to align head - Google Patents

Abstract

The location tool is for objects with a polyhedron cross section, esp. for hexagon bolts and hexagon headed screws. It has a housing with a bore (2, 3) open at an axial end. The bore wall has a guide element (5) to guide and place an object (4) pushed into the bore. The guide element has a guide surface, extending away from the bore end, projecting radially and aligned at an angle to the bore axis. The guide element is only formed on an initial length (2) of the bore. The walls on the remaining axial part length (3) of the bore have surfaces corresponding to the polyhedron shape of the object to be located.

Description

Orientation device for bodies with polyhedral cross-section

The invention relates to an orientation device for bodies with a polyhedral cross-section, such as hex nuts or hex bolts. One such For certain assembly purposes, the device can make assembly easier result if the installation site is difficult to access and / or those to be orientated for it Bodies are so small that manual handling is not possible.

According to the invention, the device consists of a particularly sleeve-shaped one Housing with a bore that is open at least at one end, the wall of which at least one extending away from this open end, radially projecting and with a guide element provided at an angle to the axis of the bore for F5ihruxlg and orientation of a body advanced in the bore.

With such an orientation device, for example, hex nuts with the open end of the housing bore. If then the recorded Hex nut is pushed axially in the bore, then effect the appropriate multiple guide elements provided, for example a rotation of this recorded nut For example, in a relative position in which, finally, a contact position with plane surfaces the bore wall of a subsequent part of the bore is obtained, which the have the same hexagonal cross-section as the nut and consequently the recorded one Hold the nut so that it cannot twist.

Further advantageous and expedient developments of the invention are recorded in the individual subclaims. An exemplary embodiment of the invention is shown schematically in the drawing and is described in more detail below. 1 shows a partially sectioned perspective view of an orientation device according to a first Ajsfiihflrngs -form, Fig.2 a longitudinal section through the device according to Fig. 1, Fig.3, 4 and 5 sectional views of further embodiments of this Devices that differ from one another in the design of the guide elements, 6 and 7 are an end view and a partially sectioned side view of a Another embodiment of the device, Fig.8 and 9, the same views as in the 6 and 7, the guide elements being shown in a different relative position, 10 is a perspective view of a further embodiment of Orientation device, Fig.11 a longitudinal section through this device, Fig.12 a Scheme to illustrate an application for the device according to Fig.12 and Fig.13u.14 an end view and a longitudinal section of a modified Embodiment of the device according to FIG. 12 In the embodiment shown in FIGS. 1 and 2 of the orientation device according to the invention is a housing designed as a sleeve 1 realized, the bore of which is divided into two parts 2 and 3. The one hole part 2 is provided with several guide elements 5, namely 3e one for each flat a hexagon nut 4, which in this hole when pushing forward through this Guide elements are guided and oriented at the same time. The guiding elements 5 stand in the radial direction from the bore wall and are oblique to the axis the bore aligned, the wall of which in the other bore part 3 with flat surfaces is provided, which correspond to the flats of the hexagon nut 4 and so one result in the same polyhedral cross-section. As a result, if the hexagon nut 4 advanced over the initially cylindrical part length 2 into the bore is, then cause the guide elements 5 such a clockwise rotation of the hexagon nut 4, that their flattening on the flat surfaces of the further partial length 3 of the bore be aligned and finally aligned with these planar surfaces, so that a Plant becomes possible as soon as the mother has reached the corresponding relative position. When this relative position is reached, the hexagon nut 4 has the with this Orientation device experience desired orientation. So the mother will either in the partial length 3 of the bore held in a rotationally secure manner or can therefore be oriented in this Relative position can be pushed out over the other open end of the bore, namely For such assembly purposes, for which it is important, for example, that such a Hex nut has a certain initial relative position.

The embodiments according to FIGS. 3 to 5 correspond essentially the embodiment according to FIGS. 1 and 2. However, the training is different of the guide elements, which in the embodiment according to FIG Right-angled and isosceles triangles are formed, respectively one short side merges into an assigned plane surface of the bore part 3. In the embodiment according to FIG. 4, the guiding elements 5 are unwound View of right-angled triangles, with a short side here as well Transitions into an assigned plane surface of the bore part 3. In the embodiment According to FIG. 5, the guide elements 5 are relatively narrow in the developed view and rectangles extending along the bore formed along one edge directly and along the other edge via a gradation in the wall of the initial one Part length 2 of the hole go over. At the beginning of these are the key elements 5 formed end faces the relevant guide surfaces of these elements and consequently aligned obliquely to the axis of the bore in the same way as the corresponding Guide surfaces in the guide elements of the other designs. It will here, however, through less guidance and orientation or

Rotation of a hexagon nut advanced in the bore is achieved, while in the other embodiments this orientation but is more pronounced.

The embodiment according to FIGS. 6 to 9 has guide elements in the circumference a training that is adapted to different sizes, thus to be oriented Body with a polyhedral cross-section allowed. Also differs this AusfUhrungsform is that here the body to be oriented over the same end of the hole is removed from which it was used for orientation is inserted into the bore. In the embodiments according to FIGS. 1 to 5 the removal takes place via the other open end of the bore.

In the case of this orientation device, however, there is also a sleeve-shaped Realized housing 6, which has a flat internal thread 7. With this Internal thread 7, a holder 8 for the various guide elements 9 is screwed, which are loosely arranged in a respective slot 10 of the holder 8. Every Rihrungselement 9 has an inclined outer edge 11, which is therefore inclined to the axis of the bore of the housing 6 runs and on the same inclined bottom of the respectively assigned slot issue.

A locking ring 12 also screwed to the internal thread 7 prevents the guide elements 9 from becoming detached from the holder 8. on the other hand is the holder 8 by a screw 13 screwed to it in any axial Position can be determined in which then the individual guide elements 9 to a specific Measure radially protrude into the bore of the housing 6 for guidance and orientation a hexagon nut, if it is pushed axially into the bore from the open end will. From FIGS. 6 and 8 it can be deduced that the variable amount by which the Rihrungselemente 9 in this way to the radial Protrude in the hole can be brought, an adjustment to different sizes allowed. To change this dimension, it is only necessary to first turn the adjusting ring 12 and then the holder 8 by means of the screw 13 in the new relative position to bring, with this transferring then, for example.

from the position shown in Fig. 7 to the days according to Fig. 9 each individual Guide elements 9 due to the wedge effect of their guide surface in each other approach radial direction. Finally, the locking ring 12 is then reinserted, to fall out in the system with the free end faces of the guide elements 9 from the holder 8 to prevent.

In the embodiment according to FIGS. 10 to 14, it is again a sleeve-shaped one Housing 15 realized, in which in a bottom part 16 a magnet 20 as a holding means ffir which is arranged with this tanning to be oriented hexagon nuts. In the bottom part 16 is also a square hole 17 formed, ijber brelches that Device can be plugged onto the shaft of a drive motor 7ß, for example a tightening device for nuts or screws is integrated. In the rest the housing 15 is also provided here with corresponding guide elements 5, which are designed the same as those of the embodiments according to FIGS. 1 to 5. It is also shown schematically in FIG. 12 that it is with this embodiment it is also possible to take up hexagonal screws to be oriented from a magazine 19, the magnet 20 then has the advantage that the oriented after the recording Screws are held securely in the bore of the housing 15 until they are screwed together at a specific installation location. Instead of such a magnet other holding devices can also be provided. like feathers or also by Springs preloaded balls and, in the simplest case, also adjusting screws 21, such as shown in Figs.

The orientation device according to the invention can also be used to orient others Body can be used as hex nuts or bolts, in which case it is expedient a corresponding adjustment would have to be made in the management elements in order to To get optimal guidance and orientation in each case. The guide elements can also be designed for a left turn and do not necessarily need to be about the the same clear cross-section to be set as it is through the polyhedral Cross-section, if necessary, adapted bore part is specified.

Claims (18)

Claims 1. Orientation device for bodies with a polyhedral (cross-section, such as hex nuts or the like, characterized in that a housing (1,6,15) provided with a bore (2,3) which is open at least at one axial end is the wall of at least one extending away from this open end, radially protruding and with a guide surface oriented at an angle to the axis of the bore provided guide element (5,9) for guiding and orienting one in the bore has advanced body (4). 2. Apparatus according to claim 1, characterized in that the or, each Guide element (5) is only formed over an initial partial length (2) of the bore and that the wall of an axially adjoining further partial length (3) of the bore with the polyhedral cross-section of the body to be oriented in the bore (4) corresponding planar surfaces is provided. 3. Apparatus according to claim 2, characterized in that the or each Guide element (5) as an axial extension of a plane surface of the further partial length (3) the bore is formed. 4. Cerat according to claim 2 or 3, characterized in that the twist initial partial length (25 of the bore is at least partially cylindrical list. 5. Cerätnach one of claims 2 to 4, characterized in that that the or each guide element (5) as an isosceles in a developed view Triangle is formed, one short side of which in a plane surface of the subsequent Partial length (3) of the hole passes. 6. Device according to one of claims 2 to 4, characterized in that that the or each guide element (14) as a rectangular in developed view Triangle is formed, the Ilypotenuse forms an edge of the guide surface and its other side in a plane surface of the subsequent part length (3) the hole passes. 7. Device according to one of claims 2 to 4, characterized in that that the or each guide element (5) as a narrow in developed view and extending along the bore rectangle is formed, the radially inner narrow side forms a chord to the axis of the bore and along one edge directly and along the other edge via a gradation in the wall of the initial one Partial length (2) of the bore merges, with the guide surface inclined to the axis of the bore is formed by the end face formed at the beginning of the guide elements, 8. Apparatus according to any one of claims 1 to 3, characterized in that the or each guide element (9) on a holder is arranged, which is in the bore of the housing can be closed axially. 9. Apparatus according to claim 8, characterized in that the or each Guide element (9) has an inclined outer edge (11) and in a slot of the Holder (s) is added, the bottom of which has a correspondingly inclined contact surface here the wedge-shaped displacement due to an axial displacement of the holder (8) of the assigned guide element in the radial direction. 10. Apparatus according to claim 8 or 9, characterized in that the The holder (8) is screwed to the housing (15), 11. Device according to one of the claims 8 to 10, characterized in that the or each guide element (9) by a with the housing (15) screwed locking ring (12) in its guide slot is held on the holder (8). 12. Apparatus according to claim 8 or 9, characterized in that the Holder (8) by means of an adjusting screw (13) arranged axially parallel to the bore is axially adjustable. 13. Device according to one of claims 1 to 12, characterized in that that a connection means (17) for a rotary drive (18) is provided on the housing (ins) is. 14. Apparatus according to claim 13, characterized in that the connecting means is designed as a square hole (17) formed in the axis of the bore. 15. Device according to one of claims 1 to 14, characterized in that that in the further partial length (3) of the bore a holding means (20) for each in the bore-oriented body (4) is arranged. 16. Device according to one of claims 1 to 15, characterized in that that the hole is open at the end of the further part length (3). 17.Gerät according to claim 15, characterized in that the holding means is a magnet (20). 18. Apparatus according to claim 15, characterized in that the holding means a spring, a ball pretensioned by a spring or a ball transverse to the axis of the Bore arranged adjusting screw (21).