DE19702426C2 - Spring bolt - Google Patents

Description

The invention relates to a spring bolt in particular for transport frames, such as Folding racks, lattice boxes or the like. Such transport racks serve, for example for the transport of body parts on trucks. When returning such frames naturally take up a lot of transport volume. they are therefore formed collapsible, so that the drawer saved thereby space can be used to transport other goods. The individual frame parts are fixed by spring bolts when in use. Includes a spring bolt a housing which is designed, for example, as a cylindrical sleeve. In the Sleeve is a locking bolt between a locking and an entry Gelungsposition axially movable and secured against rotation. The locking bolt zen reaches through a coil spring, which is on the one hand on the housing and others supported on the other side on the locking bolt. It is thereby in its locking position biased. The rotation lock in conventional spring bolts is achieved in that the bolt protrudes two or more from its peripheral surface Hende axially extending guide ribs with corresponding off taking a guide wall, which is penetrated by the locking bolt, work together. A disadvantage of this embodiment is that the Ferti supply effort for such guide ribs is relatively large. Another disadvantage is that the effective diameter of the locking bolt increases eats. A screw fence surrounding the circumference of the locking bolt the must therefore have a larger inner diameter, so must be a total be more voluminous than is necessary from the core circumference of the locking bolt would be agile. According to the voluminous spring, the housing must also be large have larger dimensions. It should be noted that the screw ben spring-receiving interior of the housing should not be too tight  can, as the coil spring compresses a certain radial Scope needed. If this is not available, the spring rubs against the inner circumference of the housing, which makes the spring bolt stiff and ver wears. There is a radial distance between the housing and the coil spring also required if the housing is attached to the transport racks is welded. If the coil spring touches the inner wall, there is Danger that it heats up too much during the welding process and thereby your me mechanical properties are impaired.

In one in "construction elements for fixtures and machines bau ", Vogel Buchverlag, 1st edition, Würzburg 1990, p. 175 spring bolt shown below right is a spring loaded in the locking direction (locking) - Bolt axially guided in a housing. For the axial guidance there is egg in the housing ne guide sleeve encompassing the circumference of the bolt. For The pin is rotationally fixed in the guide sleeve machined into a radially protruding from the stud peripheral surface Lock pin engages. The locking pin lies in a radial hole in the bolt. The axial groove opens into the outer face of the guide sleeve. To the lock tion in the axial direction or in its unlocked position is the bolt pulled out of the guide sleeve and rotated so that the locking pin rests on the outer end face of the guide sleeve. The making of a such spring bolt is mainly because of the axial groove in the guide sleeve and the locking pin fixed in the bolt is relatively complex. Another after Part is that the bolt in the unlocking direction is substantially white ter, namely movable to the full compression of the spring than this would be necessary for the axial locking. This will wear the Spring unnecessarily raised.

Based on this, it is the object of the invention to provide a spring bolt strike, in which the disadvantages mentioned are avoided.

This task is accomplished by a spring bolt with the characteristics of the An Proverb 1 solved. The circumferential flattening serving to fix the rotation becomes  generated by the originally cylindrical locking bolt part of the material is removed. This can be done with a standard ized bolts, such as an extrusion, very easily and without size carry out manufacturing and cost. Such Machining is easier to do than, for example, molding of guide ribs or milling an axial groove into a guide sleeve se, the introduction of a radial bore in the locking bolt and the Fixing a locking pin in this hole. One the locking bolt Comprehensive coil spring can have a smaller inner diameter and therefore have a smaller overall volume than this with the known spring bolts with axial guide ribs is the case. The housing can also be smaller Have dimensions without the space between the coil spring and the inside wall of the housing is inadmissibly reduced. Furthermore, the Stroke of the locking bolt from the distance between the one stitch and the edge of the access opening. In contrast, in the case of "Kon structural elements for fixture and mechanical engineering "known Fe derriegel an axial movement of the locking bolt to the full possible compression of the spring.

The locking bolt is in its entry lockable position. For this purpose, he has a puncture, which with the Thrust guide wall of the housing cooperates in the sense of a lock. In in such a case is an anti-rotation area, such as the above Um initial flattening, only present on the section of the locking bolt, the opposite of the puncture in the direction of the locking section set actuating end extends.

In the subclaims are advantageous embodiments of the fiction specified spring bolt.

The invention will now be illustrated with reference to the accompanying drawings th embodiment explained. Show it:  

Fig. 1 shows a longitudinal section through a spring bolt according to the invention and

Fig. 2 shows a detail of the locking bolt in perspective presen- tation.

A spring bolt according to the invention comprises as main components a preferred cylindrical sleeve 1 , a locking bolt 2 , a coil spring 3 and a guide wall, which is designed as a guide ring 4 , on which one end 5 of the sleeve 1 is fixed and serves for rotation-proof thrust guidance of the locking bolt . The locking bolt 2 has at one end, namely at its locking end 6 , a locking portion 7 which, like the locking bolt itself, is cylindrical, but has a larger diameter. In this way, a shoulder 8 is formed, on which the Schraubenfe 3 can be supported. The spring bolt according to the invention is guided in two digits, ie in addition to the non-rotating slide guide, a second guide is also available. This second guide is accomplished by a slide ring 9 , which cooperates with its outer circumference 10 with the inner wall 13 of the sleeve 1 in the manner of a push or slide guide. The gripped by the locking pin by sliding ring 9 is pressed by the coil spring 3 against the shoulder 8 ge.

The guide ring 4 has a passage opening 14 , which is penetrated by the locking bolt 2 . At the protruding from the sleeve 1 Actuate supply end 11 of the locking bolt, a grip wheel 15 is fixed. A recess 16 is introduced into the outer circumferential surface of the locking bolt at a distance from the guide ring 4 . The section of the locking bolt which extends from the recess 16 essentially up to the grip wheel 15 has an order flattening 17 . The circumferential flattening forms a rotational securing surface which interacts with a counter surface 18 formed by the edge of the through opening 15 .

A spring bolt according to the invention, which can be welded, for example, to a Transportge, which is indicated in FIG. 1 by the reference number 19 , works as follows:

Starting from the locking position according to FIG. 1, the grip wheel 15 is moved in the unlocking direction 20 until the latch bolt 2 is in its unlocking position. In this position, the locking section 7 is arranged entirely within the sleeve 1 . The puncture 16 is located in the area of the access opening 14. A locking of the locking bolt 2 in its unlocking position is achieved in that the handle wheel is rotated in the direction of the double arrow 21 , whereby the edge of the handle opening 14 engages behind the puncture 16 . In the unlocked position, the coil spring is compressed. If the rear grip between the puncture and the opening edge is lifted again by a corresponding rotation of the grip wheel 15 , the locking bolt is automatically moved in the locking direction 22 into its locking position (according to FIG. 1). The distance of the recess 16 from the penetration opening 14 or from its edge cooperating with it corresponds to the stroke distance which the locking bolt travels between its two end positions.

Reference list

1

Sleeve

2nd

Locking bolt

3rd

Coil spring

4th

Guide ring

5

The End

6

Locking end

7

Locking section

8th

shoulder

9

Slide ring

10th

Outer circumference

13

Inner wall

14

Access opening

15

Grip wheel

16

puncture

17th

Circumferential flattening

18th

Counter surface

19th

Transport rack

20th

Unlocking direction

21

Double arrow

22

Locking direction

Claims (6)

1. Spring bolt with

• 1. a housing,
• 2. a substantially cylindrical, in the housing between a Ver locking and an unlocking position axially movable and a locking portion ( 7 ) and an actuating end ( 11 ) having Ver locking bolt ( 2 ), and
• 3. a through the locking bolt ( 2 ), supported on the housing and the locking bolt in the locking direction ( 22 ) pretensioning coil spring ( 3 ),

characterized in that the locking bolt ( 2 ) has a section ( 7 ) and its actuating end ( 11 ) arranged between its locking section ( 7 ) and an annular puncture ( 16 ) and a portion extending away from the puncture and towards the actuating end with at least one circumferential flattening ( 17 ) The flattened section extends through a through opening ( 14 ) of a wall of the housing and the peripheral flattening ( 17 ) interacts with a counter surface ( 18 ) formed by the edge of the through opening ( 15 ) in the sense of a rotational fixation, and wherein the recess ( 16 ) cooperates with the sliding guide wall in the sense of locking the locking bolt ( 2 ) in its unlocked position. 2. Spring bolt according to claim 1, characterized in that the helical spring ( 3 ) on one of the circumferential surface of the Verrie gelungsbolzens ( 2 ) projecting shoulder ( 8 ) is supported. 3. Spring bolt according to claim 1 or 2, characterized in that between the shoulder ( 8 ) and the coil spring ( 3 ), a slide ring ( 9 ) is arranged, which interacts with the housing together in the sense of a sliding guide. 4. Spring bolt according to one of claims 1 to 3, characterized in that the housing is a cylindrical sleeve ( 1 ). 5. Spring bolt according to claim 4, characterized in that the thrust guide wall is a fixed at an end of the sleeve Füh approximately ring ( 4 ). 6. Spring bolt according to one of claims 1 to 5, characterized in that a handle wheel ( 15 ) is arranged on the locking section ( 7 ) facing away and through the guide wall of the housing outwardly leading actuating end ( 11 ) of the locking bolt ( 2 ).