The invention relates to a push catch for containers having a lower part and a lid, comprising a push element that corresponds with a locking bolt.
Push catches for containers of the type stated initially are known in many different ways. Such catches are affixed to containers, generally box-shaped containers such as crates, boxes or cases made of wood, plastic, or the like. In the known catches, the locking bolt affixed to the lid is released by means of activation of the push element, so that the lid can be opened. In this connection, activation of the lid by hand is required, in each instance. In order to increase the impression of quality, particularly in the case of containers for storage of high-value products, such as in the case of jewelry boxes or watch cases, beverage packaging, and the like, it is the task of the present invention to create a push catch that allows automatic opening of the lid.
According to the invention, this task is accomplished in that the locking bolt is surrounded, at least in part, by a spring that acts, in the closed state of the lid, on a bushing that can be moved along the longitudinal center line of the locking pin and that supports itself on the lower part.
With the invention, a push catch for containers is created, which results in automatic opening of the lid when the push element is activated. This is brought about in that the spring that surrounds the locking bolt acts on the bushing. In the closed state, the spring is biased, so that upon release of the locking bolt by the push element, this bias is released, resulting in opening of the lid. Upon activation of the push element, the lid springs open, which brings with it a clearly greater impression of quality of the container.
In a further development of the invention, the locking bolt is surrounded by a sleeve in which the bushing is guided. With the help of this sleeve, perfect guidance of the bushing is brought about, so that the reliability of the function of the push catch is guaranteed in every case.
It is advantageous if the sleeve has a stop at its end facing the lower part, which interacts with a ring of the bushing. The stop as well as the ring on the bushing bring about the result that the bushing is affixed in the lid in undetachable manner.
At the same time, the dimension of the projection of the bushing from the lid can be varied by means of the stop.
Other further developments and embodiments of the invention are indicated in the other dependent claims. An exemplary embodiment of the invention is shown in the drawing and will be described in detail below. The drawing shows:
The container 1 selected as an exemplary embodiment has a push catch 2. A bushing 3 is provided, through which a locking bolt 4 passes in the closed state of the container 1.
The container 1 has a lower part 11 that is closed off with a lid 12. The lower part 11 and the lid 12 are connected with one another in articulated manner, by means of a hinge 13.
In the lower part 11 of the container 1, an accommodation is provided on the side facing away from the hinge 13. The accommodation has a bottom 15 that forms the side wall of the lower part 11 of the container 1, in certain regions. A bore is introduced into the side wall of the lower part 11, from the side facing the lid 12, which bore is oriented at a right angle to the center line of the accommodation 14. The bore is configured to be offset and accommodates the bushing 3 in the assembled state. In the lid 12 of the container 1, a bore 17 is disposed, which is oriented coaxial to the bore in the lower part 11 or to the bushing 3 when the lid 12 is closed.
In the lower part 11 of the container 1, the push catch 2 is provided. The push catch 2 comprises a push element 21 that is guided in a housing 22. The housing 22 has a circumferential shoulder 23 on its end facing away from the bottom 15. The housing 22 is inserted into the accommodation from the side facing away from the bottom 15. It supports itself on the container wall with the shoulder 23. The housing 22 has a radial bore 22′ that aligns with the bore in the lower part 11 of the container 1 or with the bushing 3 in the assembled state.
The push element 21 has a ring-shaped projection 21′ in its region that faces away from the bottom 15. This region stands under the influence of a spring 24. The spring 24 is guided in a dead-end bore 25 in the push element 21. It supports itself, on the one hand, on the bottom of the dead-end bore 25, on the other hand on the bottom 15. On the side facing the bottom 15, the push element 21 is provided with a plate 26 that surrounds the dead-end bore 25, which plate is provided with an undercut 27 on its outer end.
The bushing 3 is provided with a passage bore. It is configured to be offset and therefore has a circumferential edge 31 on its end facing away from the push element 21. The bushing 3 projects into the bore 22′ of the housing 22 in certain regions.
The locking bolt 4 is inserted into the offset bore 17 in the lid 12. The locking bolt 4 has a plate 41 on its end facing the lower part 11. Furthermore, the locking bolt 4 has a step 42 on its end facing away from the plate 41. It is partly surrounded by a spring 43, which is a helical pressure spring. A bushing 44 is provided, which can be moved along the longitudinal center line of the locking bolt. The bushing 44 has a ring 45 at its end facing the step 42, against which ring the spring 43 supports itself. The bushing 44 can be moved along the longitudinal center line of the locking bolt 4 and is guided by the locking bolt 4 on the inside. On the outside, the bushing 44 is guided, by way of its ring 45, by a sleeve 46 that is inserted into the bore 17 in the lid 12. The sleeve 46 surrounds the locking bolt 4, in part. It has a stop 47 on its end facing the lower part 11, which stop is configured in the shape of a retracted edge. The stop 47 interacts with the ring 45 of the bushing 44. Because of this interaction, the bushing 44 is disposed in the sleeve 46 in undetachable manner, as is evident, for example, in
In the closed state of the container 1, in which the lid 12 lies on the lower part 11, the locking bolt 4 passes through the bushing 3 and is held captive by the undercut 27 with its plate 41. In this state, the bushing 44 supports itself on the edge 31 of the bushing 3. At the same time, the spring 43 is in contact with the ring 45 as well as the step 42. The spring 43 is compressed, in this position, so that the bushing 44 stands under the bias of the spring 43. Upon activation of the push element 21, the plate 41 of the locking bolt 4 is released by the undercut 27 of the push catch 2. Under the influence of the spring 43, the bushing 44 presses against the edge 31 and, at the same time, is pressed out of the sleeve 46. This results in an opening movement of the lid 12, until the ring 45 comes into contact with the stop 47. The spring 41 is then in the relaxed state.
During closing of the lid 12, first contact of the bushing 44 against the edge 31 of the bushing 3 takes place. During further closing of the lid 12, the bushing 44 plunges into the sleeve 46. As soon as the ring 45 comes into contact with the spring 43, the latter is pressed against the step 42 and compressed. Once the plate 41 of the locking bolt 4 has gone past the undercut 27, the catch is locked once again.
With the invention, a push catch for containers is created, which allows automatic opening of the lid upon activation of a push element, in simple and simultaneously reliable manner. This increases the value of the container, in each instance, which is particularly desirable in the case of high-value objects stored in the container in question.
Number | Date | Country | Kind |
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10 2010 020 945.7 | May 2010 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE2011/001076 | 5/14/2011 | WO | 00 | 1/4/2013 |