DE1671812A1 - Method and device for storing drying elements as well as flashlight which can be assembled from the device - Google Patents

Description

Applicant: INSTANTLIGHT CORPORATION,

Providence, Rhode Island, U.S.A.

Method and device for the storage of drying elements and assemblable from the device flashlight

The invention relates to the storage of not yet used drying elements and at the same time a storage container for the drying element that can be converted into a flashlight.

Between the time a drying element is manufactured and when it is used, it has a tendency to lose strength, and therefore, unless precautions have been taken, the drying element no longer performs as intended when it is finally needed. The process by which a SiOH Trockenele management deteriorate during storage, is Nooh nioht

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October 19, 1966

fully enlightened; however, it has recently been believed that chemical decomposition is taking place leading to the depolarization of the dry element. Whatever the case, it is common today to belittle the power loss of dry cells to keep the cells at temperatures below 0 ⁰ C, will be sent to them to retail outlets. This handling poses a number of problems, including the substantial cost of having a cooler to store large inventories of dry elements and the fact that the elements are not protected from loss of power when placed on store shelves or remain unused in the hands of the consumer.

The invention is based on the knowledge that the loss of force in the dry elements during their storage results from chemical decomposition within the elements, which in turn is caused by the moisture in the air surrounding the elements. This also gives an explanation for the fact that the hypothermia of the

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Dry elements extend their lifespan; the reason is that the air temperature the less humidity the lower it is.

The invention is based on the object of providing a relatively cost-saving and effective method of Storage of dry cells for long periods of time without affecting the performance of the Element to create.

The invention is based on the object of creating a method which is just as useful during the storage periods at the dealer and ultimately for the consumer of the cells as it is for the manufacturer himself.

It is then an object of the invention to provide a flashlight which contains a desiccant pack which can be stored for long periods of time and which is still operational at its full capacity when it is desired.

Finally, it is part of the object on which the invention is based to create a dry element pack which

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allows the cells to be used as a power source without compromising the ability of the pack will protect the dry elements.

According to the invention, dry elements are stored in a moisture-free atmosphere in order to ensure their usability to be maintained during storage.

The most recommended way to achieve this is to hermetically seal the drying elements locked containers. The container is preferably evacuated before sealing to remove any trace of To remove moisture from it. Optionally, an inert gas free of moisture can also be let into the container before it is sealed to expel the moisture-laden air from it. In order to the container can be expanded to a flashlight, it is given a cylindrical shape, the kind that he can accommodate one or more dry elements. One of the container ends is removable, and a flashlight head with a lightbulb can snap into place over the open container end to form a flashlight, its Body is the container of the trooken element. Optional

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the container is provided with an end closure made of resilient pierceable material, and there is also a Device with two point contacts provided, which pushed through the termination and electrical power from the Can remove dry elements without destroying the hermetic seal of the container.

Two exemplary embodiments of the invention are shown in the drawing and are described in more detail below.

Show it:

Fig. 1 shows a cross section in the longitudinal direction through a container for drying elements, which can be converted into a flashlight;

Pig. 2 is a similar view of the container after it has been converted into a flashlight, in the position in which the flashlight burns;

3 shows a part of the view according to Pig. 2, being the flashlight is off;

Pig. 4 shows a partial longitudinal cross-section of another embodiment of the container according to the invention.

The container shown has a cylindrical hollow body 1o, which is preferably made of metal, and to which a lower end closure 11 belongs. The cylindrical one

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October 19, 1966

Body 1o does not necessarily have to be circular in plan own. In general, the cross-section of the body 1o should correspond to the cross-section of the dry elements, to be housed in the container. The end closure 11 is of larger diameter as the container body 1o; he reproduces one outwardly projecting edge 12 at the lower end of the container. For this purpose, the end closure 11 is bulbous towards the inside, so that its inner surface assumes a convex outline. The container body has at its upper end 1o a closure 13 * of the body along a Line 14 is removable. First is the shutter 13 attached to the body 1o by a conventional locking tab 15. The tab I5 can be easily pulled away to release the closure 13 when the container is opened shall be. The closure I3 and the closure flap 15 allow the container body to be hermetically sealed.

Inside the closed container (see. Fig. 1) are two common drying elements 18, commonly called "flashlight batteries", arranged by each of which has an upwardly projecting pole 19 at its upper end. The lower surface 2o of each dry

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element represents its second pole. A disk 21 made of insulating material, for example made of paper or Cardboard, is placed at the lower end 2o of the lower cell and at pole 19 of the upper cell to prevent uin, that a contact between the cells 18 on the one hand and between the end cap 11 and the cap I3 on the other hand arises. There can therefore be no short circuit between the elements and the container that would destroy it the electrical force of the cells. To rule out any short circuit, it is not absolutely necessary to to provide two washers 21; if so desired, the lower disk 21 can therefore be omitted.

It has heretofore been believed that dry elements stored below room temperature for an extended period of time could not deteriorate and lose their electrical strength. Because of this, it was common practice to put dry elements up for sale to be stored at sub-zero temperatures. However, it has been found as a result of the present invention that on one Dry elements packaged in three special ways retain their full strength, regardless of the temperature at which they are even after a storage period of 2 years and 3 months. Open in the atmosphere After this period, lying dry elements have their

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Strength completely lost. The three ways of packaging dry elements that have just been suggested are the following: Store the same in a hermetically sealed container like it has been described above and shown in Figure 1; Storage of the same in a hermetically sealed Container that was evacuated immediately before sealing; Storage of the same in a hermetically sealed Container containing an inert gas such as nitrogen.

The use of one of these three packaging methods means that no longer, as was previously the case, must be dated.

For converting the hermetically sealed storage container According to Fig. 1 in a flashlight, a flashlight head, as indicated by 22, is required. Of the Head 22 consists of a cylindrical shell 23 with a inwardly directed bend 26 at one end and is made of an elastic material, for example from a suitable plastic. The shell 23 has on its inner surface, near its other end,

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an annular recess in which a transparent lens 27 made of glass or plastic and a reflector 28 are arranged from metal. As usual, the reflector has a tubular extension 29 coaxial has an internal thread into which an ordinary light bulb Jo is screwed. On the back of the reflector a resilient wire contact 31 is attached. If necessary, the reflector can also be made of plastic, and it can then be part of the shell 23. In this case, the contact 31 must have a part that protrudes into the recess 29, and there comes into contact with the fit of the light bulb 3o.

As shown in FIG. 1, while the container is in storage, and before one wishes to convert it into a flashlight, the head 22 is held at the lower end of the container body 10 by the fact that the bend 26 snaps behind the edge 12. Such locking is possible because the material from which the shell 23 is made is flexible. An outwardly projecting ring y \ arranged on the outer surface of the body, which has a certain distance from the edge 12 and the thickness of which approximately corresponds to that of the bend 26, prevents a longitudinal displacement of the shell on the body 1o. The container together with the head 22 attached to it can over

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long periods of time in the arrangement shown in FIG especially where a flashlight is needed in an emergency.

In order to convert the arrangement according to FIG. 1 into a flashlight according to FIG be stripped from the container. This can be done manually or with the help of a key that the Device is included, and which makes it possible to remove or throw off the closure 15 and the leaving one end of the body open as shown in FIG. The discs 21 are then removed or thrown off. The head 22 is then removed from the lower end of the body 1o and over the open upper end plugged. On the outer surface of the body 1o, approximately at its upper end, there are two parallel to each other extending annular projections 55 and 36 arranged in the longitudinal direction of the body seen at a distance from one another which corresponds approximately to the strength of the bend 26. When the shell is 25 is locked with its bent end 26 over the two recesses and is below the ring 36, as it is shown in Figure 2, then the pole on the

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lower end of the light bulb 30 to the pole I9 of the upper Dry cell 18 contact. The contact also has 31 with the inner surface of the metal body 1o, contact, whereby e.in current flow through the body 1o, the drying elements 18, the light bulb Jo, the reflector 28, and through the contact 31 comes back to the body 1o. (If the However, the reflector is made of plastic, so the contact is in direct contact with the light bulb 30). Under these conditions the light bulb lights up. If the bulb is no longer connected to the electricity, the Shell 23 lifted until its bend 26 engages between the two annular projections 35 and 36, as shown in FIG. In this way, the light bulb gets out of contact with the drying elements. In this position The light bulb does not light up even if the flashlight is tipped over, because if the batteries come into contact with it should come with the lightbulbs, then they get out of contact with the end cap 11.

The convex design of the lower end closure 11 ensures good contact between the end face 2o and the lower cell 18 guaranteed. It is also the container in the longitudinal direction to a certain extent Elasticity is imparted to the circumference so that the drying elements are pressed upwards against the bulb 30,

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when the elements have the position shown in FIG. Of course, the bend 26 by an internal thread in the shell 23, the bend 12 and the ring J5 ^ through an external thread on the lower End of the body 1o and the rings 35 and 36 through a External threads on the top of the body 1o are to be replaced. These screw threads provide means for Mount the head 22 at the lower end of the housing body before it is needed, as well as when using the head 22 to attach it to the upper end of the Body. By partially unscrewing the head 22, the light bulb can be brought out of contact with the drying elements turning off the flashlight. It should also be noted that in spite of the in description and Claims used term "dry cell" including "dry cell batteries" which contain a plurality of cells, should be understood.

Figure 4 shows the usable end of a container 38, which is in the rest of the container 1o can be identical. The upper End closure 39 of the container 38 consists of a plate made of elastic, pierceable material that can easily return to its original position. One such Material jumps immediately when it has been deformed

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back to its original position when the force that caused the deformation is no longer acts on it. Materials with this property are polyethylene, latex and vinyl. The container 38 is hermetic closed and contains one or more drying elements 18. When the elements 18 are used as a power source are to be, the device designated 4o is used. This device has a plate 41 with a guide lip 42 on its edge, which is non-conductive and projects downwards. Focus on this Plate is a metal contact member 45 is provided, the one has downwardly projecting contact needle 44, and an upwardly projecting pole 45. A similar contact member 46 with a contact needle 47 and a pole 48 is arranged laterally on the plate 41. When the device 4o is placed over the container and pressed down with the lip 42 running along the edge of the container is, then the contact needles pierce the end closure 39, the needle 44 the pole I9 of the element, and the Needle 47 touch the side wall of the container. The ones in the The force stored in cells can now be applied to poles 45 and can be removed. The material of the end closure 39 holds the contact needles 44 and 47 tightly enclosed, and therefore

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the insertion of the needles does not break the hermetic seal of the container. Since the material of the End closure returns well to its original position, it then jumps back into this position when the Needles are removed again, and it closes the openings originating from the contact needles. So results ensure that the hermetic seal is maintained even if the device 4o for repeated times to the Container attached and removed from this again.

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Claims (1)

October 19, 1966
J 2k P 1 - 15 - Claims 1 · Method of preventing the occurrence of loss of performance in drying elements during their storage, thereby characterized in that the drying elements are stored in a hermetically sealed container. 2. The method according to claim 1, characterized in that the container is evacuated before the hermetic seal. j5. Method according to claim 1, characterized in that an inert gas is admitted into the container before it is hermetically sealed. 4. The method according to claim 1, characterized in that the drying elements in a moisture-free atmosphere be stored. Storage box convertible into a flashlight for drying elements, characterized by a cylindrical container (1o) which is closed at both ends by 209808/0422 October 19, 1966 16 - at least one drying element (18) in this container, by means for removing one end of the container to expose the drying element located in the container, through a head (22), through a flashlight bulb (5 °) arranged in the head (22), through means for Attach the head to the container at its open end to keep the light bulb (3o) in contact with the drying element to bring, and by means of closing the circuit between the lightbulb and the dry element, so that the bulb lights up. 6. Storage container according to claim 5 / characterized in that that it has means for firmly connecting the head (22) to the container (1o), if the latter is hermetically sealed is locked, the head (22) can easily be used when the container is converted into a flashlight shall be. 7 · Storage container according to claim 5 * characterized in that that it consists of electrically conductive material and is itself switched into the electrical circuit is. 209808/0422 October 19, 1966 - 17 - 8. Storage container according to claim 7, characterized in that the inner surface of the end (11) is convex is and thus enables good contact between the drying element (18) and the container (1o). 9. Flashlight, characterized by a cylindrical housing (1o) with a light bulb arranged at one end (3o), through at least one in the housing (1o) in hermetically closed atmosphere arranged drying element (18) and by means for closing an electrical, the Light bulb (30) and the drying element (18) including circuit when the hermetic seal is broken. 10. Power storage container for drying elements, characterized by a hermetically sealed container (58) with at least one drying element (18) inside the container (38) by a pierceable Container part (39) * adjacent to a pole (19) of the drying element (18), and by means (43, 46) to To have the power available outside the container, including at least one contact needle (44) to pierce the parts (39) provided for this purpose and belonging to the contact with the pole (19) of the drying element (18) » 209808/0422 October 19, 1966 - 18 - 11. Storage container according to claim 1o, characterized in that the pierceable container part (39) is elastic and springs back into its original position when the contact needle (44,4γ) is removed. 12. Storage container for drying elements, characterized by a hermetically sealed container (58), by at least one drying element (18) arranged in the container (38), by a pair of poles (45, 48) the outer edges of the container and by means (44, 47) for the electrical connection of the poles (45, 49) to the Pole (19 # 2o) of the drying element (18). 209808/0422