DE1123804B - Vacuum flask - Google Patents

Description

Vacuum flask The invention relates to a vacuum flask with one made of elastic material - z. B. Polyethylene - existing outer sleeve and a double-walled glass insert held therein, with an outer sleeve between and glass insert, a plurality of preferably axially extending support ribs is provided is. In known vacuum flasks of this type, the support ribs are in cross section seen, arranged radially so that they are perpendicular to the outer jacket of the glass insert stand.

The subject of the invention differs from this known vacuum flask in an advantageous manner essentially in that the support ribs, in cross section seen, secantial, d. H. stand inclined to the diameter. Because of this inclination of the support ribs, which according to a further proposal of the invention are all in the are inclined in the same circumferential direction, a far greater security against Glass breakage than previously achieved. The bottle sleeve made of elastic material is safe against dents or the like because of its elastic properties. A strong pressure exerted on the jacket, however, is transmitted in the known ones Bottles directly over the radial ribs on the glass insert, making it breaks despite or because of the supporting ribs.

Due to the arrangement of secantial spacer ribs, every danger is for the mission banned; if you press the outer sleeve together, then they give way spacing ribs in the direction of the tendons. So you give in to what the pressure on the glass insert is so largely relieved that no breakage occurs can. The ribs bend on the one hand around their junction with the Jacket from the outer sleeve. In addition, they can easily bend. and Finally, due to their secantial position, they slide on the outer circumferential surface of the glass insert in the circumferential direction if the pressure should become too great. the In this way, ribs protect the glass insert due to their secantial position against the risk of being destroyed by pressure on the elastic outer sleeve.

The ribs themselves can move towards the upper mouth of the lower part be tapered on the outside to. inserting the glass vessel during initial assembly or to facilitate replacement of the insert. They are also in the lower, near the ground Part advantageously provided with an inwardly directed shoulder on which the insert can provide additional support. This way it stays between the ribs sufficient space for the evacuation nozzle of the glass insert. The neck part of the The outer sleeve of the thermos bottle should always sit exactly straight on the lower part. Screw connections are not very suitable for this because they are especially useful for elastic materials Allow incorrect screw connections so that the neck part sits at an angle on the lower part. In this case, the sealing lip would be at the upper end of the neck part as a result of it Inclination not round, but an ellipse, which creates sealing difficulties can. The invention therefore makes use of a type of ring snap lock that on one of the parts to be connected, preferably on the lower part, near the Muzzle edge an annular bead is provided, while the other part, so advantageous the neck part, this mouth edge with an annular groove forming, double-walled Edge embraced astride. According to the invention, it is upwards, that is to say towards the edge of the mouth directed shoulder formed steeper than that facing the bottom of the lower part Shoulder. This type of lock training provides a guarantee for solid and above all Things are also airtight and gas-tight fit of the neck part on the lower part. The steeper inclined upper shoulder makes it easier to put on the neck part, while the flatter one The lower shoulder posed excellently resists attempted solutions. One could therefore arrange the lower securing shoulder perpendicular to the longitudinal axis of the bottle, so in a radial plane. However, the invention prefers an obtuse cone angle, as this enables the neck part to be removed if the glass insert is replaced shall be.

In the drawing, the subject matter of the invention is in one embodiment shown, namely Fig. 1 shows a thermos bottle according to the invention in the axial Longitudinal section along the line 1-I of FIG. 2, the per se reproduced in view Glass bottle is shown cut open in the upper part, Fig. 2 a plan view of one half of the lower part of the outer sleeve and FIG. 3 the point A of Fig. 1 on a larger scale.

The thermos bottle shown consists of four main parts, namely a glass insert B of known design made of double-walled thin Glass, an outer sleeve C composed of a lower part 10, 10 'and a neck part 11, a stopper D and a drinking cup E.

The lower part 10, 10 'of the outer sleeve C is just like the neck part 11 made of an elastic plastic - for example polyethylene. The lower part 10, 10 'has a bottom 10' with inner cams 12 and a hollow cylindrical one Jacket 10. Near the mouth edge 13, the jacket 10 has a circumferential annular bead 14 with two shoulders 15, 16 on. The down, d. H. the bottom 10 'of the lower part 10, 10 'facing shoulder 15 is at an angle of about 45 ° to the horizontal inclined and is thus kept considerably flatter than that directed towards the opening edge 13 Shoulder 16, which is considerably steeper and expediently also slightly outwards is arched (cf. in particular Fig. 3).

Support ribs 17 extending in the axial direction of the bottle are provided within the lower part 10, 10 ', which are connected to the jacket wall 10 and the base 10' by a unit of material. The ribs 17 step back at their upper ends by a radial decrease in depth up to the wall 10 of the lower part, so that they form a kind of Einführang-Fichterstem 18 for the glass insert B. The ribs 17 project inwardly near the bottom 10 'of the lower part, forming inclined shoulders 19 on which the curved bottom of the insert rests (see FIG. 1). The axial ribs 17 are inclined to the diameter, ie in the direction of the chord, as can best be seen from FIG. In this way they form secantial lamellae, the inner rim edges 20 of which are beveled and are thus adapted to the peripheral surface of the insert B. They support the insert against the jacket 10 of the lower part 10, 10 'in such a way that the ribs 17 prevent the sensitive glass insert from being crushed. A pressure on the jacket 10 of the lower part causes the lamellar ribs 17 to bend once around their axial root lines 21. They can also bend inward. And when there is considerable pressure, their longitudinal head edges 20 slide off the glass insert B in the circumferential direction. This not only ensures a sufficient insulating air gap between the outer sleeve and the glass insert, but also absorbs any pressures that act on the jacket from the outside without passing these pressures on to the glass vessel in a dangerous size.

The neck part 11 is kind of thin-walled in a manner known per se Ring made of elastic plastic, e.g. B. polyethylene. It is available with several stages of reduction in diameter Mistake. At its opening edge 22 facing the lower part, it is double-walled formed, the channel formed in this way having an annular shape in cross section the upper edge of the lower part jacket 10 is adapted so that the edge 22 of the neck part 11 can be placed astride the mouth edge 13, 14 of the lower part 10, 10 ', the neck part and the lower part interlocking like a ring snap fastener. Putting on the neck part 11 is made easier by the steep shoulder 16, while the flatter standing opposite shoulder 15 an unconscious loosening of the neck part certainly prevents, but does not make a deliberate removal of the neck part impossible.

On the middle diameter step 23 of the neck part 11 sits the Cup E, which is made of clear plastic in a manner known per se, so that one can see without hindrance whether the plug D is tight and tight sits in the glass insert. The cup E sits due to the good static friction of the polyethylene neck part 11 firmly on this; Screw connections or the like are unnecessary.

The upper edge 24 of the neck part 11 is in a manner known per se in the manner of an annular lip formed approximately by a conical surface with a sharp edge. This lip serves as a seal between the neck portion 11 of the outer sleeve C and the Neck of the glass insert B. Sealing lip 24 and neck part 11 are therefore in a unit of material with each other, so that loose and therefore losable sealing means are avoided.

As already mentioned, the embodiment shown and described is only one example for the implementation of the invention, and it is not restricted to it; rather, various other embodiments and applications are possible within the scope of the invention. This relates in particular to the design and arrangement of the ribs 17, which instead of in the axial direction could, if desired, also be inclined to the longitudinal axis of the bottle. For example, they could be attached to the inner wall surface of the lower part in the manner of steep threads. In terms of shape, however, the axial ribs are preferable. The ribs 17 also need not all be inclined in one direction to the diameter, rather the ribs could also be inclined alternately to the left and to the right of the shower knife. They also do not necessarily have to be firmly connected to the jacket 10 or even be made in one piece with it. Under certain circumstances, namely, the support ribs 17 could also be designed as a kind of basket that is simply placed in a lower part 1.0, 10 'of a thermos bottle. In this case, the basket could also be used to retrofit existing thermos flasks in order to ensure that the insert B is in a safe position.

Claims (5)

PATENT CLAIMS: 1. Vacuum flask with one made of elastic material existing outer sleeve and a double-walled glass insert held therein, wherein between the jacket of the outer sleeve and the glass insert a plurality of preferably axial support ribs is provided, characterized in that the support ribs (17), seen in cross section, secantially, i.e. H. are inclined to the diameter. 2. Insulating bottle according to claim 1, characterized in that the supporting ribs (17) all are inclined to the diameter in the same circumferential direction. 3. Vacuum flask according to claim 1 and optionally 2, characterized in that the axial head edges (20) of the ribs (17) run tangentially by the cross-section of the ribs the Has the shape of a long, flat parallelogram. 4. Vacuum flask according to claim 1, characterized in that the ribs (17), starting from the mouth (13) of the lower part (10, 10 ') of the outer sleeve (C), initially project inwardly from the jacket (10) like a funnel star , then run parallel to the jacket during the main part of their length and preferably form inclined carrying shoulders (19) for the insert (B) in the lower part close to the floor. 5. Vacuum flask according to claim 1, in which the neck part of the outer sleeve made of elastic material is held by a ring snap fastener on the lower part by providing an annular bead on the lower part and a double-walled rim that straddles the bead and forms an annular groove on the neck part, characterized that the outer shoulder (16) of the annular bead (14) facing the mouth of the lower part (10, 10 ') is more steeply inclined than the shoulder (15) facing away, ie facing the bottom (10') of the lower part. Documents considered: German Patent No. 633 015; French Patent No. 1122761; U.S. Patent Nos. 1610 390, 1744 498; German utility model number 1698 994, 1 741334, 1755 099, 1761046.