DE2825223A1 - PUMP SPOUT FOR INSULATED CONTAINERS - Google Patents

Description

Pump pourer for insulated containers

The invention relates to a pump spout for insulated containers, in particular for containers with vacuum-insulated ones

: Use according to the preamble of claim 1.

The invention therefore relates to vacuum-insulated. Containers that are usually designed as thermos flasks. In particular, it relates to the construction of a thermos flask, in which the loosening or removal of a lid for pouring . the liquid is dispensable. Since the purpose of a thermos is to keep its contents at a desired temperature keep - either hot with coffee and the like or cold with soft drinks - it is desirable that the vacuum unit remains intact to prevent heat exchange.

With known designs of thermos flasks, whether with a wide or narrow opening, it is usually necessary, to loosen or remove a lid and to tilt the thermos flask a little in order to be able to pour out the contents of the bottle. While however, pouring out the insulating property of the thermos bottle is impaired. Another disadvantage is with the known designs in that the contents of the bottle can easily be spilled. This can happen if the liquid is hot lead to burns.

There are also vacuum bottles !! became known with pumps, where it is no longer necessary to pour the liquid in the conventional way. Also are the heat insulating Properties better. However, the known arrangements are very complex and contain a large number of individual components, as a result of which their production becomes considerably more expensive.

The invention is based on the object of creating a pump unit that has only relatively few individual components and is therefore simple in construction and inexpensive to manufacture. At the same time, the heat-insulating properties should be of the vacuum container can be fully maintained.

This object is achieved in the arrangement required in the preamble of claim 1 by the in the characterizing Part of the listed features.

The created pump spout forms part of the structure of the vacuum bottle and can advantageously take the place of the lid of an existing bottle. It is also possible to use the pump spout for insulated foam containers, the pump spout being used instead of a lid. " \

Other advantages result from a user-controlled or controlled air inlet opening and thereby! that several of the components more than one ^{simultaneously:} exercise function, which leads to a relatively simple arrangement .;

It is also advantageous that the mechanically operated j Pump part is free from interference caused by angular displacement; rotations of the pump plate can result. J

g-Q-g 8 5 1/0 8 7 f "

Other advantageous developments of the invention are specified in the subclaims.

The invention is described below by way of example with reference to the drawing. Show it:

Fig. 1 is a perspective view of a

Thermos bottle with an inventive Pump pourer,

Fig. 2 shows a pump spout according to the invention

in cross section,

3 shows the cross section of a thermos bottle

with a pump spout in its actuated position,

4 and 5 show an enlarged partial view of the lower region of the pump spout for Illustration of the operation of the closure seal,

Figure 6 is a partial view taken along line 6-JS

in Fig. 2,

7 is a partial view taken along line 7-7 in j

Fig. 6,

8 shows the application of a pump unit according to the invention to a non-vacuum-insulated one Container with larger

-8th

; Dimensions than those shown in Fig. 1

; te thermos bottle,

Fig. 9 - a view similar to that in Fig. 2 to ^: Illustration of the use of a seal

'tion corresponding to a second off

implementation of the invention and

10 shows a partial representation similar to FIGS. 4 and 5 to illustrate the mode of operation the seal according to the second embodiment of the invention.

1, 2 and 3 show a vacuum bottle and the pouring spout according to the invention. The vacuum bottle comprises the outer jacket 10, a vacuum insert 12 (vacuum filler), a bottom cap 14 and an insert spacer 16 which positions the vacuum insert 12 within the jacket 10; and the glass nipple through which the air has been removed from the interior of the '- vacuum insert 12, protects. In the embodiment according to FIG. 3, the vacuum insert 12 is shown as a narrow-necked bottle, the tapering of which at the upper end forms a suitable pouring neck. It should be pointed out that the pump spout according to the invention can also be used for bottles with a wide opening. Such a bottle has no taper and accordingly the pump pourer is adapted to the opening of the wide-necked insert! changed in its dimensions.

According to the invention, the pump 18 comprises a pouring spout 20, j a pouring channel 22 and a liquid pipe 24, which extends according to I extends down into the inside of the thermos bottle. As a result of

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air forced into the interior of the thermos by means of the pump 18, the liquid rises in the liquid tube upwards into the pouring channel 22 and emerges from the pouring spout 20.

The air is forcibly introduced into the interior of the thermos bottle by the manually operated pump part. That Pump part includes a plate 26, a flexible sealing element or pump diaphragm 28 and a return spring 30. The plate 26 has an air inlet 32 in its center in order to allow air to be supplied to an interior space 34, which is partly from the pump membrane 28 is included. The plate 26 is in the position shown in Fig. 2 by an inwardly directed Flange 35 of a pump housing 36 held. The plate 26 and the diaphragm 28 are against the bias of the spring 30 movable vertically downwards in order to effect the pumping process to be described. The spring 30 pushes the plate 26 and the membrane 28 returns to its original position when the pressure exerted manually on the plate 26 no longer exists. The membrane 28, with its outer end 29 between the upper part 11 of the shell 10 and a downward part 37 of the housing 36 is attached, seals the upper region of the interior 34 effectively, so that this with the exception of the opening 32 in the plate 26 is hermetically sealed. The inner surface of membrane 28 is attached by any suitable joining technique the plate 26 attached.

The lower part of the interior space 34 is enclosed by a wall 39, a conical section 38, a floor 41 and a central rod 40. Means for securing the coil spring 30 are provided on the upper part of the central rod 40. The bottom 41 contains a number of openings 42 which enables an air supply of the air from the interior space 34 in the insert 12 809851 / Q87S

to increase the air pressure on the surface during pumping to allow the liquid to grow.

The number and size of the openings 42 depend on the size of the pump and experience can be determined for any given design. In order to prevent the liquid from entering the interior 34 when the thermos bottle is turned to the side or held upside down, according to a first embodiment, a seal 44 surrounds the conical section 38 and the bottom 41 of the pump housing 36. When the pump is above the When the insert 12 is secured, the seal 44 engages the top of the insert 12 to form a fluid tight seal between the top of the insert 12 and the conical portion 38.

. As best seen in Figures 4 and 5 is can be seen, ^in: central region of the seal 44 has a through penetrating opening provided so that the liquid tube 24 may extend through this opening downwardly into the bottle interior. When the pump is not being operated, the seal is held in close proximity to the connection of the housing to the liquid tube 24. As a result, the openings 42 are covered in a secure manner, so that a passage of the liquid from the interior of the thermos ^; bottle upwards into the interior 34 is prevented (Fig. 4). On the other hand, when the pump is actuated, the lower part of the seal 44 bends away from the housing and the tube 24 as a result of the air pressure generated by the pump, as shown in FIG. Thus, the air can penetrate through the openings 42 and around the sealing end 50 into the interior of the thermos bottle. After completion of the pumping process, the seal returns to its position shown in FIG. 4 in order to seal the pump again. ■

The mode of operation of the pump unit described so far proceeds as follows. The pump unit is attached to a thermos bottle or some other liquid container

; Tip attached in the manner shown in Figs. When liquid is to flow out from the inside without pouring out
or the container is opened, the forefinger or thumb of the user is placed on the opening 32 of the plate 26, whereby the pump interior 34 is closed off. The user
then pushes the plate 26 downwards. Since the interior 34 here
remains sealed, the air is from the interior 34 through: the openings 42 down into the interior of the vacuum bottle; presses. The air pressure causes in the usual way that the in the; Any liquid present in the container is forcibly passed up through the tube 24 and the channel 22 as desired and flows out of the spout 20 to enter a cup or glass. During pumping, the openings 42 are alternating through the ^:

. Seal 44 sealed and unsealed to prevent backflow of the liquid during the desired air inlet in

• to prevent the container.

; At the end of the movement, the plate 26 is released from the user and the air inlet 32 is no longer open

blocked. The return spring 30 drives the plate 26 and the membrane 28 back into the initial position shown in FIG.
j This fills the interior space 34 in preparation for the;

next pump stroke again with air. J

^: In FIGS. 9 and 10, a sealing arrangement according to j

j. "I.

! a second embodiment of the invention shown. Different ' than in the embodiment shown in Fig. 1, the seal j! in FIGS. 9 and 10 not in physical contact with the liquid j

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Keitsrohr 24. Instead, it is arranged at a small distance from the liquid pipe 24, since it has an opening 71 with a slight having a larger diameter. The following dimensions are for the relationship between the outside diameter of the Liquid pipe 24 and the diameter of the opening 71 at the bottom of the seal are particularly favorable:

Pipe diameter - 0.94 cm
Seal opening - 1. OI cm

'i

According to the second embodiment, the seal 70 ' a relatively thick conical wall 72 and a relatively thin bottom wall 74 on. The opening 71 through the bottom wall 74 of the seal 70 is defined by a circular beaded edge 78, its Dimension compared to the bottom wall 74 has an increase. As shown in Figures 9 and 10, the bead 78 is intentional held in normal contact with the bottom portion 41 of the housing. The openings 42 through the bottom part 41 are on the side of the bead 78 arranged, which is opposite to the side facing the tube 24, so that the bead 78 normally creates a seal to prevent liquid from entering the interior of the pump through the openings 42.

If by actuating the plate 26 and the membrane 28

Air is pumped, the resulting air pressure causes one _:

slightly bending the flange 78 away from the bottom part 41, j

so that air can flow into the vacuum insert 12 to remove the \

Pour contained liquid. It is obvious that j

the seal to ensure safe working from one!

suitable material is formed that its initial design | maintains so that the seal after each from the bottom of the case

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away occurring bend returns to the desired sealing position. Many suitable materials are available for this, and an example of this is the material known under the US trademark KRATON. As shown in FIG. 10, the sealing base 74 can be designed to taper and decrease in its thickness (as seen from the edge) in order to improve the flexibility of the bead 78. The angle of the taper can - measured from the edge - be in the order of 3 °. Since this arrangement does not seal the pump unit so tightly against the liquid as in the first embodiment, there is the advantage of a noticeable reduction in the pressure force required to operate the pump. This is due to the ease with which the beaded edge can be bent away from the housing base 41 compared to the pressure required to force the air in FIGS. 3 and 4 past the seal 44.

Referring to Figures 6 and 7, an important aspect of the invention is illustrated. During the manual pumping process, ·. the pump plate 26 to wobble, twist or otherwise angularly disorientate from its actual position. This leads to noticeable effects on the pumping process in that it makes the pumping process more difficult and can cause the pump unit to jam. It is therefore desirable that the plate 26 be ^{substantially lowered during its movement between:} the positions shown in FIGS.

j right to the liquid pipe 24 remains. To the undesirable BEWE-J of the plate to prevent supply 26, the pump housing 36 is provided with '■ a plurality of guide ribs 52, which are on the environmental j catch of the pump housing 36 is disposed. This leadership rip! pen 52 extend vertically along the substantial length of movement of plate 26 between those shown in Figs

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i positions. The plate 26 is provided with a corresponding number ^: of grooves which are defined by the projections 56 and 58

which are engaged with the guide ribs 52. If, now, the plate 26 moves vertically, is thus through the over ^; the vertical length of the guide ribs 52 leading projections 56 and 58 prevents rotation of the plate 26. The use of the guide ribs 52 also generally avoids large-angled displacements of the plate 26, since this problem is caused in part by the rotational movement of the plate. The guide ribs 52 and the arrangement of grooves enable easier and more efficient pumping than would otherwise be possible.

As can be seen in FIGS. 2 and 3, the pump unit can be provided with an internal thread 60, which is shown in FIG a matching thread engages the jacket 10 of the thermos bottle. The conical section 38 of the pump housing 36 is like this dimensioned so that it securely seals the opening of the insert 12, so that when the threads are engaged the gasket 44 forms a good seal between the pump unit

and the upper part of the insert 12. The threads 60 : allow the pump housing to be quickly and conveniently connected to the jacket, 10 of the thermos flask in order to connect the pump unit to the Cleans and refills to attach or detach.

! As already mentioned, this pump unit is for,

i j

'' Use with vacuum bottles or similar insulated ■

! i

■ Holders, such as foam bottles and the like, created. . • Figure 8 shows the application of a pump unit according to the inventions '·:-making in connection with a "quart container" 64 (quart container;' i quart = 0.946 1) which from the foam type or ^similar: to be I Construction can. !

809851/0875

Claims (17)

EIKENBERG & BRÜMMERSTEDT PATENT LAWYERS IN HANOVER Aladdin Industries, Incorporated 200/335 Patent claims: Pump spout for insulated containers, in particular containers with vacuum-insulated insert, characterized in that the pump spout has pump means (26, 28) for pumping air into the interior of the container, protective means (44, 70) which prevent the liquid in the container from becoming too the pump means (26, 28), and exit means (20, 22, 24) which permit the exit of the liquid from the container when the air pressure in the container increases as a result of actuation of the pump means (26, 28) . 2. Pump spout according to claim 1, characterized in that the pump means (26, 28) have a housing which defines an interior space (34), means for forcing air from the interior space (34) into the container, and such means (32 ) that include the 809851/0875 OR INSPECTED allow optional entry of outside air into the interior (34). 3. Pump spout according to claim 1, characterized in that the protective means contain a seal (44, 70) which, in its normal position, prevents the liquid from accessing the pump means (26, 28) and which can be bent into another position, in which air can be supplied from the pump means (26, 28) into the container when the pump means (26, 28) are actuated. 4. Pump spout according to claim 1, characterized in that the outlet means (20, 22, 24) include a liquid pipe (24) which extends into the container to a point near the bottom of the container, a pouring channel (22) and a spout (20) to create a connection from the inside of the container to the outside, wherein during the pumping process the liquid in the container is forced out through the liquid tube (24), the pouring channel (22) and the spout (20). 5. Pump spout according to one of the preceding claims, characterized in that a vertically movable plate (26) is provided at the upper end of the pump housing (36), that the plate (26) has an opening (32) for air to enter the interior ( 34) has that in the bottom (41) of the pump housing (36) at least one opening (42) is provided to connect the interior (34) with the interior of the container, and that the plate (26) by the operator during the for intrusion purpose is sealable by air from the interior (34) through the bottom opening (42) in the container taking place downward movement and is open during the upward movement to allow air to enter the interior space (34). 6. Pumpenausgxeßer according to claim 5, characterized in that a flexible membrane (28) is provided, the inner part of which on the plate (26) and the outer part of which on the pump housing (36) is attached so that the membrane (28) is arranged transversely to the upper part of the housing (36) so that it is with the plate (26) can move and hermetically seals the upper part of the housing with the exception of the opening (32) 'in the plate (26), and that means (30) are provided through which the plate (26) and the membrane (28) are manually applied to the plate in the absence of any (26) applied pressure upwards. 7. Pump spout according to one of the preceding claims, characterized in that the seal (44, 70) is arranged above the opening (42) in the bottom (41) of the pump housing (36) in order to prevent liquid from entering the interior (34 ) and to allow the air supply from the interior (34) into the container. 8. Pump spout according to claim 7, characterized in that the seal (70) has a bendable bottom part (74) with an annular opening (71) penetrating the bottom part (74), that a thickened flanged edge (78) surrounding the opening (71) ) is provided, which rests in its normal position on the bottom (41) of the pump housing (36) in order to prevent the entry of liquid into the pump, and that the beaded edge (78) can be bent away from the base (41) during the pumping process in order to allow air to be supplied into the container _(FIGS. 9, 10). 9. Pump spout according to claim 7 or 8, characterized in that a plurality of vertically arranged ribs (52) and on the plate (26) a plurality of associated grooves (56, 58) are provided on the pump housing (36) so that during the perpendicular movement of the plate (26) relative to the pump housing (36), it is protected against twisting or tumbling. 10. Pump pourer according to claim 7, characterized in that that the seal (44) has a bendable bottom part and one the bottom part penetrating opening (50) has that the diameter of the opening (50) the diameter of the liquid pipe (24) corresponds and the seal rests against the liquid pipe (24) so that the entry of liquid into the pump housing (36) is prevented, and that the bottom part of the seal (44) can be bent away from the liquid pipe (24) during the pumping process is to allow air to flow into the container. In that the pump housing has characterized (36) fastening means (60) for releasable attachment to the container ₁₁ Pumpenausgießer according to any one of the preceding claims. 12. Pump spout according to claim 11, characterized in that the pump is arranged via the spout (20) of the container. ! 13. Pump spout according to one of the preceding claims, characterized in that the seal (44, 70) seals the spout (20). 14. Pump pourer according to one of the preceding claims, characterized in that the plate (26) is circular with a ! An opening (50, 71) penetrating them is formed and on j its outer periphery has a downwardly extending edge, and that the inner part of the flexible membrane (28) on the 'Plate (26) and the outer part of the flexible membrane (28) on the ! Pump housing (36) is attached. ; 15. Pump pourer according to claim 14, characterized in that ^! net that a spring (30) is provided which moves the plate (26) upwards when pressure is not manually exerted on it. \ 16. Pump spout according to claim 15, characterized in that the pump housing (36) contains at its upper end an inwardly directed flange (30) which limits the upward movement of the plate (26). 17. Pump spout according to one of the preceding claims, characterized in that it is releasably connected to the container or the outer shell (10) of the container and the pouring; opening (20) for protection against heat loss and spillage of the; Liquid closes. - Description -