[0001] This invention relates to the field of vacuum insulated containers of the type commonly
referred to as thermos bottles. More specifically, it relates to an improvement in
thermos bottle con- struction whereby the need to remove a cap to dispense the liquid
therefrom is avoided. Since the purpose of a thermos bottle is to maintain its contents
at a desired serving temperature, either hot in the case of coffee and the like or
cold in the case of soft drinks, it is desirable to maintain the integrity of the
vacuum unit to prevent hear transfer.
[0002] Prior thermos bottle designs, whether wide mouth or narrow mouth in construction,
usually require that a cap be removed and the bottle be tipped to some degree to pour
the contents from the bottle. During this dispensing operation the insulating properties
of the bottle are impaired. Another disadvantage of prior designs is that during pouring
it is easy to spill the contents and if the liquid is hot, burns can result. The invention
provides-an improved vacuum bottle design which avoids the necessity for pouring liquids
therefrom and which maintains the integrity of the temperature insulating bottle.
These objectives are accomplished by the provision of a pump dispenser as part of
the vacuum bottle design. The dispenser is mounted on the top of the bottle in place
of a cap and permits the dispensing of liquids from the heat insulating interior in
response to manual pumping.
[0003] Pump units for vacuum bottles have been developed by others. These devices are highly
complex employing a great number of components and being relatively more expensive
to manufacture than the present invention. The present invention achieves its simplicity
through the use of a user controlled air intake and an efficient design whereby many
of the components serves more than one function in the overall design.
[0004] According to one aspect of the present invention there is provided a container having..a
vacuum insulating filler, an outer protective jacket and a pouring opening through
which liquids pass into and out of the interior of the container and a pump dispenser
for said container adapted to removably engage the outer jacket of said container
and seal the pouring opening to prevent heat loss and spilling, said dispenser including:
means for pumping air into the container interior, means for preventing liquid in
the container from entering said pumping means, and means for permitting liquid to
pass out of the container when air pressure is increased in the container by the action
of said pumping means.
[0005] Embodiments of the invention will now be described by way of example with reference
to the accompanying drawings in which:-
Figure 1 is a perspective view of a thermos bottle and pump dispenser according to
the invention.
Figure 2 is a cross sectional view of the pump dispenser according to the invention.
Figure 3 is a cross sectional view of the pump dispenser and thermos bottle shoeing
the dispenser in its actuated position.
Figures 4 and 5 are enlarged sectional views of the lower portion of the pump dispenser
illustrating operation of the gasket seal.
Figure 6 is a sectional view along the lines 6-6 of Figure 2.
Figure.7 is a sectional view along the lines 7-7 of Figure 6.
Figure 8 illustrates the use of a pump unit according to the present invention on
a nonvacuum insulated container of a larger size than the thermos bottle of Figure
1.
Figure 9 is a view similar to Figure 2 illustrating the use of a gasket according
to a second embodiment of the invention.
Figure 10 is a sectional view similar to Figures 4 and 5 illustrating the operation
of the gasket according to the second embodiment.
[0006] Referring to Figures 1, 2 and 3, the vacuum bottle and dispenser according to the
invention are illustrated. The vacuum bottle, for the purpose of the present application,
includes an outer jacket 10,-a vacuum filler.12, a bottom cap 14 and a filler spacer
16 which positions the filler 12 in the jacket and protects the glass nipple through
which air is withdrawn from the interior of the filler. In the embodiment illustrated
in Figure 3 the filler is shown as being a narrow neck bottle, that is, one which
tapers at its top to form a convenient pouring neck. As will be indicated, the pump
dispenser according. to the invention is also capable of being used with wide mouth
bottles. 'A wide mouth bottle does not have the taper and, accordingly, the pump dispenser
would have a dimensional change to correspond to the opening of the wide mouth filler.
[0007] The pump 18, according to the invention, includes a dispensing spout 20, a spout
channel 22 and a fluid tube 24 which extends downwardly into the interior of the thermos
bottle. In response to air being forced into the interior of the thermos from the
pump, fluid passes upwardly through the tube 24 into the channel 22 and out of spout
20.
[0008] Air is forced into the interior of the thermos by the manually operable pump portion
of the unit which includes a disk 26, a flexible sealing member or pump diaphragm
28 and a return spring 30. The disk 26 has an air port 32 located at its center for
permitting the passage of air to an interior space 34 which is enclosed in part by
the pump diaphragm 28. The disk.is retained in the position shown in Figure 2 by the
inwardly directed flange 35 of a pump housing 36. The disk 26 and diaphragm . 28 can,
however, move vertically downward against the bias of a spring 30 to effect the pumping
action to be described. The spring 30 urges the disk and diaphragm back to their initial
positions when manual pressure on the disk is removed. The diaphragm 28, which has
its outer end 29 secured between an upper portion 11 of the jacket 10 and a downwardly
depending portion 37 of the housing 36, effectively seals the upper portion of interior
space 34 to make it airtight except for opening 32 in the disk. The inner surface
of the diaphragm 28 is secured to the disk by any suitable bonding technique.
[0009] The lower portion of the space 34 is enclosed by a wall 39, a conical section 38,
bottom 41, and a center post 40. The upper portion of the center post 40 provides
a means for mounting the helical spring 30. Bottom portion 41 is provided with a number
of openings 42 to permit the passage of air from the interior space 34 into the filler
12 in order to increase the air pressure on the surface of the liquid during pumping.
[0010] The number and size of the openings 42 depends upon the size'of the pump unit and
can be empirically determined for any given construction. In order to prevent liquid
from entering the interior space 34 should the thermos be turned on its side or upside
down a gasket 44 according to a first embodiment encompasses the conical section 38
and bottom 41 of the pump housing. When the pump is secured over the filler 12 the
gasket engages the top of the filler 12 to provide a fluid seal between the filler
top and the conical section 38.
[0011] As best illustrated in Figures 4 and 5, the central portion of the gasket has an
aperture therethrough to permit the fluid tube 24 to pass downwardly into the bottle
interior. When the pump is not being operated the gasket is retained in close proximity
to the junction of the housing and the fluid tube. This securely covers the openings
42 to prevent the passage of liquid upwardly from the thermos into the interior space
34 (Figure 4). When the pump dispenser is-operated, however, the lower portion of
the gasket flexes away from the housing and fluid tube, as indicated in Figure 5,
due to the air pressure generated by the pump unit. This permits the air to pass through
the openings 42 and around the gasket end 50 into the interior of the thermos. Upon
completion of the pumping operation the gasket returns to its Figure 4 position to
again seal the pumping unit.
[0012] Operation of the pump unit as thus far described is as follows. The unit is secured
to a thermos or other container for liquids by securing it-to the top in the manner
illustrated in Figures 1 and 3. When it is desired to dispense fluid from the interior
without the need for pouring or opening the container the index finger or thumb of
the user is placed over the opening 32 of the disk 26 thereby sealing the pump interior
34. The user then applies downward pressure to the disk while maintaining the seal
thereby forcing the air contained in the interior space 34 downwardly through the
openings 42 into the interior of the vacuum bottle. This air pres-. sure acts in a
well understood manner to force the fluid in the container up the fluid tube 24 through
the channel 22 and out the spout 20 to a cup or glass, as desired. During pumping
the gasket 44 alternately seals and unseals the openings 42 to prevent back flow of
liquid while permitting entry of air to the container.
[0013] At the bottom of its travel the pump disk 26 is released by the user and the air
port 32 is unblocked. This permits the return spring 30 to return the disk and the
attached diaphragm 28 back to the initial position illustrated in Figure 2.
[0014] This also fills the interior 34 with air in preparation for the next pumping stroke.
[0015] Referring to Figures 9 and 10, _ a sealing arrangement according to a second embodiment
of the invention is illustrated. Unlike the Figure 1 embodiment, the gasket illustrated
in Figures 9 and 10 is not in physical contact with the fluid tube 24. Instead, it
is spaced slightly therefrom by virtue of having a slightly larger diameter aperture
71. The following dimensions are exemplary of the type of relationship between the
outside diameter of the fluid tube and the diameter of the aperture through the bottom
of the gasket:
tube diameter - 9.4mm (0.37 inches) gasket aperture -10.2mm (0.40 inches)
[0016] A gasket 70, according to the second embodiment, is provided with a relatively thick
tapering wall 72 aid a relatively thin bottom wall 74. The opening 71 through the
bottom of the gasket is defined by a circular bead 78 of increased dimension as compared
to the bottom wall 74. As illustrated in Figures 9 and 10, bead 78 is intended to
normally maintain contact with the bottom portion 41 of the housing. The holes 42
through the bottom portion 41 are located on the side of bead 78 opposite the tube
24 so that the bead normally provides a sealing relationship to prevent liquid from
entering the pump interior through the holes 42.
[0017] When air is pumped, by operation of the disk and diaphragm, the resulting air pressure
causes a slight flexing of bead 78 away from bottom portion 41 permitting air to pass
into the vacuum filler to dispense the liquid contained therein. As will be apparent,
in order to operate properly, the gasket should be formed of a.suitable material which
will retain its initial shape so that it will return to the desired sealing position
after each flexing away from the bottom of the housing. Many suitable materials are
available for this purpose and exemplary thereof is the material sold under the trademark
LRATON. As indicated in Figure 10, the underside of gasket bottom 74 may taper upwardly
and reduce in thickness (as viewed from the edge) to improve the flexing capability
of the bead. The angle of taper, as measured from the edge, may be on the order of
3°. While this arrangement does not seal the pump unit against liquid as securely
as the first embodiment does, it has the advantage of substantially reducing the amount
of pressure required to operate the pump unit. This is due to the ease with which
the gasket bead can be caused to flex away from the housing bottom 41 as compared
to the pressure required to pass air around the gasket illustrated in Figures 4 and
5.
[0018] Referring now to Figures 6 and 7, an important feature of the present invention is
illustrated. During the manual pumping operation there is a tendency for the pump
disk 26 to wobble, twist or otherwise become angularly disoriented from its intended
position. This does have a material effect on the pumping operation in that it increases
the difficulty of operation and may cause the unit to jam. It is, therefore, desirable
that the disk stay essentially perpendicular to the fluid tube during its movement
between the Figure 2 and Figure 3 positions. In order to prevent this undesirable
movement of the disk 26,. the pump housing 36 is provided with a plurality of guide
ribs 52 spaced around its circumference. The ribs extend vertically substantially
the entire length of travel of the disk between the positions illustrated in' Figures
2 and 3. The disk 26 is provided with a corresponding set of grooves defined by projections
56 and 58 which mate with the guide ribs 52. Thus, as the disk moves vertically, twisting
movement of the disk is prevented by the projections tracking along the vertical length
of the guide ribs. Large angular displacement of the disk is also generally avoided
by employing these ribs since this problem is in part caused by the twisting movement
of the disk. Thus, the guide rib and groove arrangement provides a smoother and more
efficient pumping operation than would otherwise be obtained.
[0019] As indicated in Figures 2 and 3, the pump unit may be provided with an internal thread
60 for engaging a mating thread on the jacket 10 of the thermos bottle. The conical
section 38 of the pump housing is dimensioned to securely seal on the filler opening
so that as the threads are engaged the gasket 44 effects a good seal between the pump
unit and the top of.the filler. The threads 60 permit the pump housing to.engage the
chermos bottle jacket quickly and conveniently to allow the pump unit to be attached
to or removed from the thermos bottle for cleaning and refilling purposes.
[0020] As mentioned earlier, this pump unit is designed for use with vacuum bottles or similar
insulated containers, such as, foam bottles and the like. Figure 8 illustrates the
use of a pump unit according to the invention in conjunction with a quart container
64.which may be of the foam type or similar construction.
[0021] While we have shown and described embodiments of this invention in some detail, it
will be understood that this description and illustrations are offered merely by way
of example, and that the invention is to be limited in scope only by the. appended
claims.
1. A pump dispenser for a thermally insulated container such as a vacuum bottle, the
pump dispenser comprising means for pumping air into the container interior,
means for preventing liquid in the container from entering said pumping means,
and means for permitting liquid to pass out of the container when air pressure is
increased in the container by the action of said pumping means.
2. A pump dispenser as claimed in Claim 1, wherein said pumping means includes a housing
defining an interior space, means for forcing air from the interior space into said
container, and means for selectively permitting outside air to enter the interior
space, and wherein said preventing means includes a gasket on said pump dispenser
normally in a position to restrict liquid from entering said pump means but flexible
to a position permitting air to pass from the pumping means into said container when
said pump means is operated, and wherein said permitting means includes a fluid tube
extending into said container to a point near the bottom of the container.
3. A pump dispenser as claimed in Claim 1, wherein said.pumping means includes a pump
housing having an interior space, vertically displaceable disk means at the top of
the housing for pumping air into said container, said disk means having an opening
therethrough to permit air to enter said interior space, at least one opening through
the bottom of said housing for communicating said enclosed space with the interior
of said container, said disk means opening being sealed by the user during downward
displacement of said disk means to force air from said interior space into the container
via said bottom opening, and left unsealed during upward displacement of the disk
means to draw air into said enclosed space.
4. A pump dispenser as claimed in Claim 3, wherein said disk means includes:
(a) a vertically movable disk,
(b) a flexible diaphragm, the inner portion of which is Attached to said disk, the
outer portion of said diaphragm being attached to said housing, said diaphragm being
positioned across the top of said housing for movement with said disk to render the
top portion of said housing airtight except for said disk opening, and
(c) means for urging said disk and diaphragm upwardly in the absence of manual pressure
on said disk.
5. A pump dispenser as claimed in either Claim 3 or Claim 4, wherein a plurality of
ribs are vertically disposed on said housing and a plurality of mating grooves are
disposed on said disk means whereby during vertical displacement of said disk means
relative to said housing, said disk means is restrained from twisting or tilting.
6. A pump-dispenser as claimed in any one of Claims 1 and 3 to 5, wherein said permitting
means includes a fluid tube extending to a point near the bottom of said container,
a spout channel and a spout for communicating the interior of said container with
the outside whereby, during pumping, liquid in the container is forced through the
fluid tube and spout channel and out the spout.
7. A pump dispenser as claimed in Claim 6, wherein a gasket is disposed over said
bottom opening, said gasket having a flexible bottom portion and an annular opening
therethrough, the diameter of said gasket opening corresponding to the diameter of
said fluid tube whereby the gasket engages said tube to effectively restrict entry
of liquid into said pump housing but flexes away from said tube during operation of
said pump to permit air to pass into said container.
8. A pump dispenser as claimed in Claim 5, wherein a gasket disposed over said bottom
opening for restricting liquid from passing into said enclosed space but permitting
air to pass from the interior space into the container, said gasket having a flexible
bottom portion including an annular opening therethrough, a bead of increased dimension
formed around said opening adapted to normally engage the bottom of said housing to
restrict entry of liquid into the pump unit but flexible away from said housing bottom
during operation of said pump to permit air to pass into said container.
9. An insulated container, such as a vacuum bottle having a vacuum insulating filler,
said container having a pouring opening through which liquids pass into and out of
the interior of the container and a pump dispenser for said container adapted to removably
engage the outer jacket of said container and seal the pouring opening to prevent
heat loss and spilling, said dispenser comprising means for preventing liquid in the
container from entering said pumping means, and means for permitting liquid to pass
out of the container when air pressure is increased in the container by the action
of said pumping means, characterised in that said pumping means includes a housing
defining an interior space, means for forcing air from the interior space into said
container and means for selectively permitting outside air to enter the interior space,
and wherein said preventing means includes a gasket on said pump dispenser normally
in a position to restrict liquid from entering said pump means but flexible to a position
permitting air to pass from the pumping means into said container when said pump means
is operated, and wherein said permitting means includes a fluid tube extending into
said container to a point near the bottom of the container.
10. An insulated container such as a vacuum bottle having a vacuum insulating filler,
said container having a pouring opening through which liquids pass into and out of
the interior of the container and a pump dispenser for said container adapted to removably
engage the outer jacket of said container and seal the pouring opening to prevent
heat loss and spilling, said dispenser comprising means for preventing liquid in the
container from entering said pumping means, and means for permitting liquid to pass
out of the container when air pressure is increased in the container by the action
of said pumping means, characterised in that said pumping means includes a pump housing
having an interior space, vertically displaceable disk means at the top of the housing
for pumping air into said container, said disk means having an opening therethrough
to permit air to enter said interior space, at least one opening through the bottom
of said housing for communicating said enclosed space with the interior of said container,
said disk means opining being sealed by the user during downward displacement of said
disk means to force air from said interior space into the container via said bottom
opening, and left unsealed during upward displacement of the disk means to draw air
into said enclosed space, and wherein said disk means includes:
(a) a vertically movable disk,
(b) a flexible diaphragm, the inner portion of which is attached to said disk, the
outer portion of said diaphragm being attached to said housing, said diaphragm being
positioned across the top of said housing for movement with said disk to render the
top portion of said housing airtight except for said disk opening, and
(c) means for urging said disk and diaphragm upwardly in the absence of manual pressure
on said disk.