Source: https://patents.google.com/patent/CA1133856A/en
Timestamp: 2018-09-24 18:06:07
Document Index: 297308593

Matched Legal Cases: ['art 41', 'art 41', 'art 41', 'art 41', 'art 41', 'art 41']

CA1133856A - Portable cooler with food receptacle - Google Patents
Portable cooler with food receptacle
CA1133856A
CA1133856A CA 347361 CA347361A CA1133856A CA 1133856 A CA1133856 A CA 1133856A CA 347361 CA347361 CA 347361 CA 347361 A CA347361 A CA 347361A CA 1133856 A CA1133856 A CA 1133856A
CA 347361
HOL-BRO Corp
HOL-BRO CORPORATION
Abstract of the Disclosure A small portable cooler for carrying cylindrical type beverage containers and foodstuff . A handle is integrally molded with the body of the cooler so that it can be carried by one hand. A cold pack is supported in a coolant chamber which distributes cold air to the cylindrical container compartments within the cooler body. A food container is removably secured to a back wall of the container body. The back wall also serves as a support surface for the beverage containers about the food container.
` 1133~6 BACKGROUND OF INVENTION
(a) Field of the Invention The present invention relates to a small port-able cooler of the type that is refrigerated by a cold pack and having integrated therewith a food receptacle, with the food receptacle being accessible from outside the cooler.
(b) Description of Prior Art More specifically, the cooler of the present invention is of the type as described in my U.S. Patent No. 3,605,435 issued on September 20, 1971. This type of cooler requires a cold pack of sufficient size located in a central portion of the cooler to distribute cold air amongst a plurality of cylindrical type cavities positioned thereabout. Cylindrical beverage containers are retained in these cavities. Such coolers are quite compact in design and any free space therein is minimized whereby to maximize on the number of beverage containers that can be stored therein, and the size of the cold pack to have sufficient cold air for distribution to cool the beverage containers.
SUM~RY_OF INVENTION
It is a feature of the present invention to provide an improved type of such coolers wherein a food receptacle is integrated with the cooler and made accessible from the outside of the cooler whereby no cold air is lost during access thereto.
Another feature of the present invention is to provide a ~ood receptacle that is removably securable to the cooler and which does not create obstructions to the exterior surface of the cooler.
11338~i6 Another feature of the present invention i`s . to provide a food receptacle in association with the cooler back wall whereby the back wall may be used as a support surface by placing the cooler upside down on a ground surface with the food container exposing foodstuff therein for access.
; Another feature of the present invention is to provide a cooler, of the aforementioned type, and which is relatively inexpensive to produce and molded from foam material.
According to the above features, from a broad aspect, the present invention provides a cooler comprising a first section and a second section. A plurality of spaced compar-tments arranged about a chamber within the first section. Each compartment is in communication with the chamber. An access passage is provided in the second section. Means is also provided for mounting the second section on the first section for relative rotation of the second section relative to the first section about an axis on the center of the central chamber. A pillar is concentric with the axis in the first section. A coolant container is provided and having an aperture therein.
The coolant container is receivable in the central chamber with the pillar extending in the aperture. The first section also has a central cavity in a bottom wall thereof to define a food receiving opening in its outer bottom surface.
1133~6 BRIEF DESCRIPTIO~ OF DRAWINGS
FIGURE 1 is an exploded perspective bottom view of my cooler showing the location of the food receptacle;
FIGURE 2 is a rear view, partly fragmented, of the cooler, FIGURE 3 is a side section view of the cooler in its position of use with the bottom wall constituting a sup~ort surface, FIGURE 4 is an exploded side view of the food receptacle with the cover removed, FIGURE 5 is a plan view showing the food recep-tacle in position in the cooler bottom wall central cavity; and FIGURE 6 is a fragmented section view showing a modified version of the bottom wall of the food receptacle and its attachment to the central cavity of the bottom wall of the cooler.
Referring now to the drawings and more particu-larly to Figures 1 to 3, there is shown generally at 10, the cooler of the present invention. The cooler comprises a first section or body 11 in which a plurality of cylin-drical compartments 12 are formed. A second section or cover 13 is securable over the open end of the body 11 whereby the cylindrical compartments 12 are enclosed within the body 11. A plurality of these cylindrical compartments are arranged about a central chamber 14 which is formed within the body 11, and which is delin-eated about a pillar 15 formed integral with the body 11 1~338~6 and extending concentric with the axis of the central chamber 14.
In the present embodiment of the cooler, the cylindrical compartments are equidistantly spaced and arranged in a circle in the first section and the pillar extends at the center of this circle in the central chamber 14. ~he cover 13 is reinforced by an enlarged circular projection 16 which is guided within the top open area of the central chamber 14. A bore 17 extends through the center of the cover within a circular bushing-receiving cavity 17' to receive a securement screw fastener 18 there-in. A bushing-like wing nut 47 is threaded on the free end 18' of the fastener 18 whereby the cover can be engaged over the top wall 19 of the body 11 with the pressure of the fastener distributed over the reinforced projection 16 not to damage or weaken the cover and to prevent leakage of cold air. Thus, the cylindrical compartments 12 are concealed within the cooler body and these are in communi-cation with air refrigerated by a cold pack 20 which is located about the pillar 15.
In order to have access to the compartments 12, a recess 58 is provided in a peripheral area of the cover 13 whereby rotation of the cover about the screw fastener 18 will give access to the individual compartments 12 throu~h the recess 58.
Referring again to Figures 1 to 3, a central ; cavity 21 is formed in the bottom wall 22 of the body 11to define an opening in the outer bottom surface 23 of the cooler body. The pillar 15 is provided with a bore 24 which extends substantially at the center of the cavity 21 and which is adapted to receive the secure~ent screw 18, previously mentioned. As hereinshown, the bottom wall 25 of the cavity 21 has a bushing-receiving recess 26 1i 33856 concentrically positioned with respect to the bore 24.
This recess is to receive a bushing 27 in close fit therein whereby to add rigidity to the pillar 15 in the area where the securement screw 18 is received. As shown, in Figure 3, the flat shoulder under the head 28 of the screw 18 abuts the end wall 29 of the bushing 27 and thus distributes the tension in the screw 18 in the bushing 27 when the cover is placed on the body 11 and the wing nut 47 is tightened.
Referring now more specifically to Figures 4 to 6, there is shown a food receptacle 40 which is adapted to be retained in the central cavity 21. The food recep-tacle 40 comprises a receptacle part 41 having a bottom wall 42, a side wall 43, and an open top end 44. A lid or cover 55 is removably securable about the open end 44 and frictionally held thereabout.
Retention means, hexein provided in the form of retention ribs 45, are formed integral with the side walls 43 of the receptacle part 41. These ribs are utilized to frictionally retain the receptacle part in the central cavity. The securement is effected by dimen-sioning the cavity 21 to receive the ribs of the recep-tacle part in frictional engagement with recessed portions 46 the side wall 30 of the cavity 21. As shown in Figure 5, there are four such retention ribs 45 located in the corners of the receptacle part 41 and extending transverse to the horizontal plane of the receptacle. These ribs also space the side wall 43 of the receptacle from the side wall 30 of the cavity whereby to permit finger engage-ment of the lid 55 to attach or detach the lid from the open end 44 of the container. Thus, it is not necessary to remove the container from the cavity each time the lid ~13385G, ' is to be removed for access to the foodstuff therein or to place the lid back on the receptacle.
As shown in Figure 2, the recessed portions 46 in the cavity side wall 30 are delineated by arcuate side wall portions resulting in the formation of the cylindrical compartments 12. These recessed portions 46 orient the receptacle 40 to a desired position within the central cavity 21. The ribs and the recessed portions also prevent the receptacle from being displaced or rotated in its planar axis.
When the lid 55 is attached to the open en~ 4 of the receptacle, and the receptacle is secured in the cavity 21, the lid outer face 56 is flush with the bottom surface 23 of the cooler body 11 thus not providing obstruction for accidental detachment. The receptacle 40 and the cavity 21 are dimensioned whereby the receptacle 40 may carry two sandwiches 48, each not more than 1-1/4"
thick. The lid 55 is molded from polyethylene material and the body part 41 is also moided from polyethylene material for good adherence between the lid and body to obtain a moisture proof seal.
Referring now to Figure 6, there is shown a modification of the bottom wall 42 of the receptacle part 41. As herein shown, the retention means is constituted by themeans for mounting the cover 13 on the body 11 and, namely, by the securement screw 18. The bottom wall 42 may be molded with a central bushing-like depression 53 having a hole 52 therein. The depression ~33856 53 has a flat bottom wall 51 into which the hole 52 is centrally located. The flat bottom wall 51 constitutes a shoulder portion about the hole whereby the head 28 of the fastener 18 will rest and provide retention of the receptacle within the cavity. A washer (not shown) may also be located over the flat bottom wall 51 under the head 28 to minimize wear of the material in this region.
Alternatively, the depression 53 may be mold~ for close fit within the recess 26 of Figure 3 and the bushing 27 could be eliminated or received in the depression 53. This type of retention means provides a more positive retention of the receptacle and also makes the receptacle removably securable in the cavity 21. With such an arrangement, instead of guide ribs, the side wall 43 of the container may have a shape to localize itself within the cavity 21 in close contact with the side wall 30 of the cavity to prevent displacement of the receptacle within the cavity.
Furthermore, the orientation of the receptacle could be achieved by giving the bushing-like depression 53 a predetermined shape and modifying the recess 26 in the bottom wall 25 of the cavity 21 to be of identical shape.
Thus, the receptacle would only fit in one oriented direction within the cavity 21.
Referring now to ~igures 1 and 2, it can be seen that the bottom surface 23 of the cooler body 11 is provided with circular indentation 35 concentric and adjacent each cylindrical compartment 12. These indentations serve as shallow receptacles to guide the bottom end of cylindrical beverage containers 36 when the cooler is placed upside dow~ with the bottom surface 23 providing a tabletop-like support surface. With the lid 55 removed from the receptacle part 41 of the receptacle 40, the central portion of the support surface exposes the food (peanuts, sandwiches, etc.) whilst several beverage containers are securely supported on the surface 23. This is particularly advantageous when the cooler is used, for example, while on a picnic or at the beach and serves as a table. For example, when on a sandy surface, at a beach, where the surface is irregular and sand or other debris can easily get into the food, the elevated surface 23 protects the food from such substances.
The cooler herein serves as a more sanitary type device for supporting food and beverages when eating outdoors.
Referring again to Figure 3, there is shown the dimension of the cavity 21 with respect to the body portion of the cooler. As herein shown, th~ central chamber 14 which receives the cold pack 20 has a support surface 37 which extends substan~ially mid-way of the depth of the cylindrical compartments. The bottom wall 25 of the central cavity 21 is spaced a distance from the surface 37 defined by the thickness of the bottom wall 22. The cold pack 20 is in communication with the cylindrical compartments 12 through the openings or channels 38 defined by the space above the support wall 37 and between the channel side walls 39 delineated by the protrusion portions 50 of the side wall extending between the cylindrical compartments 12.
li338~6 As also shown in Figure 1, a carrying handle 57 is molded integrally with the body 11 and positioned at right angles to the central longitudinal axis of the cylindrical compartments 12. The handle is molded within the circumference of the cooler thereby eliminating any protrusions and reducing the siæe of the cooler.
1. A cooler comprising a first section and a second section, a plurality of spaced compartments arranged about a central chamber within said first section, each said compartment being in communication with said chamber, an access passage in said second section, means for mounting said second section on said first section, a pillar concentric with a central axis in said central chamber, a coolant container, an aperture in said coolant container, said coolant container being receivable in said central chamber with said pillar extending in said aperture, said first section having a central cavity in a bottom wall thereof to define a food receiving opening in its outer bottom surface.
2. A cooler as claimed in claim 1 wherein a food receptacle is retained in said central cavity: said recep-tacle having a receptacle part defined by a bottom wall, a side wall and an open top end, a lid for said open top end, and retention means to secure said receptacle part in said central cavity.
4. A cooler as claimed in claim 3 wherein said cavity is formed with recess portions in said side wall thereof, some of said recess portions receiving said at least two retention ribs whereby to orient said recep-tacle part in said cavity.
CA 347361 1980-03-10 1980-03-10 Portable cooler with food receptacle Expired CA1133856A (en)
CA 347361 CA1133856A (en) 1980-03-10 1980-03-10 Portable cooler with food receptacle
US06129755 US4280336A (en) 1980-03-10 1980-03-13 Portable cooler with food receptacle
EP19810302603 EP0067255A1 (en) 1980-03-10 1981-06-11 Portable cooler with food receptacle
AU7185281 1981-06-15
CA1133856A true CA1133856A (en) 1982-10-19
ID=32600932
CA 347361 Expired CA1133856A (en) 1980-03-10 1980-03-10 Portable cooler with food receptacle
US (1) US4280336A (en)
EP (1) EP0067255A1 (en)
CA (1) CA1133856A (en)
GB330955A (en) * 1929-03-14 1930-06-16 Peter Schlumbohm Improvements in cooling and freezing receptacles
GB425778A (en) * 1933-11-13 1935-03-21 Emil Christensen Improvements in portable refrigerated receptacles for dispensing ice cream and otherrefreshments in theatres and other places
US2427230A (en) * 1946-10-28 1947-09-09 Salzmann Harry Clemens Portable cooler
US3026995A (en) * 1959-08-04 1962-03-27 Alvina M Slaughter Lunch safe
DE1805544A1 (en) * 1968-10-26 1970-05-27 Alois Rech serving unit
FR2098688A5 (en) * 1970-07-20 1972-03-10 Sampex
GB1576373A (en) * 1978-03-21 1980-10-08 Insulex Ltd Box tray system
US4280336A (en) 1981-07-28 grant
EP0067255A1 (en) 1982-12-22 application
CA1133856A1 (en) grant