Field of the Invention
This invention relates to security systems and, more particularly, to a security system for candles with a container within which wax is contained.
Background Art
Candles are becoming increasingly popular. With this increased popularity has come an energized industry that has invested in new technologies and designs. Dedicated candle shops are becoming more common nationwide. Those stores that have offered candles in the past are generally increasing their volume and selection of candles.
One particularly popular candle design is one using a container/case, made typically of glass, that defines a receptacle within which a quantity of wax is confined. One common container shape incorporates a base that tapers to a neck that opens at the top of the container. The base is typically cylindrical in shape and blends into the neck.
A cap is configured to be pressed into the top of the neck and seals the container to thereby control the escape of scented vapors, which is desirable when the candle is being transported and displayed for sale. Further, end users may at times wish to confine the scent in homes and businesses. The cap may be frictionally held or otherwise held, as by threads, so as to allow it to be readily secured at the neck and released from the container.
The evolution of the candle industry has caused the generation of many versions of the above type of candle that are relatively expensive. Thus, as with all consumer displayed articles having significant value, they become targets of thieves. Candles of the above type commonly are dimensioned such that they might be put in coat pockets and removed from sales establishments without detection.
Given the shape of the candle containers, they do not lend themselves to being readily monitored or altered so that they are less appealing to thieves. As a result, the candle industry has sustained, and continues to sustain, significant losses from theft, with there being an expectation that this trend will continue.
The candle industry is at a stage where practical systems for minimizing theft are needed. However, with the rapid growth of this industry, the implementation of effective security measures has lagged.
In one form, the invention is directed to the combination of a candle and a security assembly. The candle has a case bounding a receptacle for a supply of wax in which a wick is embedded. The wick has an accessible portion. The case has a main body and a neck. The neck defines an opening into the receptacle. The opening has a first effective diameter. The case defines a shoulder facing in a first direction with a second effective diameter that is greater than the first effective diameter. The security assembly is configured to be placed in first and second different states. The security assembly in the first state is configured to be directed through the neck generally in the first direction up to and past the shoulder into a securing position. The security assembly in the first state and securing position is changeable into the second state wherein the security assembly has a third effective diameter that is greater than the first effective diameter so that the security assembly is blocked by the shoulder from being moved generally oppositely to the first direction through the neck to be separated from the case. The security assembly is configured to accommodate the accessible portion of the wick with the security assembly in the second state.
In one form, the candle and a security assembly are further provided in combination with a sensing system. The security assembly further includes a component that is configured to be detected by the sensing system to thereby allow monitoring of the candle with the security assembly in the securing position and second state.
In one form, the security assembly has first and second parts that are movable one relative to the other to thereby change the security assembly between the first and second states.
In one form, the security assembly is configured so that the first and second parts are movable guidingly relative to each other along a first line.
In one form, the candle and security assembly are further provided in combination with a removable cap that is configured to be selectively: a) engaged with the case to block the neck opening; and b) separated from the case.
In one form, the case has a top and bottom. The neck opening is at the top of the case.
In one form, the case is made from a glass material.
In one form, the security assembly further includes a tether attached to one of the first and second parts and having a length. The tether is configured to be secured to a support to confine movement of the candle to within a range determined by the length of the tether.
In one form, the security assembly has an EAS tag.
In one form, the main body has a substantially cylindrical shape with a first central axis. The neck has a substantially cylindrical shape with a second central axis that is substantially coincident with the first central axis.
In one form, the neck blends into the main body at a first transition location at which the shoulder is defined.
In one form, the security assembly further includes a locking assembly configured when in a locked state to maintain the first and second parts in a relationship wherein the security assembly is in the second state.
In one form, the locking assembly has a projecting element on one of the first and second parts that blocks relative movement between the first and second parts with the locking assembly in the locked state.
In one form, the projecting element is configured to be retracted to change the locking assembly from the locked state into a released state wherein the first and second parts can be moved relative to each other to thereby change the security assembly from the second state into the first state.
In one form, the candle and security assembly are further provided in combination with a tool that produces a magnetic force. The projecting element is configured to be retracted in response to the application of a magnetic force by the tool.
In one form, the first and second parts each consists of a substantially flat plate, with the plates residing in spaced, substantially parallel planes. The first and second parts are movable relative to each other while maintaining a substantially parallel relationship between the planes within which the first and second parts reside.
In one form, the first and second parts are fully separate parts movable independently of each other.
In one form, the first and second parts cooperatively produce an overall flat shape with a combined length along the first line, as viewed along a line normal to a plane of the flat shape, that is changed as the security assembly is changed between the first and second states.
In one form, the security assembly further includes a locking assembly configured when in a locked state to maintain the first and second parts in a relationship wherein the security assembly is in the second state.
In one form, the locking assembly is configured when in the locked state to maintain the first and second parts in a plurality of different relationships wherein the security assembly is in the second state and the combined lengths of the first and second parts along the first line are different.
In one form, one of the first and second parts has a cantilevered post that can be grasped to control positioning of the one of the first and second parts.
In one form, there are rail and slot components on the first and second parts that cooperate to guide relative movement between the first and second parts.
In one form, the security assembly has an opening that is located to receive the accessible portion of the wick with the security assembly in the second state.
In one form, the security assembly has a chamber located to receive the accessible portion of the wick with the security assembly in the second state.
In one form, there is an opening in one of the first and second parts that is located to receive the accessible portion of the wick with the security assembly in the second state.
In one form, one of the first and second parts has a chamber located to receive the accessible portion of the wick with the security assembly in the second state.
In one form, the other of the first and second parts has a chamber located to receive the accessible portion of the wick with the accessible portion of the wick projecting through the opening in the one of the first and second parts with the security assembly in the second state.
In one form, the security assembly is configured so that the first and second parts are movable guidingly relative to each other along a first line.
In one form, the locking assembly has a projecting element on one of the first and second parts and a plurality of spaced openings on the other of the first and second parts each to receive the projecting element with the, first and second parts in different relationships.
In one form, the security assembly is configured so that the projecting element can be selectively extended and retracted.
In one form, the security assembly is configured so that the projecting element is biased into an extended position.
In one form, the projecting element is configured to be attracted to a magnet that can be placed in the vicinity of the projecting element to thereby retract the projecting element against a force biasing the projecting element into the extended position.
In one form, a magnet is provided that is usable to retract the projecting element.
In one form, the first and second parts are configured so that portions of the first and second parts abut to fix a combined dimension of the first and second parts along the first line.
A shoulder 28 is defined within the receptacle 20 either in the neck 18, the main body 16, or at the location where they merge. The shoulder 28 faces in a first direction and has a second effective diameter that is greater than the first effective diameter.
The system 10 further includes a security assembly 30 that is configured to be placed in first and second different states. In the first state, the security assembly 30 is configured to be directed through the neck 18, generally in the aforementioned first direction, up to and past the shoulder 28 into a securing position. The security assembly 30 in the first state and securing position is changeable into the second state wherein the security assembly 30 has a third effective diameter, that is greater than the first effective diameter, so that the security assembly 30 is blocked by the shoulder 28 from being moved oppositely to the first direction through the neck 18, and opening 24 thereon, to be separated from the case 14.
The nature of the security assembly 30 is not specifically limited, as it may take any configuration that is changeable to have the aforementioned first and second different states. This reconfiguration may be effected by relatively moving parts, reconfiguration of individual parts, as through inflation, etc. The examples below are only exemplary in nature.
The schematic showing in
A locking assembly 32, of any suitable form, may be considered to be part of the security assembly 30, or separate therefrom, and is constructed to maintain one or both of the first and second different states for the security assembly 30.
In one exemplary form, as shown schematically in
As noted above, the first and second parts 34, 36 can take a wide range of different configurations. Additional parts can cooperate between or with the first and/or second parts 34, 36.
The security assembly 30, by being maintained in its securing position, overlies the wax and an accessible portion of a wick 37 (
Alternatively, as shown in
As a further alternative form as shown in
One specific, and exemplary, form of the security assembly 30 will be described with reference to
In this embodiment, the main body 16 has a substantially cylindrical shape with a central, vertical axis 50. The neck 18 likewise has a substantially cylindrical shape and shares the central axis 50. The central axis of the neck 18 could be non-coincident with the central axis 50.
The cap 26 is configured to be selectively: a) engaged with the case 14 at the neck 18 to block the neck opening 24; and b) fully separated from the case 14. A sealing structure may be provided between the cap 26 and case 14 to capture scented vapor to extend the useful life of the candle 12.
The neck 18 blends into the main body 16 at a transition location at 52 at which the shoulder 28 is defined. The shoulder 28 has an annular shape that faces axially downwardly, i.e., in the aforementioned first direction.
In this embodiment, the diameter of the inside of the neck 18 is indicated at D. The precise diameter is not critical. The diameter D1 of the main body 16 is identified as D1 and is larger than D and large enough so that the bottom surface 54 of the main body 16 stably supports the candle 12 upon an upright support 56. It is not necessary that the diameters D, D1 be uniform in the neck 18 and main body 16.
Overall, the precise relative dimensions of the candle case 14 are not critical to the present invention. The shoulder 28, whether located in the neck 18 or main body 16, or at the transition therebetween as shown, has an “effective diameter” greater than the “effective diameter” at D. Accordingly, the security assembly 30 can be directed through the upper neck opening 24 in its first state, wherein it has a first effective diameter, past the shoulder 28 into the securing position therefor, whereupon it can be reconfigured to be placed in the second state, in which it has a second effective diameter that is larger than the first effective diameter. As a result, the security assembly 30 is blocked by the shoulder 28 from being backed out of the neck 18 and separated from the case 14.
The exemplary security assembly 30 is shown wherein the aforementioned first and second parts 34, 36 are shown in the form of generally flat plates that are placed one over the other so that separate planes P1, P2, within which the parts 34, 36, respectively reside, are substantially parallel to each other. Thus, the combined parts 34, 36 together have an overall flat shape.
In this embodiment, each of the parts 34, 36 has an overall “I” shape, with a vertical stem S and spaced cross pieces CP.
The parts 34, 36 are joined through a post, or in this case through a hollow sleeve 58, for guided relative movement about an axis 60 normal to the planes P1, P2.
The first state for the security assembly 30 is shown in
The overlying parts 34, 36 in the first state therefor have a width W that is substantially less than the diameter D whereby the security assembly 30 can be angled, as shown in
Once the securing position, as shown in solid lines in
The locking assembly 32 consists of a housing 68 on the part 34 with an element 70 that is biased by a spring 72 to project from the housing 68 in a direction generally parallel to the axis 60. The element 70 is normally in the
In
The parts 34, 36 can be relatively moved so that the element 70 cooperates with another edge 76′ on the part 36 to produce the same functional configurations.
While the locking assembly 32 is described above to maintain a fixed relationship between the first and second parts 34, 36 in their second state, the locking assembly 32 actually limits the movement between the parts 34, 36 between the relationships in
When it is desired to separate the security assembly 30, a tool 80, as shown in
Once the element 70 is retracted to the
Significantly, the above structure has been described by defining “diameters” of parts. It is not necessary that the parts and openings produce circular shapes with clearly defined diameters. The invention contemplates making parts with “effective diameters” to achieve the same functional results, even though the parts and the accommodating openings may not be fully round. What is significant is that the “effective diameter” of the security assembly 30 in its second state be large enough to be blocked by the shoulder 28. In its first state, as shown in
In the depicted embodiment, the first and second parts 34, 36 are separate parts that are movable independently of each other. As shown in
In
In this embodiment, the parts P1-P5 are generally flat triangular shapes with the planes of the plates in parallel and stacked relationship. In
Again, a suitable locking assembly 32″ can be utilized to maintain a corresponding second state, as shown schematically in
In
In
The first and second parts 344′, 364′ can be placed in a joined, operative state, as shown in
With the parts 344′, 364′ operatively joined, the parts 344′, 364′ have a combined effective length L between edges 108, 110, respectively on the parts 344′, 364′. The edges 108, 110 are curved to nominally match the inside diameter D of the candle neck 18. This, however, is not a requirement. A step 112 is formed adjacent to the edge 110 on the part 364′ to facilitate placement of the security assembly 304′, as hereinafter described, and to define a curved blocking edge 113, which performs a function hereinafter described.
The part 344′ has an elongate opening 114 formed through the wall 104. The opening 114 is situated so that the accessible portion of the candle wick 37 can project therethrough with the security assembly 304′ operatively positioned on the candle 12.
The part 364′ has a raised shroud 116 that opens towards the wall 100 and has an open end 118. As the parts 344′, 364′ are advanced towards each other along the line indicated by the double-headed arrow 90, with the accessible portion of the wick 37 projecting through the opening 114, the accessible portion of the wick 37 can pass through the entry opening 118 into a chamber 120 bounded by the shroud 116 so that it does not become damaged.
The part 344′ has a post 122 that projects in cantilever fashion from the wall 104. The post 122 serves two functions. First of all, it is readily graspable to allow manipulation of the part 344′ as it is joined to and controllably moved relative to the part 364′. The post 122 also abuts to the edge 124 of the shroud 116 to limit movement of the parts 344′, 364′ towards each other. As this abutment occurs, the parts 344′, 364′ realize their shortest effective length L. The aforementioned curved blocking edge 113 on the part 364′ simultaneously abuts to a complementarily-shaped edge 117 on the part 344′ in this shortened state to provide a redundant stop.
The security assembly 304′ has a locking assembly 324′ that maintains the first and second parts 344′, 364′ in different relationships such that their combined effective length L is different. The locking assembly 324′ consists of a projecting element 704′ on the part 36 is normally biased to an extended/projecting position, as shown in
At least one component 128 is associated with the element 704′ so that the generation of a force through a magnet 130 in the vicinity of the component(s) 128 retracts the element 704′ to the dotted line position of
With the parts 344′, 364′ operatively joined, the surface 134 faces, and is guided against, an oppositely facing flat surface 136 on the part 344′. The part 344′ has a series of openings 844′ arranged with their axes substantially in a single plane whereby the element 704′ can project into any one of the openings 844′ releasably fix a desired combined length L through a range of potential lengths L as dictated by the locations of the openings 844′.
By using the magnet 130 to withdraw the projecting element 70, the parts 344′, 364′ can be moved relative to each other along the line indicated by the double-headed arrow 90. Once the desired combined length L is realized, the magnet 130 can be moved away from the component(s) 128, whereupon the biasing component(s) 126 urges the element 704′ towards its projecting position such that it will move into one of the registered openings 844′ to fix the effective combined length L.
The walls 100, 104, with their flat configuration, function as flat plates that reside in spaced, substantially parallel planes. As the joined parts 344′, 364′ are moved relative to each other, the parallel relationship of the walls/plates 100, 104 is maintained through the interaction of the surfaces 134, 136. The overall combined structure has a generally flat shape, with the exception of the projecting shroud 116 and post 122.
The security assembly 304′ functions substantially the same as the other security assemblies described above. That is, in a first state, with the parts 344′, 364′ having a first combined length, the security assembly 304′ is configured to be directed through the neck 18. This is described below in two different manners.
In
Alternatively, the parts 344′, 364′ can be dimensioned so that the security assembly 304′ in its first state must be angled to allow the edge 108 to reside under the candle shoulder 28, whereupon the end opposite the edge 108 can be tipped downwardly as indicated by the arrow 140 to seat the edge 110 under the shoulder 28 and place the security assembly 304′ in its securing position. The security assembly 324′ can then be changed into its second state.
Whereas the above-described construction requires that the projecting element 704′ be manually retracted to increase the effective length L of the combined parts 344′, 364′, this structure might be modified as shown in
As shown in
As with the above-described security assemblies, the security assembly 304′, as shown in
The foregoing disclosure of specific embodiments is intended to be illustrative of the broad concepts comprehended by the invention.
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Number | Date | Country | |
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20170009492 A1 | Jan 2017 | US |