The present disclosure generally relates to insect trapping devices, and more specifically to portable insect trapping devices having replaceable components.
Historically, a variety of pest control devices have been employed to trap insects and other pests. With recent outbreaks of various diseases, infections, and other health risks that are spread by insects, the need for pest control devices has only increased. Such pest control devices typically employ an attraction mechanism for luring pests to the pest control device. Example attraction mechanisms include baits such as food, light, pheromones, or other odorous materials found attractive by the pest. Some pest control devices have historically included an immobilization mechanism to prevent the pest from exiting the pest control device. One type of immobilization mechanism used is a substrate such as a board, paper or other medium having a surface coated with an adhesive. Pests attracted to the pest control device or incidentally coming into contact with the adhesive become trapped by adhesion.
One type of adhesively-coated substrate is commonly referred to as a glueboard. For packaging and shipping purposes, the adhesive layer can be covered by a release paper. The release paper is removed prior to use to expose the adhesive layer so pests can come into contact with the adhesive layer and become entrapped. Such disposable glueboards are routinely replaced to ensure the continued efficacy of the pest control device and to dispose of the pests immobilized by the glueboard.
While the adhesives employed when manufacturing glueboards have proved to be effective for trapping insects, the nature of the adhesive is such that insertion and removal of the glueboard from the pest control device can be problematic. If the adhesive surface of the glueboard accidently comes into contact with other surfaces of the pest control device, the adhesive will cause the glueboard to stick to those surfaces. Likewise, if the skin or clothing of a person installing or removing the glueboard comes into contact with the adhesive surface, the glueboard will stick to the person or the person's clothing. Depending on the configuration of the glueboard, the person removing the glueboard may undesirably come into contact with or close proximity to the trapped insects.
Some types of pest control devices are provided with a glueboard non-removably mounted inside an outer housing, such as a shell. Such arrangement can decrease the likelihood that a user will come in contact with the glueboard. Some examples of these pest control devices are described in PCT patent publications WO 2015/164,849; WO 2015/081,033; and WO2014/134,371. However, there are opportunities for improvement. Indeed, it would be advantageous to provide for an insect trapping device that allows a user to easily remove and dispose of the glueboard without touching any trapped insects or an adhesive. It would also be advantageous to provide an insect trapping device that provides improved techniques for alignment and insertion of replacement glueboards. It would also be advantageous to provide an insect trapping device and its replacement components therefor that can be provided with reduced packaging materials, leading to decreased waste. It would further be advantageous to provide for an insect trapping device that is configured to assist a user in aligning various components and ensuring proper orientation of the components, such as when the user is replacing a spent component with a fresh component, or engaging a shell with a base. It would further be advantageous to provide for an insect trapping device that is sufficiently portable and aesthetically pleasing for use in homes, offices, or other occupied spaces.
The present disclosure fulfills one or more of the needs described above by, in one embodiment, an insect trapping device comprising a base and a cartridge comprising an insert and a shell. The shell comprises a front surface defining an opening for receiving a flying or crawling insect, a rear surface, and an opening in a bottom of the shell. The opening in the bottom is disposed adjacent to the base when the cartridge engages the base. The insert comprises an adhesive portion is releaseably retained at least partially within the shell. At least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell. A light source is positioned to illuminate at least a portion of the adhesive portion when the cartridge engages the base.
In another embodiment, an insert for insertion into a shell for use with an insect trapping device, with the shell having one or more protrusions extending from an inner surface of the shell, comprises an adhesive portion comprising an adhesive for trapping an insect and a frame at least partially surrounding the adhesive portion. The frame comprises two side edges and a top portion having a height and a top portion edge that terminates at the side edges. Each of the side edges have an indentation that has top edge that is positioned within 2 mm of the termination of the top portion edge.
In another embodiment, an insert for an insect trapping device comprises an adhesive portion comprising an adhesive for trapping an insect and a frame at least partially surrounding the adhesive portion. The frame comprises two side edges, a bottom edge, and a downwardly depending tab extending downward from the bottom edge. A vertical centerline of the downwardly depending tab is offset from a vertical centerline of the adhesive portion.
In yet another embodiment, a method of making an insert for trapping insects comprises forming a frame, forming a reservoir, inserting an insect attracting composition into the reservoir; and attaching an adhesive portion to at least a portion of the frame.
In another embodiment a crawling insect trap comprises a front housing and a rear housing forming an enclosure defining an opening for receiving a crawling insect. The front housing is connected to the rear housing by a hinge and the enclosure is selectable movable between an open position and a closed position. At least a portion of the front housing is separated from the rear housing in the open position. The crawling insect trap further comprises an insert having an adhesive portion. The insert is releaseably retained within at least a portion of the enclosure when the enclosure is in the closed position.
In another embodiment, a cartridge for use with a base comprises an insert comprising an adhesive portion and a shell comprising a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom comprising an opening. The opening in the bottom is disposed adjacent to the base when the cartridge engages the base. The insert is releaseably retained at least partially within the shell and at least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell. The insert drops out of the opening in the bottom in response to an application of an inwardly directed force to one or more of the front surface of the shell or a rear surface of the shell by a user.
In another embodiment, a kit comprises an insert comprising an adhesive portion and a cartridge, with the cartridge for use with a base. The cartridge of the kit has a shell comprising a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom comprising an opening. The opening in the bottom is disposed adjacent to the base when the cartridge engages the base. The insert is releaseably retained at least partially within the shell and at least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell. The insert drops out of the opening in the bottom in response to an application of an inwardly directed force to one or more of the front surface of the shell or a rear surface of the shell by a user
In yet another embodiment, a method of using a cartridge comprises grasping a shell having an insert at least partially disposed therein. The insert comprises an adhesive portion and the shell comprises a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom opening. The method further comprises applying an inwardly directed force to one or more of the front surface of the shell or the rear surface of the shell. In response to the application of the force, the insert drops out of the opening in the bottom due to gravity.
In another embodiment, a method of using a cartridge comprises, a user grasping a shell comprising an insert, the insert comprising an adhesive portion for trapping insects and the shell comprising a front surface, a rear surface and an opening in a bottom of the shell. Then after that step, applying a force to at least one of the front surface of the shell or the rear surface of the shell and then inserting the insert into the shell through the opening in the bottom until the insert is at least partially disposed therein. Then after that step, releasing the force applied to the at least one of the front surface or the rear surface, wherein upon the release of the force the insert is retained within the shell by a friction fit.
In another embodiment, a cartridge for trapping insects comprises an insert comprising an adhesive portion and a reservoir storing an insect attracting composition. The cartridge further comprises a shell comprising a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom comprising an opening. The insert is releaseably retained at least partially within the shell and at least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell. The reservoir is positioned adjacent the bottom opening when the insert is releaseably retained at least partially within the shell. The insert drops out of the opening in the bottom in response to an application of an inwardly directed force to one or more of the front surface of the shell or a rear surface of the shell by a user.
In another embodiment, an insect trapping device comprises a base and a cartridge comprising an insert and a shell. The shell comprises a front surface defining an opening for receiving a flying or crawling insect, a rear surface, an opening in a bottom of the shell, a first side zone, and a second side zone, wherein the front surface and rear surface join within each of the first and second side zones, and wherein the opening in the bottom is disposed adjacent to the base when the cartridge engages the base. The insert comprises an adhesive portion and the insert is releaseably retained at least partially within the shell and at least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell. When the cartridge is detached from the base, the insert drops out of the shell through the opening in the bottom in response to a user applying an inwardly directed force to one or more of the first and second side zones of the shell. A light source is positioned to illuminate at least a portion of the adhesive portion when the cartridge engages the bases.
In yet another embodiment, an insect trapping device comprises a base and a cartridge comprising an insert and a shell. The shell comprises a front surface defining an opening for receiving a flying or crawling insect, a rear surface, an opening in a bottom of the shell, a first side zone, and a second side zone,. The front surface and rear surface join within each of the first and second side zones, and wherein the opening in the bottom is disposed adjacent to the base when the cartridge engages the base. The insert comprises an adhesive portion. The insert is releaseably retained at least partially within the shell and at least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell. When the cartridge is detached from the base, the insert drops out of the shell through the opening in the bottom in response to a user applying an inwardly directed force to one or more of the first and second sides zones of the shell.
In another embodiment, an insert for insertion into a shell of an insect trapping device comprises an adhesive portion comprising an adhesive for trapping an insect and a frame at least partially surrounding the adhesive portion. The insert also comprises a reservoir storing a solid insect attracting composition, the reservoir being located in a lower portion of the insert.
The above-mentioned and other features and advantages of the present disclosure, and the manner of attaining them, will become more apparent and the disclosure itself will be better understood by reference to the following description of nonlimiting embodiments of the disclosure taken in conjunction with the accompanying drawings, wherein:
Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Although methods and materials similar or equivalent to those described herein can be used in the practice or testing of the present invention, suitable methods and materials are described below. All publications, patent applications, patents, and other references mentioned herein are incorporated by reference in their entirety. In case of conflict, the present specification, including definitions, will control. In addition, the materials, methods, and examples are illustrative only and not intended to be limiting.
Other features and advantages of the invention will be apparent from the following detailed description, and from the claims.
The present disclosure provides for insect trapping devices, methods of making insect trapping devices, and methods of using insect trapping devices. Various nonlimiting embodiments of the present disclosure will now be described to provide an overall understanding of the principles of the function, design and use of the insect trapping devices disclosed herein. One or more examples of these nonlimiting embodiments are illustrated in the accompanying drawings. Those of ordinary skill in the art will understand that the methods described herein and illustrated in the accompanying drawings are nonlimiting example embodiments and that the scope of the various nonlimiting embodiments of the present disclosure are defined solely by the claims. The features illustrated or described in connection with one nonlimiting embodiment can be combined with the features of other nonlimiting embodiments. Such modifications and variations are intended to be included within the scope of the present disclosure.
Referring now to
As described in more detail below, the shell 122 can be configured to mechanically engage the insert 150, such that when the insert 150 is slid into the shell 122 through the bottom opening 134, the insert 150 is held within the shell 122 until the user wishes to dispose of the insert 150 (i.e., subsequent to extended use of the insect trapping device 100). For instance, in some configurations, the shell 122 may include protrusions or other features that selectively engage with or otherwise lock into corresponding elements of an insert 150. In other configurations, a friction-fit (sometimes referred to as interference fit or press-fit) may be utilized, with the outer width of the insert 150 slightly exceeding the inner width of the shell 122. Irrespective of the type of mechanical engagement utilized, the insert 150 may be selectively released from the shell 122 through a user's selective application of inwardly-directed force to one or more designated areas of the outer surface of the shell 122.
While the insert 150 is shown to include a frame 166 completely surrounding the adhesive portion 152, this disclosure is not so limited. For instance, the frame 166 may only extend partially around the adhesive portion 152. In one example configuration, the frame 166 may extend along a first vertical side of the adhesive portion 152, across the top of the adhesive portion 152, and down the second vertical side of the adhesive portion 152. In such configuration, the bottom edge of the adhesive portion 152 is unframed. In other configurations, the insert 150 can be frameless, with the adhesive portion 152 applied at least to a central portion of a substrate, with the substrate providing sufficient structural rigidity. Further, the adhesive portion 152 can be planar, as shown, or have other suitable configurations, such as curved, for instance. As shown in
In some configurations, the insert 150 has a reservoir 176 for storing an insect attracting composition. The insect attracting composition can be provided in a wide variety of forms, including gases, liquids and solids. In some embodiments, the insect attracting composition may be provided in the form of a solid composition comprising one or more agents attractive to an insect. Solid compositions also include semi-solid compositions such as gels, which comprise one or more liquids and one or more gelling agents. The gelling agents may facilitate the formation of a cross-linked network within the composition. The reservoir 176 may also serve to catch fallen insects, such as the insects that were originally immobilized by the adhesive portion 152 but are no longer sufficiently retained by the adhesive portion 152 after drying and becoming brittle. The reservoir 176 may be defined by a front wall 180 and a rear wall 182, with the front wall 180 defining at least part of an opening of the reservoir 176. The front wall 180 may be integrally formed with the frame 166. In some configurations, the reservoir 176 may comprise a ledge 184 that extends along a portion of the reservoir opening to aid in the attachment of a releasable liner 186 to cover the reservoir 176 subsequent to it being filled with an insect attracting composition. The releasable liner 186 for the reservoir may be integral with a releasable liner 186 of the adhesive portion 152. In any event, the releasable liner 186 can be removed from the reservoir 176 prior to a user inserting the insert 150 into the shell 122. The ledge 184 may extend along the front wall 180, as shown in
In other configurations, the insert 150 may not include a reservoir 176. In yet other configurations, the insert 150 does not include a reservoir 176 and the adhesive portions 152 are positioned on both the front and rear face of the insert 150. In such configurations, once the front face has immobilized a sufficient number of insects, the user may remove the insert 150 from the shell 122, rotate the insert 150, and re-insert the insert 150 into the shell 122. In this position, the rear face of the insert 150 is positioned proximate to the openings 132 and can be used to immobilize insects entering the shell.
The frame 166 and the shell 122 may be configured to allow the insert 150 to be selectively engaged to the shell 122. In the illustrated configuration, each of the first and second side edges 154, 156 of the frame 166 has an indentation 162 that is positioned between the termination of the top portion edge 160 and a bottom portion of the frame 166, such as the bottom edge 161. The top edge 159 of each of the indentations 162 may be placed from about 10, 15, 20 mm to about 40, 50, 60, 70, 80, 90 mm above the bottom of the insert 150, for example, as measured vertically from the bottom edge 161 towards the top portion edge 160. As shown in
The indentation 162 on each of the first and second side edges 154, 156 can have a length between about 0.5 mm and about 10 mm and a depth between about 0.5 mm and about 3.5 mm. The protrusions 140 on the inner surface 138 of shell 122 can have a length between about 0.4 mm and about 9.9 mm and a width between about 0.2 mm and about 4 mm. As such, when the insert 150 is fully inserted by the user into the shell 122 through the bottom opening 134, the protrusions 140 on either side of the shell 122 will engage with the respective indentations 162 of the frame 166 to seat the insert 150 within the shell 122. In some configurations, the user will feel the engagement occur, thereby providing the user with tactile feedback. While the selective mechanical engagement of the insert 150 and the shell 122 is facilitated using indentations 162 and matching protrusions 140 in
The upwardly extending housing 108 can have a front surface 104 that is concave which serves to form a cavity between the center portion of the upwardly extending housing 108 and the insert 150 when the cartridge 118 is engaged to the base 102. While the front surface 104 of the upwardly extending housing 108 is illustrated as a smooth concave surface, this disclosure is not so limited. The front surface 104 can have any suitable configuration or combination of surfaces that form a concave shape in which the central portion of the front surface 104 is recessed relative to the side portions of the front surface 104 thereby forming an inwardly directed bulge. Example configurations of the front surface 104 can include planar portions, beveled portions, curved portions, curvilinear portions, and so forth. As depicted in
To couple the cartridge 118 to the base 102 to prepare the insect trapping device 100 for use, the cartridge 118 is lowered over the upwardly extending housing 108, such that the upwardly extending housing 108 is received into the shell 122 and positioned between a rear surface of the adhesive portion 152 and an inner surface of the rear housing 128, as shown in
In some configurations, the base 102 comprises at least one upstanding tab that limits deflection of one or more of the front surface of the shell 122 and/or the rear surface of the shell 122 when the cartridge 118 engages the base 102 and the force is applied to the shell 122.
At a later point in time, such as when the insect attracting composition is exhausted and/or the adhesive portion 152 needs to be replaced, the cartridge 118 may be disengaged from the base 102 by a user. As the cartridge 118 is lifted from the base 102, the insert 150 will remained seated within the shell 122 due to the interaction between the indentations 162 and the protrusions 140 or other type of mechanical engagement (e.g., a friction fit). As such, the user will not need to come into direct physical contact with the frame 166 or the adhesive portion 152 to remove the cartridge 118 from the base 102. The cartridge 118 may then be positioned above a trash receptacle 148 (
As shown in
The downwardly depending tab 264 can be positioned such that a vertical centerline of downwardly depending tab 264 is offset from a vertical centerline of the insert 250. Offsetting of the downwardly depending tab 262 may serve to aid in properly aligning the cartridge 218 with the base 202. More specifically, the cartridge 218 may only be fully seated into the base 202 when the cartridge 218 is facing the proper direction so that the downwardly depending tab 264 is received into the switch. Furthermore, the downwardly depending tab 264 can help to insure the insert 250 is properly arranged in the shell 222, such that the adhesive portion 252 is positioned adjacent the openings in the front surface of the shell 222 as opposed to facing the upwardly extending housing 208. The downwardly depending tab 264 can also function as a convenient grip point for the user during insertion or removal of the insert 250. The downwardly depending tab 264 can have any suitable configuration or shape. In some configurations, the downwardly depending tab 264 has a width at its vertical midpoint that is less than 75% the width of the bottom edge of the insert 250. In some configurations, the downwardly depending tab 264 has a width at its vertical midpoint that is less than 50% the width of the bottom edge of the insert 250. In some configurations, the downwardly depending tab 264 has a width at its vertical midpoint that is less than 25% the width of the bottom edge of the insert 250. In some configurations, the downwardly depending tab 264 has a width at its vertical midpoint that is less than 10% the width of the bottom edge of the insert 250. In some configurations, the downwardly depending tab 264 overlaps the vertical centerline of the insert 250 while being asymmetric about the vertical centerline of the insert 250. It is also to be appreciated that other inserts described herein, such as the insert 150 can also utilize a downwardly depending tab similar to the downwardly depending tab 264.
The shell 222 in
When the user wishes to dispense the insert 250 from the shell 222, the depressible tab 244 is pressed by the user to pivot the flange 294 away from the shoulder 296. Once the flange 294 pivots past the shoulder 296, the flange 294 disengages the shoulder 296 and gravitational force or other externally provide force may pull the insert 250 from the shell 222, similar to
Turning now to techniques for forming inserts for use with the insect trapping devices described herein, a variety of manufacturing and/or assembly techniques can be used. Such techniques may vary depending on, for instance, whether the insert is framed or frameless, has a reservoir, and/or includes a release liner, among other factors. Referring now to
Referring now to
Referring now to
When no force is applied to the shell 1222, the interior width (W1) of the shell 1222 can be between about 50 mm and about 150 mm at a point between about 1 mm and about 100 mm from the bottom of the shell (shown as (H) in
When the force is applied, the interior width (W2) of the shell can be between about 51 mm and about 165 mm at a point between about 1 mm and about 100 mm from the bottom of the shell (shown as (H) in
In some configurations, the insert 1250 and the shell 1222 have an interference fit between about 0.2 mm and about 4 mm when no force is applied to the shell 1222. As such, the user may apply force to the front zone 1237 and the rear zone 1239 during insertion of the insert 1250 to provide sufficient clearance. The increase of the interior width from W1 to W2 serves to disengage the insert 1250 from the inner surface 1238, thereby allowing gravitational force to pull the insert 1250 from the shell 1222 so that it can be disposed of by the user. While the amount of force applied to one or more surfaces of a shell to release an insert can vary, (shown as forces F1 and F2 in
When inserting a fresh insert 1250 into the shell 1222, a certain amount of force may be necessary to properly seat the insert 1250. This insertion force may be approximately 0 N for 10% to 50/70% the insert length and then 1.25 N to 44 N to finally seat the insert 1250 within the shell 1222. Alternatively, the insertion force may be 1.25 N to 44 N at any point during insertion. For friction fit couplings, the user may squeeze the shell 1222 at zones 1237 and 1239 in order to expand the interior width from W1 to W2 and thus ease insertion.
While the cartridges described above depict the application of the inwardly directed force to the front surface and/or rear surface to disengage an insert (i.e., proximate to the front zone 1237 in
Referring now to
As shown in
A user can apply the forces F1 and F2 to a first side zone 1437 and/or the second side zone 1439 of the shell 1422, respectively, to dispense the insert 1450, or in some cases, to assist with inserting the insert 1450 into the shell 1422. The first side zone 1437 and second side zone 1439 are proximate to where a front surface 1426 and a rear surface 1430 join. In some configurations, the first side zone 1437 and the second side zone 1439 may be positioned within a lower portion of the shell 1422 and be graphically and/or texturally identified an outer surface 1430. In the illustrated configuration, the first side zone 1437 and the second side zone 1439 are positioned at a height (H) above a bottom 1435 of the shell 1422. In some configuration, the user may simultaneously apply force to first side zone 1437 and the second side zone 1439 of the shell 1422, such as by squeezing first side zone 1437 and the second side zone 1439.
Referring now to
However, the side rails 1543 of the shell 1522 extend generally perpendicularly to the insert 1550. The insert 1550 can be biased against the side rails 1543 due to the engagement surface 1541 of the ledge 1540 interaction with the inner surface 1538 of the shell 1522 (
Referring now to
As shown in
In some configurations, inserts usable with the insect trapping device 1700 can include various types of attractants.
Further Non-Limiting Description of the Disclosure
The following numbered paragraphs constitute a further non-limiting description of the disclosure in a form suitable for appending to the claim section if later desired.
1. An insert for insertion into a shell for use with an insect trapping device, the shell having one or more protrusions extending from an inner surface of the shell, the insert comprising:
an adhesive portion comprising an adhesive for trapping an insect; and
a frame at least partially surrounding the adhesive portion, the frame comprising two side edges and a top portion having a height and a top portion edge that terminates at the side edges, each of the side edges having an indentation that has top edge that is positioned within 2 mm of the termination of the top portion edge.
2. An insert for an insect trapping device, the insert comprising:
an adhesive portion comprising an adhesive for trapping an insect;
a frame at least partially surrounding the adhesive portion, the frame comprising two side edges, a bottom edge, and a downwardly depending tab extending downward from the bottom edge, wherein a vertical centerline of the downwardly depending tab is offset from a vertical centerline of the adhesive portion.
3. An insert according to any of the preceding examples, further comprising a releasable liner that covers the adhesive portion.
4. An insert according to any of the preceding examples, further comprising a light source.
5. An insert according to any of the preceding examples, wherein the adhesive portion is non-porous.
6. An insert according to any of the preceding examples, wherein the insert further comprises a reservoir storing an insect attracting composition, wherein the reservoir is defined by a front wall that extends away from the adhesive portion and a substantially planar rear wall.
7. An insert according to example 6, wherein the reservoir, the frame, and the substantially planar rear wall are integrally formed.
8. An insert according to one of example 6 to 7, wherein the adhesive portion has a front surface comprising the adhesive and wherein the insect attracting composition is on the same side of the insert as the front surface of the adhesive portion.
9. An insert according to one of examples 6 to 8, wherein reservoir comprises a reservoir opening disposed above the insect attracting composition and wherein the adhesive portion terminates adjacent to the reservoir opening.
10. An insert according to any of the preceding examples, wherein the insert is devoid of a shell enclosing the adhesive portion.
11. An insert according to any of the preceding examples, wherein the adhesive portion consists essentially of a film having the adhesive coated thereon.
12. A method of making an insert for trapping insects, comprising:
forming a frame;
forming a reservoir;
inserting an insect attracting composition into the reservoir; and
attaching an adhesive portion to at least a portion of the frame.
13. A method according to example 12, wherein reservoir comprises a front wall, a rear wall and a reservoir opening and wherein the frame and reservoir are integrally formed.
14. A method according to one of examples 12, wherein the reservoir comprises a front wall, a rear wall and a reservoir opening and wherein the reservoir is formed apart from the frame and then attached to the frame.
15. A method according to one of examples 13 to 14, wherein the adhesive portion terminates adjacent to the reservoir opening.
16. A method according to one of examples 13 to 15, wherein the reservoir further comprises a ledge extending about at least a portion of the reservoir opening.
17. A method according to example 16, further comprising attaching a removable film to the ledge to at least partially cover the reservoir opening.
18. A method according to one of examples 12 to 17, wherein the step of attaching the adhesive portion occurs before the step of filling the reservoir.
19. A crawling insect trap, comprising:
a front housing and a rear housing forming an enclosure defining an opening for receiving a crawling insect, the front housing being connected to the rear housing by a hinge, wherein the enclosure is selectable movable between an open position and a closed position, wherein at least a portion of the front housing is separated from the rear housing in the open position; and
an insert having an adhesive portion, the insert being releaseably retained within at least a portion of the enclosure when the enclosure is in the closed position.
20. A cartridge for use with a base, the cartridge comprising:
an insert comprising an adhesive portion;
a shell comprising a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom comprising an opening, wherein the opening in the bottom is disposed adjacent to the base when the cartridge engages the base; and
the insert is releaseably retained at least partially within the shell and at least a portion of the insert passes through the opening in the bottom when inserting the insert into the shell; and
wherein the insert drops out of the opening in the bottom in response to an application of an inwardly directed force to one or more of the front surface of the shell or a rear surface of the shell by a user.
21. A cartridge of example 20, further comprising a light source.
22. A cartridge according to one of examples 20 or 21, wherein the insert drops out of the shell without the user touching the adhesive portion.
23. A cartridge according to one of examples 20 to 22, wherein the insert drops out of the shell due to gravity following application of the force.
24. A cartridge according to one of examples 20 to 23, wherein application of the force causes an inward deflection of one or more of the front surface of the shell and the rear surface of the shell at the location where the force is applied.
25. A cartridge according to any one of examples 20 to 24, wherein the insert comprises two side edges, each of the side edges having an indentation that releasably engages a corresponding protrusion on an inner surface of the shell.
26. A cartridge according to example 25, wherein application of the force causes the protrusions to disengage from the indentations thereby releasing the insert from the shell.
27. A cartridge according to example 20, wherein the shell comprises a top surface having a depressible tab that is coupled to a flange to engage the insert, the depressible tab disengaging the insert when depressed.
28. A cartridge according to one of examples 20 to 27, wherein the insert further comprises a frame at least partially surrounding the adhesive portion.
29. A cartridge according to example 28, wherein the insert further comprises a reservoir storing an insect attracting composition, the reservoir being defined in part by a front wall that extends away from the adhesive portion and a rear wall.
30. A cartridge according to example 29, wherein the frame, the reservoir and the rear wall are integrally formed.
31. A cartridge according to one of examples 29 to 30, wherein reservoir comprises a reservoir opening disposed above the insect attracting composition and wherein the adhesive portion terminates adjacent to the reservoir opening.
32. A cartridge according to any one of examples 20 to 31, wherein at least a portion of the reservoir extends below the bottom of the shell.
33. A cartridge according to any of examples 20 to 32, wherein the insert further comprises a downwardly depending tab and wherein a vertical centerline of the downwardly depending tab is offset from a vertical centerline of the insert.
34. A cartridge according to one of examples 20 to 33, wherein the insert is releaseably retained within the shell by a friction fit.
35. A cartridge according to one of examples 20 to 34, wherein the insert has a top portion, the shell has a top portion that is closed, and the top portion of the shell is disposed adjacent to the top portion of the insert when the insert is seated within the shell.
36. A cartridge according to one of examples 20 to 35, wherein the front surface and the rear surface substantially enclose the adhesive portion when the insert is seated within the shell.
37. A kit, comprising:
an insert according to one of examples 20 to 36; and
a cartridge according to one of examples 20 to 36.
38. A method of using a cartridge, comprising:
grasping a shell having an insert at least partially disposed therein, wherein the insert comprises an adhesive portion and the shell comprises a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom opening;
applying an inwardly directed force to one or more of the front surface of the shell or the rear surface of the shell; and
in response to the application of the force, dropping the insert out of the opening in the bottom due to gravity.
39. A method according to example 38, wherein the adhesive portion has a plurality of insects trapped thereon.
40. A method according to one of examples 38 to 39, wherein dropping the insert out of the shell further comprises dropping the insert into a trash receptacle.
41. A method according to any of examples 38 to 40, wherein the adhesive portion is not touched by a user following application of the force.
42. A method according to one of examples 38 to 41, further comprising:
subsequent to dropping the insert out of the shell due to gravity, inserting a fresh insert into the shell through the opening in the bottom.
43. A method according to example 42, further comprising engaging the cartridge comprising the fresh insert with a base comprising a light source, wherein the opening in the bottom is disposed adjacent the base when the cartridge engages the base.
44. A method according to example 43, further comprising activating the light source when the cartridge engages the base, wherein the light source illuminates the adhesive portion.
45. A method of using a cartridge, comprising:
a) a user grasping a shell comprising an insert, the insert comprising an adhesive portion for trapping insects and the shell comprising a front surface, a rear surface and an opening in a bottom of the shell;
b) then after step a), applying a force to at least one of the front surface of the shell or the rear surface of the shell and then inserting the insert into the shell through the opening in the bottom until the insert is at least partially disposed therein;
c) then after b), releasing the force applied to the at least one of the front surface or the rear surface, wherein upon the release of the force the insert is retained within the shell by a friction fit.
46. A method according to example 45, further comprising applying a second inwardly directed force after c) to at least one of the front surface or the rear surface that results in the insert dropping out of the shell due to gravity following application of the second force.
47. A cartridge for trapping insects, the cartridge comprising:
an insert comprising an adhesive portion and a reservoir storing an insect attracting composition;
a shell comprising a front surface defining an opening for receiving a flying or crawling insect, a rear surface and a bottom comprising an opening; and the insert is releaseably retained at least partially within the shell and at least a portion of
the insert passes through the opening in the bottom when inserting the insert into the shell, wherein the reservoir is positioned adjacent the bottom opening when the insert is releaseably retained at least partially within the shell; and
wherein the insert drops out of the opening in the bottom in response to an application of an inwardly directed force to one or more of the front surface of the shell or a rear surface of the shell by a user.
48. An insect trapping device according to example 47, wherein the reservoir is defined in part by a front wall that extends away from the adhesive portion.
49. An insect trapping device, comprising:
a base; and
a cartridge comprising an insert and a shell, wherein:
50. An insect trapping device according to example 49, wherein the force is applied by a hand.
51. An insect trapping device according to one of examples 49 to 50, wherein the insert drops out of the shell without the user touching the adhesive portion.
52. An insect trapping device according to one of examples 49 to 51, wherein the insert drops out of the shell due to gravity following application of the force.
53. An insect trapping device according to one of examples 49 to 52, wherein the shell comprises a lower portion and wherein the force is applied to the lower portion of the shell.
55. An insect trapping device according to example 53, wherein the shell comprises a physical indication on the lower portion.
56. An insect trapping device according to one of examples 49 to 55, wherein application of the force causes an outward deflection of one or more of the front surface of the shell and the rear surface of the shell at a location other than where the force is applied.
57. An insect trapping device according to one of examples 49 to 56, wherein the insert further comprises a reservoir storing an insect attracting composition.
58. An insect trapping device according to one of examples 49 to 57, wherein the insert further comprises a ledge having an engagement surface.
59. An insect trapping device according to one of examples 49 to 58, wherein the frame and the ledge are integrally formed.
60. An insert for insertion into a shell of an insect trapping device, the insert comprising:
an adhesive portion comprising an adhesive for trapping an insect;
a frame at least partially surrounding the adhesive portion; and
a reservoir storing a solid insect attracting composition, the reservoir being located in a lower portion of the insert.
61. An insert according to example 60, further comprising a releasable liner that covers one or more of the reservoir and the adhesive portion.
62. An insert according to one of examples 60 or 61, further comprising a light source.
63. An insert according to one of examples 60 to 62, wherein the insect attracting composition is a gel.
64. An insert according to one of examples 60 to 63, wherein the adhesive portion is non-porous.
65. An insert according to one of examples 60 to 64, wherein the adhesive portion has a front surface comprising the adhesive and wherein the insect attracting composition is on the same side of the insert as the front surface of the adhesive portion.
66. An insert according to one of examples 60 to 65, wherein the reservoir is defined by a front wall that extends away from the adhesive portion and a substantially planar rear wall.
67. An insert according to example 66, wherein the reservoir, the frame, and the substantially planar rear wall are integrally formed.
68. An insert according to one of examples 66 to 67, wherein the front wall has a convex shape, is integrally formed with the frame, and the reservoir has a volume between about 1 cm3 and 60 cm3.
69. An insert according to one of examples 66 to 68, wherein reservoir comprises a reservoir opening disposed above the insect attracting composition and wherein the adhesive portion terminates adjacent to the reservoir opening.
70. An insert according to example 69, wherein the reservoir opening is defined at least in part by the front wall.
71. An insert according to any of examples 60 to 70, wherein the insert further comprises a downwardly depending tab, wherein a vertical centerline of the downwardly depending tab is offset from a vertical centerline of the insert.
72. An insert according to any one of examples 60 to 71, wherein the insert is devoid of a shell enclosing the adhesive portion.
73. An insert according to any one of examples 60 to 72, wherein the adhesive portion consists essentially of a film having the adhesive coated thereon.
74. A packaged product, consisting essentially of a package containing one or more inserts according to any one of claims 60 to 73.
The dimensions and/or values disclosed herein are not to be understood as being strictly limited to the exact numerical dimension and/or values recited. Instead, unless otherwise specified, each such dimension and/or value is intended to mean both the recited dimension and/or value and a functionally equivalent range surrounding that dimension and/or value. For example, a dimension disclosed as “40 mm” is intended to mean “about 40 mm”.
Every document cited herein, including any cross referenced or related patent or application is hereby incorporated herein by reference in its entirety unless expressly excluded or otherwise limited. The citation of any document is not an admission that it is prior art with respect to any invention disclosed or claimed herein or that it alone, or in any combination with any other reference or references, teaches, suggests or discloses any such invention. Further, to the extent that any meaning or definition of a term in this document conflicts with any meaning or definition of the same term in a document incorporated by reference, the meaning or definition assigned to that term in this document shall govern.
While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the invention. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of this invention.
Number | Date | Country | |
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Parent | PCT/US2016/041812 | Jul 2016 | US |
Child | 16244355 | US |