INSECT LIGHT TRAP

Abstract

Certain aspects of the present disclosure provide an insect light trap for trapping insects, comprising a housing, a lamp for attracting insects mounted in the housing, a first space for receiving a first insect trap, and a second space contained in the housing. The second space has received therein a module comprising a second insect trap comprising an advancable adhesive surface for trapping the insects, and a motor to advance the adhesive surface.

Claims

1. An insect light trap for trapping insects, comprising: a housing, a lamp for attracting insects mounted in the housing, a first space for receiving a first insect trap, and a second space contained in the housing having received therein a module comprising: a second insect trap comprising an advancable adhesive surface for trapping the insects, and a motor to advance the advancable adhesive surface.

2. The insect light trap of claim 1, wherein the first insect trap comprises an adhesive surface.

3. The insect light trap of claim 2, wherein the first insect trap is a glueboard.

4. The insect light trap of claim 1, further comprising: the first insect trap.

5. The insect light trap of claim 4, wherein the first insect trap is removable.

6. The insect light trap of claim 1, further comprising: an electrical connector for connecting the module, when the module is fitted, to the insect light trap.

7. An insect trap module comprising: a housing for mounting the insect trap module in an insect light trap; an insect trap comprising an advancable adhesive surface for trapping insects; and a motor to advance the advancable adhesive surface.

8. The insect trap module according to claim 7, wherein the advancable adhesive surface comprises a roll of adhesive tape.

9. The insect trap module according to claim 8, further comprising: a plurality of guides configured to guide adhesive tape from the roll of adhesive tape over at least a portion of a top side of the insect trap module exposing the advancable adhesive surface of the roll of adhesive tape.

10. The insect trap module according to claim 9, wherein the plurality of guides comprise a plurality of rollers.

11. A method of monitoring and controlling an insect infestation, comprising: installing an insect light trap at a site, wherein the insect light trap comprises a first insect trap; monitoring a number of insects caught by the insect light trap over a period of time; and if the number of insects caught by the insect light trap over the period of time is above a threshold, fitting a module having a second insect trap to the insect light trap.

12. The method of claim 11, further comprising: when fitting the module, replacing the first insect trap in the insect light trap.

13. The method of claim 12, further comprising, when fitting the module, removing and not replacing the first insect trap.

14. The method of claim 12, further comprising: on a subsequent occasion, removing the module from the insect light trap and replacing it with a second module having a second insect trap.

15. The method of claim 11, wherein the module comprises: an advancable adhesive surface; and a motor to advance the advancable adhesive surface.

Description

DESCRIPTION OF THE DRAWINGS

[0033] Embodiments of the present invention will now be described by way of example only with reference to the accompanying drawings of which:

[0034] FIGS. 1a and 1b are views showing examples of known infestation monitoring and control insect light traps, respectively;

[0035] FIG. 2a shows a view of an infestation monitoring device according to an embodiment of the invention;

[0036] FIG. 2b shows a view of an infestation monitoring device according to an embodiment of the invention;

[0037] FIGS. 3a-3c show a various views of a modular insect trap according to an embodiment of the invention;

[0038] FIG. 4 shows a flowchart describing the process of fitting an infestation monitoring device with a modular insect trap according to an embodiment of the invention.

[0039] FIGS. 5a and 5b are schematic diagrams showing the fitting of an infestation monitoring device with a modular insect trap according to an embodiment of the invention;

DETAILED DESCRIPTION

[0040] FIG. 2a shows a view of an insect light trap 200a according to a first embodiment of the invention, which comprises a light source 202a which, in operation, attracts insects to the monitoring device 200a. The light source may be, for example, an ultra-violet (UV) LED lamp. The monitoring trap 200a further comprises a vertical adhesive surface 204a located behind the light source 202a, and so is configured as an infestation monitoring device. In the present embodiment, the adhesive surface is a standard glueboard as known in the art, and preferably has a horizontal portion at the bottom of the device as well as a vertical portion at the back. The monitoring trap further comprises a cover with louvres 501 (not shown in FIG. 2a but visible in FIGS. 5a and 5b to house the adhesive surface 204a and the light source 202a. In operation, insects are attracted to the light source 202a, which shines through the louvres in the cover 501, some of which insects land on the adhesive surface 204a becoming stuck to the adhesive surface 204a. The infestation monitoring trap 200a may be used in the same way that known infestation monitoring devices are usedi.e. to determine whether a space has an insect infestation.

[0041] FIG. 2b shows a view of an insect light trap also configured as an infestation monitoring device 200b with a glueboard, according to a second embodiment of the invention. Features that correspond to similar features of the first embodiment have the same reference numerals but with different suffixes. The monitoring trap 200b also comprises a cover 501 similar to the one of the first embodiment of the invention. The monitoring trap 200b differs from the monitoring trap 200a in that the height of the device is greater and that it comprises three separate light sources 202b, the greater height being to accommodate those.

[0042] Where different such monitoring traps 200 exist, a technician may choose which kind to use one depending on the site that is being monitored.

[0043] Advantageously, the monitoring trap 200, or each kind thereof 200a, 200b, is arranged to receive a modular insect trap such as those embodiments described below. Where more than one kind of monitoring trap is available is of further advantage to have those arranged to receive the same modular insect trap.

[0044] The kind of infestation monitoring device to be used at a site depends on the level of suspected infestation; for example a site with a suspected high level of infestation would benefit from a larger monitoring device such as the monitoring device 200b.

[0045] In yet other embodiments, the monitoring trap may have, for example two or more separate light sources and be of various heights. Advantageously, if it is determined that the space monitored has an insect infestation, then a modular insect trap, for example as described below, can be added to the infestation monitoring trap (rather than removing and replacing the monitoring trap with a new, complete infestation control trap). Also once the modular trap has become full it may be easily replaced with a fresh modular trap.

[0046] FIGS. 3a and 3b show a front view and rear view, respectively, of a modular insect trap 300 according to an embodiment of the invention. The modular insect trap 300 comprises a first roller 304 and a second, drivable roller 302. The rotation of the second roller 302 is driven by a motor 314 via a gear assembly 316, both the motor and the gear assembly being comprised in the module. In use, a roll of adhesive tape is mounted on the first roller 304 (not yet in place in FIGS. 3a and 3b). The gear assembly comprises a drive gear driven directly by the motor and a roller gear connected to axis of the second roller. The motor is an expensive part of the module, but allows the insect light trap to be easily converted from a monitoring device to an infestation controlling device, and further the basic insect light trap does not then need to be provided with a motor wastefully when it may be used many times as a monitoring device and during which period the motor could become unreliable.

[0047] FIG. 3c shows a front view of the modular insect trap 300, with the roll of adhesive tape 324 mounted on the first roller 304. The roll of adhesive tape 324 is partially unwound, passed over two guide rollers 306a and 306b, and attached to the second roller 302 (for example by insertion of the end into a slot in the roller or by winding one or more loops of adhesive tape around the second roller 302 such that the adhesive tape sticks to itself). The rollers 306a and 306b are at the upper corners of the module 300. As the rollers 306a and 306b are at extreme ends of the module 300, this advantageously allows an exposed area of adhesive tape 308 (indicated by the dashed line) to extend along the entire top side of the module 300. This maximizes the exposed area of adhesive tape 308 for catching insects when the modular insect trap 300 is inserted into an infestation monitoring trap 200.

[0048] The modular insect trap 300 further comprises a crushing roller 312, connected to a pivot 322 via an arm. A spring 310 under tension connects to the arm on the other side of the pivot 322, so that the crushing roller 312 is biased towards contact with the second roller 302 (the biased position being indicated by the dotted outline of the crushing roller 302 in FIG. 3c). In operation, the motor 314 drives rotation of the second roller 302 to wind in adhesive tape, from the area 308 via roller 306a, which is taken up around the second roller 302. During the winding of the adhesive tape around the second roller 302, the crushing roller 312 is biased towards contact with a part of the surface of the adhesive tape. It is also provided with a crushing guide 313, which is mounted on the arm to move with the crushing roller 312. This has an arcuate surface facing the second, take up roller 302 which ends near the roller close to a tangent of the roller. This helps the tape to remain fairly straight as it approaches the roller, even if a large insect has been caught, reducing the chance of the tape tearing.

[0049] In use, when the modular insect trap 300 is installed in the insect light trap 200 as described below, the light source(s) 202 attract insects to the insect light trap, some of which land on the exposed area of adhesive tape 308 of the modular insect trap 300, and are caught. The motor 314 rotates from time to time to ensure that the exposed area of adhesive tape 308 is replenished with fresh adhesive tape. Adhesive tape which holds caught insects is wound onto the second roller 302, passing under the crushing roller 312. The crushing roller 312 compresses the caught insects, with the result that the adhesive tape winds tightly onto the second roller 302, (rather than the layer of tape being spaced apart from the layer below by uncrushed insects).

[0050] The insect light trap is provided with a controller (not shown) which provides control signals to the module to advance, exposing fresh adhesive surface. In the present embodiment an example is that it does that every 30 days. In other embodiments the signals are generated to advance the adhesive tape continuously but very slowly.

[0051] While some users may prefer to fit the insect light trap 200 in infestation control mode with a glueboard on the back plane as well as the module on the bottom, this is not needed in may situations the module having sufficient capacity to collect the insects by itself. With no glueboard on the rear all killed insects are at the bottom of the unit and none are on the backplane where they are unsightly and unhygienic.

[0052] In the present embodiment the motor 314 is electrically connected to the power supply of the monitoring trap 200 via the connector 320 when installed.

[0053] FIG. 4 shows a flowchart of the process of monitoring an insect infestation and fitting an infestation monitoring trap 200 with a modular insect trap 300, according to an embodiment of the invention. Firstly, a monitoring trap 200, without the module, is placed in a space 501 for a predetermined time period (for example, six weeks). Once the time period has elapsed, the number of insects present on the adhesive surface 204 is monitored 503, for example by a technician counting the number of insects on the adhesive surface 204. If the number of insects does not indicate an infestation 505, for example if the number of insects is below a predetermined threshold, then the monitoring trap is removed 507 and no further action is taken. If the number of insects does indicate an infestation (i.e. the number of insects is above the predetermined threshold) then the modular insect trap 300 is fitted to the monitoring trap 200 (step 509). Alternatively, the monitoring trap may be left in place for a further period of monitoring.

[0054] FIGS. 5a and 5b illustrate the fitting of the modular insect trap 300 to the monitoring trap 200 according to an embodiment of the invention. The cover is removed, by being hinged open as shown. The technician removes the adhesive surface 204 (e.g. a glueboard) and counts the insects. Where it is decided to fit the modular insect trap 300 (step 509), a modular insect trap 300, prepared by fitting with adhesive tape as described previously, is offered up to the monitoring insect trap 200 and grooves 503a on the modular insect trap 300 are lined up with supporting rails 503b on the monitoring device 200, and the modular insect trap is slid into position as shown in FIG. 5b. Once in position, the connector 320 of the modular insect trap 300 connects with a connector of the monitoring device (not shown). This supplies power and data connection to the product interface. The cover 501 may then be closed.

[0055] Whilst the present invention has been described and illustrated with reference to particular embodiments, it will be appreciated by those of ordinary skill in the art that the invention lends itself to many different variations not specifically illustrated herein. By way of example only, certain possible variations will now be described.

[0056] For example, while in some embodiments the monitoring device 200a comprises a cover 500, in other embodiments there is no cover or the cover only partially houses the adhesive surface 204a and the light source 202a. Further, while in the particular embodiments illustrated the adhesive surface for example a standard glueboard as known in the art, in other embodiments any other adhesive surface or other device for catching insects maybe used.

[0057] Further, whilst in the described embodiment the crushing roller 312 is biased towards contact with the second roller 302 using a spring in tension on the opposite side of a pivot, in other embodiments the spring is on the same side of the pivot to the crushing roller 312. In yet further embodiments the crushing roller 312 is biased using other biasing means, for example an arm made of flexible material which is under bending such that the crushing roller 312 is biased towards the second roller 302.

[0058] Whilst in the described embodiments the modular insect trap 300 is supported by the monitoring trap 200 via a groove and shelf arrangement 503a, 503b, in other embodiments the modular insect trap 300 is supported by other means. For example, in some embodiments the insect trap 300 rests on a platform of the monitoring device 200.