CN217337125U - Blowing type trap lamp - Google Patents

Abstract

The utility model discloses a wind blowing formula moth-killing lamp, include: casing, air feed device and moth-killing lamp, the casing is including preceding shell and the backshell that is used for mutual lock, preceding shell includes first recess and first type groove, the backshell includes second recess and second type groove, first recess with the mutual lock of second recess forms the air feed chamber, the air feed chamber is used for laying the air feed device, first type groove with the mutual lock of second type groove forms the mosquito and collects the chamber and be used for collecting the mosquito, moth-killing lamp lays the air outlet department in air feed chamber is used for attracting the mosquito, the air feed device be used for with the mosquito that the moth-killing lamp attracted in the chamber is collected to the mosquito, preceding shell with the backshell is integrative injection moulding.

Description

Blowing type trap lamp

Technical Field

The utility model relates to a trap technical field especially, relates to wind blowing formula moth-killing lamp.

Background

Most of the existing trap lamps adopt a negative pressure suction type to collect mosquitoes, the mosquitoes can pass through fan blades rotating at a high speed by the mosquito collecting method, so that the mosquitoes are crushed, the crushed corpses can be stacked on the blades and a motor of the fan, the negative pressure providing capability of the fan is influenced, and even the accumulation of the corpses can cause the motor of the fan to generate high load and burn out, so that the pest killing function is invalid, and even accidents such as circuit short circuit, fire disaster and the like are caused; and current moth-killing lamp is divided into a plurality of modules mostly, and every module needs to make alone, and the process is complicated, and the equipment degree of difficulty is high, leads to workman intensity of labour big, and manufacturing cost is high, is unfavorable for using widely.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wind blowing type trap lamp to solve the comparatively complicated technical problem of present trap lamp manufacturing process.

According to one aspect of the utility model, a wind blowing type trap lamp is provided, which comprises a shell, a wind supply device and a trap lamp,

the shell comprises a front shell and a rear shell which are mutually buckled, the front shell comprises a first groove and a first groove, the rear shell comprises a second groove and a second groove,

the first groove and the second groove are mutually buckled to form an air supply cavity which is used for distributing the air supply device,

the first type groove and the second type groove are mutually buckled to form a mosquito collecting cavity for collecting mosquitoes,

the insect attracting lamp is arranged at the air outlet of the air supply cavity and is used for attracting mosquitoes, the air supply device is used for blowing the mosquitoes attracted by the insect attracting lamp into the mosquito collecting cavity,

the front shell and the rear shell are both integrally formed by injection molding.

Furthermore, the air supply device comprises a fan arranged in the air supply cavity, an air outlet is formed in one side, facing the mosquito collecting cavity, of the air supply cavity, and an air inlet hole is formed in the side wall of the air supply cavity.

Further, the air feed chamber include first cavity and first end with the second cavity of first cavity intercommunication each other, the second end of second cavity is the blind end, first cavity is used for laying air feed device, the second cavity orientation the air outlet is seted up to one side in chamber is collected to the mosquito, the wind that air feed device provided blows to blow toward after the blind end of second cavity carries out the reinforcing of keeping in and deposits toward chamber is collected to the mosquito.

Furthermore, the air outlet comprises a plurality of strip-type air outlet grooves formed in one side, facing the mosquito collecting cavity, of the second cavity; and one side of the mosquito collecting cavity facing the air supply cavity is provided with a hopper-shaped opening, and the strip-type air outlet groove is used for condensing the air provided by the air supply device into an air curtain and covering the hopper-shaped opening.

Further, a plurality of exhaust grooves are formed in the side wall of the mosquito collecting cavity, and the exhaust grooves are formed in the outer portion of the air inlet extending area of the bucket-shaped opening.

Furthermore, one end, close to the fan, of the strip-type air outlet groove is a near end, one end, far away from the fan, of the strip-type air outlet groove is a far end, and the groove width of the near end of the strip-type air outlet groove is smaller than that of the far end of the strip-type air outlet groove.

Furtherly, the bottom in chamber is collected to the mosquito is seted up the insect discharge mouth and the insect discharge mouth department can be dismantled and connect collection mosquito structure, the interior bottom corner in chamber is collected to the mosquito all sets up the direction swash plate, the one end of direction swash plate with the intracavity portion is collected to the mosquito links to each other, the other end of direction swash plate extends to collection mosquito structure.

Furthermore, the air-blowing type trap lamp further comprises an energy module, the energy module comprises a third groove and a fourth groove, the third groove and the fourth groove are integrally formed on the front shell and the rear shell, the third groove and the fourth groove are mutually buckled to form an energy storage cavity, a power supply is arranged in the energy storage cavity, and the power supply is externally connected with a plurality of interfaces.

Furthermore, the side wall of the housing is provided with a mounting hole, the mounting hole is used for mounting a stand column assembly, the stand column assembly is used for fixing the housing, and the inner end of the mounting hole is provided with a reinforcing structure which is used for reinforcing the housing.

Further, a mounting structure for mounting the solar panel is integrally formed on the housing.

The utility model discloses following beneficial effect has:

1. the air supply cavity and the mosquito collecting cavity are simultaneously distributed in the shell through integral injection molding, so that the air supply module and the mosquito collecting module do not need to be manufactured separately, a complex processing procedure for the air supply module and the mosquito collecting module is omitted, an assembling procedure for assembling the air supply module and the mosquito collecting module is omitted, the production cost of the device is effectively reduced through integral injection molding, and the popularization and the use of the product are facilitated; the shell is divided into the front shell and the rear shell, so that a worker can conveniently put parts such as a wind energy device into the shell and then buckle and connect the front shell and the rear shell, the disassembly and assembly procedures are simple to operate, and the labor intensity of the worker can be reduced; meanwhile, mosquitoes are sent into the mosquito collecting cavity by adopting a blowing method, so that the mosquitoes can be prevented from being adhered to the inside of the air supply device after the mosquitoes enter the air supply device and are crushed, and the phenomena that the motor of the air supply device generates high load and is burnt out, the pest killing function is invalid, and even accidents such as circuit short circuit, fire and the like are caused are prevented.

2. The first cavity arranged in the air supply cavity accumulates and reinforces the air blown by the fan, and then the air is discharged through the narrow strip-type air outlet groove, so that enough air outlet strength can be ensured to send mosquitoes into the mosquito collecting box on the premise of reducing the service power of the air supply device, the vibration generated by the fan during working is small when the air supply power is small, and the phenomenon that the mosquitoes are afraid of approaching because the mosquitoes are disturbed by the vibration of the fan can be avoided; the device is favorable for preventing mosquitoes from entering a fan area (under the condition that the mosquitoes enter the fan area, one is sucked by wind, the suction force is reduced due to the reduction of the power, the suction phenomenon of the mosquitoes can be reduced, and the other is high-heat mosquitoes, because the device adopts low-power air supply, the generated heat is small, and the suction force to the mosquitoes is small).

3. The adoption is collected the fill type mouth that chamber upper end set up and will exhaust the groove setting outside the air inlet extending direction of fill type mouth at the mosquito in chamber is collected to the mosquito, make the wind that gets into the mosquito through fill type mouth can not flow through the exhaust groove very first time, consequently, the exhaust groove can not weaken the wind-force that blows in to very first time, can guarantee to last the wind-force intensity who gets into from fill type mouth, prevent that the mosquito from the upward escape of fill type mouth, set up the exhaust groove in the both sides region of fill type mouth and make wind discharge from the exhaust groove in this region, make the regional wind-force in both sides of fill type mouth little, and the air inlet department wind-force of fill type mouth is big, utilize the characteristics that biological trend was protected the evil, can control the mosquito in the both sides of fill type mouth through the wind current, can not move to fill type mouth department, thereby the effectual mosquito escape that prevents.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic view of the internal structure of a preferred embodiment of the present invention;

FIG. 2 is a first perspective view of the preferred embodiment of the present invention;

FIG. 3 is a schematic front view of the preferred embodiment of the present invention;

fig. 4 is a second perspective view of the preferred embodiment of the present invention.

The reference numbers indicate:

1. an air supply device; 2. an insect attracting lamp; 3. a mosquito collecting cavity; 4. an energy module; 5. a mounting structure; 6. a weight reduction groove; 7. A wind supply cavity; 8. a housing;

11. a fan;

32. a bucket-shaped opening; 33. an exhaust duct; 34. a pest discharging port; 36. a guide sloping plate; 37. mounting holes; 38. a reinforcing structure;

41. an interface;

81. a front housing; 82. a rear housing;

113. a strip-type air outlet groove;

121. a first cavity; 122. a second cavity.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

As shown in fig. 1 and 2, a wind-blowing type trap lamp is characterized by comprising: the mosquito trapping lamp comprises a shell 8, an air supply device 1 and a trap lamp 2, wherein the shell 8 comprises a front shell 81 and a rear shell 82 which are mutually buckled and connected, a first groove and a first type groove are formed in the front shell 81, a second groove and a second type groove are formed in the rear shell 82, an air supply cavity 7 for mounting the air supply device 1 is formed between the first groove and the second groove in a buckled mode, a mosquito collecting cavity 3 for collecting mosquitoes is formed between the first type groove and the second type groove in a buckled mode, and the buckled connection mode can be a detachable connection mode such as a plug-in fit mode and a screw connection mode; the air supply device 1 is a fan 11 or a fan, the insect-attracting lamp 2 is used for attracting mosquitoes, the air supply device 1 is used for blowing the mosquitoes attracted by the insect-attracting lamp 2 into the mosquito collecting cavity 3, and the front shell 81 and the rear shell 82 are both integrally injection-molded, so that the manufacturing cost is effectively reduced; the device adopts a wind blowing type insect collecting method to prevent mosquitoes from passing through the air supply device 1, so that corpses of the mosquitoes can be prevented from being adhered and stacked in the air supply device 1 due to the fact that the mosquitoes are crushed, and the power structure of the air supply device 1 is effectively protected; the shell body 8 is designed to be detachably buckled and connected by the front shell 81 and the rear shell 82, so that the parts such as the air supply device 1 and the like can be conveniently installed and detached in the shell body 8, and the front shell 81 and the rear shell 82 are integrally formed by injection molding, so that the structure of the existing trap lamp is simplified, and the difficulty in production and manufacturing of the trap lamp is reduced; meanwhile, the production efficiency of the product is high, the cost is low, and the product is easy to popularize and use; the mosquitoes include mosquitoes, flies, moths and the like.

The outer surfaces of the front and rear cases 81 and 82 may be designed to be tapered to facilitate stacking with each other, thereby facilitating mass transportation of the device.

As shown in fig. 1, the housing 8 is integrally formed with an installation structure 5 for installing a solar panel, the installation structure 5 may include a first fixing member and a second fixing member, both the first fixing member and the second fixing member have openings, the front housing 81 is integrally formed with the first fixing member, the rear housing 82 is integrally formed with the second fixing member, and the first fixing member and the second fixing member are fastened to each other to form the installation structure 5 for installing a solar panel assembly; the mounting structure 5 may also be used to mount a wind energy assembly by which the apparatus is powered.

As shown in fig. 1, the device further includes an energy module 4, the energy module 4 includes a third groove integrally formed on the front casing 81 and a fourth groove integrally formed on the rear casing 82, an energy storage cavity for installing a power supply is formed after the third groove and the fourth groove are mutually buckled, an interface 41 for a plurality of power supplies is formed on the energy storage cavity, and the interface 41 can be a solar panel interface, a USB interface, a type-c interface, etc. Preferably, the energy storage cavity is adjacent to the air supply cavity 7, so that the connection distance is shortened, and the energy module 4 in the energy storage cavity supplies energy to the air supply device 1 in the air supply cavity 7.

As shown in fig. 1, a mounting hole 37 is formed in a side wall of the mosquito collecting cavity 3, the mounting hole 37 is used for mounting a stand column assembly, the stand column assembly is used for fixing the mosquito collecting cavity 3, a reinforcing structure 38 is arranged at an inner end of the mounting hole 37, the reinforcing structure 38 is used for reinforcing and protecting the mosquito collecting cavity, and the stand column assembly is prevented from being damaged by external force at the mounting hole 37; preferably, when the device is used indoors, the device can be connected with objects such as walls, floors, windows, ceilings and the like through the upright post assembly; when the device is used outdoors, the stand column assembly can be connected with objects such as trees, street lamps, pavements and the like, so that the use range of the device is convenient to expand, and the practicability is improved. Preferably, the reinforcing structure 38 is integrally formed with the housing 8, which reduces the number of steps required to manufacture the reinforcing structure.

As shown in fig. 2, the mosquito collecting cavity 3 is provided with a weight reduction groove 6 for reducing the weight of the mosquito collecting cavity itself, and preferably, the weight reduction groove 6 is integrally formed with the casing 8.

As shown in fig. 1, the air supply cavity 7 includes a first cavity 121 and a second cavity 122 communicated with the first cavity 121, the diameter of the first cavity 121 is greater than that of the second cavity 122, the length of the first cavity 121 is less than that of the second cavity 122, the first cavity 121 with a larger diameter and a shorter length is used for arranging the fan 11, a plurality of strip-shaped air outlet slots 113 are formed at the bottom of the second cavity 122 with a smaller diameter and a longer length, and air blown out by the fan 11 is blown from the first cavity 121 with a larger diameter to the second cavity 122 with a smaller diameter, so that the wind power can be enhanced; preferably, the blowing direction of the fan 11 is set towards the closed end of the second cavity 122, and meanwhile, through the opening of the strip-type air outlet groove 113, the wind blows into the second cavity 122 to be continuously pressurized and then is discharged from the narrow opening, so that the wind power is strengthened again, and the wind strength of the fan 11 for blowing the mosquitoes into the mosquito collecting cavity 3 is ensured. Preferably, the width of the side of the strip-shaped air outlet groove 113 close to the fan 11 is narrower than the width of the side of the strip-shaped air outlet groove 113 far from the fan 11, so that the wind force blowing out from the whole strip-shaped air outlet groove 113 is uniform, and mosquitoes are prevented from escaping from the position where the wind force blowing into the mosquito collecting cavity 3 is small; preferably, the slot width of the strip-type air outlet slot 113 at the end close to the fan 11 is 1mm-3mm, the slot width of the strip-type air outlet slot 113 at the end far away from the fan 11 is 2mm-4mm, and the near end and the far end of the strip-type air outlet slot 113 are in linear transition, so as to ensure that the wind power blown out from the strip-type air outlet slot is uniform; the numerical range of the width can ensure that the wind has enough wind power after coming out of the strip-type wind outlet groove 113, and the narrower width can lead to continuous pressurization in the second cavity and difficult discharge of the wind; if the width of the second cavity is wider, the second cavity cannot achieve a good energy storage and pressurization effect, and preferably, a plurality of connecting ribs are connected in the strip-shaped air outlet groove 113 to prevent the second cavity from deforming.

The strip-shaped air outlet groove 113 can be replaced by a spray hole or a nozzle, and a smaller air outlet can be ensured, so that the second cylinder can store and enhance the air and then spray the air.

The strip-type air outlet groove 113, the spray holes, the nozzles and the like can extend outwards and are bent towards the hopper-shaped opening to enable wind to act on the inclined surface, and the special design of the bent air channel is beneficial to weakening noise generated by air flow during passing and reducing the alertness of mosquitoes.

Preferably, the outlet of the air duct can be directed to the inclined plane of the hopper-shaped opening, so that mosquitoes can be conveniently blown into the mosquito collecting cavity.

Further, a transition cavity is arranged between the first cylinder 121 and the second cylinder 122, and the radial size of the transition cavity gradually decreases from the first cylinder 121 to the second cylinder 122 and then gradually increases; preferably, the transition cavity adopts a venturi cavity to accelerate the flow rate of gas passing through the position, so that a low-pressure area is formed at the outer ring of the outlet of the venturi; preferably, a plurality of convex rings arranged along the circumferential direction are arranged in the transition cavity to further accelerate the air flow and ensure the design purposes of low-speed air inlet and quick air outlet. Preferably, the second cylinder 122 is a conical cylinder, the diameter of the conical cylinder close to one end of the fan is larger than the diameter of the conical cylinder far away from one end of the fan 11, a spiral pressure increasing plate is mounted on the inner wall of the conical cylinder or a spiral pressure increasing groove is formed in the inner wall of the conical cylinder, small negative pressure is generated when air enters the fan 11 through the design to enhance the wind power, mosquitoes are prevented from entering the fan, and meanwhile, the wind power going out from the wind supply cavity can be guaranteed to be large enough to be used for pushing the mosquitoes into the mosquito collecting cavity 3, so that the device meets the actual use requirements of small wind power and large wind power for air outlet.

Preferably, the second cavity 122 is a tapered cavity, the diameter of the tapered cavity close to one end of the fan is larger than the diameter of the tapered cavity far away from one end of the fan 11, a spiral pressure increasing plate is mounted on the inner wall of the tapered cavity or a spiral pressure increasing groove is formed in the inner wall of the tapered cavity, small negative pressure is generated when wind enters the fan 11 to enhance wind power, mosquitoes are prevented from entering the fan, and meanwhile, the wind power going out of the wind supply cavity 7 can be guaranteed to be large enough to push the mosquitoes into the mosquito collecting cavity 3, so that the device meets the actual use requirements of small wind power and large wind power for air outlet.

Preferably, the insect attracting lamp 2 is connected to the air outlet of the air supply cavity 7, the working temperature of the light source can be reduced through wind power, band drift caused by overhigh temperature is reduced, the service life of the light source is prolonged, preferably, the insect attracting lamp 2 is a lamp strip or a lamp tube, preferably, the insect attracting lamp 2 is a lamp strip, the lamp strip is installed on the air supply cavity 7 among the strip-shaped air outlet grooves 113, compared with the lamp tube, the insect attracting lamp protrudes out of the air supply cavity 7, the occupied space is small, the insect attracting lamp is not easily damaged by external force, meanwhile, the light emitting area is large, and insect attracting is facilitated; the lamp strip is arranged at the air outlet of the air supply cavity 7, and the working temperature of the light source is reduced due to the large air area of the lamp strip; preferably, the insect-attracting lamp 2 is slightly hot and adopts a lamp strip with the wave band of 365nm-395nm, so that mosquitoes are attracted to the maximum extent.

Furthermore, a mosquito trapping module can be arranged between the air outlet of the air supply cavity and the hopper-shaped opening, the mosquito trapping module can comprise a smell emission device, a temperature adjusting device, a carbon dioxide generating device, a humidity adjusting device, an audio generator and the like, and the mosquitoes are induced to the maximum extent by constructing a complete information inducing system, so that the mosquitoes enter the position between the air outlet and the hopper-shaped opening and are blown into the mosquito collecting cavity 3 by the air curtain for collection; the mosquito trapping module can also be arranged in an air inlet extending area of an air outlet of the air supply cavity or near the trap lamp or directly replace the trap lamp 2 for use.

Further, an air inlet hole of the air supply cavity 7 is provided with an anti-mosquito grid for preventing mosquitoes from entering the air supply cavity 7.

As shown in fig. 2, the mosquito collecting chamber 3 faces the hopper-shaped opening 32 on one side of the air supply device, and the plurality of air discharge grooves 33 are disposed outside the air inlet extending direction of the hopper-shaped opening 32, and a corner is formed between the hopper-shaped opening 32 and the inner wall of the mosquito collecting chamber 3, so as to prevent the air from entering the mosquito collecting chamber 3 and being guided by the side wall of the mosquito collecting chamber 3, so that the air flow can carry away the mosquitoes originally entering the mosquito collecting chamber 3, and the air discharge grooves 33 are opened outside the air inlet extending direction of the hopper-shaped opening 32 (as shown in fig. 1), i.e. the air entering the mosquito collecting chamber 3 through the hopper-shaped opening 32 will not flow through the air discharge grooves 33 at the first time, so that the air discharge grooves 33 will not weaken the air blown in at the first time, the wind strength continuously entering from the hopper-shaped opening 32 can be ensured, and the mosquitoes can be prevented from escaping upwards from the hopper-shaped opening 32, and the air discharge grooves 33 are disposed at the lower side of the corner formed between the hopper-shaped opening 32 and the inner wall of the upper portion of the mosquito collecting chamber 3, when wind passes through, the wind is discharged from the air exhaust groove 33, so that the wind power at the corner of the mosquito collecting cavity 3 is small, and the wind power at the air inlet part of the hopper-shaped opening 32 is large, and by utilizing the characteristics of biological trend and pest avoidance, mosquitoes can be controlled in corner areas at two sides of the mosquito collecting cavity 3 through wind flow, so that the mosquitoes are effectively prevented from escaping; preferably, the vertical distance between the strip type air outlet groove 113 and the top end of the hopper-shaped opening is 5cm-20cm (the distance is too small, mosquitoes are difficult to fly in, and the effect of the trap lamp is greatly reduced, so that the mosquito killing effect is poor); preferably, the whole height of the bucket-shaped opening is 3cm-7cm, and the width between the bottom and the top of the bucket-shaped opening is 1cm-3cm, so that mosquitoes slide in along a slope in a blast environment and are difficult to climb out or fly out from the lower end opening.

Through the mosquito-proof grid, the hopper-shaped opening 32 and the blowing type mosquito collecting method matched with the fan 11, insects can be prevented from being sucked into the air supply device due to negative pressure when the fan 11 supplies air, the phenomenon that the fan 11 runs unsmoothly or even burns out due to the accumulation of insect corpses is avoided, beneficial insects are prevented from being killed, the insects are blown into the mosquito collecting cavity 3 through the blowing type method instead of being sucked through the negative pressure, the use power of the air supply device 1 can be reduced, the phenomenon that pests are away from the device due to shaking caused by the air supply device 1 is weakened, meanwhile, the insects are pressed in the mosquito collecting cavity 3 through continuous wind power, the hopper-shaped opening 31 is matched with the wind power to further prevent the insects from escaping from the mosquito collecting cavity 3, the beneficial insects and the pests are pressed in the mosquito collecting cavity 3, and the pests mainly eat green plant water nutrition due to the characteristics of the pests and the beneficial insects, the insect collecting cavity 3 is not provided with green plant resources, so that the insects are starved or blown to die, the beneficial insects mainly capture the insects as a food source, the life cycle can be prolonged, the beneficial insects can be released when the insect collecting box is manually cleaned, and the fatality rate of the beneficial insects is reduced.

Further, the shape of the hopper-shaped opening 32 corresponds to the strip-shaped air outlet groove 113 and is set to be in a long strip shape, the matching of the long strip-shaped air outlet groove 113 and the long strip-shaped opening 32 can effectively enhance the wind power entering the mosquito collecting cavity 3 from the hopper-shaped opening 32, meanwhile, the long strip-shaped air outlet groove 113 in the long strip shape can help to form a wind curtain in a condensation mode, so that the wind curtain can blow the inclined plane of the hopper-shaped opening 32 at a high speed, the wind curtain can well shield the hopper-shaped opening 32, the wind power provided by the fan 11 can be fully utilized, the waste of the wind power is reduced, mosquitoes are convenient to blow in, the entrance area of the mosquito collecting cavity 3 is reduced due to the arrangement of the long strip-shaped opening 32 in the long strip shape, and the effect of preventing mosquitoes from escaping from the mosquito collecting cavity 3 can be further enhanced.

Further, arrange worm mouth 34 and arrange worm mouth 34 department and can dismantle connection collection mosquito structure in the bottom that the chamber 3 was collected to the mosquito, the interior bottom corner that the chamber 3 was collected to the mosquito all sets up direction swash plate 36, and the one end of direction swash plate 36 links to each other with the mosquito is collected the chamber 3 is inside, and the other end of direction swash plate 36 extends to in collection mosquito structure is used for leading-in collection mosquito structure of insect to make the insect corpse can not the adhesion on the inner wall that the chamber 3 was collected to the mosquito, be convenient for the user through collection mosquito structure with the insect corpse discharge, the beneficial insect that wherein survives when with the insect corpse discharge can be released.

One embodiment of the mosquito collecting structure comprises a slot and a plug board, wherein the slot is arranged at the insect discharging port 34 at the bottom of the mosquito collecting cavity 3, and the plug board can be inserted into the slot to seal the insect discharging port.

Another embodiment of collection mosquito structure is the base including the top surface indent, and the outer end of insect discharge port 34 can be dismantled and be connected with the base of top surface indent, collects the mosquito through the base of indent, is difficult for making the mosquito drop.

It is worth mentioning that a closing structure may be provided at the hopper-shaped opening for closing the hopper-shaped opening, so that the mosquitoes living in the mosquito collecting chamber 3 may not escape when the fan is stopped (e.g. accidental failures such as fan damage, energy exhaustion, human being, jamming, etc.).

The closed structure comprises a movable baffle arranged at the position of the hopper-shaped opening, and the movable baffle can be arranged at the position of the hopper-shaped opening in a translation or turnover manner. Meanwhile, the movable baffle can be driven in various modes, the first driving mode of the movable baffle can be a manual mode, the bucket-shaped opening is opened by moving the movable baffle when the bucket-shaped opening needs to be used, and the bucket-shaped opening is closed by the movable baffle when the bucket-shaped opening does not need to be used, so that the driving mode is simple in structure and low in manufacturing cost; the movable baffle plate can be connected with a return spring in a second driving mode, and when the movable baffle plate is subjected to oncoming wind, the movable baffle plate overcomes the prepressing elastic force of the return spring to move so as to open the hopper-shaped opening, so that mosquitoes can be conveniently blown into the mosquito collecting cavity to be collected; when the fan is stopped, the prepressing elastic force of the return spring forces and drives the movable baffle to return so as to seal the hopper-shaped opening to prevent mosquitoes from escaping.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wind-blowing type trap lamp, comprising: the insect trap comprises a shell (8), an air supply device (1) and an insect trap lamp (2), wherein the shell (8) comprises a front shell (81) and a rear shell (82) which are mutually buckled, the front shell (81) comprises a first groove and a first groove, the rear shell (82) comprises a second groove and a second groove,

the first groove and the second groove are mutually buckled to form an air supply cavity (7), the air supply cavity (7) is used for distributing the air supply device (1),

the first type groove and the second type groove are mutually buckled to form a mosquito collecting cavity for collecting mosquitoes,

the insect trap lamp (2) is arranged at the air outlet of the air supply cavity (7) and is used for attracting mosquitoes, the air supply device (1) is used for blowing the mosquitoes attracted by the insect trap lamp (2) into the mosquito collection cavity (3),

the front shell (81) and the rear shell (82) are integrally formed by injection molding.

2. A wind-blowing type trap lamp as claimed in claim 1, characterized in that said wind supply device (1) comprises a fan (11) disposed in said wind supply chamber (7), an air outlet is provided at one side of said wind supply chamber (7) facing said mosquito collecting chamber (3), and an air inlet is provided at a side wall of said wind supply chamber (7).

3. The air-blowing type insect trap lamp of claim 2, wherein the air supply cavity (7) comprises a first cavity (121) and a second cavity (122) with a first end communicated with the first cavity (121), a second end of the second cavity (122) is a closed end, the first cavity (121) is used for arranging the air supply device (1), an air outlet is formed in one side, facing the mosquito collecting cavity (3), of the second cavity (122), and the air provided by the air supply device (1) is blown to the closed end of the second cavity (122) to accumulate and enhance and then blown to the mosquito collecting cavity (3).

4. The air-blowing type trap lamp of claim 3, wherein the air outlet comprises a plurality of strip-shaped air outlet grooves (113) which are formed in one side of the second cavity (122) facing the mosquito collecting cavity (3); and one side of the mosquito collecting cavity (3) facing the air supply cavity (7) is provided with a hopper-shaped opening (32), and the strip-type air outlet groove (113) is used for condensing the air provided by the air supply device (1) into an air curtain and covering the hopper-shaped opening (32).

5. A wind-blowing type insect trap lamp as claimed in claim 4, characterized in that the side wall of the mosquito collecting chamber (3) is provided with a plurality of air discharge grooves (33), and the air discharge grooves (33) are arranged outside the air inlet extending area of the hopper-shaped opening (32).

6. The air-blowing type insect trap lamp of claim 4, wherein the end of the strip type air outlet groove (113) close to the fan (11) is a near end, the end of the strip type air outlet groove (113) far away from the fan (11) is a far end, and the groove width of the near end of the strip type air outlet groove (113) is smaller than that of the far end of the strip type air outlet groove (113).

7. The air-blowing type insect trap lamp of claim 1, wherein the bottom of the mosquito collecting chamber (3) is provided with an insect discharging opening and the insect discharging opening is detachably connected with a mosquito collecting structure, the inner bottom corners of the mosquito collecting chamber (3) are provided with inclined guide plates (36), one end of each inclined guide plate (36) is connected with the inside of the mosquito collecting chamber (3), and the other end of each inclined guide plate (36) extends to the mosquito collecting structure.

8. The wind-blowing type insect trap lamp of claim 1, further comprising an energy module (4), wherein the energy module (4) comprises a third groove integrally formed on the front shell (81) and a fourth groove integrally formed on the rear shell (82), the third groove and the fourth groove are mutually buckled to form an energy storage cavity, a power supply is arranged in the energy storage cavity, and the power supply is externally connected with a plurality of interfaces (41).

9. A wind-blowing type insect trap lamp as claimed in claim 1, characterized in that the side wall of the housing (8) is provided with a mounting hole (37), the mounting hole (37) is used for mounting a column assembly, the column assembly is used for fixing the housing (8), the inner end of the mounting hole (37) is provided with a reinforcing structure (38), and the reinforcing structure (38) is used for reinforcing the housing (8).

10. A wind-activated light trap as claimed in claim 1 wherein the housing (8) is integrally formed with mounting means (5) for mounting a solar panel.

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