CN214801864U - Mosquito eradication lamp - Google Patents

Abstract

The utility model provides a mosquito killer lamp relates to kill mosquito technical field. The mosquito killer lamp comprises a base and a lamp holder arranged on the base, wherein a mosquito storage tank and an air suction assembly are arranged in the base, an air inlet of the air suction assembly is arranged on the top surface of the base, an air outlet of the air suction assembly is communicated with an inlet of the mosquito storage tank, and the mosquito storage tank is provided with an exhaust hole; mosquito-lured lamp and hand switch are installed to the lamp stand, and the mosquito-lured lamp is corresponding with the air outlet, and the lamp stand internal stability has set firmly the circuit board, and the circuit board is equipped with switch module and prevents empting the module, and hand switch and switch module phase-match, switch module and prevent empting the module and all are used for controlling the on off state of the subassembly and the mosquito-lured lamp that induced draft. In the mosquito killer lamp, the anti-toppling module can change the on-off state of the anti-toppling module according to the placement state of the mosquito killer lamp, so that the automatic power-off operation of the mosquito killer lamp during toppling is realized, and the use safety of the mosquito killer lamp is ensured; the anti-toppling module is arranged on the circuit board, and the circuit board has two purposes, so that the internal structure of the lamp holder is simplified, and the processing difficulty and the cost of the lamp holder are reduced.

Description

Mosquito eradication lamp

Technical Field

The utility model relates to a kill mosquito technical field particularly, relates to a mosquito killer lamp.

Background

The negative pressure air flow type mosquito killer lamp is a simple, practical and environment-friendly mosquito killing device which is used for killing mosquitoes through the air suction assembly after the mosquito trapping lamp releases light beam chemical substances to trap the mosquitoes according to the life habits of the mosquitoes, and is widely applied to the daily life of people. Because the mosquito-lured lamp and the air suction assembly in the mosquito killer lamp need to be electrified for use, when the mosquito killer lamp is toppled over, the electronic components can be burnt out due to short circuit even causing fire disasters when continuously running.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mosquito killer lamp to when solving current mosquito killer lamp and empting, electronic components such as mosquito-lured lamp and the subassembly that induced drafts continue to operate and probably the short circuit burns out or even arouses the technical problem of conflagration.

In order to solve the problems, the utility model provides a mosquito killer lamp, which comprises a base and a lamp holder arranged on the base, wherein a mosquito storage tank and an air suction assembly are arranged in the base, an air inlet of the air suction assembly is arranged on the top surface of the base, an air outlet of the air suction assembly is communicated with an inlet of the mosquito storage tank, and the mosquito storage tank is provided with an exhaust hole;

the mosquito-lured lamp and the manual switch are installed to the lamp stand, the mosquito-lured lamp with the air outlet is corresponding, the circuit board has set firmly in the lamp stand, the circuit board is equipped with switch module and prevents empting the module, the manual switch with switch module phase-match, switch module reaches prevent empting the module all is used for controlling the subassembly that induced drafts reaches the on-off state of mosquito-lured lamp.

Optionally, the top surface of base is equipped with the baffle arm, the top of baffle arm with the lamp stand is connected, the mosquito-lured lamp is located the bottom surface of lamp stand, the air intake is located the top surface of the subassembly that induced drafts.

Optionally, the baffle arm is two, two the baffle arm is located the relative both sides of base top surface, the air intake is located two between the baffle arm, the bottom surface of lamp stand, two the baffle arm with the top surface of base encloses into the mosquito space of catching jointly.

Optionally, the top surface of the base and the arm surfaces of the two blocking arms facing the base form a "U" shaped surface together, the "U" shaped surface is provided with a "U" shaped grid area, and the grid area serves as the air inlet.

Optionally, the subassembly that induced drafts with store up and communicate through the draft tube between the mosquito jar, just store up the mosquito jar with the detachable connection of draft tube, the draft tube certainly the subassembly that induced drafts to it is the throat form to store up the mosquito jar, just the throat end of draft tube is equipped with the separation and keeps off the net.

Optionally, the mosquito storage tank comprises a bottom plate and a side wall plate surrounding the bottom plate, the side wall plate comprises a grid cylinder and a connecting cylinder along the axial direction of the side wall plate, the grid cylinder is connected between the bottom plate and the connecting cylinder, a grid hole in the grid cylinder is used as the exhaust hole, and a cylinder opening of the connecting cylinder is used as the inlet; the bottom of base is equipped with the opening, store up mosquito jar peg graft in the opening, just connect the barrel with the detachable connection of draft tube.

Optionally, an accommodating cylinder which is communicated up and down is arranged in the base, and the bottom end of the accommodating cylinder is correspondingly connected with the edge of the opening; the outer diameter of the connecting cylinder body is larger than that of the grid cylinder body, the mosquito storage tank is inserted into the containing cylinder and is connected with the guide cylinder in a buckling mode, and the connecting cylinder body is matched with the containing cylinder.

Optionally, store up the mosquito jar with the draft tube is rotation type buckle and connects, the edge of bottom plate is equipped with first sign, the bottom of an accommodation section of thick bamboo is equipped with the second sign, first sign with the second sign cooperatees, in order to be used for discerning connect the barrel with the hookup location of draft tube.

Optionally, store up the mosquito jar and still include the top cap that is the loudspeaker form, the flaring end of top cap with the nozzle of connecting the barrel corresponds the intercommunication, the throat end orientation of top cap the bottom plate extends.

Optionally, a port of the necking end of the top cover is provided with a blocking rib, and the blocking rib blocks the port into two parts.

When the mosquito killer lamp provided by the utility model is used, the mosquito killer lamp is placed on the approximately horizontal platform, and the anti-toppling module is correspondingly in a circuit connection state; the manual switch can be turned on by a user, the manual switch is in contact with the switch module and conducts the mosquito-lured lamp and the air suction assembly, the mosquito-lured lamp and the air suction assembly are both in a power-on and turn-on state, wherein the mosquito-killing lamp emits mosquito-lured light outwards, and mosquitoes fly to the mosquito-lured lamp under the attraction effect of the light; wherein, the subassembly that induced drafts produces suction to the air and the mosquito of its air inlet region, the mosquito flows into it along with the air current through the air intake of the subassembly that induced drafts to in the air outlet of the subassembly that induced drafts and the entry that stores up the mosquito jar, the air current is discharged through the exhaust hole that stores up the mosquito jar afterwards, the mosquito is then locked in storing up the mosquito jar, the air current lasts and blows through storing up the mosquito jar, the mosquito in the storage mosquito jar is air-dried and is killed, thereby accomplish the mosquito killer lamp to killing of mosquito. When the mosquito killer lamp tumbles, prevent empting the module and be the state of opening circuit thereupon, the mosquito killer lamp also is in the state of opening circuit with the subassembly that induced drafts correspondingly, the equal stop motion of mosquito killer lamp and the subassembly that induced drafts to the automatic power-off operation when realizing empting the mosquito killer lamp, correspond to the mosquito killer lamp and the subassembly that induced drafts plays the guard action, in order to reduce the mosquito killer lamp and the emergence of the subassembly short circuit condition of burning out even that induced drafts when the mosquito killer lamp is emptyd the state, and then ensure the safety in utilization of mosquito killer lamp.

In addition, prevent empting the module and set up on the circuit board, the circuit board still as preventing empting the mount pad of module except being used for bearing switch module and other electronic chip, and a thing is dual-purpose, and during processing mosquito killer lamp, need not to process the mounting groove that is used for fixed preventing empting the module or set up the mount pad that is used for installing preventing empting the module specially in the lamp stand to simplify lamp stand inner structure and reduce its processing degree of difficulty and cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of a first viewing angle of the mosquito killer lamp provided by the present invention;

fig. 2 is a schematic view of a second viewing angle of the mosquito killer lamp provided by the present invention;

fig. 3 is a schematic view of a third view angle of the mosquito killer lamp provided by the present invention;

FIG. 4 is a sectional view of the mosquito killer lamp provided by the present invention;

fig. 5 is a schematic view of a circuit board in the mosquito killer lamp provided by the present invention;

FIG. 6 is a schematic view showing the connection between a mosquito storage tank and a guide cylinder of the mosquito killer lamp of the present invention;

FIG. 7 is a schematic view of a mosquito storage tank in the mosquito killer lamp according to the present invention;

FIG. 8 is an exploded view of the mosquito storage tank and the diversion cylinder of FIG. 6.

Description of reference numerals:

100-a base; 110-barrier arm; 120-a containing cylinder; 121-a second identifier; 130-left shell; 140-a right housing; 200-lamp holder; 210-a circuit board; 220-a switch module; 230-anti-toppling module; 240-mosquito-lured lamp; 241-a lamp holder; 242-lamp shade; 250-a manual switch; 260-a bottom cover; 270-top cover; 300-a suction assembly; 310-a housing; 311-an air inlet; 320-a fan; 330-a protective cover; 400-a mosquito storage tank; 410-a bottom plate; 411-first identification; 420-side coaming; 421-air outlet; 422-a first clamping boss; 423-limit groove; 424-second catching groove; 425-a grating cylinder; 426-connecting the cylinder; 430-a top cover; 431-inlet; 432-barrier ribs; 433-a second clamping boss; 434-avoidance slot; 440-an extension; 450-a handle; 500-a draft tube; 510-barrier nets; 520-a first catching groove; 530-limiting boss; 600-mosquito catching space; 700-electric storage module.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The present embodiment provides a mosquito killer lamp, as shown in fig. 1-4, comprising a base 100 and a lamp holder 200 installed on the base 100, wherein a mosquito storage tank 400 and an air suction assembly 300 are installed in the base 100, an air inlet 311 of the air suction assembly 300 is installed on the top surface of the base 100, an air outlet of the air suction assembly 300 is communicated with an inlet 431 of the mosquito storage tank 400, and the mosquito storage tank 400 is provided with an air outlet 421; the lamp holder 200 is provided with a mosquito-lured lamp 240 and a manual switch 250, the mosquito-lured lamp 240 corresponds to the air outlet, a circuit board 210 is fixedly arranged in the lamp holder 200, the circuit board 210 is provided with a switch module 220 and an anti-toppling module 230, the manual switch 250 is matched with the switch module 220, and the switch module 220 and the anti-toppling module 230 are both used for controlling the on-off states of the air suction assembly 300 and the mosquito-lured lamp 240.

The mosquito killer lamp provided by the embodiment comprises a base 100 and a lamp holder 200 as a bearing seat, wherein the lamp holder 200 bears a circuit board 210 and a manual switch 250 for controlling an electric appliance, and further comprises a mosquito-luring lamp 240 for emitting light outwards to lure mosquitoes; the base 100 carries a mosquito storage tank 400 for containing mosquitoes and a suction assembly 300 for blowing the mosquitoes attracted by the mosquito-luring lamp 240 into the mosquito storage tank 400. When the anti-toppling anti-falling module 230 is used, the mosquito killer lamp is placed on an approximately horizontal platform, and the anti-toppling anti-falling module is correspondingly in a circuit connection state; the user can turn on the manual switch 250, the manual switch 250 is in contact with the switch module 220 and conducts the mosquito-lured lamp 240 and the air suction assembly 300, and both the mosquito-lured lamp 240 and the air suction assembly 300 are in an electrified and turned-on state, wherein the mosquito-lured lamp 240 emits light outwards, and mosquitoes fly to the mosquito-lured lamp 240 under the attraction effect of the light; wherein, the air suction assembly 300 sucks air and mosquitoes in the area of the air inlet 311, the mosquitoes flow into the air suction assembly 300 through the air inlet 311 along with the air flow, and enter the mosquito storage tank 400 through the air outlet of the air suction assembly 300 and the inlet 431 of the mosquito storage tank 400, the air flow is discharged through the exhaust hole 421 of the mosquito storage tank 400, the mosquitoes are locked in the mosquito storage tank 400, the air flow continuously blows through the mosquito storage tank 400, and the mosquitoes in the mosquito storage tank 400 are air-dried and killed, thereby completing the killing of the mosquitoes by the mosquito killer lamp.

When the mosquito killer lamp tumbles, prevent empting module 230 along with it for the state of opening circuit, mosquito-lured lamp 240 also is in the state of opening circuit with the subassembly 300 that induced drafts correspondingly, mosquito-lured lamp 240 and the subassembly 300 that induced drafts all stop operation, thereby realize the auto-power-off operation when empting the mosquito killer lamp, correspond to the mosquito killer lamp and the subassembly 300 that induced drafts plays the guard action, with the mosquito killer lamp and the emergence of the subassembly 300 short circuit that induced drafts even burning out the condition when reducing the mosquito killer lamp and empting the state, and then ensure the safety in utilization of mosquito killer lamp.

In addition, as shown in fig. 4 and 5, the anti-toppling module 230 is disposed on the circuit board 210, and the circuit board 210 is used as a mounting seat for the anti-toppling module 230 in addition to carrying the switch module 220 and other electronic chips, so that the anti-toppling module 230 can be mounted on the circuit board 210 in a simple manner, and the anti-toppling module 230 can be mounted on the circuit board 210 in a simple manner.

Specifically, the anti-toppling module 230 can be an anti-toppling switch, the switch module 220, the mosquito-lured lamp 240, the air suction assembly 300 and the power supply module of the mosquito killer lamp are all in circuit communication through a circuit board, when the mosquito killer lamp is in a horizontal placement state, the anti-toppling switch is in a communication state, a user turns on the manual switch 250, the manual switch 250 is communicated with the switch module 220, and the mosquito-lured lamp 240 and the air suction assembly 300 are powered on and started to operate to kill mosquitoes; when the manual switch 250 is turned off, the switch module 220 is in an open circuit state, or when the mosquito killer lamp is tilted, the anti-toppling switch is in an open circuit state, and in both cases, the mosquito-lured lamp 240 and the air suction assembly 300 are in an open circuit state and stop working correspondingly.

Specifically, the power module can adopt a power line form, and when the power module is used, the power line is communicated with an external power supply; as shown in fig. 1, the power supply module may also take the form of a powerless power storage module 700.

Certainly, the anti-toppling module 230 can be an inclination sensor besides the above-mentioned anti-toppling switch, and the inclination sensor, the mosquito-trapping lamp 240 and the air suction assembly 300 are all connected with the processing module of the circuit board 210, when the manual switch 250 is in the on state and the mosquito-trapping lamp is in the horizontal state, the inclination sensor detects that the mosquito-trapping lamp is in the horizontal state, and correspondingly feeds back the path signal to the processing module, the processing module controls to turn on the mosquito-trapping lamp 240 and the air suction assembly 300, and the mosquito-trapping lamp 240 and the air suction assembly 300 are correspondingly turned on to perform mosquito-trapping and mosquito-killing operations; when the mosquito killer lamp is tilted, the tilt angle sensor detects that the mosquito killer lamp is in a tilting state, the open circuit signal is correspondingly fed back to the processing module, the processing module controls the mosquito-luring lamp 240 and the air suction assembly 300 to be turned off, and the mosquito-luring lamp 240 and the air suction assembly 300 are correspondingly turned off.

Alternatively, in this embodiment, as shown in fig. 1 to 4, a blocking arm 110 may be disposed on the top surface of the base 100, the top end of the blocking arm 110 is connected to the lamp holder 200, the mosquito-lured lamp 240 is located on the bottom surface of the lamp holder 200, and the air inlet 311 is located on the top surface of the air suction assembly 300. The lamp holder 200 is connected to the top of the base 100 through the barrier arm 110, and the lamp holder 200 and the base 100 are spaced through the barrier arm 110, when in use, the mosquito-lured lamp 240 emits light downward and illuminates the air inlet 311 of the air suction assembly 300, and mosquitoes fly to the mosquito-lured lamp 240 under the suction effect of the light and flow into the air suction assembly 300 along with the air flow in the area and finally flow into the mosquito storage tank 400, thereby realizing the killing of the mosquitoes. Wherein, mosquito-lured lamp 240 is located the bottom surface of lamp stand 200, during the use, lamp stand 200 can play the effect of sheltering from to mosquito-lured lamp 240's top, the light area that mosquito-lured lamp 240 produced all is located lamp stand 200 below, on guaranteeing to lure the mosquito to the regional basis of the air intake 311 of the subassembly 300 that induced drafts, can also reduce the injury that light caused to user's eyes direct projection, and can reduce the influence that light luminance led to the fact to user's sleep, thereby improve mosquito killer's safety in utilization and travelling comfort.

In addition, when the mosquito killer lamp tumbles, the lamp stand 200 can no longer shelter from the mosquito-lured lamp 240, and in step, prevent empting the module 230 and can carry out the outage to the mosquito killer lamp and handle, the mosquito-lured lamp 240 stops giving out light to reduce the injury that light shot outward caused to user's eyes when the mosquito killer lamp tumbles, correspondingly further improve the safety in utilization of mosquito killer lamp.

Specifically, as shown in fig. 4, the lamp socket 200 may include a bottom cover 260 and a top cover 270, the top cover 270 being detachably covered on the bottom cover 260, and a mounting space is defined between the bottom cover 260 and the top cover 270, and the circuit board 210 is mounted in the mounting space; the mosquito-lured lamp 240 comprises a lamp holder 241 and a lamp shade 242, wherein the lamp holder 241 is installed on the bottom surface of the circuit board 210, a light-transmitting hole is formed in the area, below the lamp holder 241, of the bottom cover 260, and the lamp shade 242 covers the lamp holder 241 and is partially embedded in the light-transmitting hole. Preferably, the light hole is located in the central region of the bottom cover 260 to ensure the light shielding effect of the bottom cover 260 on the periphery of the mosquito-lured lamp 240, and further reduce the adverse effect of the external light on the user.

Alternatively, in this embodiment, as shown in fig. 1 and 2, two barrier arms 110 may be provided, two barrier arms 110 are disposed on opposite sides of the top surface of the base 100, the air inlet 311 is disposed between the two barrier arms 110, and the bottom surface of the lamp socket 200, the two barrier arms 110 and the top surface of the base 100 together define a mosquito catching space 600. On one hand, the mosquito-lured lamp 240 corresponds to the air inlet 311 in the vertical position, the mosquito-lured lamp 240 is also located between the two barrier arms 110, and the light emitted by the mosquito-lured lamp 240 can be emitted through the opening between the two barrier arms 110 to attract mosquitoes, wherein the two barrier arms 110 can block the light emitted by the mosquito-lured lamp 240 in the circumferential direction at the outer side, so that the adverse effect of light external illumination on users is further reduced; on the other hand, the bottom surface of the lamp holder 200, the two barrier arms 110 and the top surface of the base 100 together define the mosquito catching space 600 with high air tightness, when the air suction assembly 300 operates, the suction effect on the mosquito catching space 600 through the air inlet 311 is large, and mosquitoes entering the mosquito catching space 600 can be effectively input into the mosquito storage tank 400 under the strong suction effect, so that the capturing effect of the air suction assembly 300 on the mosquitoes is improved, and the occurrence of the escape situation of the mosquitoes is reduced.

Specifically, as shown in fig. 1, the base 100 may include two parts, namely a left housing 130 and a right housing 140, and the left housing 130 is detachably fixed to the right housing 140, so as to facilitate the installation of the components in the base 100; preferably, the barrier arm 110 may be integrally formed with the left housing 130 or the right housing 140.

Specifically, in the present embodiment, as shown in fig. 1 and fig. 2, the top surface of the base 100 and the arm surfaces of the two barrier arms 110 facing the base 100 form a "U" shaped surface, the "U" shaped surface is provided with a "U" shaped grid area, and the grid area is used as the air inlet 311. The top surface of the base 100 and the inner arm surface of the baffle arm 110 are in smooth transition connection to form a U-shaped surface, on one hand, when the air suction assembly 300 runs, air flow flows downwards into the air suction assembly 300 through the grating area, and eddy formed at the connection part of the baffle arm 110 and the top surface of the base 100 is small, so that the air flow can smoothly flow into the air suction assembly 300, the escape of mosquitoes at the eddy is correspondingly reduced, noise pollution caused by the eddy is effectively reduced, and the mosquito catching and killing effect of the mosquito killer lamp and the use comfort of the mosquito killer lamp are improved; on the other hand, the grid area is used as the air inlet 311, the grid holes at the position can allow mosquitoes to pass through, and meanwhile, the internal elements of the air suction assembly 300 can be blocked, so that the situation that fingers of a user, especially fingers of children, extend into the air suction assembly 300 through the air inlet 311 to cause scratching is prevented, and the use safety of the mosquito killer lamp is improved; in addition, the grating area can also block larger impurities, so as to reduce the occurrence of damage to the elements inside the air suction assembly 300 caused by the impurities entering the air suction assembly.

Specifically, as shown in fig. 4, the air suction assembly 300 may include a housing 310 and a blower 320 pivotally connected inside the housing 310, wherein an air inlet 311 is disposed at the top of the housing 310, and an air outlet is disposed at the bottom of the housing 310. Here, it is a specific form of the air suction assembly 300, at this time, the top plate of the outer cover 310 in the air suction assembly 300 is shared with the top plate of the base 100, the air inlet 311 is arranged on the top plate, the bottom of the outer cover 310 is arranged with an opening, and the opening is communicated with the inlet 431 of the mosquito storage tank 400; when the mosquito catching device is used, the fan 320 rotates to suck the interior of the outer cover 310 into a negative pressure state, and air in the mosquito catching space 600 flows into the outer cover 310 through the air inlet 311 under the action of the difference between the internal pressure and the external pressure, and further flows into the mosquito storage tank 400. Preferably, the protecting cover 330 may be covered at a position where the fan 320 is pivoted to the top plate, and the protecting cover 330 blocks and protects a region such as a rotating shaft of the fan 320, so as to reduce damage to the pivoting position caused by impurities entering the pivoting position.

Optionally, in this embodiment, as shown in fig. 4, the air suction assembly 300 and the mosquito storage tank 400 can be communicated through a guide cylinder 500, the mosquito storage tank 400 is detachably connected to the guide cylinder 500, the guide cylinder 500 is in a shape of a throat from the air suction assembly 300 to the mosquito storage tank 400, and a baffle net 510 is disposed at the throat end of the guide cylinder 500. On one hand, the draft tube 500 is in a throat shape, the airflow carrying the mosquitoes firstly flows into the draft tube 500 through the air suction assembly 300, and then flows into the mosquito storage tank 400 under the guiding action of the throat of the draft tube 500, wherein in the process that the airflow flows through the draft tube 500, the flow rate of the airflow is gradually increased due to the gradual reduction of the flow cross section of the draft tube 500, and the flow rate of the airflow is maximum at the throat end where the draft tube 500 is connected with the inlet 431 of the mosquito storage tank 400, so that the mosquitoes are effectively blown into the mosquito storage tank 400, and the accommodation action of the mosquito storage tank 400 on the mosquitoes is ensured; on the other hand, draft tube 500 installs in the air-out end of the subassembly 300 that induced drafts, and draft tube 500 deviates from the throat end of the subassembly 300 that induced drafts and is equipped with and separates and keep off net 510, then separate and keep off net 510 and can play the effect of separating and keeping off to the subassembly 300 internal element that induced drafts, on the basis of guaranteeing the air current circulation, can effectively reduce user's hand and stretch into in the subassembly 300 that induced drafts and be injured, and great impurity gets into the emergence of the harm condition that causes the jam to it in the subassembly 300 that induced drafts, thereby improve the safety in utilization of mosquito killer lamp, and ensure the normal use of the subassembly 300 that induced drafts.

Alternatively, in this embodiment, as shown in fig. 4 and 8, the mosquito storage tank 400 may include a bottom plate 410 and a side wall 420 surrounding the bottom plate 410, the side wall 420 includes a grid cylinder 425 and a connection cylinder 426 along its axial direction, the grid cylinder 425 is connected between the bottom plate 410 and the connection cylinder 426, the grid hole on the grid cylinder 425 serves as the exhaust hole 421, and the nozzle of the connection cylinder 426 serves as the inlet 431; the bottom of the base 100 is provided with an opening, the mosquito storage tank 400 is inserted into the opening, and the connection cylinder 426 is detachably connected with the guide cylinder 500. In this embodiment, the mosquito storage tank 400 is a specific form of the mosquito killer lamp, when the mosquito killer lamp is used, the air flow with the mosquitoes flows into the mosquito storage tank 400 through the connection ports of the guide cylinder 500 and the connection cylinder 426, wherein the air is discharged through the grid holes of the grid cylinder 425, and the mosquitoes are blocked in the mosquito storage tank 400 by the grid cylinder 425; after the mosquito killer lamp is used for a period of time, the connection between the connection cylinder 426 and the guide cylinder 500 can be disassembled, the mosquito storage tank 400 is taken down, mosquitoes in the mosquito storage tank 400 are cleaned, and after the cleaning is finished, the mosquito storage tank 400 is connected to the guide cylinder 500 again, so that the repeated use of the mosquito storage tank 400 and the mosquito killer lamp is realized.

Specifically, in this embodiment, as shown in fig. 4, an accommodating cylinder 120 penetrating up and down may be disposed in the base 100, and a bottom end of the accommodating cylinder 120 is correspondingly connected to an edge of the opening; the outer diameter of the connecting cylinder 426 is larger than that of the grid cylinder 425, the mosquito storage tank 400 is inserted into the accommodating cylinder 120 and is connected with the guide cylinder 500 in a buckling manner, and the connecting cylinder 426 is matched with the accommodating cylinder 120. When mosquito jar 400 is stored in the installation, will store up in mosquito jar 400 inserts holding section of thick bamboo 120 through the opening of base 100 bottom, clearance fit between the inner tube wall of holding section of thick bamboo 120 and the outer tube wall of connecting cylinder 426 in storing up mosquito jar 400, holding section of thick bamboo 120 can lead spacingly to the stroke of inserting of storing up mosquito jar 400, until connecting cylinder 426 and draft tube 500's bottom contact and buckle are connected, thereby improve the relative position accuracy of storing up mosquito jar 400 and draft tube 500, in order to ensure that store up mosquito jar 400 and draft tube 500's buckle and be connected, the convenient degree of installation of mosquito jar 400 is stored up in corresponding improvement. Wherein, the outer diameter of the grill cylinder 425 is smaller than the connecting cylinder 426, a ventilation gap is left between the grill cylinder 425 and the accommodating cylinder 120, and the air flow flowing into the mosquito storage tank 400 can flow out of the mosquito storage tank 400 through the grill cylinder 425 and flow out of the mosquito killer lamp through the ventilation gap.

Preferably, in this embodiment, as shown in FIG. 2, the bottom of mosquito storage tank 400 can extend out of base 100 to form an extension 440. When the mosquito killer lamp is placed on the platform, the extension part 440 is in direct contact with the platform and supports the base 100, so that a gap exists between the opening at the bottom of the base 100 and the platform, the air flow in the ventilation gap can be blown out through the opening at the bottom, and the normal operation of the air suction assembly 300 is correspondingly ensured.

Optionally, in this embodiment, the mosquito storage tank 400 and the guide cylinder 500 may be connected in a rotary type snap-fit manner, a first mark 411 may be disposed on an edge of the bottom plate 410, a second mark 121 may be disposed on a bottom of the accommodating cylinder 120, and the first mark 411 and the second mark 121 cooperate to identify a connection position of the connection cylinder 426 and the guide cylinder 500. As shown in fig. 3, the opposite edge positions of the bottom plate 410 are respectively provided with a triangular first mark 411; the two opposite sides of the bottom of the accommodating cylinder 120 are respectively provided with a triangular second mark 121, when the two first marks 411 correspond to the two second marks 121 one by one, the fastening connection position of the connecting cylinder 426 and the guide cylinder 500 is indicated to be corresponding, the mosquito storage tank 400 is inserted along the angle, and the connecting cylinder 426 and the guide cylinder 500 are connected, so that the installation convenience of the mosquito storage tank 400 is improved.

Specifically, as shown in fig. 6-8, a first clip groove 520 having a shape of "reverse" may be formed on the outer wall of the bottom end of the guide cylinder 500, wherein a first groove body of the first clip groove 520 extends along the axial direction of the guide cylinder 500 and penetrates the bottom end thereof, and a second groove body of the first clip groove 520 extends along the circumferential direction of the guide cylinder 500; the inner cylinder wall at the top end of the connecting cylinder 426 is provided with a first clamping boss 422, when in connection, the mosquito storage tank 400 is inserted into the accommodating cylinder 120 and aligns the first mark 411 with the second mark 121, and at the moment, the first clamping boss 422 corresponds to the bottom port of the first groove body; continue to insert storage mosquito jar 400 along the axial, cup joint in draft tube 500's bottom until connecting cylinder 426, and first joint boss 422 card is gone into in the first cell body, when storing up mosquito jar 400 along the unable motion of axial, show that first joint boss 422 has slided to the top of first cell body, then store up mosquito jar 400 towards the direction circumferential direction of second cell body, first joint boss 422 card is gone into in the second cell body, the second cell body can be spacing to storing up the axial position of mosquito jar 400, thereby realize storing up mosquito jar 400 and be connected with draft tube 500's rotatory buckle. The steps for disassembling the mosquito storage tank 400 are reversed from the installation steps and are not described in detail herein. Preferably, as shown in fig. 3, a locking mark and an opening mark may be disposed on two sides of the first mark 411, and when the mosquito storage tank 400 is rotated toward the locking mark, the first engaging boss 422 is engaged into the second slot to lock the mosquito storage tank 400; rotate to opening sign direction and store up mosquito jar 400, then first joint boss 422 slides to first cell body from the second cell body to realize storing up the dismantlement of mosquito jar 400.

Preferably, in this embodiment, as shown in fig. 8, a limiting boss 530 may be disposed on the second groove body, and correspondingly, a limiting groove 423 is disposed on the first clamping boss 422. First joint boss 422 slips into the second cell body and when sliding towards the locking direction, first joint boss 422 is located spacing groove 423 towards the stage body and the mutual extrusion of spacing boss 530 of locking direction one side, reach spacing boss 530 position until spacing groove 423, spacing boss 530 card is gone into in the spacing groove 423, thereby it is spacing with the circumference of second cell body to realize first joint boss 422, improve the joint firmness of second cell body to first joint boss 422, the corresponding buckle joint firmness that improves storage mosquito jar 400 and draft tube 500, reduce the emergence that first joint boss 422 leads to storing up mosquito jar 400 not hard up or even the condition of dropping from the automatic roll-off of second cell body.

In addition, the bottom of bottom plate 410 can be concave shape, is provided with handle 450 in the recess of formation, carries out the reassembling type to storing up mosquito jar 400, and the user can hand handle 450 and carry out axial or circumference application of force to storing up mosquito jar 400 to improve the dismouting convenience of storing up mosquito jar 400.

In this embodiment, as shown in fig. 4, 7 and 8, the mosquito storage tank 400 may further include a flared top cover 430, wherein a flared end of the top cover 430 is correspondingly communicated with a nozzle of the connection cylinder 426, and a tapered end of the top cover 430 extends toward the bottom plate 410. During the use, the air current that has the mosquito secretly gets into the subassembly 300 that induced drafts to in the throat end port of top cap 430 flows into storing up the mosquito jar 400, loudspeaker form and downwardly extending's top cap 430 can separate the mosquito effectively and keep off in storing up the mosquito jar 400, with the emergence that reduces the mosquito and upwards fly out and store up the mosquito jar 400 condition, thereby improve and store up the lock mosquito effect of mosquito jar 400 to the mosquito, the corresponding mosquito and the kill mosquito effect that improves the mosquito killer lamp.

Specifically, in the present embodiment, as shown in fig. 4, 7 and 8, a blocking rib 432 may be provided at the reduced-end port of the top cover 430, and the blocking rib 432 blocks the port into two parts. On one hand, the blocking rib 432 can block the port at the throat end of the top cover 430, so that the mosquitoes in the mosquito storage tank 400 can be further reduced from flying out of the port; on the other hand, top cap 430 and side wall 420 are detachable to be connected, separate and keep off rib 432 and can regard as the handle to use to the installation and the dismantlement of top cap 430 improve the use convenience of storing up mosquito jar 400.

Similarly, as shown in fig. 7 and 8, a second clamping boss 433 may be disposed on an outer wall of the flared end of the top cover 430, and a second catching groove 424 is disposed on an inner wall of the top end of the connecting cylinder 426, where the second catching groove 424 is matched with the second clamping boss 433. The forms of the second catching groove 424 and the second catching projection 433 can refer to the forms of the first catching groove 520 and the first catching projection 422, and are not described herein again. It should be noted that, when the top cover 430 is connected to the connection cylinder 426 in the above manner, an avoiding groove 434 is required to be formed on the outer wall of the flared end of the top cover 430, so as to allow the first clamping boss 422 to pass through.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The mosquito killer lamp is characterized by comprising a base (100) and a lamp holder (200) installed on the base (100), wherein a mosquito storage tank (400) and an air suction assembly (300) are arranged in the base (100), an air inlet (311) of the air suction assembly (300) is formed in the top surface of the base (100), an air outlet of the air suction assembly (300) is communicated with an inlet (431) of the mosquito storage tank (400), and the mosquito storage tank (400) is provided with an exhaust hole (421);

mosquito-lured lamp (240) and manual switch (250) are installed to lamp stand (200), mosquito-lured lamp (240) with the air outlet is corresponding, lamp stand (200) internal fixation has circuit board (210), circuit board (210) are equipped with switch module (220) and prevent empting module (230), manual switch (250) with switch module (220) phase-match, switch module (220) reach prevent empting module (230) and all be used for control induced draft subassembly (300) reach the on-off state of mosquito-lured lamp (240).

2. The mosquito killer lamp according to claim 1, wherein the top surface of the base (100) is provided with a barrier arm (110), the top end of the barrier arm (110) is connected with the lamp holder (200), the mosquito-lured lamp (240) is positioned at the bottom surface of the lamp holder (200), and the air inlet (311) is positioned at the top surface of the air suction assembly (300).

3. The mosquito killer lamp according to claim 2, wherein the barrier arms (110) are two, the two barrier arms (110) are located at two opposite sides of the top surface of the base (100), the air inlet (311) is located between the two barrier arms (110), and the bottom surface of the lamp holder (200), the two barrier arms (110) and the top surface of the base (100) jointly enclose a mosquito catching space (600).

4. A mosquito killer lamp according to claim 3, characterized in that the top surface of the base (100) and the arm surfaces of the two barrier arms (110) facing the base (100) together form a "U" shaped surface provided with a "U" shaped grating area as the air inlet (311).

5. The mosquito killer lamp according to any one of claims 1-4, wherein the air suction assembly (300) is communicated with the mosquito storage tank (400) through a guide cylinder (500), the mosquito storage tank (400) is detachably connected with the guide cylinder (500), the guide cylinder (500) is in a necking shape from the air suction assembly (300) to the mosquito storage tank (400), and a baffle net (510) is arranged at the necking end of the guide cylinder (500).

6. The mosquito killer lamp according to claim 5, wherein the mosquito storage tank (400) comprises a bottom plate (410) and a side enclosing plate (420) enclosing the bottom plate (410), the side enclosing plate (420) comprises a grid cylinder (425) and a connecting cylinder (426) along the axial direction thereof, the grid cylinder (425) is connected between the bottom plate (410) and the connecting cylinder (426), a grid hole on the grid cylinder (425) is used as the exhaust hole (421), and a cylinder opening of the connecting cylinder (426) is used as the inlet (431); the bottom of base (100) is equipped with the opening, store up mosquito jar (400) peg graft in the opening, just connecting cylinder (426) with draft tube (500) detachable the connection.

7. The mosquito killer lamp according to claim 6, characterized in that a containing cylinder (120) which is through up and down is arranged in the base (100), and the bottom end of the containing cylinder (120) is correspondingly connected with the edge of the opening; the outer diameter of the connecting cylinder body (426) is larger than that of the grid cylinder body (425), the mosquito storage tank (400) is inserted into the accommodating cylinder (120) and is connected with the guide cylinder (500) in a buckling mode, and the connecting cylinder body (426) is matched with the accommodating cylinder (120).

8. The mosquito killer lamp according to claim 7, wherein the mosquito storage tank (400) is connected with the guide cylinder (500) in a rotary type snap fit manner, a first mark (411) is arranged on the edge of the bottom plate (410), a second mark (121) is arranged at the bottom of the accommodating cylinder (120), and the first mark (411) is matched with the second mark (121) to identify the connection position of the connection cylinder (426) and the guide cylinder (500).

9. The mosquito killer lamp as claimed in claim 6, wherein the mosquito storage tank (400) further comprises a trumpet-shaped top cover (430), the flared end of the top cover (430) is correspondingly communicated with the mouth of the connection cylinder (426), and the necked end of the top cover (430) extends towards the bottom plate (410).

10. A mosquito killer lamp as claimed in claim 9, wherein a barrier rib (432) is provided at the end port of the constricted end of the top cover (430), the barrier rib (432) separating the port into two parts.

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