CN200983801Y - Electronic mosquito suction machine - Google Patents

Abstract

The utility model discloses an electronic mosquito suction machine, including the main casing body, the upper cover that admits air, the lower cover of giving vent to anger, mosquito-lured lamp, blade, motor, storage mosquito bag and swing air door device, admit air the upper cover and connect in main casing body upper end, the lower cover of giving vent to anger is connected in main casing body lower extreme, mosquito-lured lamp is installed in main casing body upper end, blade and motor are installed in the main casing body, and the blade is by motor drive, swing air door device is installed in the lower cover of giving vent to anger, store up the mosquito bag and install the below at swing air door device, swing air door device has a plurality of inclined plane wind-guiding grooves, corresponding to the air intake in each inclined plane wind-guiding groove and is located the rotatable. The mosquito-containing airflow blows the air door to open the air inlet, so that the mosquito-containing airflow is sucked into the mosquito storage bag from the air inlet, and when no airflow exists, the air door closes the air inlet, so that mosquitoes are prevented from escaping, mosquitoes entering the mosquito storage bag can only go out, and the mosquito catching effect is improved.

Description

Electronic mosquito suction machine

technical field

The utility model relates to a mosquito sucking machine, in particular to an electronic mosquito sucking machine which can catch live mosquitoes and make them air-dried to death, and can improve the mosquito trapping effect.

Background technique

Existing general methods for catching and killing mosquitoes mainly include the chemical method of using mosquito-repellent incense to smoke away mosquitoes, the biological method of cultivating mosquito-repelling plants, and the physical method of using lamps and the like to attract mosquitoes to death with high-voltage electric shock or inhalation air-drying. Regardless of the method, they all have their own limitations.

At present, due to the strengthening of environmental protection awareness, whether it is family and office space, or animal husbandry, it is more common to use physical methods to kill mosquitoes, but this method usually only drives away mosquitoes, and it is difficult to eliminate mosquitoes. If the mosquitoes are inhaled into the body, due to the lack of anti-mosquito escape device, it will be difficult for the inhaled mosquitoes to enter the mosquito storage bag and eventually escape.

Therefore, be badly in need of a kind of electronic mosquito suction machine that can prevent mosquito from escaping to improve mosquito-catching effect.

Utility model content

The purpose of this utility model is to provide an electronic mosquito suction machine with a mechanism to prevent mosquitoes from escaping to improve the effect of catching mosquitoes.

In order to achieve the above purpose, the technical solution of this utility model is to provide an electronic mosquito suction machine, including the main housing, the upper cover of the air intake, the lower cover of the air outlet, the mosquito trap lamp, the blade, the motor, the wire, the mosquito storage bag and the swing The damper is installed, the air intake upper cover is connected to the upper end of the main housing, the air outlet lower cover is connected to the lower end of the main housing, the mosquito trap lamp is installed on the upper end of the main housing, the blades and the motor are installed on the In the main housing, the blades are driven by a motor, the wires are electrically connected to the mosquito trap lamp and the motor, the swing damper device is installed in the lower air outlet cover, and the mosquito storage bag is installed under the swing damper device. The swing damper device has several inclined-plane air guide grooves, an air inlet corresponding to each inclined-plane air guide groove and a rotatable damper located at the air inlet, and the air inlet is connected with the mosquito storage bag.

Preferably, the swing damper is installed above the air inlet to fix a support arm, the damper is suspended below the support arm through a connecting ring, and when the damper naturally droops, the air inlet is closed to prevent mosquitoes from escaping from the mosquito storage bag , and when it is blown away by the mosquito-containing airflow, the air inlet is exposed, so that mosquitoes enter the mosquito storage bag with the airflow.

Preferably, the swing damper device also has a central cylinder and an outer wall, and the sloped air guide grooves are evenly distributed in the annular area between the cylinder and the outer wall, so as to inhale mosquitoes more efficiently.

Preferably, there is also a wind guide cone installed in the lower cover of the air outlet, and is located above the swing damper installation, so that the mosquito-containing air sucked into the housing can be concentrated and effectively sent to the slope of the swing damper installation. In the air guide groove, the mosquito-containing airflow is prevented from spreading, and the work efficiency and mosquito-catching effect are improved.

Preferably, the air intake upper cover also includes a medicine vessel and a medicine vessel cover, the medicine vessel is located on the top of the air intake upper cover, and is used to ride metal oxides that can generate carbon dioxide under the action of light, imitating human breathing When the carbon dioxide emitted, it attracts mosquitoes and further improves the mosquito trapping effect.

Compared with the prior art, the utility model adopts a separately designed swing damper to prevent mosquitoes from escaping, so that the mosquitoes entering the mosquito storage bag can only go out, so the mosquito catching effect is improved.

Description of drawings

Fig. 1 is a perspective view of the utility model electronic mosquito suction machine.

FIG. 2 is a cross-sectional view of the electronic mosquito suction machine shown in FIG. 1 to show the internal structure in detail.

3 is a perspective view of the swing damper and the mosquito storage bag of the electronic mosquito suction machine of the present invention.

Fig. 4 is an enlarged view of part A of the swing damper device shown in Fig. 3, and shows the closed state of the damper.

FIG. 5 is a schematic view of the damper of the swing damper device shown in FIG. 3 in an open state.

Detailed ways

As shown in Figures 1 and 2, the electronic mosquito suction machine of the present utility model includes a main housing 2, an air intake upper cover 1, an air outlet lower cover 3, a mosquito trap lamp 4, blades 5, a motor 6, wires and a mosquito storage bag. The main housing 2 is roughly in the shape of a hollow cylinder. There are a number of reinforcing ribs 24 on the inner wall of the main housing 2. The upper half of the inner wall of the main housing 2 is surrounded by a transparent upper inner shell 21, and the lower half is surrounded by a non-transparent circle. The lower inner shell 22, the upper and lower inner shells 21, 22 are aligned and connected, and there is a certain gap between the upper and lower inner shells 21, 22 and the inner wall of the main shell 2. The air intake upper cover 1 is roughly hemispherical and covers the upper end of the main housing 2. The wall of the air intake upper cover 1 is surrounded by cross ribs in a number of longitude and latitude directions, so many air intakes are formed. The air outlet lower cover 3 is also a hollow cylinder, which is screwed to the lower end of the main housing 2, that is to say, the air outlet lower cover and the main housing 2 can be locked and separated by rotation with an appropriate structure, which is like a threaded fit. Structure or grab structure, this is existing common technology, no longer detailed description. A plurality of rows of slots are hollowed out on the peripheral wall of the lower air outlet cover 3 to allow airflow to discharge. The mosquito trap lamp 4 is ring-shaped and surrounds the upper end of the inner wall of the main casing 2, specifically, it is located between the transparent upper inner casing 21 and the inner wall of the main casing 2, and is close to the upper air intake cover 1 and the main casing 2. At the joint, the mosquito trap lamp 4 emits light through the transparent upper inner shell 21. Described mosquito storage bag is installed in the air outlet lower cover 3 (detailed below). The motor 6 is located approximately at the center of the main casing 2 and is connected to the inner wall 22 of the lower inner casing through a connecting piece 23 . The wires (not shown) are electrically connected to the mosquito trap lamp 4 and the motor 6, and the  motor 6 and the mosquito trap lamp 4 are connected to the working power supply. The blades 5 are connected to the drive shaft of the motor 6 and are driven to rotate by the motor 6 to generate air flow. A safety protection grid 51 is installed above the blade 5 to protect the blade 5 and the motor 6 to prevent large objects or liquids accidentally falling into the housing from damaging the blade 5 or the motor 6 . In addition, the electronic mosquito suction machine also includes a swing damper device 8, the swing damper device 8 is installed in the air outlet lower cover 3, and the mosquito storage bag is installed below the swing damper device 8.

Please refer to Fig. 3-5, the swing damper device  8 of the present utility model has a cylinder 81 located in the center, an outer wall 84, several inclined-plane air guide grooves 82 arranged between the cylinder 81 and the outer wall 84, corresponding In the air inlet 83 of each inclined-plane air guide groove 82 and the rotatable damper 85 positioned at the air inlet, the inclined-plane air guide groove 82 in this embodiment is the same six, and of course it can also be set to other numbers, so The sloped air guide grooves 82 are evenly distributed in the annular area between the column body 81 and the outer wall 84 . One end of the sloped air guide grooves 82 is higher and the other end is lower. The air inlet 83 is located at the bottom end of each sloped air guide groove 82, that is, the junction of adjacent inclined surface air guide grooves 82, and communicates with the mosquito storage bag. In order to rotatably install the damper 85, preferably, in this embodiment, a support arm 822 is fixed above the air inlet 83, and a connecting ring 823 is suspended on the supporting arm 822, and the damper 85 passes through the connecting ring 823 and is suspended on the support. Below the arm 822 , so the damper 85 can rotate and move, that is, the damper 85 is movably connected to the support arm 822 . Described damper 85 is in natural state, just under the state that does not have wind to blow, naturally droops, just blocks air inlet 83, and can be blown open under the effect of wind, then exposes air inlet 83. When the mosquito sucking machine of the utility model is working, the mosquito-containing airflow sucked into the casing enters the mosquito storage bag from the air inlet. Once the work stops, when there is no airflow, the damper 85 and the air inlet 83 are blocked, thereby ensuring that the mosquitoes can only go further. Can not produce the action effect, so the mosquito sucking machine of the present utility model can capture live mosquito, then air-dried to death. Preferably, the damper 85 is a thin aluminum sheet, which is light in weight and easy to be blown; the mosquito storage bag is an environmentally friendly mesh glue bag 7, which is easy to clean and has no peculiar smell. Tighten the outside of the outer wall 84 by the rafters 72, so that the mesh glue bag 7 is easy to replace or clean up. In addition, the top end of the outer wall 84 extends outwards with a flange 86, and the swing damper device 86 is locked in the lower air outlet cover 3 through the flange 86 and fixed.

Referring to Fig. 2 and Fig. 3 again, the electronic mosquito suction machine of the present utility model also includes a wind guide cone 9, which is installed in the air outlet lower cover 3, and is fitted with the swing damper. 8 connections, located on the central column 81 of the swing damper device 8, through the wind guide cone 9, the mosquito-containing airflow that can be sucked into the housing is concentrated and effectively delivered to the inclined plane air guide groove 82 of the swing damper device 8 Inside, the airflow containing mosquitoes is prevented from spreading everywhere, and the work efficiency and mosquito killing effect are improved.

As shown in Figure 1 and Figure 2 again, the utility model electronic mosquito suction machine also includes a timing control circuit 10, the timing control circuit 10 is electrically connected with the mosquito trap lamp 4 and the motor 6 through wires, and the timing control The circuit 10 can be set at least one group of on-off time, so that it has multiple automatic on-off functions, expands the objects and places of use, and is more humanized and intelligent. As shown in Figure 1, the buttons 102 and the liquid crystal display 101 are used to set  and display the parameters set by the above-mentioned timing control circuit 101 .

As shown in Fig. 1 and Fig. 2 again, the air intake upper cover 1 of the electronic mosquito suction machine of the present utility model also includes a medicine vessel 11 and a medicine vessel cover 12, and the medicine vessel 11 is positioned at the top of the air intake upper cover 1, and the The medicine vessel 11 is in the shape of a net as a whole, increasing the range of illumination and the ventilation gap. The medicine vessel 11 is equipped with metal oxides that can generate carbon dioxide under the action of light, imitating the carbon dioxide emitted by the human body during respiration, and utilizing the carbon dioxide produced by the above photocatalysis To attract mosquitoes to approach the electronic mosquito suction machine of the present utility model, thereby being inhaled; preferably, the metal oxide in the above-mentioned medicine container 11 is titanium dioxide.

As shown in Fig. 1 again, described air outlet lower cover 3 is provided with transparent observation window 31, to observe the quantity of the mosquito that is collected in the mesh glue silk bag 7 conveniently.

The working principle of the electronic mosquito suction machine of the present utility model is described in detail below: connect with the external power supply through the wire, and set the time and times of switching on and off by the button 102. When working, on the one hand, the mosquito trap lamp 4 When the light shines on the titanium dioxide in the drug container 11, photocatalysis occurs to generate carbon dioxide, which imitates the carbon dioxide emitted by the human body to attract mosquitoes; on the other hand, the mosquito trap lamp 4 itself also has the effect of inducing mosquitoes; Mosquitoes are attracted to the vicinity of the electronic mosquito suction machine, and then the airflow generated by the blades 5 driven by the motor is sucked into the housing from the upper cover 1 of the air intake. Under the action of the air guide cone 9, the airflow containing mosquitoes is distributed in On the inclined-plane air guide groove 82 of each swing damper dress 8, the damper 85 on the described inclined-plane guide groove 82 is blown open under the effect of wind force, exposes air inlet 83, and the mosquito-containing airflow enters the net of environmental protection from air inlet 83 The mosquitoes are air-dried to death, and the number of mosquitoes collected in the mesh glue bag 7 is observed through the transparent observation window 31 arranged on the air outlet lower cover 3, so as to replace or clean the mesh in time. Glue silk bag 7, because damper 85 just opens under the effect of wind force, and mosquito also is to be blown in the mesh glue silk bag 7 under the wind force effect of opening damper 85, then enters mesh glue silk bag when working Mosquitoes in 7 cannot fly into the outside of the swing damper 8 through the opened damper 85 and escape. When the work is stopped, because there is no wind, the damper 85 blocks the air inlet, thereby realizing the swing damper 8 pairs of mosquitoes. A function that can only be entered but not exited.

What is disclosed above is only the preferred embodiment of the present utility model, and of course the scope of rights of the present utility model cannot be limited with this. Therefore, the equivalent changes made according to the patent scope of the utility model still belong to the scope covered by the utility model .

Claims (10)

1. electronics mosquito-suction machine, comprise main casing, air inlet loam cake, the lower cover of giving vent to anger, mosquito luring lamp, blade, motor, lead and storage mosquito bag, described air inlet loam cake is connected in the main casing upper end, the described lower cover of giving vent to anger is connected in the main casing lower end, described mosquito luring lamp is installed in the main casing upper end, and described blade and motor are installed in the main casing, and blade is by motor-driven, described lead is electrically connected with mosquito luring lamp and motor, it is characterized in that:

Described electronics mosquito-suction machine also comprises a swing throttle setting, described swing throttle setting is installed in the lower cover of giving vent to anger, described storage mosquito bag is installed in the below of swing throttle setting, described swing throttle setting has some inclined-planes wind guide tank, corresponding to the air inlet of each inclined-plane wind guide tank and be positioned at the rotating air door of air inlet, described air inlet is communicated with described storage mosquito bag.

2. electronics mosquito-suction machine as claimed in claim 1 is characterized in that: described swing throttle setting is at upper fixed one support arm of described air inlet, and described air door is suspended on the support arm below by connecting ring.

3. electronics mosquito-suction machine as claimed in claim 1 is characterized in that: described swing throttle setting also has a cylinder and an exterior wall that is positioned at the center, and described inclined-plane wind guide tank is uniformly distributed in the annular region between cylinder and the exterior wall.

4. electronics mosquito-suction machine as claimed in claim 3 is characterized in that: the top of the described exterior wall flange that stretches out is stuck in the lower cover of giving vent to anger by described flange  swing throttle setting and fixes

5. electronics mosquito-suction machine as claimed in claim 1 is characterized in that: also comprise a wind-guiding Tapered Cup, described wind-guiding Tapered Cup is installed in the lower cover of giving vent to anger, and is positioned at described swing throttle setting top.

6. electronics mosquito-suction machine as claimed in claim 1 is characterized in that: described storage mosquito bag is the netted collodion silk bag of an environmental protection.

7. electronics mosquito-suction machine as claimed in claim 1 is characterized in that: also comprise a timing control circuit, described timing control circuit is electrically connected with mosquito luring lamp and motor by lead.

8. electronics mosquito-suction machine as claimed in claim 7 is characterized in that: described timing control circuit can be provided with one group of switching on and shutting down time at least.

9. electronics mosquito-suction machine as claimed in claim 1 is characterized in that: described air inlet loam cake also comprises medicine vessel and medicine vessel lid, and described medicine vessel are positioned at tops in the air inlet.

10. electronics mosquito-suction machine as claimed in claim 9 is characterized in that: described medicine vessel integral body is netted.

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