CN104255681B

CN104255681B - Mosquito sterilizer

Info

Publication number: CN104255681B
Application number: CN201410516017.2A
Authority: CN
Inventors: 龚柱
Original assignee: Qidong Jialong Building Material Co Ltd</en>
Current assignee: Qidong Jialong Building Material Co Ltd</en>
Priority date: 2014-09-29
Filing date: 2014-09-29
Publication date: 2016-08-31
Anticipated expiration: 2034-09-29
Also published as: GB201517142D0; IES20150324A2; IE20150356A1; IES86742B2; IES20150323A2; IES20150322A2; IE20150357A1; IES86752B2; AU2015100418A4; IE86851B1; IES20150312A2; AU2015100416A4; GB2537437B; CN104255681A; AU2015100417A4; IES20150317A2; GB201517144D0; IE20150345A1; GB201517143D0; IES86753B2

Abstract

The present invention relates to mosquito dissipation field, particular but not exclusively relate to a kind of device making mosquito suffocate.Top cylinder that described device comprises electric control loop, the connecting rod of mosquito derivant can be adhered to and the doffing of liquid of mosquito of suffocating can be filled；It is characterized in that described sterilizer the most sequentially coaxially arranges top cylinder, middle cylinder, doffing, the two ends of connecting rod couple with top cylinder and doffing respectively, middle cylinder is run through by connecting rod and can move axially between top cylinder and the inner bottom part of doffing along connecting rod, middle cylinder includes urceolus and inner core, inner core can move axially between the second upper cover and spacing ring, the 3rd lower cover that inner core is provided with the attachment piece that can adhere to derivant, peels off the mosquito assembled on connecting rod.The present invention uses avirulent derivant to make mosquito first gather together in the way of luring, then makes mosquito death by suffocation by mechanicalness measure, and environment will not be caused secondary pollution or threaten personnel health by dissipation process.

Description

Mosquito sterilizer

Technical field

The present invention relates to mosquito dissipation field, particular but not exclusively relate to a kind of device making mosquito suffocate.

Background technology

At present, conventional mosquito dissipation mode mainly includes the elimination agent with specific toxicity using the mode sprayed or being sprayed onto with mosquito or be sprayed onto mosquito haunted place, such dissipation mode causes the secondary pollution of surrounding unavoidably, for safety and healthy consideration, after elimination agent sprays, it is on-the-spot that personnel must withdraw dissipation.Major part elimination agent is that tool is virose, easily causes secondary pollution or threatens the health of personnel.

Summary of the invention

It is an object of the invention to alleviate or eliminate above and other shortcoming, and provide a kind of and use avirulent derivant first to make mosquito use mechanical system to make the device of mosquito death by suffocation again after assembling.

For this, the present invention provides a kind of mosquito sterilizer, it has the top cylinder comprising electric control loop, the connecting rod that can adhere to mosquito derivant and the doffing of the liquid that can fill mosquito of suffocating, it is characterized in that described sterilizer the most sequentially coaxially arranges top cylinder, middle cylinder, doffing, the two ends of connecting rod couple with top cylinder and doffing respectively, middle cylinder is run through by connecting rod and can move axially between top cylinder and the inner bottom part of doffing along connecting rod, middle cylinder includes urceolus and inner core, inner core is accommodated in described urceolus in the way of being axially movable, inner core is provided with the attachment piece that can adhere to derivant, peel off the 3rd lower cover of the mosquito assembled on connecting rod, attachment piece and connecting rod good fit, 3rd lower cover coordinates with rod slide.

Specifically, middle cylinder can move axially between the first position and the second position, and in described primary importance, the latter half of connecting rod reveals, and the first half of connecting rod is hidden by middle cylinder；In the described second position, the inner bottom part laminating of the bottom of middle cylinder and doffing, the latter half of connecting rod is hidden by middle cylinder, and the top half of connecting rod reveals.

Specifically, top cylinder also includes actuator, and wherein said inner core and urceolus are moved relative to connecting rod by described actuator.Inner core and urceolus are coupled with actuator by the first stay cord and the second stay cord respectively, and the second upper cover of urceolus is provided with opening, and described opening is used for dodging the first stay cord.

Advantageously, attachment piece is limited to the interior top of the 3rd upper cover by buckle by baffle plate, 3rd lower cover is limited at the bottom of the 3rd upper cover, 3rd lower cover and baffle plate have certain distance, described certain distance is configured to central cylinder when being positioned at the spacing ring that the second position and the 3rd lower cover paste neat urceolus, and the 3rd lower cover is positioned at below the liquid level of doffing and baffle plate is positioned at the ullage of doffing.

Advantageously, the outer filling room being provided above adding derivant of the 3rd upper cover, filling room is made up of the sidewall at the top of the 3rd upper cover and protrusion top, and described top is provided with fourth hole, and the derivant of filling can enter attachment piece by fourth hole.

Advantageously, the 3rd described lower cover is provided with clematis stem hole, when inner core moves down, makes mosquito be attracted to the 3rd time by the air-flow flowing through clematis stem hole and covers；When inner core moves up, the liquid being retained in inner core is made to be drained rapidly by clematis stem hole.

Specifically, described top cylinder also includes the first shell, circuit control panel, pillar, first shell is made up of the first upper cover, the first side wall and the first lower cover, first upper cover and the first lower cover removably couple with the first side wall, actuator is removably mounted on first time by screw and covers, and circuit control panel is removably mounted on actuator by column and screw.

Specifically, described actuator also includes two with vertically disposed the first motor with drive mechanism of axis and the second motor, the first wire reels, the second wire reels, cover plate and side plate, first stay cord and the first wire reels couple, and the second stay cord and the second wire reels couple.The first described motor and the second motor are inverted to arrange by sides adjacent by the side plate of four " convex " shape and are surrounded, the rotating shaft of described first motor and the second motor through side plate and couples with wire reels, four side plates are inserted in by two cover plates by protruding ring-shaped edge, and hook the corresponding bayonet socket on side plate by the buckle on cover plate.

The operation principle of mosquito sterilizer disclosed by the invention is as follows:

Derivant on attachment piece is transferred on connecting rod along with moving up and down of middle cylinder, and when middle cylinder is positioned at primary importance, the connecting rod revealed lures mosquito by adhering to the derivant on its surface, makes mosquito be gathered on connecting rod.After mosquito gathers some, the urceolus of middle cylinder first move down and enter in doffing liquid level under, until the inner bottom part laminating of bottom and the doffing of urceolus.Then, inner core starts to move down, by the 3rd lower cover arranged bottom inner core, the mosquito assembled is peeled off from connecting rod, owing to the gap between each movable part is less than the Individual Size of mosquito, so being stripped the mosquito got off cannot flee from this sterilizer by the gap between each movable part, along with inner core continue move down, more mosquito is stripped, indivedual mosquitoes can drop on the liquid level of doffing, when the bottom of inner core enters under the liquid level of doffing, the all mosquitoes assembled on connecting rod all are stripped, and by under the 3rd lower cover press-in liquid level, due to mosquito and the supply losing oxygen, will be in death by suffocation under liquid level.

Beneficial effect

The present invention uses avirulent derivant to make mosquito first gather together in the way of luring, then makes mosquito death by suffocation by mechanicalness measure, and environment will not be caused secondary pollution or threaten personnel health by dissipation process.

Accompanying drawing explanation

In explanation below in reference to the accompanying drawing embodiment to being given as non-limiting example, the present invention and superiority thereof will be better understood, accompanying drawing is as follows:

Fig. 1 is the mosquito sterilizer disclosed by the invention axonometric chart when being positioned at primary importance；

Fig. 2 is the mosquito sterilizer disclosed by the invention axonometric chart when being positioned at the second position；

Fig. 3 is the axonometric chart after the sterilizer in Fig. 1 removes urceolus and the second stay cord；

Fig. 4 is the axonometric chart after the sterilizer in Fig. 2 removes urceolus and the second stay cord；

Fig. 5 is the axonometric chart of urceolus disclosed by the invention；

Fig. 6 is the exploded perspective view of Fig. 5；

Fig. 7 is the axonometric chart of the second upper cover in Fig. 6；

Fig. 8 is the axonometric chart of the spacing ring in Fig. 6；

Fig. 9 is the axonometric chart of doffing disclosed by the invention；

Figure 10 is the axonometric chart of inner core disclosed by the invention；

Figure 11 is the exploded perspective view of Figure 10；

Figure 12 is the Fig. 2 sectional view along A-A direction；

Figure 13 is will to move on to the sectional view at urceolus top on inner core in Figure 12；

Figure 14 is the sectional view that urceolus moves on in Figure 13 primary importance；

Figure 15 is the axonometric chart of top cylinder disclosed by the invention；

Figure 16 is the axonometric chart of actuator disclosed by the invention；

Figure 17 is the exploded perspective view of Figure 15；

Figure 18 is the exploded perspective view of Figure 16；

Figure 19 is the axonometric chart of the first lower cover in Figure 17；

Figure 20 is connecting rod and the enlarged partial sectional view of the first lower cover connection；

Description of reference numerals

1. top cylinder；2. cylinder in；3. connecting rod；4. doffing；5. the first stay cord；6. the second stay cord；7. liquid；12. circuit control panels；13. pillars；14. actuators；21. urceolus；22. inner cores；111. first upper covers；112. the first side wall；113. first lower covers；141. first motors；142. second motors；143. first wire reels；144. second wire reels；145. cover plate；146. side plate；211. second upper covers；212. second sidewalls；213. spacing ring；221. the 3rd upper covers；222. attachment piece；223. baffle plate；224. buckle；225. the 3rd lower covers；71. first through holes；72. openings；73. third through-holes；74. fourth holes；75. fifth holes；76. clematis stem holes；81. screwed holes；82. hooks；83. string holes；84. nuts；85. packing rings；86. filling rooms.

Detailed description of the invention

At this, referring to figs. 1 through 2, mosquito sterilizer disclosed by the invention includes being positioned at the top cylinder 1 on whole device top, is positioned at the middle cylinder 2 below top cylinder 1, is positioned at the doffing 4 of whole device lower end, couples the top cylinder 15 connecting rods 3 with doffing 4, top cylinder 1, middle cylinder 2 and doffing 4 three are coaxially disposed, middle cylinder 2 is run through by connecting rod 3 and can move axially between the inner bottom part of top cylinder 1 and doffing 4 along connecting rod 3, doffing 4 opening is towards middle cylinder 2, doffing 4 is arranged for filling the liquid 7 of mosquito of suffocating, such as water 7, as shown in figure 14.

With reference to Figure 12 to 14, middle cylinder 2 includes urceolus 21 and inner core 22, and inner core 22 is accommodated in the way of being axially movable in described urceolus 21 and moves between second upper cover 211 and spacing ring 213 of urceolus 21.Referring concurrently to Fig. 5 to 8, second upper cover 211 is arranged on the top of urceolus 21, spacing ring 213 is arranged on the bottom of urceolus 21, second upper cover 211 is coupled with the second sidewall 212 by the form of thread connection, spacing ring 213 is coupled by screw thread and second sidewall 212 of outer surface, and the second upper cover 211 is provided with the first through hole 71 being slidably matched with connecting rod 3, the opening 72 of dodging the first stay cord 5 and the third through-hole 73 coordinated with the second stay cord 6.The end that second stay cord 6 coordinates with the second upper cover 211 has the fixed part bigger than the diameter of third through-hole 73, and the second stay cord 6 is by fixed part and the effect of the second upper cover 211 forces occurring, and then realizes moving axially of urceolus 21.

With reference to Fig. 9, doffing 4 is the cylinder-like structure having end uncovered, and bottom is provided with 5 screwed holes 81, wherein 4 screwed hole 81 axle annular arrays centered by axis, last screwed hole 81 is positioned at the center of annular array, and described 5 screwed holes 81 coordinate with the threaded portion of the end of 5 connecting rods 3.

With reference to Figure 10 to 11, inner core 22 includes the 3rd upper cover 221 from top to down, the attachment piece 222 of derivant can be adhered to, 3rd lower cover 225 of the mosquito assembled on baffle plate 223 and stripping connecting rod 3, referring concurrently to Figure 12, attachment piece 222 is limited to the interior top of the 3rd upper cover 221 by buckle 224 by baffle plate 223, 3rd lower cover 225 is limited at the bottom of the 3rd upper cover 221, 3rd lower cover 225 has certain distance with baffle plate 223, described certain distance is configured to central cylinder 2 and is positioned at the second position and time the 3rd lower cover 225 pastes the spacing ring 213 of neat urceolus 21, 3rd lower cover 225 is positioned at below the water surface of doffing 4 and baffle plate 223 is positioned at above the water surface of doffing 4.

The outer filling room 86 being provided above adding derivant of the 3rd upper cover 221, filling room 86 is made up of the sidewall at the top of the 3rd upper cover 221 and protrusion top, described top is provided with fourth hole 74, and the derivant of filling can enter attachment piece 222 by fourth hole 74.

Described attachment piece 222 is provided with the first through hole 71 run through by connecting rod 3, the fifth hole 75 dodging buckle 224, the material of attachment piece 222 is sponge or other flocculence material, use such material that attachment piece 222 can be made to be transferred on connecting rod 3 by good with the derivant in connecting rod 3 good fit, beneficially attachment piece 222.

The fifth hole 75 that described baffle plate 223 is provided with the first through hole 71 being slidably matched with connecting rod 3, dodges buckle 224.

The 3rd described lower cover 225 is provided with clematis stem hole 76, when inner core 22 moves down, makes mosquito be attracted on the 3rd lower cover 225 by the air-flow flowing through clematis stem hole 76；When inner core 22 moves up, the water 7 being retained in inner core 22 is made to be drained rapidly by clematis stem hole 76.3rd lower cover 225 is additionally provided with the first through hole 71 being slidably matched with connecting rod 3, the size that the 3rd lower cover 225 is individual less than mosquito with the gap of the inner surface of urceolus 21 and the aperture in clematis stem hole 76.

With reference to Figure 15, the hook 82 for hanging is arranged at the top of top cylinder 1, and for arranging that the string holes 83 of power line (not shown) is set and the sidepiece of top cylinder 1, the supply of electric power of circuit control panel 12 thus power line provides.

With reference to Figure 17, top cylinder 1 includes the first shell, circuit control panel 12, pillar 13, first shell is made up of the first upper cover 111, the first side wall 112 and the first lower cover 113, first upper cover 111 and the first lower cover 113 removably couple with the first side wall 112, at this, detachable connection is thread connection, and actuator 14 is removably mounted on the first lower cover 113 by screw, and circuit control panel 12 is removably mounted on actuator 14 by pillar 13 and screw.

With reference to Figure 18, actuator 14 includes two with vertically disposed the first motor 141 and second motor the 142, first wire reels the 143, second wire reels 144, cover plate 145 and the side plate 146 with drive mechanism of axis, first stay cord 5 couples with the first wire reels 143, first wire reels 143 and the propeller shaft couplings of the first motor 141, second stay cord 6 couples with the second wire reels 144, the second wire reels 144 and propeller shaft couplings of the second motor 142.The first described motor 141 and the second motor 142 are inverted to arrange by sides adjacent by the side plate 146 of four " convex " shape and are surrounded, the rotating shaft of described first motor 141 and the second motor 142 through side plate 146 and couples with wire reels, four side plates 146 are inserted in by two cover plates 145 by protruding ring-shaped edge, and hook the corresponding bayonet socket on side plate 146 by the buckle 224 on cover plate 145, as shown in figure 16.

With reference to Figure 19, the boss being threaded hole 81 that the first lower cover 113 is provided with the first through hole 71 dodged the opening 72 of the first stay cord 5 and the second stay cord 6 and coordinate with connecting rod 3, installs fixing actuator 14.

With reference to Figure 20, the diameter of the end that connecting rod 3 coordinates with top cylinder 1 is more than the diameter of connecting rod 3 main body, and described end coordinates with the boss of the first lower cover 113, is fastened with the first lower cover 113 by connecting rod 3 by packing ring 85 and nut 84.In order to intuitively embody, packing ring 85 and nut 84 herein do not do cutting and process.Nut 84 is locked after the end thread portion fastening of connecting rod 3 at doffing 4.

The work process of mosquito sterilizer disclosed by the invention is as follows:

Water 7 is injected doffing 4, and water level is about at the 3/4 of doffing 4.Water, is easy to get and advantage of lower cost, the preferred liquid of the mosquito that is used to suffocate.

It is discharged on filling room 86 together with appropriate sugared and fraction of water.Sugar, is easy to get and advantage of lower cost (for relative fruit juice or Mel), is used to lure the preferred derivant of mosquito.Sugar is entered attachment piece 222 by fourth hole 74 after water-solubleization, and due to the relative movement of attachment piece 222 with connecting rod 3, the derivant on attachment piece 222 is transferred on connecting rod 3, and then makes connecting rod 3 play the effect luring mosquito.Being released in by sugar on filling room 86 it is apparent that independent, utilize the moisture in air to make sugar make moist, the sugar after making moist slowly enters attachment piece 222 by fourth hole 74, is discharged into by sugar on filling room 86 and can accelerate sugar entrance attachment piece 222 together with little water.

Middle cylinder 2 can move axially between the first position and the second position, and in described primary importance, the latter half of connecting rod 3 reveals, and the first half of connecting rod 3 is hidden by middle cylinder 2；In the described second position, the inner bottom part laminating of the bottom of middle cylinder 2 and doffing 4, the latter half of connecting rod 3 is hidden by middle cylinder 2, and the top half of connecting rod 3 reveals, if Fig. 1 is to shown in 2.Wherein said inner core 22 and urceolus 21 move (such as Fig. 3 to 4) by described actuator 14 relative to connecting rod 3.Inner core 22 and urceolus 21 are coupled with actuator 14 by the first stay cord 5 and the second stay cord 6 respectively, first motor 141 of actuator 14 rotates forward, the first stay cord 5 is made to be coiled on the first wire reels 143 by endless screw worm gear actuating mechanism (not shown), and then make inner core 22 up move along connecting rod 3, until the top of cylinder 2 in inner core 22 arrival, first motor 141 stops operating, owing to endless screw worm gear actuating mechanism has the characteristic of unidirectional delivery power, therefore, even if the inner core 22 being positioned at middle cylinder 2 top also will not move down in the effect of self gravitation.In like manner, second motor 142 of actuator 14 rotates forward, the second stay cord 6 is made to be coiled on the second wire reels 144 by endless screw worm gear actuating mechanism, and then make urceolus 21 up move along connecting rod 3, until urceolus 21 is to primary importance, the first motor 141 stops operating, owing to endless screw worm gear actuating mechanism has the characteristic of unidirectional delivery power, therefore, even if the urceolus 21 being positioned at primary importance also will not move down in the effect of self gravitation.Derivant on attachment piece 222 is transferred on connecting rod 3 along with moving up and down of inner core 22, and when urceolus 21 is positioned at primary importance, the connecting rod 3 revealed lures mosquito by adhering to the derivant on its surface, makes mosquito be gathered on connecting rod 3.After mosquito gathers some, first, second motor 142 inverts, making the second stay cord 6 untie from the second wire reels 144 by endless screw worm gear actuating mechanism, by the gravity of urceolus 21 self, urceolus 21 moves down along with the reversion of the second motor 142, until the inner bottom part laminating of the bottom of urceolus 21 and doffing 4, second motor 142 stops operating, and now, mosquito is trapped in the space that the water surface of the 3rd lower cover 225 by inner core 22 and doffing 4 forms.nullThen，First motor 141 inverts，The first stay cord 5 is made to untie from the first wire reels 143 by endless screw worm gear actuating mechanism，Gravity by inner core 22 self，Inner core 22 moves down along with the reversion of the first motor 141，During moving down，By the 3rd lower cover 225 arranged bottom inner core 22, the mosquito assembled is peeled off from connecting rod 3，Owing to the gap between each movable part is less than the Individual Size of mosquito，So being stripped the mosquito got off cannot flee from this sterilizer by the gap between each movable part，Along with inner core 22 continue move down，More mosquito is stripped，Indivedual mosquitoes can drop on the water surface of doffing 4，When the bottom of inner core 22 enters the underwater of doffing 4，The all mosquitoes assembled on connecting rod 3 all are stripped，And it is pressed into underwater by the 3rd lower cover 225，Due to mosquito and the supply losing oxygen，Will be in underwater death by suffocation，When urceolus 21 moves down into the second position，First motor 141 stops operating.Due to bottom and the inner bottom part laminating of doffing 4 of urceolus 21, the mosquito being pressed under water can be limited in urceolus；If the inner bottom part of the bottom of urceolus 21 and doffing 4 is not fitted, and leaves certain interval, it is likely to result in mosquito under water and flees from urceolus by described gap, and emerge, finally escape successfully, this reduces the work efficiency of sterilizer.The moving process of above-mentioned inner core 22 and urceolus 21 is shown in Figure 14,13,12 the most successively.After 10 minutes, first motor 141 rotates forward and makes inner core 22 up move, after inner core 22 removes the water surface, the clematis stem hole 76 that the water 7 being retained in inner core 22 is arranged by the 3rd lower cover 225 is drained from rapidly, thus do not increase the burden of motor, when inner core 22 rises to the top of urceolus 21, the first motor 141 stops operating.Second motor 142 starts to rotate forward, and urceolus 21 up moves, until moving on to primary importance on urceolus 21, the connecting rod 3 with derivant manifested starts to lure next group mosquito.

Above-described mosquito includes but not limited to fly, it is clear that can lure different types of mosquito by the kind changing derivant, derivant can also is that the specific hormonal of mosquito.

Claims

null1. a mosquito sterilizer，It has the top cylinder (1) comprising electric control loop、The connecting rod (3) that can adhere to mosquito derivant and the doffing (4) of the liquid (7) that can fill mosquito of suffocating，It is characterized in that described mosquito sterilizer the most sequentially coaxially arranges top cylinder (1)、Middle cylinder (2)、Doffing (4)，The two ends of connecting rod (3) couple with top cylinder (1) and doffing (4) respectively，Middle cylinder (2) is run through by connecting rod (3) and can move axially between the inner bottom part of top cylinder (1) and doffing (4) along connecting rod (3)，Middle cylinder (2) includes urceolus (21) and inner core (22)，Urceolus (21) and inner core (22) are coaxially disposed，Urceolus (21) is coaxially disposed the second upper cover (211) from top to down、Couple second sidewall (212) of the second upper cover (211) and be arranged on the spacing ring (213) of the second sidewall (212) bottom，Inner core (22) can move axially between the second upper cover (211) and spacing ring (213)，Inner core (22) is provided with the attachment piece (222) that can adhere to derivant、Peel off the 3rd lower cover (225) of the upper mosquito assembled of connecting rod (3)，Attachment piece (222) and connecting rod (3) good fit，3rd lower cover (225) is slidably matched with connecting rod (3).
A kind of mosquito sterilizer the most according to claim 1, it is characterized in that described middle cylinder (2) can move axially between the first position and the second position, in described primary importance, the latter half of connecting rod (3) reveals, and the first half of connecting rod (3) is hidden by middle cylinder (2)；In the described second position, the inner bottom part laminating of the bottom of middle cylinder (2) and doffing (4), the latter half of connecting rod (3) is hidden by middle cylinder (2), and the top half of connecting rod (3) reveals.
3. according to a kind of mosquito sterilizer according to any one of claim 1 or 2, it is characterized in that described top cylinder (1) also includes actuator (14), and wherein said inner core (22) and urceolus (21) are moved relative to connecting rod (3) by described actuator (14).
A kind of mosquito sterilizer the most according to claim 3, it is characterized in that described inner core (22) and urceolus (21) are coupled with actuator (14) by the first stay cord (5) and the second stay cord (6) respectively, second upper cover (211) of urceolus (21) is provided with opening (72), and described opening (72) is used for dodging the first stay cord (5).
A kind of mosquito sterilizer the most according to claim 4, it is characterized in that described attachment piece (222) is limited to the interior top of the 3rd upper cover (221) by buckle (224) by baffle plate (223), 3rd lower cover (225) is limited at the bottom of the 3rd upper cover (221), and the 3rd lower cover (225) and baffle plate (223) have certain distance.
A kind of mosquito sterilizer the most according to claim 5, it is characterized in that the outer filling room (86) being provided above adding derivant of the 3rd described upper cover (221), filling room (86) is made up of the sidewall at the top of the 3rd upper cover (221) and protrusion top, described top is provided with fourth hole (74), and the derivant of filling can pass through fourth hole (74) and enter attachment piece (222).
A kind of mosquito sterilizer the most according to claim 6, it is characterized in that the 3rd described lower cover (225) is provided with clematis stem hole (76), when inner core (22) moves down, mosquito is made to be attracted on the 3rd lower cover (225) by the air-flow flowing through clematis stem hole (76)；When inner core (22) moves up, the liquid (7) being retained in inner core (22) is made to be drained rapidly by clematis stem hole (76).
A kind of mosquito sterilizer the most according to claim 7, it is characterized in that described top cylinder (1) also includes the first shell, circuit control panel (12), pillar (13), first shell is by the first upper cover (111), the first side wall (112) and the first lower cover (113) composition, first upper cover (111) and the first lower cover (113) removably couple with the first side wall (112), actuator (14) is removably mounted on the first lower cover (113) by screw, circuit control panel (12) is removably mounted on actuator (14) by pillar (13) and screw.
A kind of mosquito sterilizer the most according to claim 8, it is characterized in that described actuator (14) also includes two with vertically disposed the first motor (141) with drive mechanism of axis and the second motor (142), the first wire reels (143), the second wire reels (144), cover plate (145) and side plate (146), first stay cord (5) couples with the first wire reels (143), and the second stay cord (6) couples with the second wire reels (144).
A kind of mosquito sterilizer the most according to claim 9, it is characterized in that described the first motor (141) and the second motor (142) are inverted by sides adjacent by the side plate (146) of four " convex " shape to arrange and surround, the rotating shaft of described first motor (141) and the second motor (142) through side plate (146) and couples with wire reels, four side plates (146) are inserted in by two cover plates (145) by protruding ring-shaped edge, and hook the corresponding bayonet socket on side plate (146) by the buckle (224) on cover plate (145).