IES86747B2 - Method of production of a middle barrel for a device to kill mosquitoes and/or flies - Google Patents

Abstract

The invention relates to a design method for the middle barrel suitable for the device to kill mosquitoes and/or flies. The method comprises providing an external barrel and an internal barrel; driving the internal barrel and the external barrel moving with respect to the connecting rod by an actuator arranged to the upper barrel; respectively connecting the internal barrel and the external barrel to the actuator with the first drawstring and the second drawstring, providing an opening for avoiding the first drawstring the second upper cover of the external barrel. Inducer moves to the rod and mosquitoes and/or flies are pressed under water to be drown due to the up-and – down motion of the middle barrel, the killing course do not cause secondary pollution or threat to health. <Figure 11>

Description

Field of the Invention The invention relates to a design method for the middle barrel for the device to kill mosquitoes and/or flies.

Description of prior art Currently, normal manners to kill mosquitoes and/or flies include spraying insecticide with special toxic on the bodies of mosquitoes and/or flies or over the area where mosquitoes and/or flies are present, such manners inevitably cause secondary pollution on the environment. For security and health concerns, people must evacuate the scene after spraying insecticide.

Most kinds of insecticides are toxic, they are likely to cause secondary pollution or threat to health.

There is provided with a device to kill mosquitoes and/or flies gathered by non-toxic inducer in a mechanical manner so as to solve the above problem.

Summary of the present invention The object of the invention is to provide a design method for the middle barrel suitable for the device to kill mosquitoes and/or flies gathered by non-toxic inducer in a mechanical manner so as to solve the above problem.

In the following, the technical solution will be described.

A design method for the middle barrel for the device to kill mosquitoes I 15 and/or flies includes coaxially arranging an external barrel and an internal barrel to the middle barrel; coaxially arranging a second upper cover, a second side wall for connecting the second upper cover (211) and a limit ring located at the bottom portion of the second side wall to the external barrel, from top to bottom; arranging for the internal barrel to move axially between the second upper cover and the limit ring; arranging a agglutinate block for attaching inducer and a third lower cover for stripping mosquitoes and/or flies gathered on the connecting rod to the internal barrel, the agglutinate block fitting well with the connecting rod, the third lower cover movably cooperating with the connecting rod.

Specifically includes driving the internal barrel and the external barrel moving with respect to the connecting rod by an actuator arranged to the upper barrel; connecting the internal barrel and the external barrel to the actuator respectively with the first drawstring and the second drawstring; arranging an opening for avoiding the first drawstring to the second upper cover of the external barrel.

Advantageously, defining the agglutinate block to the upper portion inside the third cover by the baffle board through the snap; defining the third lower cover at the bottom portion of the third upper cover; arranging a certain distance between the third lower cover and the 3/ 15 baffle board; arranging a charge chamber consisting of the top portion of the third upper cover and the side wall projected from the top portion to the top portion outside of the third upper cover, adding inducer through the charge chamber; arranging a fourth through hole to the top portion of the projecting portion; making the added inducer get into the agglutinate block through the fourth through hole.

Advantageously, providing a sixth through hole to the third lower cover; absorbing the mosquitoes and/or flies on the third lower cover by the airflow passing through the sixth through hole, when the internal barrel moves down; quickly draining liquid left in the internal barrel (22) off through the sixth through hole (76), when the internal barrel (22) moves up.

Brief description of the drawing In the following, the invention will be described in greater detail by means of some embodiments with reference to the accompanying drawings, in which Fig.1 is a 3d—drawing of the device of the invention at the first position; Fig.2 is a 3d—drawing of the device of the invention at the second position; Fig.3 is a 3d-drawing of the device in Fig.1 without the external barrel and the second drawstring; Fig.4 is a 3d—drawing of the device in Fig.2 without the external barrel and 4/ 15 the second drawstring; Fig.5 is a 3d—drawing of the external barrel of the invention; Fig.6 is an exploded 3d-drawing of Fig.5; Fig.7 is a 3d-drawing of the second upper cover in Fig.6; Fig.8 is a 3d-drawing of the limit ring in Fig.6; Fig.9 is a 3d-drawing of the lower barrel of the invention; Fig.10 is a 3d-drawing of the internal barrel of the invention; Fig.11 is an exploded 3d-drawing of Fig.10; Fig.12 is a sectional view of Fig.2 along A-A direction; Fig.13 is fromFig.2, wherein the internal barrel is at top portion of the external barrel; Fig.14 is fromFig.13, wherein the external barrel is at the first position; Fig.15 is a 3d-drawing of the upper cover of the invention; Fig.16 is a 3d-drawing of the actuator of the invention; Fig.17 is an exploded 3d-drawing of Fig.15; Fig.18 is an exploded 3d-drawing of Fig.16; Fig.l9 is a 3d-drawing of the first lower cover in Fig.17; Fig.20 is a sectional view of the joint of the connecting rod and the first lower cover. 1. the upper barrel; 2. the middle barrel; 3. the connecting rod; 4. the lower barrel; 5. the first drawstring; 6. the second drawstring; 7. the liquid; 12. the circuit controlling board; 13. the pillar; _ 14. the actuator; 21. the external barrel; 22. the internal barrel; 111. the first upper cover; 112. the first side wall; 113. the first lower cover; 141. the first electric motor; 3 142. the second electric motor; 143. the first wire rewinding wheel; / 15 144. the second wire rewinding wheel; 145. the cover board; 146. the side board; 211. the second upper cover; 212. the second side wall; 213. the limit ring; 221. the third upper cover; 222. the agglutinate block; 223. the baffle board; 224. the snap; 225. the third lower cover; 71. the first through hole; 72. the opening; 73. the third through hole; 74. the fourth through hole; 75. the fifth through hole; 76. the sixth through hole; 81. the threaded hole; 82. the hook; 83. entrance hole; 84. the nut; 85. the washer; 86. the charge chamber.

Detailed description of the preferred embodiment Referring to Fig.1 and Fig.2, a device to kill mosquitoes and/or flies includes a upper barrel 1 located at the top portion of the whole device, a middle barrel 2 located bellow the upper barrel 1, a lower barrel 4 located at the bottom portion of the whole device and five connecting rods for connecting the upper barrel 1 and the lower barrel 4. The upper barrel 1, the middle barrel 2 and the lower barrel 4 are coaxially arranged, the middle barrel 2 penetrated by the connecting rod 3 axially moves between the inner bottom of the upper barrel 1 and the lower barrel 4, the mouth of the lower barrel 4 directs towards the middle barrel 2, the lower barrel 4 is arranged to contain the liquid 7 like water to smother mosquitoes and/or flies, see Fig.14.

Referring to Fig.12 to Fig.14, the middle barrel 2 includes the external barrel 21 and the internal barrel 22, the middle barrel 2 is housed in the external barrel 21, the middle barrel 2 moves axially between the second upper 6/ 15 cover 211 of the external barrel 21 and the limit ring 213. Referring to Fig.5 to Fig.8, the second upper cover 211 is arranged to the top portion of the external barrel 21, the limit is arranged to the bottom portion of the external barrel 21, the second upper cover 211 connects with the second side wall 212 in a threaded connection manner, the limit ring 213 connects with the second side wall 212 by the thread on the external surface of the limit ring 213. The second upper cover 211 provides a first through hole 71 for movably cooperating with the connecting rod 3, an opening 72 for avoiding the first drawstring 5 and a third through hole 73 for cooperating with the second drawstring 6. The end portion of the second drawstring 6 for cooperating with the second upper cover 211 has a fixed portion which is greater than the diameter of the third through hole 73, the second drawstring 6 interacts with second upper cover 211 through the fixed portion so as to achieve the axial motion of the external barrel 21.

Referring to Fig.9, the lower barrel 4 has a structure of cylinder with bottom and without top, there are five threaded holes 81 at the bottom, four of them are arranged in a ring array, the axis of the array is the axis of the lower barrel 4, the last one threaded hole 81 locates at the central point of the array, the five threaded holes 81 cooperate with the threaded portion of the end portion of each of five connecting rods 3.

Referring to Fig.1O to Fig.11, the middle barrel 22, from top to bottom, includes a third upper cover 221, a agglutinate ‘block 22 for attaching inducer, a baffle board 223 and a third lower cover 225 for stripping mosquitoes and/or flies gathered on the connecting rod 3, referring to Fig.12, the agglutinate block 222 is defined to the upper portion inside the I 15 third cover 221 by the baffle board 223 through the snap 224, the third lower cover 225 is defined at the bottom portion of the third upper cover 221, there is a certain distance between the third lower cover 225 and the baffle board 223, the distance is arranged in such manner that when the middle barrel is at the second position and the third lower cover fits well with the limit ring of the external barrel, the third lower cover locates bellow the liquid surface of the lower barrel and the baffle board locates above the liquid surface of the lower barrel.

A charge chamber 86 consisting of the top portion of the third upper cover 221 and the side wall projected from the top portion is arranged to the top portion outside of the third upper cover 221, the charge chamber 86 is arranged to add inducer, a fourth through hole 74 is arranged to the top portion of the projecting portion, the added inducer gets into the agglutinate block 222 through the fourth through hole 74.

The agglutinate block 222 provides a first through hole 71 penetrated by the connecting rod 3, and a fifth through hole for avoiding the snap 224, the material of the agglutinate biock 222 is sponge or flocculence, such material makes the agglutinate block 222 fit well with the connecting rod 3, it is good for inducer to move from the agglutinate block 222 to the connecting rod 3.

The baffle board 223 provides a first through hole 71 for cooperating with the connecting rod 3, a fifth through hole 75 for avoiding the snap 224.

The third lower cover 225 provides a sixth through hole 76, when -the internal barrel 22 moves down, the mosquitoes and/or flies are absorbed on the third lower cover 225 by the airflow passing through the sixth through 8/ 15 hole 76; when the internal barrel 22 moves up, liquid left in the internal barrel 22 is quickly drained off through the sixth through hole 76. The third lower cover 225 also provides a first through hole 71 for movably cooperating with the connecting rod 3, the gap between the third lower cover 225 and the internal surface of the external barrel 21, and the diameter of the sixth through hole 76 are less than the body size of mosquito or fly.

Referring to Fig.15, a hook 82 for hanging the device is arranged to the top portion of the upper barrel 1, an entrance hole 83 for power wiring is arranged to the side portion of the upper barrel 1, the power supply for the circuit controlling board 12 is from such power wiring.

Referring to Fig.17, the upper barrel 1 includes a first external shell, a circuit controlling board 12 and a pillar 13, the external shell consists of a first upper cover 111, a first side wall 112 and a first lower cover 113, the first upper cover 111 and the first lower cover 113 removably connect with the first side wall 112, the removable connection thereof is the thread connection. The actuator 14 is removably mounted to the first lower cover 113 by the screw, the circuit controlling board 12 is removably mounted to the actuator 14 by the pillar 13 and the screw.

Referring to Fig.18, the actuator 14 includes a first and second electric motor 141, 142 with drive mechanism, a first and second wire rewinding wheel 143, 144, a cover board 145 and a side board 146, each axis of the motors 141, 142 is vertical to each other, the first drawstring 5 connects with the first wire rewinding wheel 143, the second drawstring 6 connects 9/ 15 with the second wire rewinding wheel 144, the first wire rewinding wheel 144 connects with the rotary shaft of the first electric motor 141. The electric motors 141, 142 are surrounded by the four side boards, the neighboring boards are inverted, the rotary shaft of the electric motor passes through the side board to connect with the wire rewinding wheel, the four side boards are sleeved into the two cover board by the projecting annular rim, and the snap of the cover board is arranged to hook the corresponding bayonet of the side board, see Fig.16.

Referring to Fig.19, the first lower cover 113 provides an opening 72 for avoiding the first and second drawstring S, 6, a first through hole 71 for connecting with the connecting rod 3, a boss with thread for mounting the actuator 14.

Referring to Fig.20, the diameter of the end portion of the connecting rod 3 for cooperating with the upper barrel 1 is greater than the diameter of the body of the connecting rod 3, the end portion cooperates with the boss of the first lower cover 113, the connecting rod 3 and the first lower cover 113 are fastened by washers 85 and nuts 84. The nut 84 is fastened after the fastening of the lower barrel 4 and the thread portion of the end portion of the connecting rod 3.

In the following, the work process of the device will be described.

Infuse water 7 into the lower barrel 4, the water level is about the 3/4 of the lower barrel 4. Water, which is easy to get and is cheap, is a preferential kind of liquid to smother mosquitoes and/or flies. / 15 Put appropriate amount of sugar and a little water into the charge chamber 86. Sugar, which is easy to get and is cheap with respect to fruit juice or bee honey, is a preferential kind of inducer to entice mosquitoes or flies. Sugar melted by water gets into the agglutinate block 222 through the fourth through hole74, due to the respective movement of the agglutinate block 222 and the connecting rod 3, inducer in the agglutinate block 222 moves to the connecting rod 3 so as to make the connecting rod 3 have a function of enticing mosquitoes and/or flies. Obviously, only sugar is put into the charge chamber 86, the water in the air can damp the sugar, the damped sugar slowly gets into the agglutinate block 222 through the fourth through hole 74, so put sugar together with water into the charge chamber 86 can make sugar quickly get into the agglutinate block 222.

Referring to Fig.1 and Fig.2, the middle barrel 2 axially moves between the first position and the second position; at the first position, the lower-half of the connecting rod 3 is visible and the upper-half of the connecting rod 3 is covered by the middle barrel 2, at the second position, the bottom portion of the middle barrel 2 fits well with the bottom portion of the lower barrel 4, the |ower—half of the connecting rod 3 is covered by the middle barrel 2, the upper-half of the connecting rod 3 is visible. The actuator 14 drives the internal barrel 22 and the external barrel 21 moving with respect to the connecting rod 3 (see Fig.3 to Fig.4).

The internal barrel 22 and the external barrel 21 connect to the actuator respectively with the first drawstring 5 and the second drawstring 6. When the first electric motor 141 of the actuator 14 rotates positively, the first drawstring 5 entwines around the first wire rewinding wheel 143 through 11/ 15 the worm and gear so as to make the internal barrel 22 move up along the connecting rod 3 till the internal barrel 22 reaches the top portion of the middle barrel 2, the first electric motor 141 stops rotating, due to the non—reversible drive of the worm and gear, the internal barrel 22 located at the top portion of the middle barrel 2 do not move down even under the effect of gravity force. Equally, the second electric motor 142 of the actuator 14 rotates positively, the second drawstring 6 entwines around the second wire rewlnding wheel 144 through the worm and gear so as to make the external barrel 21 move up along the connecting rod 3 till the external barrel 21 reaches the first position, the second electric motor 142 stops rotating, due to the non-reversible drive of the worm and gear, the external barrel 21 do not move down even under the effect of gravity force. The inducer within the agglutinate block 222 moves to connecting rod 3 as the up-and—down motion of the internal barrel 22, when the external barrel 21 is at the first position, the visible connecting rod 3 entices the mosquitoes and/or flies with the inducer on the external surface of the connecting rod 3 so as to gather them on the rod 3. When mosquitoes and/or files on the rod reach a certain number, firstly, the second electric motor 142 rotates negatively, the second drawstring 6 is untied from the second wire rewinding wheel 144 through the worm and gear, with the help of gravity force, the external barrel 21 moves down as the second electric motor 142 rotating negatively, the second electric motor 142 stop rotating until the bottom portion of the external barrel 21 fit with the internal bottom of the lower barrel 4, at this moment, mosquitoes and/or flies are kept in the space formed by the third lower cover 225 of the internal barrel 22 and the water surface of the lower barrel 4. Secondly, the first electric motor 141 rotates negatively, the first drawstring 5 is untied from the first wire 12/15 rewinding wheel 143 through the worm and gear, with the help of gravity force, the internal barrel 22 moves down as the first electric motor 141 rotating negatively, during the course of moving down, the third lower cover 225 strips mosquitoes and/or flies gathered on the rod 3, because the gaps between moving parts is less than the body size of mosquito or flies, the mosquitoes and/or flies stripped from the rod 3 can not escape from the device through the gaps. More mosquitoes and/or flies are stripped down as the internal barrel 22 continues moving down, some of them may drop on the liquid surface of the lower barrel 4, when the bottom portion of the internal barrel 22 moves bellow the liquid surface, all the mosquitoes and/or flies gathered on the rod 3 are stripped down and are pressed bellow the liquid surface, they will be drown under liquid as there is no oxygen supply for breath, when the external barrel 21 moves to the second position, the first electric motor 141 stops rotating.

Because the bottom portion of the external barrel 21 fits well with the internal bottom of the lower barrel 4, the mosquitoes and/or flies pressed under the water are kept in the external barrel 21, if the bottom portion of the external barrel 21 do not fit with the internal bottom of the lower barrel 4 resulted in a gap leaving between them, it may cause that the mosquitoes and/or flies under water escape from the device through the gap, so the efficiency of device is reduced. The order of movement of the internal barrel 22 and the external barrel 21 can be successively seen from Fig.l4,l3,12.

Ten minutes later, the first electric motor 141 rotates positively to make the internal barrel 22 move up, the water left in the internal barrel 22 is quickly drained off through the sixth through hole 76 arranged to the third lower cover 225 so as to reduce the electric motor burden after the internal barrel I 15 22 moves out of water, the first electric motor 141 stops rotating when the internal barrel 22 moves to the top portion of the external barrel 21.

The second electric motor 142 starts rotating positively so as to make the external barrel 21 move up till the external barrel 21 is at the first position, then the connecting rod 3 attached with inducer is visible to entice the next group of mosquitoes and/or flies.

Obviously, changing the kinds of inducer can entice different kinds of insects, inducer includes opposite sex hormone.

According to the invention, non-toxic inducer entices mosquitoes and/or flies to gather on the rod 3, then a mechanical manner is taken to smother them, the killing course do not cause secondary pollution or threat to health.

Claims (3)

Claims

1.A method of production of a middle barrel for a device to kill

mosquitoes and/or flies, comprising

coaxially arranging an external barrel (21) and an internal barrel (22)

to the middle barrel (2);

coaxially arranging a second upper cover (211), a second side wall

(212) for connecting the second upper cover (211) and a limit ring (213)

located at the bottom portion of the second side wall (212) to the external

barrel (21), from top to bottom;

arranging for the internal barrel (22) to move axially between the

second upper cover (211) and the limit ring (213);

arranging a agglutinate block (222) for attaching inducer and a third

lower cover (225) for stripping mosquitoes and/or flies gathered on the

connecting rod (3) to the internal barrel (22), the agglutinate block (222)

fitting well with the connecting rod (3), the third lower cover (225) movably

cooperating with the connecting rod (3); characterized by

driving the internal barrel (22) and the external barrel (21) moving

with respect to the connecting rod (3) by an actuator (14) arranged to the

upper barrel (1);

connecting the internal barrel (22) and the external barrel (21) to the

actuator respectively with the first drawstring (5) and the second drawstring

(6);

arranging an opening (72) for avoiding the first drawstring (5) to the

second upper cover (211) of the external barrel (21).

2.A method of production of a middle barrel for a device to kill

mosquitoes and/or flies, characterized by

20

15/ 15

defining the agglutinate block (222) to the upper portion inside the

third cover (221) by the baffle board (223) through the snap (224);

defining the third lower cover (225) at the bottom portion of the

third upper cover (221);

arranging a certain distance between the third lower cover (225) and

the baffle board (223);

arranging a charge chamber (86) consisting of the top portion of the

third upper cover (221) and the side wall projected from the top portion to

the top portion outside of the third upper cover (221);

adding inducer through the charge chamber (86);

arranging a fourth through hole (74) to the top portion of the

projecting portion;

making the added inducer get into the agglutinate block (222)

through the fourth through hole (74) .

3. A method of production of a middle barrel for a device to kill

mosquitoes and/or flies according to claim 2, characterized by

providing a sixth (76) through hole to the third lower cover (225);

absorbing the mosquitoes and/or flies on the third lower cover (225)

by the airflow passing through the sixth through hole (76), when the

internal barrel (22) moves down;

quickly draining liquid left in the internal barrel (22) off through the

sixth through hole (76), when the internal barrel (22) moves up.