KR101966024B1 - Wasp Capturing Device - Google Patents

Abstract

The present invention relates to a wasp trap for solving a bee damage caused by wasps, unlike the conventional method of attracting wasps to attract the wasps to capture only a portion of the wasp, forming a search flight and capture chamber at the bee hive entrance When the wasp searches for flight and enters the search flight room, it enters through the entrance under the capture room and is trapped in the capture room. Wasps can be formed to protect bees from wasps.
The present invention has the characteristic of catching the cores of breeding cycles of wasps that constantly feed and raise larvae to hunt bees, thereby preventing the increase in the number of wasps, as well as disrupting the breeding cycle of wasps. It is a wasp catcher that can solve the enormous beekeeper damage and maximize the income of bee farms by expanding the beneficial role of bees in the ecosystem due to the increase in bee population.

Description

Wasp catcher {Wasp Capturing Device}

The present invention relates to a wasp trap for solving the beekeeping damage caused by wasps.

In the technical field, "a wasp catching device provided with a attractant into a catching net (registered number 20-0446750)", "a wasp catcher (registration number), which has a structure that attracts wasps with a attractant by putting a attractant in a capture frame. 20-0480937).

The common technique of the prior art is to attract and capture wasps with a attractant, but the problem with the conventional method is that the wasps are attracted to the attractant so that they enter the catching frame. There is.

In addition, the bees are freely hunted from the beehives of surrounding bees, leading to severe beekeeper damage.

Most of the wasps are easily hunted for bees from beehives because most of the wasps are trapped by the method of attracting and attracting the attractant or by applying the attractant to the adhesive. .

In view of the fact that the number of wasps has increased day by day, the damage to beekeeping is increasing year by year, and the conventional technique using a attractant does not prevent the increase in the number of wasps.

The attractant used in the prior art has a problem of dysfunction, such as a bee hives up to the hornets of a long distance, the beehive is eroded, and over time, the scent of the attractant flies and does not function as an attractant, and often attracts There is also the hassle and economic burden of exchanging money.

The reason why the catch rate is very low in the conventional method of catching wasps by attracting the attractant into the catch frame is because the wasps are free to hunt in the beehives.

There are a lot of bees that feed on the beehives, and the bees can be easily hunted, which means that the wasps are attracted by the attracting agent of the prior art, and the number of wasps in the catching frame is very small.

When the wasp catcher of the present invention and the prior art attractant capture frame were tested under the same conditions, 85% of the wasps were captured by the wasp catcher of the present invention, and 15% of the wasps were captured in the prior art attractant capture frame. The results of these experiments are well understood.

The back of the wasp fist was 80% of the bees, and wasps can be easily hunted at any time in the surrounding beehives, and the wasps are rapidly increased as they catch bees for breeding and feed them as larvae.

Wasps easily obtain food for breeding from beekeeping farmers, and bees hunted by wasps are supplied as an energy source for the wasp's breeding to increase the number of wasps.

The food chain of wasps and bees leads to an increase in the number of wasps each year, resulting in the destruction of the ecosystem due to the loss of excessive bees, and the damage of bee farms by the bee farms. to be.

As such, the conventional technique of attracting wasps with a captive catching frame attracts little catches, which does not reduce the number of wasps that grow and grow rapidly. The raising wasps are the main entities in the breeding cycle, so they cannot solve the damage to the bee farms without the capture of these major entities.

Therefore, in order to fundamentally solve the problems and technical problems of bee damage caused by wasps, the technology prevents the increase of the number of wasps by breaking the breeding cycle of wasps that threaten the ecosystem and preventing the loss of enormous bee populations that disappear as food for wasps. You can see that it must be.

The present invention is to solve the problem and technical problems of the beekeeping damage, to effectively collapse the wasps breeding cycle to provide a wasp trap to reduce the number of wasps.

Since the bee is the main source of energy in the wasp breeding cycle, the bee is characterized by a structure that captures the wasp in the step of flying in front of the bee hive entrance to hunt the bees in the beehives of bee farms.

Since the present invention does not capture wasp using the attractant but captures wasps that fly to the beehive entrance to hunt bees, and thus the wasps catch the bees, feed the larvae, grow the larvae, and breed the wasps. They are the main contributors to the increase, which blocks the wasp's breeding cycle.

The capture of the wasps main breeding is the blocking of the growth energy source necessary for the growth of the wasp larvae, the bee catches and feeds the larvae and the wasp breeding cycle of the increase in the number of wasps has collapsed.

Therefore, in order to carry out the technical process of capturing the major wasps, it is necessary to understand the flight habit of wasps hunting the bees. The wasps 'flight habits approach the bees' beehive entrances to catch the bees. Have a flight process to explore.

This is called the search flight of wasps. The reason why a wasp searches in front of the hive entrance is because the bees are gathered at the entrance of the hive, which is the easiest spot for hunting.

The present invention has a structure and principle that is captured in the stage of the search flight to bees hunt bees in front of the bee hive entrance as a solution to the problem, will be described in detail with reference to the drawings.

Since the constituent material of the present invention is intended to prevent the trapped wasp from coming out, the wasp may be made of a net or plate that is perforated with a hole size that cannot pass therethrough, and may be configured by mixing the net and the plate. This is because the same constituent material has no problem in achieving the object of the present invention.

The drawing shown in the present invention is assumed to be a drawing composed of a network for convenience.

As shown in FIG. 1, the front frame 18, the left side frame formed of a mesh 14 or a plate 50 through which holes in the front of a bee hive 86 are not allowed to pass through a hole size. 20, a main body 16 having a right side frame 22, the main body 12 is spaced at a certain height from the ground so that the wasp enters the search flight and enters the front 12 of the beehive entrance 10 where the bees enter and exit. It is in close contact with the lower part of the main navigation chamber 40, the upper portion of the capture chamber 42, and the capture chamber lower portion is formed on the lower and upper boundary.

As shown in Fig. 2, the capture chamber lower portion is composed of a curved lower portion 72 widened upwardly formed of a net 14 or a plate 50 and having inclined surfaces on both sides, and the capture chamber lower portion searches for wasps. The search flight in flight 40 is spaced at regular intervals from the left and right sides at the bottom of the U-shaped lower portion so as to enter the capture chamber 42, the capture chamber entrance 46 is formed on the left and right sides, above the search flight chamber 40 The capture chamber 42 is configured, the wasp is entered into the capture chamber through the capture chamber inlet 46 open to the lower sides of the capture chamber, the capture chamber to prevent the wasps trapped inside the front frame 18 In addition to the left side frame 20, the right side frame 22, a back frame 24 made of a mesh 14 or a plate 50) is formed, and as shown in FIG. 3, the dead wasp can be easily taken out. The upper part of the seal 42 is formed of a net 14 or a plate 50 so as to be opened and closed. The kkeongbu 48 is configured.

The main body 16 is fixed to the beehive front surface 12 by conventional fixing means such as rings at both ends or the top.

The net 14 is formed through the hole to a predetermined size so that wasps can pass through, if the hole size of the net is about 5 to 6mm in width and width to meet this condition.

Looking at the process of the wasp is captured in the present invention made as described above, the wasp is searched to fly towards the beehive entrance 10 where the bees are gathered to hunt the bees, and the wasp is searched to enter a predetermined height from the ground to enter the flight The wasp that entered the search flight chamber, which is a space below the main body, is spaced through the capture chamber entrance 46 open to both sides of the capture chamber lower part while flying along the surface of the lower part of the trapezoid lower part 72. 42) and the capture is made, the present invention has a capture principle using the habit of the wasp flying up if there is an open space above.

The wasps trapped in the capture chamber 42 cannot fly under the capture chamber due to the habit of soaring upwards, and stay in the upper space inside the capture chamber instead of exiting the capture chamber entrance 46. When you travel, you have a habit of jumping over a small space, so if you are trapped in the capture room, it is difficult to get out of the entrance.

According to the present invention, the jaw portion 52 and the roof plate 54 formed of the net 14 or the plate 50 may be formed at the capture chamber entrance 46. The jaw portion 52 is constructed at a constant height, and the roof plate 54 is spaced a predetermined height above the capture chamber entrance so that the wasp passes through the capture chamber entrance 46 on both sides and enters from both sides of the capture chamber 42. Is formed.

As shown in Fig. 4, wasps are captured in a path indicated by a dotted line.

The present invention may constitute an upper integrated capture chamber 62a formed of a net 14 or a plate 50 inside the capture chamber 42, as shown in FIG. 5, in the capture flight chamber 40. An inclined portion 64 spaced at regular intervals from the left and right sides of the upper portion and having a predetermined inclination is formed to have a constant length on both sides such that the wasp entering the capture chamber 42 enters from both sides of the upper portion, and the inclined portion is narrowed. The distance between the upper end and the lid portion 48 is formed spaced apart at intervals through which wasps pass, and the upper integrated capture chamber bottom portion 80 connecting the two inclined portions 64 below the two inclined portions 64 is configured. .

Wasps in the capture chamber 42 is trapped in the upper integrated capture chamber 62a through spaces spaced at regular intervals on both sides of the upper, the inclined portion of the inclined structure that the front was gradually narrowed by the habit of the wasps upward ( Enter the space at the top end of 64) and become trapped in the upper integrated capture room.

According to the present invention, the lower chamber of the capture chamber may be configured as an X-shaped lower portion 68, an inclined oblique lower portion 74, and a lower surface of the plane 70. As shown in FIG. 6, the lower chamber is widened downward and inclined to both sides. An inclined lower portion 68 having a lower portion 68, wider downwardly as shown in FIG. 7, and an inclined oblique lower portion 74 having an inclined surface in all directions, and a planar lower portion 70 having a plane as shown in FIG. .

∧ lower portion 68, four-sided inclined lower portion 74, the planar lower portion 70 is formed as the capture chamber lower portion of the bee bee bees hive entrance in front of the bee 10, the search flight space 40 and spaced apart from the ground The trapping chamber is opened to the center of the lower part of the trapping chamber to enter the trapping chamber 42 through the trapping chamber entrance 46 while flying along the surface formed at the bottom by the habit of the wasp flying up after entering the inside. Inlet 46 is formed.

The hornet was constructed by setting the jaw portion 52 having a constant inclination at the edge of the capture chamber entrance at a constant height so that the wasp passes through the capture chamber entrance 46 to both sides of the capture chamber entrance, and spaced a certain height above the capture chamber entrance. The roof plate 54 can be formed.

As shown in FIG. 9 in which a wasp's catching path is indicated by a dotted line, the jaw and the roof plate formed at the catching chamber entrance 46 block the entrance indirectly and serve as an obstacle, thereby making it difficult to escape the wasp. When a separate mini capture chamber or upper integrated capture chamber 62a, 62b is formed inside the chamber 42, the wasps that enter the capture chamber are sent to both sides to be quickly trapped in the mini capture chamber or the upper integrated capture chamber. Has the feature of advantage.

The present invention can form a mini-capture chamber made of a net 14 or a plate 50 on both upper and lower sides of the capture chamber 42, as shown in FIG. Left and right sides of the lower portion of the capture chamber 42 are formed by forming a lower inclined portion 58 formed at a constant length so that the lower end of the inclined portion having a predetermined inclination is spaced from the left and right both sides of the lower portion so as to enter from both sides and adheres to the lower portion of the capture chamber. Lower mini-capture chamber 76 is configured on both sides.

In addition, the upper inclined portion (60) formed so that the wasp is spaced apart from the left and right both sides of the upper portion and the upper end of the inclined portion having a constant inclination in close contact with the lid portion 48 so that the wasp enters from both sides of the upper portion of the capture chamber 42. The upper mini-capture chamber 78 is formed on both left and right sides of the capture chamber by forming a predetermined length.

Wasps in the capture chamber 42 enters and is trapped in either the lower mini capture chamber 76 or the upper mini capture chamber 78 through spaces spaced at regular intervals on both sides.

In the present invention, as shown in FIG. 11, the upper integrated capture chamber 62b formed of the net 14 or the plate 50 may be configured inside the capture chamber, so that the wasp enters from both sides of the upper capture chamber 42. Inclined portions 64 spaced at regular intervals from the left and right sides of the upper part and having a predetermined inclination are formed at a predetermined length on both sides by a pair of up and down, and the pair of inclined portions 64 have a narrower front and the like. The upper and lower end distances of the narrowed inclined portion having the inclined structure in the shape are spaced apart at intervals through which wasps pass, and the upper end of the pair of inclined portions 64 is in close contact with the lid portion 48, and The upper integrated capture chamber bottom part 80 which connects both side lower inclination parts below the inclination part 64 is comprised.

The wasp in the capture chamber 42 enters through spaces spaced at regular intervals on both sides of the upper portion with upward habits, and spaces at both ends of the upper and lower ends of the inclined portion 64, which are gradually narrower in front. Passed through and trapped in the upper integrated capture chamber (62b).

The lower mini capture chamber 76 may be configured together with the upper integrated capture chambers 62a and 62b formed in the capture chamber 42.

The wasp trapped in the upper integrated capture room or mini-capture room as described above has the advantage of stress that reaches the peak due to the characteristics of the wasp where the stress is increased the narrower the space, and the energy is quickly consumed to kill the wasp early. Has

In the configuration of the main body 16 as shown in Fig. 12, the present invention includes a bottom portion 26a formed of a plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22. (16) formed at the bottom so that the navigational flight entrance 38 having a predetermined size is formed at the bottom of the front frame 18, the left side frame 20, and the right side frame 22 so that the wasp can enter the navigational flight. can do.

In the above structure, when the wasp enters the search flight room 40, the bottom part 26a blocks the lower space to the bottom part to prevent the wasp from escaping and the wasp flies upward to the capture chamber entrance 46. Help entry

As shown in FIG. 1, the present invention has a configuration of the main body 16 in which the search flight chamber 40 and the capture chamber 42 are formed as one, and the search flight chamber 40 and the capture chamber as shown in FIG. Each of the (42) can be separated so that the capture chamber is seated on the search flight room to be detached, the separation structure has the advantage of being able to move only the capture chamber 42 in which wasps are trapped separately.

According to the present invention, the wasp entry prevention parts 82a and 82b formed of the net 14 or the plate 50 may be formed in the hive inlet 10 to prevent the wasps from entering the hive. As shown in FIG. 15, the rear surface of the wasp entry prevention portion 82a is brought into close contact with the beehive front surface 12, and the navigational entry prevention portion 82b is searched as shown in FIG. The wasp entry prevention portion 82b may be fixed to the beehive front surface 12 by configuring the rear surface of the seal 40.

The wasp entry prevention portion 82a configured inside the search flight room has a front portion 30, a left surface portion 34, a right surface portion 36, and an upper surface portion 32 passing through wasps as shown in FIG. The bottom part 26b which consists of the board | plate material 14 or the board | plate material 50 which cannot be perforated by the hole size which cannot be made, and the board | substrate 50 which makes a space | interval the said left surface part and the right surface part long is comprised, and said The lower part of the front part is spaced apart from the bottom part by a predetermined height so that the bees can enter and exit, and the bee entrance 84 is formed downward, and as shown in FIG. 14, the rear surface of the wasp entry prevention part 82a is shown. Close to the beehive front surface 12 to configure the wasp entry prevention portion into the search flight room 40.

The wasp entry prevention portion 82b formed at the rear of the search flight chamber has the same structure as the wasp entry prevention portion 82a as shown in FIG. 17, and as shown in FIGS. 40) It is configured on the back, the wasp entry prevention portion (82b) is fixed to the beehive front surface 12 by the usual fixing means such as hooks on both ends or the upper end.

As shown in FIG. 17, the wasp entry prevention parts 82a and 82b are formed at the beehive entrance 10 of the bee so that small bees can freely enter and exit the bees through the bee entrance 84 It is not allowed to enter, which has the advantage of keeping bees safe from wasps.

As shown in FIG. 18, the present invention has a left side frame 20 and a right side frame 22, and grooves are provided at both sides of the lower inclined portion 58 and the upper inclined portion 60 of the mini-capture chamber as shown in FIG. It is possible to form the 66 so that the net 14 or the plate 50 is inserted into the groove and detachable.

The inclined portion 64 of the upper integrated capture chamber can also be configured to form a groove 66 on both sides so that the net 14 or the plate 50 is fitted into and detached from the groove.

The grooved net is easily detachable and has the advantage of easy removal or cleaning of dead wasps inside the capture chamber 42.

The present invention is because the wasp flying into the hive of bees are captured in the search flight stage, has been characterized in that the wasp capture in large quantities to solve the bee farming damage caused by wasps.

Since the present invention has a structure that is installed at the beehive entrance to bees hunting wasps, trapping the main breeding of wasps to feed the worms by hunting bees to cut off the hornet energy source supply of wasps and reduce the number of wasps It has the characteristic of disrupting the breeding cycle.

The present invention is because all wasps flying to bee farms are captured in the search flight stage, it has a feature that can increase the yield of honey by preventing the bee population loss of bee farms.

The present invention has the feature of restoring numerous beneficial roles that honey bees play in the ecosystem by capturing wasps that reduce the number of bee individuals.

The present invention has a feature that bees are safely protected by the wasp entry prevention portion of the beehive entrance.

Since the present invention does not use an attractant, it has the feature of capturing a large amount of wasps without the hassle of exchanging the attractant regularly or the economic burden of purchasing the attractant.

The present invention is characterized by easy installation and easy internal cleaning.

1 is a perspective view of a wasp trap body of the present invention installed in front of a bee hive entrance;
Figure 2 is a wasp trapper lower part perspective view of the present invention removed the front frame and the lid to see the inside.
Figure 3 is a perspective view of the lower jaw trapper wasp of the present invention installed in front of the beehive entrance of the bee.
Figure 4 is a frontal cross-sectional view of the wasp trapping machine of the present invention showing the process of entering the trapping chamber, the wasp in the jaw portion, the roof plate, the roof plate.
Fig. 5 is a front sectional view of a wasp trapping machine of the present invention showing a process of entering a wasp into an upper integrated capture chamber 62a formed inside the trapezoidal lower portion and the capture chamber;
6 is a front cross-sectional view of a wasp catcher of the present invention showing a process in which a wasp enters a capturing chamber at a lower part of a trapping chamber consisting of a bottom portion;
Figure 7 is a front perspective view, the left side frame, the right side frame, the wasp trapping machine oblique oblique bottom perspective view of the present invention with the lid removed.
Figure 8 is a bottom perspective view of the wasp trapping machine of the present invention removed the front frame, the left side frame, the right side frame, the lid portion to see the inside.
9 is a front sectional view of the wasp trapping machine of the present invention showing a process of entering a trapping chamber from a jaw portion and a roof plate formed at a lower surface of a plane and a trap chamber entrance;
10 is a front cross-sectional view of the wasp catcher of the present invention illustrating a process of entering a wasp into a lower mini trapping chamber and an upper mini trapping chamber formed inside the cap and the lower chamber;
11 is a front sectional view of a wasp trapping machine of the present invention showing a process of entering a wasp into an upper integrated capture chamber 62b formed below the plane and inside the capture chamber;
12 is a perspective view of a wasp catcher main body of the present invention showing a bottom portion formed at the bottom and a navigation flight entrance;
Fig. 13 is a perspective view of a wasp catcher of the present invention showing a separated search flight and capture chamber;
Figure 14 is a perspective view of a wasp trapping device of the present invention showing a wasp entry prevention portion (82a) formed inside the navigation flight chamber of the main body installed in front of the bee hive entrance.
15 is a wasp trap of the present invention installed in the front of the bee hive entrance to the bee hive entrance portion 82b is configured on the rear of the capture chamber lower portion and the rear frame, the lid portion of the navigation flight room to see the inside Perspective view.
Fig. 16 is a perspective view of a wasp trapping device of the present invention installed in front of a bee hive inlet by forming a wasp entry prevention portion 82b on the rear side of a search flight room;
Figure 17 is a perspective view of a wasp trapping machine of the present invention showing wasps entry prevention portion (82a), (82b).
18 is a perspective view of a wasp trap of the present invention showing that the net is inserted into and detached from the grooves on both the left side frame and the right side frame of the main body installed in front of the beehive entrance of the bee;
19 is a perspective view showing a wasp trap of the present invention showing that the net is inserted into and detached from the grooves on both sides of the lower and upper slope portions.

Detailed description for carrying out the present invention with examples.

As shown in FIG. 1, the front frame 18 and the left side frame 20 formed of the net 14 or the plate 50 through which the wasps pass through the hole size in front of the beehive 86 of the bees cannot pass. The main body 16 having a right side frame 22 is configured, and the main body is spaced apart by a certain height from the ground so that the wasp enters the navigational flight, and is in close contact with the front surface 12 of the beehive entrance 10 where the bees enter and exit. The lower part of the main body is a search flight chamber 40, and the upper part is a capture chamber 42, and a capture chamber lower part is formed at a lower and upper boundary.

As shown in Fig. 2, the capture chamber lower portion is composed of a curved lower portion 72 widened upwardly formed of a net 14 or a plate 50 and having inclined surfaces on both sides thereof. The lower part is spaced at regular intervals from the left and right sides of the X-shaped lower part so that the wasp searches for flight in the search flight room 40 and enters the capture room 42, and the capture room entrance 46 is formed on both sides. A capping chamber 42 is formed above the chamber 40. The wasp enters into the capturing chamber through the capturing chamber inlet 46 that is open to both sides of the capping chamber lower part, and the capping chamber is not trapped inside the cap. In addition to the front frame 18, the left side frame 20, the right side frame 22, a back frame 24 formed of a net 14 or a plate 50) is formed, and a dead wasp as shown in FIG. The upper portion of the capturing chamber 42 is opened and closed so that it can be easily taken out. 4) or the lid portion 48 formed of the plate 50 is configured, the main body 16 is fixed to the beehive front surface 12 by the usual fixing means such as hooks at both ends or the top.

The wasp trap which consists of said structure is called Example 1 of this invention.

The trapping chamber lower part is composed of a curved lower part 68 which is widened downwardly formed of a net 14 or a plate 50 as shown in FIG. 6 and has inclined surfaces on both sides thereof, and a wasp bee hive entrance 10 Entering into the search flight chamber 40 spaced apart from the ground in search forward and open to the center of the X-shaped lower part so as to enter the capture chamber 42 through the capture chamber lower part by the habit of wasps flying upwards. Capture chamber entrance 46 is formed.

In Example 1, the wasp catcher which consists of said structure is called Example 2 of this invention.

The trapping chamber lower part is composed of a diagonal inclined lower part 74 which is widened downwardly formed of a net 14 or a plate 50 and has an inclined surface in all directions as shown in FIG. The capture chamber opened in a constant size in the center of the inclined lower portion so as to enter the capture chamber 42 through the lower portion of the capture chamber due to the habit of the wasp flying upward after entering the search flight space 40 spaced apart from the ground while flying. Inlet 46 is formed.

In Example 1, the wasp catcher which consists of said structure is called Example 3 of this invention.

The trapping chamber lower part is composed of a planar lower part 70 formed of a net 14 or a plate 50 as shown in FIG. 8, and the wasp searches for flying away from the beehive entrance 10 of the bee and is spaced apart from the ground. The trapping chamber opening 46 is opened to a predetermined size in the center of the lower part of the plane so as to enter the trapping chamber 42 through the trapping chamber bottom due to the habit of the wasp flying upward after entering the flight chamber 40.

In Example 1, the wasp catcher which consists of said structure is called Example 4 of this invention.

As shown in FIG. 13, the front frame 18, the left side frame 20, which are formed of a net 14 or a plate 50 through which holes were passed through a hole size through which the wasps 86 cannot pass, A search flight room 40 having a right side frame 22 is configured, and the search flight room is spaced apart from the ground at a predetermined height so that the wasp enters the search flight and enters the front 12 of the beehive entrance 10 where the bees enter and exit. In close contact with the capture chamber 42, the back frame formed of the net 14 or the plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22 to prevent the wasps trapped therein from coming out. 24)), the catch chamber lower part is composed of an inferior lower part 68 widened downwardly formed by the net 14 or the plate 50 and having inclined surfaces on both sides, and wasps search in front of the hive entrance of the bee Horses flying in flight after entering flight 40, spaced apart from the ground A trapping chamber opening 46 having a predetermined size is formed at the center of the X-shaped lower portion so as to enter the trapping chamber 42 through the trapping chamber lower portion due to the bee's habit.

The capping portion 48 is formed of a net 14 or plate 50 which is opened and closed so that the dead wasp can be easily taken out, and the search flight chamber 40 has a conventional hook or the like at both ends or the top thereof. It is fixed to the beehive front surface 12 by the fixing means, and the capture chamber is configured to be mounted on and detached from the search flight chamber.

The wasp trap which consists of said structure is called Example 5 of this invention.

The trapping chamber lower part is composed of a net 14 or plate 50 is formed in the upper portion wide and the lower portion 72 having an inclined surface on both sides, the lower portion of the trapezoid is a search flight of the wasp and the capture chamber 42 on both sides The trapping chamber inlet 46 is formed at both sides to be spaced apart at regular intervals from both the left and right sides so as to enter.

In Example 5, the wasp catcher which consists of said structure is called Example 6 of this invention.

The capture chamber lower part is composed of a four-sided inclined lower part 74 which is widened downwardly formed by the net 14 or the plate 50 and has an inclined surface in all directions, and the wasp searches to fly in front of the bee hive entrance and is spaced apart from the ground. A trapping chamber opening 46 having a predetermined size is formed in the center of the inclined lower portion of the inclined bottom so as to enter the trapping chamber 42 through the trapping chamber bottom due to the habit of the wasp flying up after entering the flight chamber 40. .

In Example 5, the wasp catcher which consists of said structure is called Example 7 of this invention.

The capture chamber lower part is composed of a planar lower part 70 formed of a net 14 or a plate 50, and the wasp enters the search flight chamber 40 spaced apart from the ground while searching for the bee hive entrance 10 in front of the bee. Afterwards, a trapping chamber opening 46 having a predetermined size is formed at the center of the lower portion of the plane so as to enter the trapping chamber 42 by passing through the trapping chamber lower portion due to the wasp's habit of flying upward.

In Example 5, the wasp catcher which consists of said structure is called Example 8 of this invention.

As shown in Figs. 4 and 9, the jaw portion 52 and the roof plate 54 made of the net 14 or the sheet 50 are formed in the capture chamber inlet 46, which is the capture chamber inlet below the capture chamber. (46) A roof plate having a constant height spaced above the capture chamber entrance so that the jaw portion 52 having a constant inclination at the edge is set up at a constant height and the wasp enters both sides of the capture chamber through the capture chamber entrance. 54 is formed.

In Example 1, the wasp catcher which consists of said structure is set as Example 9 of this invention.

In Example 2, the wasp catcher which consists of said structure is called Example 10 of this invention.

In Example 3, the wasp catcher which consists of said structure is called Example 11 of this invention.

In Example 4, the wasp catcher which consists of said structure is called Example 12 of this invention.

In Example 5, the wasp catcher which consists of said structure is called Example 13 of this invention.

In Example 6, the wasp catcher having the above configuration is referred to as Example 14 of the present invention.

In Example 7, a wasp catcher having the above configuration is referred to as Example 15 of the present invention.

In Example 8, the wasp catcher having the above configuration is referred to as Example 16 of the present invention.

As shown in FIG. 10, mini-capturing chambers are formed on both sides of the capping chamber 42, and the mini-capturing chamber is spaced at regular intervals from both left and right sides of the lower part so that the wasps enter the lower sides of the capping chamber 42. A lower mini-capture chamber 76 is formed on both left and right sides of the lower portion of the capture chamber 42 by forming a lower inclined portion 58 having a predetermined length so that the lower end of the inclined portion having the inclination is in close contact with the lower portion of the capture chamber.

In addition, the upper inclined portion (60) formed so that the wasp is spaced apart from the left and right both sides of the upper portion and the upper end of the inclined portion having a constant inclination in close contact with the lid portion 48 so that the wasp enters from both sides of the upper portion of the capture chamber 42. The upper mini-capture chamber 78 is formed on both left and right sides of the upper portion of the capture chamber 42 by forming a predetermined length.

Wasps in the capture chamber are formed to enter and be trapped in either the lower mini capture chamber 76 or the upper mini capture chamber 78 through spaces spaced at regular intervals on both sides.

In Example 2, the wasp catcher which consists of said structure is set as Example 17 of this invention.

In Example 4, the wasp catcher which consists of said structure is set to Example 18 of this invention.

In Example 5, the wasp catcher which consists of said structure is set to Example 19 of this invention.

In Example 8, the wasp catcher which consists of said structure is called Example 20 of this invention.

In Example 10, the wasp catcher having the above configuration is referred to as Example 21 of the present invention.

In Example 12, the wasp catcher which consists of said structure is called Example 22 of this invention.

In Example 13, the wasp catcher having the above-described configuration is referred to as Example 23 of the present invention.

In Example 16, the wasp catcher having the above configuration is referred to as Example 24 of the present invention.

An upper integrated capture chamber 62a formed of a net 14 or a plate 50 is formed in the capture chamber 42. As shown in FIG. 5, the search flight chamber 40 enters the capture chamber 42. An inclined portion 64 is spaced at regular intervals from the left and right sides of the upper portion so that a wasp enters from both sides of the upper portion of the capture chamber 42, and a predetermined length is formed on both sides, and the narrowed upper end and the lid portion are inclined. The distance of 48 is formed spaced apart at intervals through which wasps pass, and the upper integrated capture chamber bottom portion 80 connecting the two inclined portions 64 below the two inclined portions 64 is configured.

Wasps in the capture chamber 42 is trapped in the upper integrated capture chamber 62a through spaces spaced at regular intervals on both sides of the upper, the inclined portion of the inclined structure that the front was gradually narrowed by the habit of the wasps upward ( Enter the space at the top end of 64) and become trapped in the upper integrated capture room.

In Example 1, the wasp catcher which consists of said structure is called Example 25 of this invention.

In Example 2, the wasp catcher which consists of said structure is set as Example 26 of this invention.

In Example 3, the wasp catcher which consists of said structure is set as Example 27 of this invention.

In Example 4, the wasp catcher which consists of said structure is set as Example 28 of this invention.

In Example 5, the wasp catcher which consists of said structure is set as Example 29 of this invention.

In Example 6, the wasp catcher having the above configuration is referred to as Example 30 of the present invention.

In Example 7, a wasp catcher having the above configuration is used as Example 31 of the present invention.

In Example 8, the wasp catcher having the above-described configuration was used as Example 32 of the present invention.

In Example 9, the wasp catcher having the above configuration is referred to as Example 33 of the present invention.

In Example 10, the wasp catcher having the above configuration is referred to as Example 34 of the present invention.

In Example 11, the wasp catcher having the above configuration is referred to as Example 35 of the present invention.

In Example 12, the wasp catcher which consists of said structure is set as Example 36 of this invention.

In Example 13, the wasp catcher having the above configuration is referred to as Example 37 of the present invention.

In Example 14, the wasp catcher having the above configuration is referred to as Example 38 of the present invention.

In Example 15, the wasp catcher having the above configuration is referred to as Example 39 of the present invention.

In Example 16, the wasp catcher having the above configuration is referred to as Example 40 of the present invention.

In the present invention, as shown in FIG. 11, the upper integrated capture chamber 62b is configured inside the capture chamber, and the wasps are spaced at regular intervals from the left and right sides of the upper portion so that the wasps enter from both sides of the upper capture chamber 42. The inclined portion 64 having a pair of up and down is formed in a constant length on both sides, and the pair of inclined portions 64 have an inclined structure in the shape of a trap such that the front becomes narrower, and the upper and lower inclined portions narrow. The distance between the two ends is formed spaced apart at intervals through which wasps pass, the tip of the upper inclined portion of the pair of inclined portion 64 is in close contact with the lid portion 48, connecting the lower inclined portion on both sides below the lower inclined portion (64) The upper integrated capture chamber bottom portion 80 is configured.

The wasp in the capture chamber 42 enters through spaces spaced at regular intervals on both sides of the upper portion with upward habits, and spaces at both ends of the upper and lower ends of the inclined portion 64, which are gradually narrower in front. Passed through and trapped in the upper integrated capture chamber (62b).

In Example 1, the wasp catcher which consists of said structure is set as Example 41 of this invention.

In Example 2, the wasp catcher which consists of said structure is set as Example 42 of this invention.

In Example 3, the wasp catcher which consists of said structure is Example 43 of this invention.

In Example 4, the wasp catcher which consists of said structure is set as Example 44 of this invention.

In Example 5, the wasp catcher having the above configuration is referred to as Example 45 of the present invention.

In Example 6, the wasp catcher having the above configuration is referred to as Example 46 of the present invention.

In Example 7, a wasp catcher having the above-described configuration was used as Example 47 of the present invention.

In Example 8, the wasp catcher having the above-described configuration was used as Example 48 of the present invention.

In Example 9, the wasp catcher having the above-described configuration was used as Example 49 of the present invention.

In Example 10, the wasp catcher having the above configuration is referred to as Example 50 of the present invention.

In Example 11, the wasp catcher having the above configuration is referred to as Example 51 of the present invention.

In Example 12, the wasp catcher which consists of said structure is called Example 52 of this invention.

In Example 13, the wasp catcher having the above-described configuration was used as Example 53 of the present invention.

In Example 14, the wasp catcher having the above configuration is referred to as Example 54 of the present invention.

In Example 15, the wasp catcher having the above configuration is referred to as Example 55 of the present invention.

In Example 16, the wasp catcher having the above configuration is referred to as Example 56 of the present invention.

The trap was formed at a constant length by forming a lower inclined portion 58 formed at a predetermined length so that the wasp is spaced apart from both left and right sides of the lower portion so that the wasp enters from both sides of the capture chamber, and the lower end of the inclined portion having a predetermined slope is in close contact with the lower portion of the capture chamber. 42) The lower mini-capture chamber 76 is formed on both left and right sides of the lower part.

In Example 25, the wasp catcher having the above configuration is referred to as Example 57 of the present invention.

In Example 26, the wasp catcher having the above configuration is referred to as Example 58 of the present invention.

In Example 27, the wasp catcher having the above configuration is referred to as Example 59 of the present invention.

In Example 28, the wasp catcher having the above configuration is referred to as Example 60 of the present invention.

In Example 29, the wasp catcher having the above configuration is referred to as Example 61 of the present invention.

In Example 30, the wasp catcher having the above configuration is referred to as Example 62 of the present invention.

In Example 31, the wasp catcher having the above configuration is referred to as Example 63 of the present invention.

In the thirty-second embodiment, a wasp catcher having the above-described configuration is used as a sixty-fourth embodiment of the present invention.

In the thirty-third embodiment, a wasp catcher having the above-described configuration is used as a sixty-fifth embodiment of the present invention.

In the thirty-fourth embodiment, a wasp catcher having the above configuration is a fifty-sixth embodiment of the present invention.

In Example 35, the wasp catcher having the above-described configuration was used as Example 67 of the present invention.

In Example 36, the wasp catcher having the above configuration is referred to as Example 68 of the present invention.

In Example 37, the wasp catcher having the above configuration is referred to as Example 69 of the present invention.

In the thirty-eighth embodiment, a wasp trapper having the above configuration is referred to as a seventy-seventh embodiment of the present invention.

In Example 39, the wasp catcher having the above configuration is referred to as Example 71 of the present invention.

In Example 40, the wasp catcher having the above configuration is referred to as Example 72 of the present invention.

In Example 41, the wasp catcher having the above configuration is referred to as Example 73 of the present invention.

In Example 42, the wasp catcher having the above configuration is referred to as Example 74 of the present invention.

In Example 43, the wasp catcher having the above-described configuration was used as Example 75 of the present invention.

In Example 44, the wasp catcher having the above-described configuration is used as Example 76 of the present invention.

In Example 45, the wasp catcher having the above-described configuration is used as Example 77 of the present invention.

In Example 46, the wasp catcher having the above-described configuration is used as Example 78 of the present invention.

In Example 47, the wasp catcher having the above-described configuration was used as Example 79 of the present invention.

In Example 48, the wasp catcher having the above configuration is referred to as Example 80 of the present invention.

In Example 49, the wasp catcher having the above-described configuration was used as Example 81 of the present invention.

In Example 50, the wasp catcher having the above-described configuration was used as Example 82 of the present invention.

In Example 51, the wasp catcher having the above-described configuration is referred to as Example 83 of the present invention.

In Example 52, the wasp catcher having the above-described configuration is used as Example 84 of the present invention.

In Example 53, the wasp catcher having the above configuration is referred to as Example 85 of the present invention.

In Example 54, the wasp catcher having the above-described configuration is referred to as Example 86 of the present invention.

In Example 55, the wasp catcher having the above-described configuration is referred to as Example 87 of the present invention.

In Example 56, the wasp catcher having the above configuration is referred to as Example 88 of the present invention.

As shown in FIG. 12, in the configuration of the main body 16, the bottom portion 26a formed of the net 14 or the plate 50 in addition to the front frame 18, the left side frame 20, the right side frame 22, and the like. Is formed at the bottom of the main body 16, the navigation flight entrance 38 of a predetermined size is formed in the lower portion of the front frame, the left side frame, the right side frame so that wasps can enter the navigation flight.

In Example 1, the wasp catcher which consists of said structure is set as Example 89 of this invention.

In Example 2, the wasp catcher having the above-described configuration was used as Example 90 of the present invention.

In Example 3, the wasp catcher which consists of said structure is set as Example 91 of this invention.

In Example 4, the wasp catcher having the above-described configuration was used as Example 92 of the present invention.

In the configuration of the search flight chamber 40, the bottom portion 26a formed of the net 14 or the plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22 is a navigation flight chamber ( 40) The search flight entrance 38 having a predetermined size is formed at the bottom of the front frame, the left side frame, and the right side frame so as to be formed at the bottom and the wasp can enter the navigational flight.

In Example 5, the wasp catcher having the above-described configuration is used as Example 93 of the present invention.

In Example 6, the wasp catcher having the above-described configuration is used as Example 94 of the present invention.

In Example 7, a wasp catcher having the above-described configuration was used as Example 95 of the present invention.

In Example 8, the wasp catcher having the above-described configuration was used as Example 96 of the present invention.

The left side frame 20 and the right side frame 22 are formed to form a groove 66 on both sides so that the net 14 or the plate 50 is inserted into and removed from the groove.

In Example 1, the wasp catcher which consists of said structure is set as Example 97 of this invention.

In Example 2, the wasp catcher having the above-described configuration was used as Example 98 of the present invention.

In Example 3, the wasp catcher which consists of said structure is Example 99 of this invention.

In Example 4, the wasp catcher which consists of said structure is set as Example 100 of this invention.

In Example 5, the wasp catcher having the above configuration is referred to as Example 101 of the present invention.

In Example 6, the wasp catcher having the above configuration is referred to as Example 102 of the present invention.

In Example 7, the wasp catcher having the above configuration is referred to as Example 103 of the present invention.

In Example 8, the wasp catcher having the above configuration is referred to as Example 104 of the present invention.

As shown in FIG. 19, the lower inclined portion 58 and the upper inclined portion 60 of the mini-capture chamber form grooves 66 on both sides so that the net 14 or plate 50 is inserted into and removed from the groove. Is formed.

In Example 17, a wasp catcher having the above-described configuration was used as Example 105 of the present invention.

In Example 18, the wasp catcher having the above configuration is referred to as Example 106 of the present invention.

In Example 19, a wasp catcher having the above-described configuration was used as Example 107 of the present invention.

In Example 20, the wasp catcher having the above configuration is referred to as Example 108 of the present invention.

In Example 21, the wasp catcher having the above configuration is referred to as Example 109 of the present invention.

In Example 22, the wasp catcher having the above configuration is referred to as Example 110 of the present invention.

In Example 23, the wasp catcher having the above configuration is referred to as Example 111 of the present invention.

In Example 24, the wasp catcher having the above configuration is referred to as Example 112 of the present invention.

The inclined portion 64 of the upper integrated capture chamber is formed to form a groove 66 on both sides so that the net 14 or the plate 50 is inserted into the groove.

In Example 25, the wasp catcher having the above configuration is referred to as Example 113 of the present invention.

In Example 26, the wasp catcher having the above configuration is referred to as Example 114 of the present invention.

In Example 27, the wasp catcher having the above configuration is referred to as Example 115 of the present invention.

In Example 28, the wasp catcher having the above configuration is referred to as Example 116 of the present invention.

In Example 29, the wasp catcher having the above configuration is referred to as Example 117 of the present invention.

In Example 30, the wasp catcher having the above configuration is referred to as Example 118 of the present invention.

In Example 31, the wasp catcher having the above configuration is referred to as Example 119 of the present invention.

In the thirty-second embodiment, a wasp catcher having the above-described configuration is referred to as a twenty-fourth embodiment of the present invention.

In Example 33, the wasp catcher having the above-described configuration is referred to as Example 121 of the present invention.

In Example 34, the wasp catcher having the above configuration is referred to as Example 122 of the present invention.

In Example 35, the wasp catcher having the above configuration is referred to as Example 123 of the present invention.

In Example 36, the wasp catcher having the above configuration is referred to as Example 124 of the present invention.

In Example 37, the wasp catcher having the above configuration is referred to as Example 125 of the present invention.

In Example 38, the wasp catcher having the above-described configuration is referred to as Example 126 of the present invention.

In Example 39, the wasp catcher having the above configuration is referred to as Example 127 of the present invention.

In Example 40, the wasp catcher having the above configuration is referred to as Example 128 of the present invention.

In Example 41, the wasp catcher having the above configuration is referred to as Example 129 of the present invention.

In Example 42, the wasp catcher having the above configuration is referred to as Example 130 of the present invention.

In Example 43, the wasp catcher having the above configuration is referred to as Example 131 of the present invention.

In Example 44, the wasp catcher having the above configuration is referred to as Example 132 of the present invention.

In Example 45, the wasp catcher having the above configuration is referred to as Example 133 of the present invention.

In Example 46, the wasp catcher having the above configuration is referred to as Example 134 of the present invention.

In Example 47, the wasp catcher having the above configuration is referred to as Example 135 of the present invention.

In Example 48, the wasp catcher having the above configuration is referred to as Example 136 of the present invention.

In Example 49, the wasp catcher having the above configuration is referred to as Example 137 of the present invention.

In the fifty-fifth embodiment, a wasp catcher having the above-described configuration is used as a thirty-fifth embodiment of the present invention.

In Example 51, the wasp catcher having the above configuration is referred to as Example 139 of the present invention.

In Example 52, the wasp catcher having the above configuration is referred to as Example 140 of the present invention.

In Example 53, the wasp catcher having the above configuration is referred to as Example 141 of the present invention.

In Example 54, the wasp catcher having the above configuration is referred to as Example 142 of the present invention.

In Example 55, the wasp catcher having the above configuration is referred to as Example 143 of the present invention.

In Example 56, the wasp catcher having the above configuration is referred to as Example 144 of the present invention.

14 and 17, the front portion 30, the left side portion 34, the right side portion 36, and the upper portion 32 of the wasp entry prevention portion 82a have hole sizes through which wasps cannot pass. It is formed of a net 14 or a plate 50 through the bottom, the bottom portion 26b made of a plate having a length of the left side portion and the right side portion spacing is composed of the bottom, the lower end of the front portion is a bee coming in and out The wasp is spaced apart from the bottom by a predetermined height so that the wasp is formed to form a bee entrance 84 downward, and the wasp entry prevention part is configured to be in close contact with the beehive front surface 12 in front of the beehive entrance 10. 40 is configured inside.

In Example 1, the wasp catcher having the above configuration is referred to as Example 145 of the present invention.

In Example 2, the wasp catcher having the above configuration is referred to as Example 146 of the present invention.

In Example 3, the wasp catcher which consists of said structure is Example 147 of this invention.

In Example 4, the wasp catcher which consists of said structure is set as Example 148 of this invention.

In Example 5, the wasp catcher having the above configuration is referred to as Example 149 of the present invention.

In Example 6, the wasp catcher having the above configuration is referred to as Example 150 of the present invention.

In Example 7, the wasp catcher having the above configuration is referred to as Example 151 of the present invention.

In Example 8, the wasp catcher having the above configuration is referred to as Example 152 of the present invention.

In Example 9, a wasp catcher having the above-described configuration is used as Example 153 of the present invention.

In Example 10, the wasp catcher having the above configuration is referred to as Example 154 of the present invention.

In Example 11, the wasp catcher having the above configuration is referred to as Example 155 of the present invention.

In Example 12, the wasp catcher having the above-described configuration is referred to as Example 156 of the present invention.

In Example 13, the wasp catcher having the above configuration is referred to as Example 157 of the present invention.

In Example 14, the wasp catcher having the above configuration is referred to as Example 158 of the present invention.

In Example 15, the wasp catcher having the above configuration is referred to as Example 159 of the present invention.

In Example 16, the wasp catcher having the above configuration is referred to as Example 160 of the present invention.

As shown in FIGS. 15, 16, and 17, the wasp may pass through the front portion 30, the left surface portion 34, the right surface portion 36, and the upper surface portion 32 of the wasp entry prevention portion 84b. It consists of a mesh 14 or plate 50 through the hole size without a hole, the bottom portion 26b having a length of the left side portion and the right side portion length is formed as a bottom, the lower end of the front portion is a bee coming in and out The wasp is spaced apart from the bottom by a predetermined height so that the wasp is formed to form a bee entrance 84, and the wasp entry prevention part 82b is formed on the rear of the search flight room 40, and the wasp entry prevention part It is fixed to the beehive front surface 12 by the usual fixing means such as rings at both ends or the top.

In Example 1, the wasp catcher which consists of said structure is set as Example 161 of this invention.

In Example 2, the wasp catcher having the above configuration is referred to as Example 162 of the present invention.

In Example 3, the wasp catcher which consists of said structure is Example 163 of this invention.

In Example 4, the wasp catcher having the above-described configuration is referred to as Example 164 of the present invention.

In Example 5, the wasp catcher having the above configuration is referred to as Example 165 of the present invention.

In Example 6, a wasp catcher having the above configuration is used as Example 166 of the present invention.

In Example 7, a wasp catcher having the above configuration is referred to as Example 167 of the present invention.

In Example 8, the wasp catcher having the above configuration is referred to as Example 168 of the present invention.

In Example 9, a wasp catcher having the above configuration is referred to as Example 169 of the present invention.

In Example 10, the wasp catcher having the above configuration is referred to as Example 170 of the present invention.

In Example 11, the wasp catcher having the above configuration is referred to as Example 171 of the present invention.

In Example 12, the wasp catcher having the above configuration is referred to as Example 172 of the present invention.

In Example 13, the wasp catcher having the above configuration is referred to as Example 173 of the present invention.

In Example 14, the wasp catcher having the above configuration is referred to as Example 174 of the present invention.

In Example 15, the wasp catcher having the above configuration is referred to as Example 175 of the present invention.

In Example 16, the wasp catcher having the above-described configuration was used as Example 176 of the present invention.

10: beehive entrance
12: beehive front
14: net
16: body
18: front frame
20: left side frame
22: right side frame
24: back frame
26a, 26b: bottom part
30: front part
32: upper surface
34: left side part
36: right side part
38: search flight entrance
40: search flight room
42: capture room
46: capture room entrance
48: lid portion
50: plate
52: jaw
54 roof shingles
58: lower slope
60: upper slope portion
62a, 62b: Upper Integrated Capture Room
64: inclined portion
66: home
68: round bottom
70: flat bottom
72: round bottom
74: oblique inclination
76: lower mini capture room
78: upper mini capture room
80: upper integrated capture chamber bottom
82a, 82b: wasp entry prevention part
84: Bee Entrance
86: beehives

Claims (18)

In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Main body 16;
The main body is fixed to the front surface 12 of the beehive entrance 10 where the bees are separated by a predetermined height from the ground so that the wasp enters the search flight.
The main body is the search flight chamber 40, the upper portion is the capture chamber 42,
Form a trap chamber at the lower and upper boundary,
The capture chamber lower part is composed of a wedge-shaped lower part 72 widened upwardly formed of the net 14 or the plate 50 and having inclined surfaces on both sides, and the wasp moves from the search flight chamber 40 to the capture chamber 42. The trapping chamber openings 46 are formed at left and right sides by being spaced apart at regular intervals from both sides of the X-shaped lower part so as to enter,
The capture chamber 42 is formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22 to prevent the wasp from entering through the capture chamber entrance. Frame 24) is formed,
The cap wasp cap is provided with a cap portion 48 made of a mesh 14 or a plate 50 that is opened and closed so that the dead wasp can be easily taken out. In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Main body 16;
The main body is fixed to the front surface 12 of the beehive entrance 10 where the bees are separated by a predetermined height from the ground so that the wasp enters the search flight.
The main body is the search flight chamber 40, the upper portion is the capture chamber 42,
Form a trap chamber at the lower and upper boundary,
The capture chamber lower portion is composed of a wedge-shaped lower portion 68 widened downwardly formed of the net 14 or the plate 50 and having inclined surfaces on both sides, and the wasp moves from the search flight chamber 40 to the capture chamber 42. A trapping chamber opening 46 is formed at a predetermined size in the center of the bottom of the jaw to enter,
The capture chamber 42 is formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22 to prevent the wasp from entering through the capture chamber entrance. Frame 24) is formed,
The cap wasp cap is provided with a cap portion 48 made of a mesh 14 or a plate 50 that is opened and closed so that the dead wasp can be easily taken out. In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Main body 16;
The main body is fixed to the front surface 12 of the beehive entrance 10 where the bees are separated by a predetermined height from the ground so that the wasp enters the search flight.
The main body is the search flight chamber 40, the upper portion is the capture chamber 42,
Form a trap chamber at the lower and upper boundary,
The capture chamber lower portion is composed of a four-sided inclined lower portion 74 widened downwardly formed by the net 14 or the plate 50 and having inclined surfaces in all directions, and the wasp moves from the search flight chamber 40 to the capture chamber 42. To enter the trap chamber opening 46 is formed in a constant size in the center of the inclined oblique bottom,
The capture chamber 42 is formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22 to prevent the wasp from entering through the capture chamber entrance. Frame 24) is formed,
The cap wasp cap is provided with a cap portion 48 made of a mesh 14 or a plate 50 that is opened and closed so that the dead wasp can be easily taken out. In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Main body 16;
The main body is fixed to the front surface 12 of the beehive entrance 10 where the bees are separated by a predetermined height from the ground so that the wasp enters the search flight.
The main body is the search flight chamber 40, the upper portion is the capture chamber 42,
Form a trap chamber at the lower and upper boundary,
The capture chamber lower part is composed of a planar lower part 70 formed of a plane formed of a net 14 or a plate 50, and is fixed at the center of the lower part of the plane so that the wasp enters the capture chamber 42 from the search flight chamber 40. The capture chamber opening 46 is opened to the size,
The capture chamber 42 is formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, and the right side frame 22 to prevent the wasp from entering through the capture chamber entrance. Frame 24) is formed,
The cap wasp cap is provided with a cap portion 48 made of a mesh 14 or a plate 50 that is opened and closed so that the dead wasp can be easily taken out. In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Search flight room 40;
The search flight room is fixed to the front surface 12 of the beehive entrance 10 through which the bees are separated by a predetermined height from the ground so that the wasps enter the search flight.
A capture chamber 42 seated above the search flight chamber 40;
The capture chamber is formed with a back frame 24 formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, the right side frame 22 to prevent the wasps trapped inside. ,
Form the bottom of the capture chamber with the bottom of the capture chamber,
The capture chamber lower portion is composed of a wedge-shaped lower portion 68 widened downwardly formed of the net 14 or the plate 50 and having inclined surfaces on both sides, and the wasp moves from the search flight chamber 40 to the capture chamber 42. A trapping chamber opening 46 is formed at a predetermined size in the center of the bottom of the jaw to enter,
The cap is formed in the upper portion of the capping chamber 48 formed of a net 14 or a plate 50 to be opened and closed so that the dead wasp can be easily taken out,
The capture chamber 42 is a wasp trap characterized in that it is configured to be mounted on and detached from the search flight chamber (40). In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Search flight room 40;
The search flight room is fixed to the front surface 12 of the beehive entrance 10 through which the bees are separated by a predetermined height from the ground so that the wasps enter the search flight.
A capture chamber 42 seated above the search flight chamber 40;
The capture chamber is formed with a back frame 24 formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, the right side frame 22 to prevent the wasps trapped inside. ,
Form the bottom of the capture chamber with the bottom of the capture chamber,
The capture chamber lower part is composed of a wedge-shaped lower part 72 widened upwardly formed of the net 14 or the plate 50 and having inclined surfaces on both sides, and the wasp moves from the search flight chamber 40 to the capture chamber 42. A trapping chamber opening 46 is formed on the left and right sides by spaced apart from the left and right side surfaces at regular intervals so as to enter.
The cap is formed in the upper portion of the capping chamber 48 formed of a net 14 or a plate 50 to be opened and closed so that the dead wasp can be easily taken out,
The capture chamber 42 is a wasp trap characterized in that it is configured to be mounted on and detached from the search flight chamber (40). In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Search flight room 40;
The search flight room is fixed to the front surface 12 of the beehive entrance 10 through which the bees are separated by a predetermined height from the ground so that the wasps enter the search flight.
A capture chamber 42 seated above the search flight chamber 40;
The capture chamber is formed with a back frame 24 formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, the right side frame 22 to prevent the wasps trapped inside. ,
Form the bottom of the capture chamber with the bottom of the capture chamber,
The capture chamber lower portion is composed of a four-sided inclined lower portion 74 widened downwardly formed by the net 14 or the plate 50 and having inclined surfaces in all directions, and the wasp moves from the search flight chamber 40 to the capture chamber 42. To enter the trap chamber opening 46 is formed in a constant size in the center of the inclined oblique bottom,
The cap is formed in the upper portion of the capping chamber 48 formed of a net 14 or a plate 50 to be opened and closed so that the dead wasp can be easily taken out,
The capture chamber 42 is a wasp trap characterized in that it is configured to be mounted on and detached from the search flight chamber (40). In front of the beehive 86 of the bee, the wasp has a front frame 18, a left side frame 20, and a right side frame 22 formed of a net 14 or a plate 50 through which holes are not allowed to pass. Search flight room 40;
The search flight room is fixed to the front surface 12 of the beehive entrance 10 through which the bees are separated by a predetermined height from the ground so that the wasps enter the search flight.
A capture chamber 42 seated above the search flight chamber 40;
The capture chamber is formed with a back frame 24 formed of a net 14 or a plate 50 in addition to the front frame 18, the left side frame 20, the right side frame 22 to prevent the wasps trapped inside. ,
Form the bottom of the capture chamber with the bottom of the capture chamber,
The capture chamber lower part is composed of a planar lower part 70 formed of a plane formed of a net 14 or a plate 50, and is fixed at the center of the lower part of the plane so that the wasp enters the capture chamber 42 from the search flight chamber 40. The capture chamber opening 46 is opened to the size,
The cap is formed in the upper portion of the capping chamber 48 formed of a net 14 or a plate 50 to be opened and closed so that the dead wasp can be easily taken out,
The capture chamber 42 is a wasp trap characterized in that it is configured to be mounted on and detached from the search flight chamber (40). The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
Comprising the jaw portion 52 and the roof plate 54 formed of the net 14 or plate 50 in the capture chamber inlet 46,
The jaw portion 52 having a constant inclination at the edge of the capture chamber entrance 46 is constructed to have a constant length and height,
Wasp catcher, characterized in that the roof plate (54) spaced at a predetermined height above the capture chamber entrance (46) so that the wasps enter both sides of the capture chamber. The method according to claim 2 or 4 or 5 or 8,
A mini-capture chamber made of a net 14 or a plate 50 is formed on both upper and lower sides of the capture chamber 42,
The lower inclined portion 58 is spaced apart from the left and right sides of the lower portion at regular intervals so that the wasps inside the capture chamber enter the lower sides of the capture chamber 42 and the lower end portion of the inclined portion having a constant inclination is in close contact with the lower portion of the capture chamber. The lower mini-capture chamber 76 is formed on both left and right sides of the lower portion of the capture chamber 42 by forming a length.
The upper inclined portion 60 formed to be in close contact with the lid portion 48 is spaced apart at regular intervals from the left and right sides of the upper portion so that the wasp enters from both sides of the upper portion of the trapping chamber 42, and the cap portion 48 is in a constant length. Wasp traps characterized in that the upper mini-capture chamber (78) is formed on the left and right sides of the upper capture chamber (42). The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
The upper integrated capture chamber 62a formed of the net 14 or the plate 50 inside the capture chamber 42,
An inclined portion 64 spaced at regular intervals from the left and right sides of the upper portion and having a predetermined inclination is formed on both sides so that the wasp inside the capture chamber enters from both sides of the upper portion of the capture chamber 42, and the narrowed upper end of the inclined portion Distance between the lid portion 48 is formed and spaced apart at intervals through which wasps pass,
Wasps traps, characterized in that the upper integrated capture chamber bottom portion (80) is configured to connect both inclined portion below the two inclined portion (64). The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
The upper integrated capture chamber 62b formed of the net 14 or the plate 50 inside the capture chamber 42, but
The wasps in the capture chamber are spaced apart at regular intervals from the left and right sides of the upper part so that the wasps enter from both sides of the capture chamber 42, and the inclined portions 64 having a predetermined inclination are formed on both sides in a constant length on both sides,
The pair of inclined portions 64 has an inclined structure in the shape of a narrower front, such as a trap, and the upper and lower end distances of the narrowed inclined portions are spaced apart at intervals through which wasps pass.
The tip of the upper inclined portion of the pair of inclined portions 64 is in close contact with the lid portion 48,
Wasp catcher, characterized in that the upper integrated capture chamber bottom portion 80 is formed to connect the lower inclined portion 64, the lower side down. The method of claim 12,
To form a lower inclined portion 58 made of a mesh 14 or a plate 50 spaced apart at regular intervals from the left and right sides of the lower portion and having a predetermined inclination so that the wasp inside the capture chamber enters both sides of the lower portion of the capture chamber 42. ,
The lower end of the lower inclined portion is in close contact with the lower portion of the capture chamber, was formed in a constant length wasp traps, characterized in that the lower mini-capture chamber (76) is formed on both left and right sides of the lower capture chamber (42). The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
The search flight chamber 40 forms a bottom portion 26a of which the bottom is made of a net 14 or a sheet 50.
The search flight entrance 38 having a predetermined size is formed at the bottom of the front frame 18, the left side frame 20, and the right side frame 22 so that the wasp searches and enters from the front and side of the navigation flight compartment. Wasp catcher, characterized in that. The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
The left side frame (20) and the right side frame (22) is a wasp trap, characterized in that the grooves are formed on both sides to form a removable net 14 or plate 50 into the groove. The method of claim 12,
The inclined portion (64) is a wasp trap, characterized in that the grooves are formed on both sides to form a groove (14) or a plate (50) to be inserted into and removed from the groove. The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
While forming a wasp entry prevention portion (82a) to the hive entrance 10,
The front portion 30, the left side portion 34, the right side portion 36, the upper surface portion 32 of the wasp entry prevention portion as a net 14 or plate 50 through the hole size that wasp can not pass through Formed,
A bottom portion 26b made of a plate 50 having a length between the left side portion and the right side portion is formed at the bottom, and the bottom portion of the front portion 30 has a bottom portion such that a bee is allowed to enter and a wasp cannot enter. Spaced at a constant height from the bottom to form a bee exit 84,
The wasp trap is characterized in that the wasp entry prevention portion is formed in the search flight chamber 40 by bringing the back of the wasp entry prevention portion (82a) in close contact with the beehive front surface (12). The method according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 7 or 8,
While forming a wasp entry prevention portion 82b toward the hive inlet 10,
The front portion 30, the left surface portion 34, the right surface portion 36, the upper surface portion 32 of the wasp entry prevention portion 82b is a net 14 or plate through the hole size through which wasps can not pass Formed of 50,
A bottom portion 26b made of a plate 50 having a length between the left side portion and the right side portion is formed at the bottom, and the bottom portion of the front portion 30 has a bottom portion such that a bee is allowed to enter and a wasp cannot enter. Spaced at a constant height from the bottom to form a bee exit 84,
Wasp traps, characterized in that the wasp entry prevention portion (82b) formed on the back of the search flight room 40, the wasp entry prevention portion is fixed to the beehive front surface (12).

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