KR101387149B1 - Termite monitering and control apparatus - Google Patents

Abstract

A termite pumped controller is disclosed which is applied to a bait method for simultaneously destroying individual and colony by inducing termites to feed with toxic substances. The termite tracing controller is embedded in the ground with the monitoring cartridge housed in a body having a through hole through which the termite can enter. Monitoring cartridges are equipped with a fleshy body containing fibrin so that they can be eaten by termites entering through the passage holes of the body. When a termite sucks a human body, the human body can be deformed and the structure of the working rod disposed on the human body can move. By easily observing the movement of the working rod from the outside, it can be very useful for termite control by judging whether the termites are inflow or not.

Description

[0001] DESCRIPTION [0002] Termite monitering and control apparatus [

The present invention relates to an apparatus for controlling termites, and more particularly, to a termite prediction controller for efficiently and quickly detecting termites by promptly confirming the presence or absence of termites.

Termites are known to live on 2,050 species on the earth, and termites living in Korea are termed as Kyushu termites, with a body length of about 2.3 mm, and about 10,000 to 100,000 live in a house.

Termites are community-living insects, which are crowded with king termites, queen termites, termite termites, and termites. The termites occupy most of the termites, bringing them to feed, feeding larvae and troops termites, nurturing young termites, cleaning up the houses of soldiers, cleaning the house, repairing the house, It is known.

Termites eat most of the trees and leaves, eat dead trees and fallen leaves, decompose the fiber to absorb the nutrients and nutrients, various organisms, including salts and excrement. As such, termites clean up trees and leaves and are an indispensable part of the ecosystem, allowing plants to thrive by feces, and play an important role in linking predators and producers in the ecological cycle.

However, as an important cultural property made of wood, that is, wooden cultural property, becomes a food for termites, it becomes a big social problem. One example of the Tongdosa in Korea is reported to have been greatly damaged by termites in a column of 50 cm in diameter and 3 m in height at the Tongdosa Temple. It is reported that there is a hole between the foundation stone and the column so that a hand can enter. In addition, the preservation of the paradise of Jeollanam-do, Daewoongjeon of Seonunsa of Jeollanam-do, the Daeungbojeon of Chungcheongbuk-do, Daeungbojeon of Chungcheongbuk-do, Daeungbokjeon of Chungcheongbuk-do, Are all being damaged by termites. According to the National Institute of Cultural Properties report on the destruction of cultural properties due to termites in 2011, 57 cases of damage to national treasures, treasures, important folk cultural properties, etc. have been damaged, and the damage rate is reported to reach 68.4%. Although termites were known to live only in parts of the Korean peninsula such as Chungnam and the western part of the 1920s, the temperature of the Korean Peninsula has risen with global warming, and the number of termites, which enjoy high temperature and humidity, has also increased rapidly. And termite control is becoming a big social issue because the influx of alien species is increasing.

Such termite treatment methods of wood cultural properties include fumigation, wood preservatives, soil treatment, and baiting. However, since the bait method induces termites to ingest toxic substances together with food, it has an advantage of being polluted to soil and human body caused by drugs by destroying both individual and colony simultaneously. The termite control method by the Bait method is attracting attention due to its advantage of less pollution in the soil and the human body and has been disclosed in Korean Patent Publication No. 1994-0006459 as a prior art to which the Bait method is applied. However, the prior art disclosed in the above-mentioned Japanese Patent Laid-Open Publication No. 1994-0006459 requires periodic monitoring of bait stations having cartridges housed in a housing for periodic activity inspection, so that termite detection or monitering or control thereof there is a problem that controlling is inefficient.

In addition, there is a need to provide a useful method to identify termite emergence or existence of termites for efficient termite control. Ineffective termite control such as termite control is done indiscriminately because there is no special plan for termite prediction and control. ought.

Disclosure of the Invention The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a termite pumped-up controller which enables efficient termite control by means of bait method by enabling termite detection and detection more efficiently, The present invention has been made in view of the above problems.

According to an aspect of the present invention, there is provided a termite rainfall controller comprising: a body having a through hole formed therein for allowing termites to enter and exit; and a cartridge accommodated in the body; Wherein the cartridge further comprises: a flesh body containing fibrin so that termites coming through the through hole can be eaten; an operation rod disposed on the flesh body so as to move according to the deformation of the flesh body; And an elastic body mounted on the operating rod so as to be pressed toward the operating rod.

The cartridge further includes a support rod having an upper flange and a lower flange, the upper flange and the lower flange having an enlarged cross-section at an upper portion and a lower portion; The flesh body is fitted on the support rod and disposed on the lower flange; The operating rod is fitted on the support rod and is disposed on the support body; And the elastic body may be mounted between the operating rod and the upper flange.

Further, a first guide slot is formed in a spiral shape on either the support rod or the operation rod; Preferably, the first guide protruding piece is formed in the other of the support rod and the actuating rod so as to be received in the first guide slot and relatively movable.

In addition, the termites rain controller according to the present invention is characterized in that a termite rainfall controller is provided to prevent termites or termites from entering the space between the body and the operation rod on the upper part of the body, Plate may be further provided. A second guide slot is formed in one of the operation rod and the filler plate in a direction in which the elastic body presses the second guide slot. And the second guide protruding piece is formed in the other one of the operation rod and the filler plate so as to be received in the second guide slot and relatively movable.

Meanwhile, the body may be made of a material containing fiber, and the through-hole may be formed as a circular hole. In order to protect the inside of the body and to show the movement of the operation rod, And a transparent cover attached to the upper part.

In the termite trauma controller according to the present invention, when the upper part of the body is buried in the ground while the upper part of the body is exposed, since the working rod can move as the body is deformed, When entering through a hole and eating a human body, it is possible to quickly and easily check the inflow or the presence of a termite according to the movement of the operation rod, and it can be useful for termite control.

1 is an external perspective view showing a termite rain controller according to one embodiment of the present invention,
Fig. 2 is an exploded perspective view showing the termite swing controller of Fig. 1,
FIG. 3 is a cross-sectional view showing a termite control mechanism as a preferred embodiment according to the present invention,
FIG. 4 is an exploded perspective view showing the cartridge of the termite prediction controller shown in FIG. 2 and FIG. 3,
5 is a cross-sectional view of a termite rainfall controller showing a state buried in the ground,
FIG. 6 is a cross-sectional view of a termite prediction controller showing a state in which a marine body has been deformed according to appearance of termites and feeding activity in FIG. 5,
FIGS. 7 and 8 are diagrams showing a use state for controlling termites as a bait method by utilizing a termite prediction controller according to the present invention,
FIGS. 9 and 10 are diagrams showing another use example for controlling termites as a bait method in the case where the feeding activity of the termites is high and the deformation of the fibrin-containing flesh is large.
Fig. 11 is a cross-sectional view showing still another use example for controlling termites as a bait method when the feeding activity of the termites is active,
12 is a sectional view showing another embodiment of a termite rain controller according to the present invention,
FIG. 13 is a cross-sectional view showing a state in which a flesh-containing human body is deformed due to termite feeding activity over time after the termite stover controller according to the present invention is buried in the ground,
FIG. 14 is a perspective view illustrating only a support rod for explaining an operation state of a termite prediction controller according to the present invention,
15 is a diagram for explaining the operation of the index indicator.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is an external perspective view showing a termite rain controller as an embodiment according to the present invention.

Referring to FIG. 1, a tally controller 1 according to an embodiment of the present invention includes a body 100 and a cover 600.

The body 100 has a plurality of termite through holes 120 formed therein so that the termites can be inserted into and removed from the bottom of the body 100, . The body 100 may be formed of plastic or other various materials, but it is preferable that the body 100 is formed of a material containing fibrin, for example, wood so as to be more effective for inducing termites. In addition, when the termites move in space or when the humidity is insufficient, the termite passage hole 120 according to the present invention forms a tunnel-shaped tube using termite feces or the like for protection, It is preferable that the hole is formed in a circular shape so as to have the same tube shape.

The cover 600 covers the upper part of the body 100 and protects the inside from the outside. The cover 600 includes a cover cap 610 and a cover window 620.

FIG. 2 is an exploded perspective view showing the termite rain controller of FIG. 1; FIG.

2, a cover cap coupling groove 140 is formed on the outer side of the body 100 so that the cover cap 610 can be inserted into the body 100. The cover cap coupling groove 140 is formed on the inner side of the body 100 so that the filler plate 520, The filler plate seating groove 130 is formed.

The cover cap 610 has an opening 613 penetrating up and down and is fitted and fixed to the cover cap coupling groove 140 of the body 100. Here, the illustrated example discloses a structure in which the cover cap 610 is fitted to the body 100, but the cover cap 610 and the body 100 may be screwed together by male and female threads.

The cover window 620 is made of a transparent material and fixed to the opening of the cover cap 610 with an adhesive. Here, the cover cap 610 and the cover window 620 may be integrally formed of a transparent material, but are preferably separated for processing assembly or maintenance. The cover cap 610 may be integrally formed with the body 100, but is preferably separated for ease of assembly. The cover window 620 may be made of glass or a plastic material and may be easily detached and attached by an adhesive. However, the cover window 620 may be formed by a pair of concave portions and convex portions, which are generally known in the art. Fastening means or sticky transparent stickers may be utilized.

A cartridge 200 and a filler plate 300 are installed in the body 100.

FIG. 3 is a cross-sectional view showing a termite control mechanism as a preferred embodiment according to the present invention.

2 and 3, a filler plate 300 is a shape that can be matched with the inner shape of the body 100 and the outer shape of the operation rod 210 And a seating part 310 having a generally cylindrical shape and having an enlarged cross section from the upper end to the outer side is provided. The filler plate 300 is sandwiched between the body 100 and the cartridge 200 and is seated and fixed in the filler plate seating groove 130. The lowermost end of the filler plate 300 is positioned on the upper side of the flesh body B do. The filler plate 300 is preferably made of a material such as plastic or hard rubber that does not contain fiber so that termites are not recognized as food. When the termite anticipation prevention mechanism according to the present invention is embedded in the ground by the filler plate 300, termites or termites excrements do not flow into the upper part of the body 100, It is advantageous to prevent the operation rod 300, which will be described later, from operating more easily by preventing the inner surface of the body 100 from being fixed by the organic material included in the body 100. [ Here, the filler plate 300 may be omitted when there is no gap between the inner surface of the body 100 and the operation rod 300. However, in order to facilitate processing and maintenance, .

FIG. 4 is an exploded perspective view of the cartridge of the termite prediction controller shown in FIGS. 2 and 3. FIG.

3 and 4, the cartridge 200 includes a flesh body B containing fibrin ( cellulose ) so that the termite passing through the termite through hole of the body can be eaten , and the flesh body B An elastic body 210 mounted on the actuating rod 210 so that the actuating rod 210 can be pressed toward the body B, (220).

remind The human body (B)  It is a substance containing fibrin, Cotton fur  Various materials such as filter paper or natural fiber, wood pulp, recycled fiber, and the like can be used. fibrin( cellulose ) Is a D- Glucopyranose  β-1,4-glycoside ( glucoside ) Combined fiber Phase polymer, β-1,4- With glucan  Is a structural polysaccharide that constitutes the main component of the cell wall of the higher plant, accounting for 30 to 50% of the plant, and is produced in the largest amount on the earth Watering By cargo Cotton fur  Filter paper is known as almost pure cellulose. Higher plants, ie trees, are available for both conifers and hardwoods Rather than hardwood  Because conifers are known to be more prey to termites, it is advisable to use conifer trees. Further, by processing the log into a desired shape The human body (B)  However, as described below, it is preferable to use pulp, paper or sawdust so as to be relatively easy to deform according to the feeding activity of termites The human body (B)  Shaped. That is, the wood is cut to an appropriate size, the skin is peeled off, Mechanically Pulp is formed, or sodium hydroxide or sulfuric acid is used to process the mixture at a high temperature and a high pressure to form a pulp chemically. The human body (B)  Or by blending sawdust with an organic adhesive material, compressing and shaping the paper, or wrapping or bundling the paper, The human body (B)  . Here, since cotton hairs and filter paper are known to be almost pure cellulose, As an example The human body (B) Cotton fur  Filter paper Use It is more preferable that it is shaped.

The operation rod 210 is placed on the flesh body B as an example in which operation is started by movement when the flesh body B is deformed. Here, the operation rod 210 may have various shapes and structures, and may be formed of plastic or various other materials, and is preferably made of a material free from fibrin so as not to be recognized as a food of termites.

The elastic body 220 elastically applies an external force to the actuating rod 210 so that the lower body of the elastic body 220 is pressed. The elastic body 220 is made of various shapes and materials known in the technical field of the present invention. And can be made of a compression coil spring as shown in the drawing. In addition, the elastic body 220 and the operation rod 210 may be integrally attached to each other, and may be made of the same material or different materials, and the shapes and structures of the elastic body 220 and the actuating rod 210 may be variously modified. The detailed description thereof will be omitted. In response to the elastic force of the elastic body 220 according to the present invention, when the feeding activity of the termites, that is, the feeding of the flesh body B, or the feeding of the flesh body B is performed according to the configuration of the elastic body 220 and the operation rod 210, It is very advantageous to check whether or not the termites are seen or not even if the movement of the operation rod 210 is observed only by the movement of the operation rod 210 due to the deformation of the termite B and the movement of the operation rod 210.

Although the cartridge 200 according to the present invention can be modified in various ways in terms of structure, shape and material, it is preferable that the upper and lower flanges 230 and 240 have a shape And a support rod 250.

The support rod 250 may be formed as a small diameter solid rod and the upper flange 230 and the lower flange 240 may be integrally formed with the support rod 250. However, It is preferable that the support member of the support member is screwed to the bolts 233 and 243. The upper flange 230 has a boss 231 protruding upward so as to be easily drawn out from the outside. Here, the support rod 250 is preferably made of a transparent material such as plastic so that it can be easily seen from the outside by the naked eye. Further, only the upper flange 230 is made of a transparent material and the other support rod 250 is made of an opaque material .

The flesh body B is machined into a hollow cylindrical shape and is fitted on the support rod 250 and placed on the lower flange 240. Here, the lower flange 240 is fastened by the bolt 243 to the support rod 25 through the screw hole.

The operation rod 210 has a hollow cylindrical shape and is provided with an elastic body receiving groove 211 for receiving and pressing the elastic body 220. The operation rod 210 is fitted on the support rod 250 and is mounted on the body of the user B .

The elastic body 220 is mounted between the actuating rod 250 and the upper flange 230. As an example of such an example, the elastic body 220 is provided in the elastic body receiving groove 211 provided at the upper end of the actuating rod 250, The upper flange 230 and the support rod 250 are screwed to the respective screw holes with the bolts 233 in a state where the upper flange 230 and the support rod 250 are accommodated.

The cartridge 200 according to the present invention can be inserted into the body 100 integrally and integrally separated from the body 100, which is convenient.

5 and 6 are diagrams for explaining the operation of the termite prediction controller as one preferred embodiment according to the present invention. FIG. 5 is a sectional view of a termite prediction controller showing a state embedded in the ground. FIG. 5 is a cross-sectional view of a termite prediction controller showing a state in which a marine body is deformed according to appearance of termites and feeding activity.

5, after the cartridge 200 is received in the body 100 and the filler plate 300 is inserted between the cartridge 200 and the inner surface of the body 100, Is fixed to the upper edge of the body 100 and the transparent cover window 620 is fixed to the opening 613 of the cover cap 610. In order to allow the inside of the body 100 to be observed with the naked eye, several termite weather controllers according to the present invention are embedded in the ground where the cover window 620 is exposed and the termites are expected to come and go.

In particular, when the body 100 of the scrub control apparatus according to the present invention is preferably made of wood, the termite is regarded as a food and the termite (B) contained in the inside of the body (100) through the feeder (120) and feeds the fed or removed food to the habitat. When termites are found to be rich in fibrinous bodies (B), they are collected in the body (B). As termites are known for their habitat studies, termites are buried in the tunnel (B) The body (B) undergoes shape deformation.

Referring to FIG. 6, the termite sweep controller according to the present invention presses the moving body 210 by the elastic force of the elastic body 220, so that when the moving body 210 is attacked by the termite, The deformation of the flesh B is accelerated and the operation rod 210 also moves and moves downward as in the example shown in Fig.

The manager for controlling termites does not need to separate the cartridge 200 or search for the termite trace in the flesh B, It is possible to easily and simply determine whether the termites appear or disappear by confirming the relative positions of the termites relative to the initial position. In addition, if the termite appearance controller is confirmed by the termite prediction controller 1 according to the present invention, it is possible to strengthen the boundary near the installation area and to prevent the premature damage to the termite protector and to prevent the premature damage, It is very useful. Conventional methods such as fumigation, wood preservatives, soil treatment and baiting can be applied to prevent and control termites.

7 and 8 illustrate the use of termites for controlling termites as a bait method utilizing the termite prediction controller according to the present invention. FIG. 7 is a flowchart illustrating the termite termination control according to the present invention, FIG. 8 is a cross-sectional view illustrating a state in which a termite rainfall controller is embedded in the ground as an example according to the present invention in which a cartridge provided with a dummy feed body is mounted. Here, the same reference numerals as those shown above denote the same members having the same function.

Referring to FIG. 7, the termite disturbance controller 1 separates the cartridge 200 for control according to appearance of termites. That is, the transparent cover window 620 is detached from the cover cap 610 and the boss 231 of the cartridge 200 is gripped and removed from the body 100. Then, the termite insecticide chemical is contained in the portion where the fibrin-containing flesh body B provided in the cartridge 200 remains in a deformed state. An example of allowing the termite insecticide to be contained in the flesh body (B) can be accomplished by impregnating the diluted solution of a termite insecticide chemical. As termites insecticidal chemicals, various chemical agents known in the field of the present invention can be used, for example, chemical agents such as "Termido" and "Talstar", and other insect growth regulators (IGRs) Based insecticides or pyrethroid insecticides may be used. A dilute solution of termite insecticide chemical 1% and distilled water 99% can be used as a dilution solution of a termite insecticide chemical as an example of the trade name "Termido" or "Talstar". For convenience of explanation, the term " termite insecticide chemical agent and fibrin-containing human body "is simply referred to as" duck feed human body ".

Referring to FIG. 8, the cartridge 200 having the dog feeder PB is inserted back into the body 100, and the cover window 620 is covered and fixed. Therefore, termites do not distinguish whether they contain termiticides for insecticides, and continue their feeding activities in the same manner as existing fibrin-containing stem cells (B). Termites that eaten docked PBs died after a certain period of time due to the insecticidal action and destroyed the colonies of termites by sharing the prey that was transferred to the habitat with PB from the dock. Termite control is done by making.

9 and 10 show another example of use for controlling termites as a bait method in the case where the feeding activity of the termites is active and the deformation of the fibrin-containing mammal is large. Fig. 9 shows a case in which the termite- FIG. 10 is a cross-sectional view of a termite prediction controller showing a state in which a dormant feeding body is mounted to the termite prediction controller according to the present invention. FIG. Here, the same reference numerals as those shown above denote the same members having the same function.

Referring to FIG. 9, when the termites alarm controller 1 according to the present invention is intensively attacked by a plurality of termites containing fibrils, the flesh body B is accelerated to collapse, And the operation rod 210 is also moved downward. Such an example may appear in the same manner as a result of continuous termite feeding activity on a dock feeder PB as described with reference to Fig.

Referring to FIG. 9, since the human body (B) is destroyed and the termite insecticide chemical agent is hardly contained or has no effect, a separate feed human body is provided and mounted on the cartridge. It is the same as the manure (B) as described above with reference to Fig. 4, but the termite insecticide is different from that of the termite insecticide, and the termite insecticide is included in Fig. 7 As described with reference to FIG. 5, there is a difference in that only the human body (B) is targeted, so detailed description thereof will be omitted in order to avoid duplication.

Referring to FIG. 10, the dormant feeding body PB is inserted into the body 100 and fixed, and the cover window is covered and fixed. Accordingly, termite control can be achieved by destroying termites and colonies in the manner described with reference to FIG. Here, the change amount of the docking body PB can be continuously observed through the movement of the operation rod 210, and in the case where the amount of change in the docking body PB is large, the termite control is additionally extended To make effective control such as modification and modification of termite control plan and strategy. If the amount of change in PB is small or insignificant, it is judged to be safe from termite attack, restricting indiscriminately termite control, and preparing against termite attack so that economic and stable termite control can be achieved.

FIG. 11 is a cross-sectional view showing still another use example for controlling termites as a bait method when the activity of the termites is active. Here, the same reference numerals as those shown above denote the same members having the same function.

Referring to FIG. 11, a cartridge 400 having a dog feed body PB is mounted inside the body 100. 10) and an elastic body 220 (see FIG. 10), and the dummy feeding body PB is mounted on the cartridge 400. In this case, 10, and a detailed description thereof will be omitted in order to avoid redundancy.

An example of the use of the Termite Predictive Controller as shown in Fig. 11 is as follows. When the termites are buried in an area or a point where it is necessary to expand the termite control without having to observe the amount of change in the human body, .

12 is a sectional view showing another embodiment of a termite rain controller according to the present invention. Here, the same reference numerals as those shown above denote the same members having the same function.

12, the termite prediction controller 3 according to the present invention is identical to the termite prediction controller 1 according to an embodiment of the present invention described with reference to FIG. 3, except that the first guide slot 215 And the second guide slot 217 are formed on the operation rod 210. The first guide protrusion piece 253 is provided on the support rod 250 and the second guide protrusion piece 320 is formed on the filler plate 300 And a rolling member 700 is provided between the lower flange 240 and the body 100. [ The description of the same members described below with reference to Fig. 3 is omitted in order to avoid redundancy.

12, the first guide slot 215 is formed on the inner surface of the operating rod 210 spirally with a helical angle? With respect to a direction perpendicular to the pressing direction of the elastic body 220. Here, it is preferable that the first guide slot 215 is made of a female thread of a threaded screw.

12, the first guide protrusion piece 253 is fixed to the support rod 250 and is received in the first guide slot 215 of the operation rod 210. As shown in FIG. In the present embodiment, the first guide protrusion 253 is protruded by a half pitch, and the first guide protrusion 253 shown in FIG. 253 and the first guide slot 215 may have a thread shape of a square screw, but more preferably, may have a thread shape of various screw threads known in the art such as a ball screw. The first guide protrusion piece 253 is configured to be movable along the first guide slot 215. The first guide protrusion piece 253 is not limited to the illustrated example, The first guide protrusion 253 may be formed on the support rod 250 and may be attached to the operation rod 210. Since the present invention is obvious to those skilled in the art, a detailed description thereof will be omitted.

Referring to FIG. 12, the second guide slot 217 is formed on the outer surface of the operation rod 210 in a direction parallel to the pressing direction of the elastic body 220.

12, the second guide protrusion piece 320 is fixed to the inner surface of the filler plate 300 and is accommodated in the second guide slot 217 of the operation rod 210. As shown in FIG. The second guide protrusion piece 253 may have a structure capable of moving along the second guide slot 215. The second guide protrusion piece 253 is not limited to the illustrated example, The second guide protrusion piece 320 may be fixed to the outer surface of the operation rod 210 and the second guide protrusion piece 320 may be formed on the inner surface of the filler plate 300 However, when the filler plate 300 is fixed to the body 100 or is integrally formed, the filler plate 300 may be fixed to the inside of the body, Therefore, detailed description thereof will be omitted.

12, the rolling member 700 includes a lower flange 240 and a body 100 so as to reduce frictional resistance between the lower flange 240 of the support rod 250 and the body 100, And various members known to induce rolling contact such as balls or rollers may be used.

FIG. 13 is a cross-sectional view illustrating a state in which a flesh-containing human body is deformed due to termite feeding activity over time after the termite stover controller according to the present invention is buried in the ground. FIG. 14 is a perspective view illustrating only the support rod to explain the operation of the termite prediction controller according to the present invention.

Referring to FIGS. 13 and 14, when the termite prediction controller 3 according to the present invention is buried in the ground and exposed to the activity of termites, as described with reference to FIGS. 5 and 6, B are deformed and the actuating rod 210 moves and moves downward. 13 and 14, the termite prediction controller 3 according to the present invention includes a first guide protrusion piece 253, a second guide protrusion piece 320, a first guide slot 215, 5 and 6 in that the second guide slot 217 is accompanied by a rotational movement of the support rod 250. The termination indicator 217 shown in FIG.

12, since the second guide protrusion piece 320 of the filler plate 300 is accommodated in the second guide slot 217 of the actuating rod 210, The actuating rod 210 moves in the direction of pressing by the elastic force of the elastic body 220, i.e., translationally sliding downward. Since the first guide protrusion piece 253 of the support rod is accommodated in the first guide slot 215 of the helical shape of the operation rod 210, when the operation rod 210 is downwardly translationally slidingly moved, The projecting piece 253 is guided by the first guide slot 215 and moves spirally so that the support rod 250 rotates and the operation rod 210 moves by about one pitch P. [

Accordingly, in the termite prediction controller 3 according to the present invention, since the movement of the operation rod 210, that is, the translation sliding movement, as well as the movement of the support rod 210, It is preferable because it can be easily understood easily. In order to make it easier to know the change of the position of the operation rod 210 or the support rod 250 according to the change with time as a result of the termite feeding activity after installing the termite prediction controller according to the present invention, More preferably an index indicator. The index indicator may be variously provided, but the index indicator as an example shown in FIG. 15 may be an arrow.

Referring to FIG. 15 (a), an arrow is provided to face the upper flange of the support rod of the termite swing controller according to the present invention, and when there is no feeding activity of termites, ) Is still facing the front.

15 (b), when the body B is exposed to the feeding activity of termites after a lapse of time, the body B is deformed, so that the downward sliding movement of the operation rod 210 and the rotational movement The index indicator I of the support rod 210 rotates along the support rod 210 rotating clockwise to point backward. Accordingly, if the termite indicator controller according to the present invention is provided with an index indicator I, the administrator for termite control can more easily determine whether termites appear or disappear according to the change of the index indicator I helpful.

As described above, the termite pedometer controller has been shown and described in detail and specifically as a preferred embodiment of the present invention, but it is obvious to a person skilled in the art that various modifications and variations can be made within the scope of the invention. It is to be clearly understood that the technical scope of the present invention should not be construed as being limited to the illustrated and described embodiments but should be defined by the appended claims.

100; Body 120; Through hole
200; Cartridge 210; Operating load
220; Elastic body 250; Support rod
253; A first guide protrusion piece 300; Filler plate
600; Cover 610; Cover cap
620; Cover window B; Human body
PB; Duck feed human body

Claims (8)

A body having a through hole formed therein so that a termite can enter and exit, and a cartridge accommodated in the body;
Wherein,
A working rod disposed in the flesh body so as to move in accordance with the deformation of the flesh body; and an operating rod that is pressed toward the flesh body And an elastic body mounted on the operation rod to allow the user to operate the termite alarm controller. The method according to claim 1,
Wherein the cartridge has a support rod having an upper flange and a lower flange, the upper and lower portions having an enlarged cross section;
The flesh body is fitted on the support rod and disposed on the lower flange;
The operating rod is fitted on the support rod and is disposed on the support body; And
Wherein the elastic body is mounted between the operating rod and the upper flange. 3. The method of claim 2,
Wherein a first guide slot is formed in a spiral shape on one of the support rod and the operation rod; And
Wherein the first guide protrusion piece is formed in the other one of the support rod and the operation rod so as to be received in the first guide slot and relatively movable. The method of claim 3,
Further comprising a filler plate interposed between the body and the actuating rod to block entry of termites or termite excrement into the space between the body and the actuating rod on the upper part of the body. Controller. 5. The method of claim 4,
A second guide slot is formed in one of the operation rod and the filler plate in a direction in which the elastic body presses the second guide slot;
Wherein the second guide protrusion piece is formed in the other of the operation rod and the filler plate so as to be received in the second guide slot and to be relatively movable. 6. The method according to any one of claims 1 to 5,
Wherein the body is made of fiber-containing material. The method according to claim 6,
Wherein the passage hole is formed as a circular hole. 8. The method of claim 7,
Further comprising a transparent cover attached to the upper portion of the body so as to protect the inside of the body and to show movement of the operating rod.

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