CN213939406U - Building termite monitoring, trapping and killing system - Google Patents

Abstract

The utility model discloses a termite monitoring, trapping and killing system, which comprises a trapping and killing box arranged on a building, and underground trapping and killing pipes arranged around the building, wherein the underground trapping and killing pipes are communicated through a pipe joint to form an annular trapping and killing pipeline, and battens or sawdust are arranged in a protective pipeline; the trapping and killing box comprises a trapping and killing box body, an alarm device and a trigger device which are arranged in the trapping and killing box body; and the noctilucent alarm device is arranged in the trapping and killing box body and comprises a noctilucent plate and a noctilucent bottom plate. The utility model discloses use and trap and kill the box as mainly trapping and killing the structure, cooperation underground is trapped and killed the pipe and is protected the pipeline and has enlarged effective area, and the system can insert newly-increased protection pipeline in a flexible way, has constituteed the termite that encircles whole building and has trapped and kill the system, can adapt to the great building of area, has solved the problem that effective area is little or coverage is incomplete.

Description

Building termite monitoring, trapping and killing system

Technical Field

The utility model belongs to the termite trapes and kills field, more specifically relates to a building termite monitors and traps and kills system that possesses multiple alarming function.

Background

Termites are pests seriously harming production and living, not only do harm to crops and trees, but also have great destructive power to buildings and dams, and the termite protection significance of modern house residences and ancient building communities with more wood structures is particularly important, so that the termite detection and trapping are very necessary for protecting the buildings in time.

In the long-term termite control process, a plurality of termite trapping, killing, controlling and monitoring devices appear, and the existing trapping and killing devices have the following problems: (1) the device has a small effective range, and a plurality of devices are required to be installed when the area of a building is large, so that the inspection and management are time-consuming and labor-consuming while the appearance of the building is influenced; (2) the device has no alarm function or has defects in the alarm function, the inspection time interval of the device without the alarm function is judged only by experience after the device is used, the termite is possibly disturbed to influence the trapping effect, most of the devices with the alarm function use storage batteries, the battery replacement or charging is untimely, the functional failure endurance is weak, the alarm effect is not obvious or the alarm function is single and easy, the alarm capability is lost once the related structure fails, and the inspection time is missed; (3) the device has small volume, can not store a plurality of baits and termite toxicants, has limited trapping and killing capacity and is difficult to deal with the environment with more termites around the building; (4) trap and kill the device mounted position secret and do not fix even, use for a long time and easily receive the rainwater to dip inefficacy, seek the difficulty after the use, omit then easy polluted environment.

The utility model discloses improve to above problem, trap and kill the box and constitute building termite protection system by a large scale with the pipeline of trapping and killing around the building, trap and kill the box as major structure have alarming function and charge long-time duration, it is more convenient to report to the police and adopt bee calling organ to trap and kill the fixed searching inspection of mounted position, and more bait and termite toxicant can be deposited by the inner space simultaneously greatly, can adapt to the more environment of termite around the building.

SUMMERY OF THE UTILITY MODEL

To the above defect or the improvement demand of prior art, the utility model provides a building termite monitoring that possesses multiple alarming function lures and kills system uses and lures and kills the box as mainly luring and kill the structure, and the cooperation underground is lured and is killed the pipe and the protection pipeline has enlarged effective area, and the system can insert newly-increased protection pipeline in a flexible way, has constituteed the termite that encircles whole building and has lured and kill the system, can adapt to the great building of area, need not to install a plurality of devices, has solved the problem that effective area is little or coverage is incomplete.

In order to achieve the above object, the present invention provides a termite monitoring, trapping and killing system, comprising:

the trapping and killing box is arranged on a building, bait and termite toxicant are arranged in the trapping and killing box, and the trapping and killing box is hermetically connected with the box cover arranged on the trapping and killing box;

the underground trapping and killing pipes are arranged around a building, the underground trapping and killing pipes are communicated through a pipeline joint to form an annular trapping and killing pipeline, one side of the annular trapping and killing pipeline is communicated with the trapping and killing box through a pipeline, the other side of the annular trapping and killing pipeline is communicated with a protective pipeline arranged underground, and battens or sawdust are arranged in the protective pipeline;

the trapping and killing box comprises a trapping and killing box body, an alarm device and a trigger device, wherein the alarm device and the trigger device are arranged in the trapping and killing box body;

the noctilucent alarm device is arranged in the trapping and killing box body and comprises a noctilucent plate and a noctilucent bottom plate covering the noctilucent plate;

termites bite the wood strips or the wood chips and enter the trapping and killing box to eat bait and termite toxicant, the triggering device triggers the alarm device to alarm, the noctilucent bottom plate slides down, and the noctilucent plate emits light to realize alarm.

Further, the trapping and killing box comprises a first separation block, a second separation block and a partition plate;

the trap box body is divided into a plurality of areas by the first partition block;

a second separation block for reinforcing the box body structure is arranged between the two first separation blocks;

the alarm device and the trigger device are separated through the partition plate.

Furthermore, an observation window is arranged in the center of the box cover, and a shielding plate corresponding to the observation window is arranged on the noctilucent bottom plate.

The bottom of the trapping and killing box is provided with a plurality of anti-skid lugs;

the box cover is fixed and sealed by the fixing column through a screw;

the trapping and killing box is fixed on the building wall through a fixing hole bolt.

Further, the triggering device comprises a rotary pull rod;

the rotary pull rod comprises a transverse rod and a longitudinal rod;

the longitudinal rod comprises a lifting hook, and a plurality of outer side grooves and inner side grooves which are respectively used for fixing and straightening the second fiber lines and the first fiber lines.

Furthermore, the lifting hook penetrates through a through hole in the center of the noctilucent bottom plate and hooks the shielding plate to prevent the shielding plate from falling.

Furthermore, the trigger device comprises a first fiber wire, a rotary pull rod bracket, a hollow column, a first drag hook, a second fiber wire and a spring pull rod;

the rotary pull rod bracket is fixed on the second separating block.

Furthermore, the spring pull rod comprises a protective sleeve, a spring fixing column, a second drag hook, a powerful magnet and a spring;

the spring fixing column, the second drag hook and the strong magnet are located at the same end of the protective sleeve, one end of the spring is sleeved on the spring fixing column, and then the spring fixing column penetrates through the protective sleeve to reach the other end of the protective sleeve.

Further, the alarm device comprises a transformer, an alarm device switch, an iron block, a switch shifting sheet, a buzzer, a storage battery and a charging interface, wherein the charging interface can be directly connected with a building circuit, and is converted into voltage suitable for the alarm device after passing through the transformer, and meanwhile, the storage battery is charged. Further, the alarm device includes a communication antenna and a processor.

Generally, through the utility model discloses above technical scheme who conceives compares with prior art, can gain following beneficial effect:

(1) the utility model discloses use and trap and kill the box as mainly trapping and killing the structure, cooperation underground is trapped and killed the pipe and is protected the pipeline and has enlarged effective area, and the system can insert newly-increased protection pipeline in a flexible way, has constituteed the termite that encircles whole building and has trapped and kill the system, can adapt to the great building of area, need not to install a plurality of devices, has solved the problem that effective area is little or coverage is incomplete.

(2) The utility model discloses trap and kill the box and fused buzzing warning, wireless communication warning and the multiple alarming function of night light warning, it is obvious to remind the effect, prevents to miss check-out time, and battery and external connection wire interface can guarantee to trap and kill the long-time effective operation of system, has ensured the time of endurance of device, prevents that the inefficacy from causing the white ant to invade and eat the building.

(3) The utility model discloses trap and kill the box space enough, can deposit more bait and termite poison agent, can adapt to the more environment of termite around the building, it is long effective after having prolonged the clearance at every turn and having changed bait and termite poison agent simultaneously.

(4) The utility model discloses trap and kill the box back and adopt the fix with screw mode, can install on the wall body surface, also can inlay only expose in the wall body and trap and kill the box lid, do not influence the building outward appearance, be difficult for being soaked by the rainwater, the protection pipeline of laying is laid in step when can selecting the building to build, also can build and lay in the underground after finishing, the firm reliable rigidity of this system after the installation is used with the permanent cooperation of building, the condition of losing can not appear, environmental pollution has been avoided.

Drawings

FIG. 1 is a schematic three-dimensional structure diagram of a termite monitoring, trapping and killing system for a building according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the three-dimensional structure of the trapping box of the termite monitoring and trapping system for buildings according to the embodiment of the present invention;

FIG. 3 is a schematic view showing the internal three-dimensional structure of the trapping box of the termite monitoring and trapping system for buildings according to the embodiment of the present invention;

FIG. 4 is a partial enlarged view A of the trapping box of the termite monitoring and trapping system for buildings according to the embodiment of the present invention;

FIG. 5 is a schematic diagram of the internal three-dimensional structure of the trapping box of the termite monitoring and trapping system for buildings according to the embodiment of the present invention;

FIG. 6 is a partial enlarged view B of the trapping box of the termite monitoring and trapping system for buildings according to the embodiment of the present invention;

FIG. 7 is a rear view of a trap box of a termite monitoring and trapping system for a building according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view C-C of a trapping box of a termite monitoring and trapping system for a building according to an embodiment of the present invention;

fig. 9 is a schematic three-dimensional structure diagram of a spring trigger rod of a termite monitoring, trapping and killing system for a building according to an embodiment of the present invention;

fig. 10 is a schematic three-dimensional structure diagram of a rotary pull rod of a termite monitoring and trapping system for a building according to an embodiment of the present invention;

fig. 11 is a schematic three-dimensional structure diagram of an underground trapping pipe of a termite monitoring and trapping system for a building according to an embodiment of the present invention.

In all the figures, the same reference numerals denote the same features, in particular: 1-trapping box, 2-box cover, 3-underground trapping pipe, 4-protective pipeline, 5-pipeline joint, 11-trapping box body, 12-trapping box separation block, 13-second separation block, 14-trigger device, 15-fixed column, 16-fixed hole, 17-antiskid lug, 18-alarm device protective cover, 19-alarm device, 20-partition plate, 21-observation window, 141-rotary pull rod, 142-first fiber line, 143-rotary pull rod bracket, 144-hollow column, 145-first drag hook, 146-second fiber line, 147-spring pull rod, 148-noctilucent bottom plate, 149-noctilucent plate, 1410-baffle plate, 181-spring pull rod fixed column, 191-transformer, 191-protective pipeline, 18-alarm device protective cover, 21-observation box body, 21-rotary pull rod, 142-first fiber line, 143-rotary pull rod bracket, 144-hollow column, 145-first drag hook, 146-second fiber line, 147-spring pull rod, 148-noctilucent bottom plate, 149-noctilucent plate, 1410-baffle plate, 181-spring pull rod fixed column, 191-transformer, 192-alarm device switch, 193-iron block, 194-switch shifting sheet, 195-buzzer, 196-communication antenna, 197-storage battery, 198-processor, 199-charging interface, 1411-outside groove, 1412-longitudinal bar, 1413-transverse bar, 1414-inside groove, 1415-disc, 1416-lifting hook, 1471-protective sleeve, 1472-spring fixing column, 1473-second pulling hook, 1474-powerful magnet and 1475-spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention. Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1-11, the embodiment of the present invention provides a termite monitoring and trapping system, which comprises a trapping and killing box 1 and a box cover 2, and an underground trapping and killing pipe 3, a protection pipe 4 and a pipe joint 5 used cooperatively, when the system is installed, bait and termite poison are placed inside the trapping and killing box 1, the trapping and killing box 1 is covered and sealed by the box cover 2, is installed on the wall surface of a building or embedded in the wall body, only the box cover 2 is exposed, so as to avoid affecting the appearance of the building, then the underground trapping and killing pipe 3 is buried under the wall body position of the trapping and killing box 1, the protection pipe 4 is laid underground along the wall body around the building and is connected through the pipe joint 5, is finally connected to the underground trapping and killing pipe 3 around the whole building and connects the trapping and killing box 1 with the underground trapping and killing pipe 3, the underground trapping and killing pipe 3 is a short middle through pipe, one end is provided with a through hole, and the other end is completely opened for the protection pipe 4 to be connected, the surface of the underground trapping and killing pipe 3 is provided with a plurality of through holes which can attract termites to enter, a plurality of fine holes for the termites to enter are also distributed on the protective pipe 4, small wood strips or wood chips are placed in the underground trapping and killing pipe before installation to attract the termites, the wood chips are also placed in the same underground trapping and killing pipe 3, so that a trapping and killing range is covered on the whole building, the purpose that the termites are attracted to enter the trapping and killing box 1 to be killed through termite toxicants is achieved, a building circuit is connected with a charging interface 199 to supply power to an alarm device 19, the problem that reminding is not obvious due to insufficient endurance capacity of the device when the termites are trapped and killed is solved, when the termites enter a buzzer 195 for alarming, a communication antenna 198 sends signals to a mobile phone and a local area network, meanwhile, a night light panel 149 is exposed in an observation window 21, the reminding effect is guaranteed through a plurality of alarming modes, and missing of inspection time is avoided.

As shown in fig. 2 to 5, the trapping and killing box 1 comprises a trapping and killing box body 11, a first partition block 12, a second partition block 13, a triggering device 14, a fixing post 15, a fixing hole 16, an anti-slip projection 17, a warning device protecting cover 18, a warning device 19 and a partition plate 20. firstly, the trapping and killing box 1 is internally divided into three areas, two first partition blocks 12 separate a middle functional area and an area for placing baits and termite toxicants on two sides, and the partition plate 20 separates the triggering device 14 and the warning device 19 in the functional area, particularly, a plurality of anti-slip projections 17 are arranged at the bottom of the trapping and killing box 1, the baits and the termite toxicants can be prevented from falling and accumulating on the inner side of the box body after the trapping and killing box 1 is installed on a wall, the second partition block 13 is arranged between the two first partition blocks 12 for reinforcing the structure of the box body, preferably, a bolt is arranged on each first partition block 12 for fixing the bottom plate 148, the luminous bottom plate 148 is provided with a through hole for abdicating the rotary pull rod 141, the luminous plate 149 made of fluorescent material is arranged in the center of the luminous bottom plate 148, in addition, the baffle plate 20 separates the alarm device 19 and the trigger device 14 in the functional area, further, the alarm device protective cover 18 covers the alarm device 19, the alarm device 19 is sealed through bolt connection, the box cover 2 is fixed and sealed by the bolt through the fixed column 15, the trapping and killing box 1 is particularly fixed with a transparent observation window 21 in the center of the box cover 2, the observation window 21 is right opposite to the luminous plate 149 and the shielding plate 1410 in the box, when the alarm is triggered, the shielding plate 1410 drops downwards, so that the luminous plate 149 is exposed in the observation window 21 and can be observed by the outside, finally, the trapping and killing box 1 is fixed on the wall body through the fixed hole 16, the firm and reliable installation of the building box body is ensured, the installation height is a certain distance away from the ground, the device can prevent the seeper from being immersed, is convenient to find and check, and prolongs the service life.

Further, as shown in fig. 2, 3, 4, 5, 7, 9 and 10, the viewing angle is defined as the direction of the protective cover 18 of the front-view alarm device, and the following description refers to the spatial direction, the triggering device 14 includes a rotary pull rod 141, a first fiber wire 142, a rotary pull rod bracket 143, a hollow pillar 144, a first pull hook 145, a second fiber wire 146, a spring pull rod 147, a noctilucent base plate 148 and a noctilucent plate 149, the rotary pull rod bracket 143 is fixed on the second separating block 13, and the partition plate 20 has a slot at the center for yielding when the rotary pull rod bracket 143 moves, preferably, the rotary pull rod 141 has a cross-shaped structure including a transverse rod 1413 and a longitudinal rod 1412 perpendicularly crossed by a hook 1416, and a plurality of outer slots 1411 and inner slots 1414 for fixedly straightening the second fiber wire 146 and the first fiber wire 142, here, the number of the outer grooves 1411 and the inner grooves 1414 is defined as at least one groove on each side of the intersection, but not limited to one groove, and a plurality of grooves are provided to increase the fixed positions of the first fiber thread 142 and the second fiber thread 146, so as to facilitate the practical adjustment of the triggering device 14, while the hook 1416 passes through the through hole in the center of the noctilucent base 148, the shielding plate 1410 is hooked by the hook 1416 to prevent falling, further, the two ends of the transverse rod are provided with the inner grooves 1414, the rotary rod 141 is engaged in the two grooves of the rotary rod support 143 via the transverse rod 1413, at this time, the disc 1415 can limit the left and right sliding of the rotary rod 141, and at the same time, the rotary rod 141 can rotate around the transverse rod 1413 on the rod support 143, obviously, when the first fiber thread 142 is fixed on the disc 1415 of the longitudinal rod 1412 and is in a straightened state, and the second fiber thread 146 is fixed on the outer groove 1411 of the longitudinal rod 1412 and is in a straightened state, if one of the two threads breaks, the other thread must be able to rotate about the transverse bar 1413 by pulling the longitudinal bar 1412 to bring the rotating pull rod 141. Particularly, the bottom of the hollow column 144 is in a round shape and is connected to the bottom of the trapping and killing box 1 and penetrates through the outer surface of the box body, the top of the hollow column is gradually reduced from the round to a flat opening, but the hollow column is not completely closed, the width of the reserved gap is matched with the diameter of the first fiber line 142, when the trigger device 14 is in a tensioning state, the first fiber line 142 can just block the flat opening of the hollow column 144, meanwhile, the hollow structure inside the hollow column 144 enables the external environment to be communicated with the inside of the box through the passage, and the passage is the only passage for communicating the trapping and killing box 1 with the outside when the termite trapping and killing system is normally used. In addition, the spring pull rod 147 includes a protective sheath 1471, a spring fixing post 1472, a second pulling hook 1473, a strong magnet 1474 and a spring 1475, wherein the spring fixing post 1472, the second pulling hook 1473 and the strong magnet 1474 are all located at the same end of the protective sheath 1471, and one end of the spring 1475 is sleeved on the spring fixing post 1472 and then passes through the protective sheath 1471 to reach the other end.

Further, it is defined herein that the spring pull rod 147 has a first end with the strong magnet 1474 and a second end with the strong magnet 1474, and the following description will be made with reference to the orientation of the spring pull rod 147, when the first fiber wire 142 is extended from the inner notch 1414 through the slit end at the top end of the hollow pillar 144 to the first hook 145 and is fixed in tension, the first hook 145 is preferably fixed to the partition 20 by bolting, and the second fiber wire 146 is extended from the outer notch 1411 and fixed by the second hook 1473 whose end is extended to the head end of the spring pull rod 147, and the spring 1475 at the tail end of the spring pull rod 1472 is fixed to the spring fixing post 181, so that all the fiber wires of the whole trigger device 14 are completely tensioned and the spring 1475 is also in tension, and the strong magnet 1474 is located above the partition 20 and is not in the area of the alarm device 19, when termites are attracted to the bait trapping and killing box 1, the box can be entered from the outside only through the hollow post 144, and at this time, the first fiber line 142 of the trigger device 14 in a tensioned state seals the flat end of the hollow post 144, if a termite bites off the first fiber line 142 and enters the box, the longitudinal rod 1412 of the rotary pull rod 141 is unbalanced due to the loss of the pulling of the first fiber line 142 and rotates around the transverse rod 1413, at this time, the spring 1475 in a stretched state contracts, and the strong magnet 1474 on the protective sleeve 147 returns to the area of the alarm device 19 from the area above the partition plate 20, so that the whole process of activating the trigger device 14 is completed, and simultaneously, the hook 1416 leaves from the through hole on the noctilucent bottom plate 148 along with the rotation of the rotary pull rod 141, the shielding plate 1410 loses a suspension point and falls to expose the noctilucent plate 149, the noctilucent plate 149 gives a light alarm, the outside can be observed through the transparent observation window 21, and the process of the noctilucent plate 149 does not need external energy supply, the fluorescent material can absorb solar illumination to accumulate energy in the daytime, the system can continue to operate normally under the condition of extreme conditions such as device circuit damage and power failure by means of mechanical triggering, and meanwhile, in the process, the uniqueness that termites enter the channel of the trapping and killing box 1 ensures that false triggering of the device cannot occur.

Further, as shown in fig. 5-8, the alarm device 19 includes a transformer 191, an alarm device switch 192, an iron block 193, a switch shifting piece 194, a buzzer 195, a communication antenna 196, a storage battery 197, a processor 198 and a charging interface 199, wherein the charging interface 199 can be directly connected to a building circuit, and is converted into a voltage suitable for the alarm device 19 after passing through the transformer 191, and simultaneously charges the storage battery 196, and the direct access to an external power supply circuit can ensure the working duration of the whole monitoring and killing system, thereby realizing long-time operation without frequent battery replacement, avoiding termite interference, and the equipped storage battery 196 can also flexibly cope with power failure, so that the system has endurance without an external power supply, in particular, the switch 192 is connected to the switch shifting piece 194, the switch shifting piece 194 can only be shifted outwards, and can be shifted with a small force, thereby triggering the buzzer 195 to alarm, the iron block 193 is fixed at the end of the switch shifting sheet 194, preferably, the iron block 193 should be processed with rust prevention such as paint spraying, etc., referring to the conclusion obtained above, when the termite enters the trapping box 1, the strong magnet 1474 will move downwards to the area of the alarm device 19 from the upper side of the partition board 20, at this time, the strong magnet 1474 will attract the iron block 193 to move outwards, and at the same time, the switch shifting sheet 194 is driven to dial outwards to trigger the alarm device switch 192, at this time, the circuit of the alarm device 19 is connected, the buzzer 195 sends out a buzzing, and the processor 198 starts working, and sends the preset alarm information to the building local area network and the designated mobile phone by the communication antenna 196, so as to achieve the purpose of alarming, wherein the magnetic triggering method is difficult to fail, further ensuring the effectiveness of the alarm device 19, and selecting the buzzer 195 to alarm effect is obvious, the setting processor 198 and the communication antenna 196 can be adapted to the situation when the residents of the building are out, preventing missing the inspection time.

The working principle of the termite trapping and killing system for the building of the utility model is as follows: the system adopts a trapping and killing box and a box cover to be matched with an underground trapping and killing pipe, a plurality of protective pipes and a plurality of pipe joints to form a termite trapping and killing system surrounding the whole building, a trapping and killing box trigger device comprises a rotary pull rod, a hollow column, a first draw hook, a spring pull rod and a fiber rope, the uniqueness of a box body entering channel ensures the effectiveness of the trigger device, when the tensioned fiber rope is bitten off by termites, a spring in the trigger device is provided with a strong magnet to rebound to the area where the alarm device is located from the area to be triggered, and attracts a switch shifting sheet in the alarm device, the magnetic force triggering mode further ensures the triggering accuracy, meanwhile, the alarm adopts three alarm modes of a buzzer, wireless communication and a night light plate, achieves the purposes of remarkable reminding sound, no failure when the wireless remote alarm and the circuit are damaged, and solves the problems of unobvious alarm effect or failure of the alarm function after the traditional termite trapping and killing device is installed, the anti-missing inspection time, the running time of the system can be continued by the aid of the storage battery matched charging interface, the anti-missing inspection time box can be used under a power failure state, the whole box body can be installed on the surface of a building wall body and can be embedded into the wall body, the appearance of the building cannot be influenced, the position fixing bolt is more firm and reliable to install, the environment pollution is prevented from being lost, the inner space of the box body is sufficient, more baits and termite toxicants can be stored at one time, the anti-missing inspection time box can adapt to the environment with more termites around the building, all matched protection pipeline systems are connected to the underground trapping and killing pipe positions under the trapping and killing box, the protection pipelines can be flexibly connected to the positions of the building or even extend to all positions of the building from the underground as required, and the effective trapping and killing area of the system is extended to the whole building.

It will be understood by those skilled in the art that the foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the invention, and that any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (10)

1. A termite monitoring trap system comprising:

the trapping and killing device comprises a trapping and killing box (1) arranged on a building, wherein bait and termite toxicant are arranged in the trapping and killing box (1) and are hermetically connected through a box cover (2) arranged on the trapping and killing box (1);

the underground trapping and killing pipe (3) is arranged around a building, the underground trapping and killing pipe (3) is communicated through a pipeline joint (5) to form an annular trapping and killing pipeline, one side of the annular trapping and killing pipeline is communicated with the trapping and killing box (1) through a pipeline, the other side of the annular trapping and killing pipeline is communicated with a protective pipeline (4) arranged underground, and battens or sawdust are arranged in the protective pipeline (4);

the trapping and killing box (1) comprises a trapping and killing box body (11), an alarm device (19) and a trigger device (14) which are arranged in the trapping and killing box body (11);

the noctilucent alarm device is arranged in the trapping and killing box body (11) and comprises a noctilucent plate (149) and a noctilucent bottom plate (148) covered on the noctilucent plate (149);

termites gnaw the wood strips or the wood chips and then enter the trapping and killing box (1) to eat baits and termite toxicants, the triggering device (14) triggers the alarming device (19) to alarm, meanwhile, the noctilucent bottom plate (148) slides down, and the noctilucent plate (149) emits light to realize alarming.

2. A termite monitoring and trapping system according to claim 1 wherein the trapping box (1) comprises a first partition block (12), a second partition block (13) and a partition (20);

the trap box body (11) is divided into a plurality of areas by the first dividing block (12);

a second separation block (13) used for reinforcing the box body structure is arranged between the two first separation blocks (12);

the alarm device (19) and the trigger device (14) are separated by the partition (20).

3. A termite monitoring, trapping and killing system as claimed in claim 2 wherein the box cover (2) is provided with an observation window (21) at the center, and the noctilucent bottom plate (148) is provided with a shielding plate (1410) corresponding to the observation window (21).

4. A termite monitoring, trapping and killing system as claimed in claim 3, wherein the bottom of the trapping and killing box (1) is provided with a plurality of skidproof convex blocks (17);

the box cover (2) is fixed and sealed with the trapping and killing box (1) through a fixing column (15) by using a screw;

the trapping and killing box (1) is fixed on the building wall body through a fixing hole (16) by bolts.

5. A termite monitoring and trapping system according to claim 3 or 4 wherein the trigger means (14) comprises a rotary pull rod (141);

the rotary pull rod (141) comprises a transverse rod (1413) and a longitudinal rod (1412);

the longitudinal rod (1412) comprises a hook (1416), a plurality of outer grooves (1411) and inner grooves (1414) for fixing and straightening the second fiber line (146) and the first fiber line (142), respectively.

6. A termite monitoring, trapping and killing system as claimed in claim 5 wherein said hook (1416) passes through a through hole in the center of said night light base plate (148) and hooks said shutter (1410) to prevent it from falling.

7. A termite monitoring, trapping and killing system as claimed in claim 5 wherein said trigger means (14) comprises a first fiber wire (142), a rotating pull rod bracket (143), a hollow column (144), a first pull hook (145), a second fiber wire (146) and a spring pull rod (147);

the rotating pull rod bracket (143) is fixed on the second separating block (13).

8. The termite monitoring, trapping and killing system as set forth in claim 7, wherein the spring pull rod (147) comprises a protective sheath (1471), a spring fixing post (1472), a second pulling hook (1473), a strong magnet (1474) and a spring (1475);

the spring fixing column (1472), the second drag hook (1473) and the strong magnet (1474) are all located at the same end of the protective sleeve (1471), one end of the spring (1475) is sleeved on the spring fixing column (1472) and then penetrates through the protective sleeve (1471) to reach the other end.

9. The termite monitoring and trapping system as set forth in any one of claims 1 to 4, wherein the alarm device (19) comprises a transformer (191), an alarm device switch (192), an iron block (193), a switch paddle (194), a buzzer (195), a storage battery (197) and a charging interface (199), wherein the charging interface (199) can be directly connected with the building circuit, and is converted into a voltage suitable for the alarm device (19) through the transformer (191) and simultaneously charges the storage battery (197).

10. A termite monitoring trap system as set forth in claim 9 wherein said alarm device (19) includes a communication antenna (196) and a processor (198).

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