Trapping device for cultivating anaphalis contorta

By designing a trapping device for cultivating Anoectochilus roxburghii, using yellow light and a suction fan to capture pests, the problems of obstructed light diffusion and tool wear and tear were solved, achieving efficient pest trapping and protection of the growth environment.

CN224460951UActive Publication Date: 2026-07-07FUJIAN YISHOU ANOMATIS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUJIAN YISHOU ANOMATIS CO LTD
Filing Date
2025-06-25
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing technologies, the light dispersion is obstructed, making it difficult to effectively attract pests, resulting in high tool wear and tear, and the inability to trap pests during the day, thus reducing work efficiency.

Method used

A trapping device for cultivating Anoectochilus roxburghii (a type of orchid) and preventing pests was designed. It includes an insect-attracting mechanism, a suction mechanism, and an insect-catching mechanism. It uses yellow light and a suction fan to attract and capture pests, and is effective both day and night. The electric grid shocks the pests, and the ventilation mechanism prevents wind from affecting plant growth.

Benefits of technology

It enables efficient pest trapping both day and night, reduces tool wear and tear, improves work efficiency, and protects the growing environment of Anoectochilus roxburghii.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of trapping goldline cultivation insect prevention devices, specifically related to goldline cultivation technical field, including several sharp head cylindrical blocks, several sharp head cylindrical blocks upper end are all fixedly connected with fixed plate, several the one end of support away from fixed plate is commonly fixedly connected with trapping mechanism, trapping mechanism lower part is clamped with suction mechanism, suction mechanism inner cavity is clamped with trapping mechanism, suction mechanism lower end is fixedly connected with exhaust mechanism.The utility model discloses a kind of trapping goldline cultivation insect prevention devices, trapping mechanism and trapping mechanism are cooperated with the cooperation of suction mechanism, through the color of shell one and the effect of lamp tube, the effect that daytime and night can be carried out trapping to pest is realized, and suction force is generated to pest, pest is sucked to electric network, so that pest cannot escape, and when pest is not electrocuted by electric network, pest is also firmly fixed on electric network, subsequent electric shock to pest makes pest death, improve trapping efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of Anoectochilus roxburghii cultivation technology, and in particular to a trapping-type insect-proof device for cultivating Anoectochilus roxburghii. Background Technology

[0002] The optimal growing temperature for Anoectochilus roxburghii is generally between 20℃ and 28℃. The winter temperature should not be lower than 10℃, otherwise it may suffer frost damage. When the summer temperature exceeds 30℃, cooling measures should be taken, such as increasing ventilation and spraying water.

[0003] Common diseases and pests of Anoectochilus roxburghii include soft rot, stem rot, anthracnose, slugs, aphids, and spider mites. The key to preventing diseases and pests is to maintain a good growing environment, such as good ventilation and proper humidity control. Once diseases and pests are found, appropriate control measures should be taken in time, such as using biological or chemical pesticides. However, attention should be paid to the concentration and safe interval of pesticides to avoid pesticide residues affecting the quality of Anoectochilus roxburghii.

[0004] Chinese Patent Publication No. CN211910222U discloses a trapping-type practical insect-repelling device and its outer shell for physical control of pests in economic forests. A sleeve is fixedly installed at the bottom of the inner wall of the outer shell, and an opening is opened on the bottom surface of the outer shell. The inner wall of the opening is tapped with internal threads, and a cylinder penetrates through the inner wall of the opening. The outer wall of the cylinder is tapped with external threads. Through the cooperation of a spring and a collar, the spring pushes the collar to move downward, and the collar drives the filter screen to fit tightly against the support plate and the top of the cylinder.

[0005] The aforementioned patent documents still have the following defects in practice:

[0006] The downward-facing opening obstructs the light's diffusion, making it difficult to attract pests. Using elastic nets to capture pests results in pests taking too long to enter, which can affect the entry of subsequent pests. As a certain number of pests crawl through the net, they can cover the light, preventing it from shining through. Furthermore, the frequent passage of pests through the elastic net can damage it, affecting the capture effect. Frequent replacement of the elastic net leads to significant losses, and pests cannot be trapped during the day, reducing work efficiency. Utility Model Content

[0007] The main purpose of this invention is to provide a trapping device for cultivating Anoectochilus roxburghii and preventing pests, which can effectively solve the problems of obstructed light diffusion, failure to attract pests, resulting in a large amount of tool wear and tear, and inability to trap pests during the day.

[0008] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0009] A trapping-type insect-proof device for cultivating Anoectochilus roxburghii includes several pointed cylindrical blocks. Each of the pointed cylindrical blocks has a fixed plate fixedly connected to its upper end. Each of the fixed plates has a bracket fixedly connected to its upper end. The ends of the brackets away from the fixed plates are all fixedly connected to an insect-attracting mechanism. The lower part of the insect-attracting mechanism is engaged with a suction mechanism. The inner cavity of the suction mechanism is engaged with an insect-trapping mechanism. The lower end of the suction mechanism is fixedly connected with an exhaust mechanism.

[0010] Preferably, the insect-attracting mechanism includes a second outer shell. The outer surface of the second outer shell is fixedly connected to several supports near the axis of the insect-attracting mechanism. Several vertical waist-shaped holes are opened on the outer surface of the second outer shell. Several horizontal waist-shaped holes are opened on the outer surface of the second outer shell below the vertical waist-shaped holes. A lamp tube is fixedly connected to the upper wall of the inner cavity of the second outer shell. Two opposing slots are opened in the lower part of the inner cavity of the second outer shell.

[0011] Preferably, the suction mechanism includes two locking plates, both of which engage with the slots. The lower ends of the two locking plates are fixedly connected to a housing. The inner cavity of the housing is fixedly connected to two opposing fixing blocks. A fan is fixedly connected to the lower part of the housing.

[0012] Preferably, the insect-catching mechanism includes an electric grid, which is fitted with a fixed block. The electric grid has opposing square slots, and a number of conical blocks are fixedly connected to the upper end of the electric grid. The conical blocks have a number of ventilation holes.

[0013] Preferably, the cone block has a hollow structure and an opening at its lower end.

[0014] Preferably, the exhaust mechanism includes an irregularly shaped exhaust plate one, the upper end of which is fixedly connected to the lower part of the fan, and a plurality of connecting blocks are fixedly connected to the outer ring of the lower end of the irregularly shaped exhaust plate, and the lower ends of the plurality of connecting blocks are jointly fixedly connected to an irregularly shaped exhaust plate two.

[0015] Compared with the prior art, the present invention has the following beneficial effects:

[0016] 1. In this embodiment, the insect-attracting mechanism, the insect-catching mechanism, and the suction mechanism are combined during implementation. By using the color of the outer shell and the effect of the lamp tube, the insects can be attracted and captured both day and night. The suction force is generated to pull the insects to the electric grid, making it impossible for them to escape. Even if the insects are not killed by the electric grid, they are firmly fixed on the electric grid. The insects are then continuously electrocuted until they die, thus improving the trapping efficiency.

[0017] 2. In this embodiment, if the air discharged from the fan blows continuously onto the golden thread lotus, it will cause the golden thread lotus to lose moisture and affect its normal growth. Therefore, an exhaust mechanism is set up to change the airflow from downward to upward at an angle, which will not affect the growth of the golden thread lotus, but will also accelerate the airflow and cool the staff. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the insect-attracting mechanism of this utility model;

[0020] Figure 3 This is a schematic diagram of the suction mechanism of this utility model;

[0021] Figure 4 This is a schematic diagram of the insect-catching mechanism of this utility model;

[0022] Figure 5 This is a schematic diagram of the exhaust mechanism structure of this utility model;

[0023] Figure 6 This is a schematic diagram of the overall structure of this utility model from another perspective.

[0024] In the diagram: 1. Bracket; 2. Suction mechanism; 21. Outer shell one; 22. Clamping plate; 23. Fixing block; 24. Fan one; 3. Insect trapping mechanism; 31. Electric grid; 32. Square slot; 33. Conical block; 34. Ventilation hole; 4. Insect attracting mechanism; 41. Outer shell two; 42. Lamp tube; 43. Vertical waist-shaped hole; 44. Horizontal waist-shaped hole; 45. Slot; 5. Exhaust mechanism; 51. Irregularly shaped exhaust plate one; 52. Connecting block; 53. Irregularly shaped exhaust plate two; 6. Fixing plate; 7. Pointed cylindrical block. Detailed Implementation

[0025] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0026] Example 1, as Figure 1 As shown, a trapping-type insect-proof device for cultivating Anoectochilus roxburghii includes several pointed cylindrical blocks 7, each of which is fixedly connected to a fixed plate 6 at its upper end. Each of the fixed plates 6 is fixedly connected to a support 1 at its upper end. The ends of the supports 1 that are away from the fixed plates 6 are all fixedly connected to an insect-attracting mechanism 4. The lower part of the insect-attracting mechanism 4 is engaged with a suction mechanism 2. The inner cavity of the suction mechanism 2 is engaged with an insect-trapping mechanism 3. The lower end of the suction mechanism 2 is fixedly connected to an exhaust mechanism 5.

[0027] In this embodiment, during implementation, the staff first places the device in a suitable position, then presses the device appropriately to insert all the pointed cylindrical blocks 7 into the soil. Next, the suction mechanism 2 and the insect-trapping mechanism 3 are powered on. At night, the insect-attracting mechanism 4 is lit, emitting a yellow light. Some insects that harm *Anoectochilus roxburghii* are strongly attracted to yellow, such as aphids, whiteflies, and spider mites. Therefore, insects attracted to yellow and light will fly towards the insect-attracting mechanism 4. Aphid larvae will crawl towards the insect-attracting mechanism 4 through the support 1. When the insect-attracting mechanism 4 is near, the suction mechanism 2 generates suction to draw the aphids around and inside the insect-attracting mechanism 4 to the upper part of the insect-catching mechanism 3, where the aphids are electrocuted. Since the insect-attracting mechanism 4 is yellow, it will still attract insects attracted to yellow during the day. The air discharged by the suction mechanism 2 is discharged from a specific angle through the exhaust mechanism 5. When too many aphids accumulate in the upper part of the insect-catching mechanism 3, causing the suction mechanism 2 to be unable to continue to suck up aphids, the staff will remove the suction mechanism 2 from the lower part of the insect-attracting mechanism 4, clean it, and then reinstall it with the insect-attracting mechanism 4.

[0028] To attract pests, see [reference] Figure 2 The insect-attracting mechanism 4 includes a second outer shell 41. The outer surface of the second outer shell 41 is fixedly connected to a number of supports 1 on the side near the axis of the insect-attracting mechanism 4. A number of vertical waist-shaped holes 43 are opened on the outer surface of the second outer shell 41. A number of horizontal waist-shaped holes 44 are opened on the outer surface of the second outer shell 41 below the vertical waist-shaped holes 43. A lamp tube 42 is fixedly connected to the upper wall of the inner cavity of the second outer shell 41.

[0029] During implementation, the outer shell 41 is yellow, which can still attract yellow-attracting pests during the day. The lamp tube 42 is long and emits yellow light, which can attract yellow-attracting and phototactic insects at night. Flying insects fly into the inner cavity of the outer shell 41 through the lamp tube 42, and crawling insects climb to the horizontal waist-shaped hole 44 through the support 1 and enter the inner cavity of the outer shell 41 through the horizontal waist-shaped hole 44.

[0030] For further details, please refer to [link / reference]. Figure 2 , Figure 3 The lower part of the inner cavity of the outer shell 2 41 has two opposing slots 45. The suction mechanism 2 includes two locking plates 22, both of which are engaged with the slots 45. The lower ends of the two locking plates 22 are fixedly connected to the outer shell 1 21. The inner cavity of the outer shell 1 21 is fixedly connected to two opposing fixing blocks 23. The lower part of the outer shell 1 21 is fixedly connected to the fan 1 24.

[0031] During implementation, the staff inserts the snap-fit ​​plate 22 into the vertical part of the slot 45 and then rotates the snap-fit ​​plate 22 so that the upper protrusion of the snap-fit ​​plate 22 is embedded into the horizontal groove of the slot 45, which serves to fix it. The electric grid 31 is fitted with the upper part of the fixing block 23 and rests on the lower half of the fixing block 23, which serves to fix the electric grid 31. The fan 24 is started, and the fan 24 generates suction to draw the pests toward the electric grid 31. The sucked air is discharged from the lower end of the fan 24.

[0032] Example 2: In order to kill the attracted pests, refer to... Figure 4 The insect-catching mechanism 3 includes an electric grid 31, which is fitted with a fixed block 23. The electric grid 31 has a corresponding square groove 32. Several conical blocks 33 are fixedly connected to the upper end of the electric grid 31. Several ventilation holes 34 are provided on the conical blocks 33. The conical blocks 33 are hollow and have an opening at the lower end.

[0033] During implementation, an electric grid 31 is connected to an external power supply via a cable. When in use, the external power supply powers the electric grid 31 through the cable, and the fan 24 generates suction to pull the insects that have entered the outer shell 41 to the top of the electric grid 31, where they are electrocuted. Under the long-term restraint of the motor, all the insects will die. Since the fan 24 continuously generates suction, it can no longer suction the insects inside the outer shell 41 after the insects have covered the top of the electric grid 31. Therefore, a cone block 33 and ventilation holes 34 are provided. After the insects have covered the top of the electric grid 31, the fan 24 can still suction the insects inside the outer shell 41 through the ventilation holes 34 because the cone block 33 has a certain height. This continues until all ventilation holes 34 are covered. Then, the staff removes the suction mechanism 2 and the insect-catching mechanism 3 for cleaning.

[0034] To ensure that the air discharged from fan 124 does not affect the plants, please refer to... Figure 5 The ventilation mechanism 5 includes an irregularly shaped ventilation plate 51. The upper end of the irregularly shaped ventilation plate 51 is fixedly connected to the lower part of the fan 24. Several connecting blocks 52 are fixedly connected to the outer ring of the lower end of the irregularly shaped ventilation plate 51. The lower ends of the several connecting blocks 52 are fixedly connected to an irregularly shaped ventilation plate 53.

[0035] During implementation, the outer rings of the irregularly shaped exhaust panels 51 and 53 are tilted upwards at a certain angle to prevent the wind from blowing directly onto the plants. In addition, the temperature of the cultivation environment is relatively high for the human body, so the wind from between the irregularly shaped exhaust panels 51 and 53 can also help to cool the human body and enhance air circulation.

[0036] It should be noted that the specific installation method, circuit connection method, and control method of the fan 24 and power grid 31 used in this utility model are all conventional designs, and will not be described in detail in this utility model.

[0037] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A trapping-type insect-proof device for cultivating Anoectochilus roxburghii, comprising several pointed cylindrical blocks (7), characterized in that: A fixing plate (6) is fixedly connected to the upper end of each of the pointed cylindrical blocks (7), a bracket (1) is fixedly connected to the upper end of each of the fixing plates (6), an insect-attracting mechanism (4) is fixedly connected to the end of each of the brackets (1) away from the fixing plate (6), a suction mechanism (2) is engaged at the lower part of the insect-attracting mechanism (4), an insect-catching mechanism (3) is engaged in the inner cavity of the suction mechanism (2), and an exhaust mechanism (5) is fixedly connected to the lower end of the suction mechanism (2).

2. The insect-proof device for cultivating Anoectochilus roxburghii as described in claim 1, characterized in that: The insect-attracting mechanism (4) includes a second outer shell (41). The outer surface of the second outer shell (41) is fixedly connected to a number of supports (1) near the axis of the insect-attracting mechanism (4). The outer surface of the second outer shell (41) is provided with a number of vertical waist-shaped holes (43). The outer surface of the second outer shell (41) is provided with a number of horizontal waist-shaped holes (44) below the vertical waist-shaped holes (43). A lamp tube (42) is fixedly connected to the upper wall of the inner cavity of the second outer shell (41). Two opposing slots (45) are provided in the lower part of the inner cavity of the second outer shell (41).

3. The trapping-type insect-proof device for cultivating Anoectochilus roxburghii according to claim 2, characterized in that: The suction mechanism (2) includes two locking plates (22), both of which are engaged with the slot (45). The lower ends of the two locking plates (22) are fixedly connected to a housing (21). The inner cavity of the housing (21) is fixedly connected to two opposing fixing blocks (23). The lower part of the housing (21) is fixedly connected to a fan (24).

4. The trapping-type insect-proof device for cultivating Anoectochilus roxburghii according to claim 3, characterized in that: The insect-catching mechanism (3) includes an electric grid (31), which is fitted with a fixed block (23). The electric grid (31) has opposite square slots (32). Several conical blocks (33) are fixedly connected to the upper end of the electric grid (31), and several ventilation holes (34) are provided on the conical blocks (33).

5. The trapping-type insect-proof device for cultivating Anoectochilus roxburghii according to claim 4, characterized in that: The cone block (33) has a hollow structure and the lower end of the cone block (33) is open.

6. The insect-proof device for cultivating Anoectochilus roxburghii according to claim 3, characterized in that: The ventilation mechanism (5) includes an irregularly shaped ventilation plate (51), the upper end of which is fixedly connected to the lower part of the fan (24), and a number of connecting blocks (52) are fixedly connected to the outer ring of the lower end of the irregularly shaped ventilation plate (51), and the lower ends of the number of connecting blocks (52) are fixedly connected to an irregularly shaped ventilation plate (53).