CN-224233760-U - Minimally invasive formic nest peeping instrument

Abstract

The utility model relates to a minimally invasive formic nest peeping instrument which comprises a conical head, a connecting piece and a cylindrical extension rod, wherein a containing cavity is formed in the connecting piece, the connecting piece comprises a front connector, a rear connector and a transparent light-transmitting piece, the front connector is detachably connected with the tail of the conical head, the rear connector is detachably connected with the front end of the extension rod and is of a cylindrical structure, the transparent light-transmitting piece is arranged between the front connector and the rear connector, two ends of the transparent light-transmitting piece are correspondingly connected with the front connector and the rear connector, an endoscope probe which is positioned in the light-transmitting piece and can adjust steering angles is arranged on the rear connector, the inner surface of the light-transmitting piece is the surface of the moth-eye nanostructure, and the tail end of the extension rod is detachably connected with a handle. The utility model is beneficial to the insertion and use in the soil, ensures the utilization rate of light rays in the soil and improves the imaging effect of the endoscope probe.

Inventors

• LIU QIMING
• YIN HAOLIN
• YE WEIJIANG
• ZENG XIANGHUI

Assignees

• 广东微视科技有限公司

Dates

Publication Date

20260512

Application Date

20250612

Claims (10)

1. 1. A minimally invasive formic nest peeping instrument is characterized by comprising a conical head, a connecting piece and a cylindrical extension rod, wherein a containing cavity is formed in the connecting piece, the connecting piece comprises a front connector, a rear connector and a transparent light-transmitting piece, the front connector is detachably connected with the tail of the conical head, the rear connector is detachably connected with the front end of the extension rod, the cylindrical extension rod is detachably connected with the front end of the extension rod, the transparent light-transmitting piece is provided with a transparent cylindrical structure, two ends of the transparent light-transmitting piece are correspondingly connected with the front connector and the rear connector, an endoscope probe which is positioned in the light-transmitting piece and can adjust steering angles is arranged on the rear connector, the inner surface of the light-transmitting piece is the surface of a moth-eye nanostructure, and a handle is detachably connected with the tail end of the extension rod.
2. 2. The minimally invasive formic ether peeping instrument according to claim 1, wherein the rear connecting head is further provided with a snake bone tube connected to an endoscope probe, the endoscope probe is further connected with a traction rope, and the handle is provided with a steering adjusting mechanism connected with the traction rope and used for adjusting the steering angle of the endoscope probe.
3. 3. The minimally invasive formic nest peeping instrument according to claim 2, wherein the steering adjusting mechanism comprises a rotating shaft penetrating through the handle and an adjusting knob connected to the outer end of the rotating shaft, and the traction ropes comprise two traction ropes connected to the inner end of the rotating shaft, and the two traction ropes are symmetrically arranged in the radial direction of the rotating shaft.
4. 4. The minimally invasive formic nest peeping instrument according to claim 1, wherein the front connector is in threaded connection with the conical head at the front end, the rear connector is in threaded connection with the extension rod at the tail end, and a connecting rod with two ends correspondingly connected to the front connector and the rear connector is arranged between the front connector and the rear connector.
5. 5. The minimally invasive formic nest peeping instrument according to claim 1, wherein clamping grooves are formed in the side walls of the front connector and the rear connector, and clamping pins capable of being matched and clamped in the clamping grooves extend on the light-transmitting piece.
6. 6. The minimally invasive formic ether scope of claim 1, wherein the endoscopic probe is an infrared endoscopic probe.
7. 7. The minimally invasive formicary scope of claim 1 wherein a plurality of the extension rods are provided, a plurality of the extension rods being threadably connected in sequence.
8. 8. The minimally invasive formic ether scope of claim 1, wherein the rear connector is provided with a sensor for detecting one or more of carbon dioxide concentration in the soil, soil temperature, soil humidity.
9. 9. The minimally invasive formic nest peeping instrument according to claim 1, wherein the front connector is provided with sealing rings at the connection part with the light-transmitting piece and the conical head, and the rear connector is provided with sealing rings at the connection part with the light-transmitting piece and the extension rod.
10. 10. The minimally invasive formic ether scope of claim 1, wherein the endoscope probe is electrically connected to a power source and a display screen.

Description

Minimally invasive formic nest peeping instrument Technical Field The utility model relates to the technical field of formic nest detection, in particular to a minimally invasive formic nest peeping instrument. Background Termites are common social pests, mainly take cellulose as food, have great harm to dykes and houses, often construct nest and dig ant channels in the dykes, can lead to the decrease of the structural strength of the dykes, even possibly lead to dam break when serious, and form serious threat to the life and property safety of people. The method mainly comprises the steps of detecting the newly-hatched nest at the present stage, namely, the method mainly comprises the steps of digging the nest and the drilling rod, wherein the conventional method is mainly used for digging the nest, the large area of a dam surface is required to be dug in the nest digging process, the dam structure is greatly damaged, the drilling rod is mainly used for pressing the drill rod into a soil body by a technician, the smell left on the drill rod is used for judging whether the newly-hatched nest exists or not, the accuracy of the detection is in direct proportion to the practical experience of the technician, and the method is highly dependent on personal experience. With the development of technology, a minimally invasive formic nest peeping device is designed to detect the formic nest, the formic nest peeping device is a structure that a plug rod is inserted into soil, and meanwhile, a camera is arranged in the head of the plug rod to detect, but after the plug rod is inserted into the soil, the camera can generate problems of light scattering, glare and the like when shooting in the soil due to the influence of the wall of the plug rod in the prior peeping device, so that the shot image is blurred, the image quality is poor, the camera of the prior peeping device and the head of the plug rod are fixed integrally, the head of the plug rod is firstly contacted with the soil when the head of the plug rod is inserted into the soil, and the head of the plug rod is also a part which is easy to damage when the head of the plug rod is damaged for maintenance and replacement in use, so that the camera is required to be reinstalled simultaneously, and the use is unfavorable. Disclosure of utility model Aiming at the defects of the prior art, the utility model provides a minimally invasive formic nest peeping instrument. The technical scheme includes that the minimally invasive formic nest peeping instrument comprises a conical head, a connecting piece and a cylindrical extension rod, wherein a containing cavity is formed in the connecting piece, the connecting piece comprises a front connector, a rear connector and a transparent cylindrical light transmitting piece, the front connector is detachably connected with the tail of the conical head, the rear connector is detachably connected with the front end of the extension rod, the transparent cylindrical light transmitting piece is arranged between the front connector and the rear connector, two ends of the transparent cylindrical light transmitting piece are correspondingly connected to the front connector and the rear connector, an endoscope probe which is positioned in the light transmitting piece and can adjust steering angles is arranged on the rear connector, the inner surface of the light transmitting piece is the surface of the cylindrical light transmitting piece, and the tail end of the extension rod is detachably connected with a handle. Preferably, the rear connecting head is also provided with a snake bone pipe connected to the endoscope probe, the endoscope probe is also connected with a hauling rope, and the handle is provided with a steering adjusting mechanism connected with the hauling rope and used for adjusting the steering angle of the endoscope probe. Preferably, the steering adjusting mechanism comprises a rotating shaft penetrating through the handle and an adjusting knob connected to the outer end of the rotating shaft, and the traction ropes comprise two traction ropes connected to the inner end of the rotating shaft, and the two traction ropes are symmetrically arranged in the radial direction of the rotating shaft. Preferably, the front connector is in threaded connection with the conical head at the front end, the rear connector is in threaded connection with the extension rod at the tail end, and a connecting rod with two ends correspondingly connected to the front connector and the rear connector is arranged between the front connector and the rear connector. Preferably, the side walls of the front connector and the rear connector are respectively provided with a clamping groove, and the light-transmitting piece is extended with clamping feet which can be matched and clamped in the clamping grooves. Preferably, the endoscope probe is an infrared endoscope probe. Preferably, a plurality of extension rods are provided, and a plurality of ex