CN113645390A

CN113645390A - River benthonic animal investigation and statistics device

Info

Publication number: CN113645390A
Application number: CN202110962856.7A
Authority: CN
Inventors: 杨威; 王丽; 张先炳; 杨胜发; 胡江; 李文杰; 肖毅
Original assignee: Chongqing Jiaotong University
Current assignee: Chongqing Jiaotong University
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2021-11-12
Anticipated expiration: 2041-08-20
Also published as: CN113645390B

Abstract

The invention discloses a river benthonic animal investigation and statistics device which is characterized by comprising two horizontally arranged glass plates, wherein the two glass plates are fixed at intervals in the height direction to form a statistics area between the two glass plates, the statistics area is communicated with the outside in the front, back, left and right directions, the upper surface of the upper glass plate is fixedly buckled with a sealing box, the top of the sealing box at the upper end of an inner cavity of the sealing box is also provided with a downward camera and a top lamp, and the camera is connected with a camera. The method can realize investigation and statistics of the river benthonic animals, and has the advantages of convenience, rapidness and reliability in statistics, contribution to ecological protection, high accuracy, high reference value and the like.

Description

River benthonic animal investigation and statistics device

Technical Field

The invention relates to the technical field of investigation and detection of river biodiversity, in particular to a device for investigating, researching and counting river benthonic animals.

Background

River benthonic animals refer to aquatic animals living at the bottom of a water body in all or most of the life history, and most of the river benthonic animals are invertebrates, for example, limnodrilus, branchia lumbricus and the like in stenopilia of Annelida, glossobuleles, lubdellus and the like in hirudo, nereis arenaria in polychaeta and the like, which are a huge ecological group.

The population and quantity of the river benthonic animals, especially small river benthonic animals, which are used as main food sources of river fishes, can effectively reflect the health condition of a river ecosystem and the quality condition of a river water body. Therefore, the method has important significance for the statistics of the number of the river benthonic animals in the fields of river biodiversity investigation, river fish resource recovery and protection and the like.

In the prior art, when a shallow river or river surface biological detection is unified, counting statistics after net capture or camera shooting statistics on the river surface are usually directly adopted, but the bottom of the river is difficult to directly adopt a camera shooting mode for statistics due to the influence of factors such as complex riverbed environment, large river water depth and the like. In the prior art, how to count the number of the benthonic animals in the river is generally counted by sampling the sediment in the river bottom, for example, a novel benthonic animal sampler disclosed in CN201721524890.1 and a high-efficiency benthonic animal detection method disclosed in CN202011598082.6 all adopt the principle that part of the sediment in the river bottom is excavated, then the number of the benthonic animals contained in the sediment is cleaned and counted, and the ecological condition of the benthonic animals in the river is calculated. This approach has the following drawbacks: the method 1 is complex to implement, the difficulty in realizing work statistics is high, and the discrimination and statistics cannot be realized by doping a plurality of microminiature organisms and silt into a whole. 2 this kind of mode, can destroy the riverbed environment to a certain extent, be unfavorable for ecological protection. 3, in large rivers such as Yangtze river, the drift of the benthonic animals is a main influence factor influencing the diversity and species distribution of organisms, and a great part of benthonic animals are called as drift species; i.e. the life cycle is usually in drift rather than being submerged in silt. The benthonic animals in the internal state of the sediment in the life cycle for a long time are difficult to become fish food and have no statistical significance, so the accuracy is low and the reference value is low by a mode of collecting the sediment for statistics.

In order to solve the above problems, the applicant considers that statistics is still performed by using a camera, but if camera statistics is performed directly above and adjacent to the statistical area by using a camera, the camera shooting range is very limited, the statistical effect is poor, and even the statistical significance is difficult to generate due to the fact that the sampling area is too small. However, if the camera is pulled far upwards, the river between the camera and the statistical area interferes with detection, the interference is that the transparency of the river is limited, particularly, the turbidity is very high in summer flood season, the visible distance is less than 10cm, the camera rapidly reduces the camera effect after the distance is pulled far, and the river between the camera and the statistical area enters the perched animals in the statistical process, so that the river cannot be distinguished from the statistical area, and accurate statistics cannot be achieved. The two points are also one reason that the river benthonic animals are not counted by adopting a camera shooting mode in the prior art.

Therefore, it is necessary to design a device for investigating and counting river benthonic animals, which can perform statistics of benthonic animals by using the principle of camera shooting and counting and can ensure sufficient accuracy and reliability, to solve the above problems.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problems to be solved by the invention are as follows: the device for investigating and counting the benthonic animals in the river can realize the benthonic animal counting by adopting the principle of shooting and counting by camera shooting, and has enough accuracy and reliability, and is particularly suitable for the large-scale deep river counting.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a river benthonic animal investigation statistics device, includes the glass board that two levels set up, and two glass boards are separated by fixedly on the direction of height and are made and form the statistics region between the two, and the statistics region all communicates with each other with the external world in the direction about around, and the glass board upper surface lock joint of top is fixed and is provided with a seal box, and the seal box top of the inner chamber upper end of seal box still is provided with decurrent camera and dome lamp, and camera link to each other.

The device is used on the principle that a statistical area in a space range is isolated above a river bed at the bottom of a river by adopting a transparent glass plate, the statistical area is communicated with the outside in at least one direction of front, back, left and right, then a camera is adopted to directly shoot the statistical area above the statistical area, the number of benthonic animals entering the statistical area in unit time is counted, and the effective benthonic animal activity number statistics in unit time in unit volume space of a water area at the bottom of the river is obtained. Therefore, the riverbed environment can not be damaged, ecological protection is facilitated, the sediment at the bottom of the river does not need to be collected, and the detection and statistics are convenient, rapid and reliable. And the detection statistics is directly carried out on the water area space at the bottom of the river, the result is more accurate and reliable, and the method has more biological reference significance and value.

Specifically speaking, put the device in the riverbed bottom during the use, rely on two glass boards to form the statistics region on the riverbed, rely on the inner chamber of seal box to form the isolation region of making a video recording, rely on the dome lamp to provide the light source illumination, rely on the isolation region of making a video recording that the seal box formed to zoom out the camera distance for the camera can realize the statistics of the number of the zoobenthos that passes through in the inside unit interval of statistics region on a large scale. Therefore, the device has the characteristics of simple structure, convenient implementation, accurate and reliable statistics and the like.

Meanwhile, in the device, a camera shooting isolation area is arranged above the counting area, transparent media are filled in the camera shooting isolation area, and a camera is installed above the camera shooting isolation area for camera shooting statistics. After the improvement, a camera is installed above the camera isolation area and performs camera shooting statistics through the transparent medium in the camera isolation area. Therefore, the distance between the camera and the statistical area is increased, the camera statistics in a larger statistical area is facilitated, interference between the camera and the statistical area is avoided, and the statistical precision and reliability are guaranteed. Preferably, the video camera is a high-speed camera.

Furthermore, a cable is hung at the upper end of the sealing box and is connected with a cable coiling control mechanism on the ship through the cable.

Therefore, the device can be conveniently stored.

Furthermore, an integrated electric control bin is fixedly arranged in the middle of the upper end of the sealing box upwards, an electric control device is hermetically arranged in the integrated electric control bin, the electric control device is connected with a camera, a ceiling lamp and other electric components, and a cable is hung in the middle of the upper end of the integrated electric control bin.

In this way, control of the electrical components is facilitated.

Furthermore, the middle part of the upper end of the sealing box is also upwards fixedly provided with a camera bin, the camera is hermetically installed in the camera bin, and the integrated electric control bin is installed at the upper end of the camera bin.

Thus, the camera is convenient to mount, fix and seal.

Furthermore, the upper end of the integrated electric control cabin is also provided with a cable joint, a cable is connected to the cable joint in a sealing mode, the outer end of the cable is connected with the mooring rope and extends upwards, and the inner end of the cable is connected with the electric control device.

This facilitates communication to the vessel and power supply to the device.

Furthermore, a water filling port connector and an exhaust valve connector are further arranged on the sealing box, and the water filling port connector and the exhaust valve connector are respectively communicated with the camera shooting isolation area in the sealing box.

When the device is convenient to use, water is injected into the sealing box through the water injection port connector, so that the space of the whole camera shooting isolation area is filled with water as a transparent medium. Therefore, the types of perspective media on the transmission path of imaging light between the benthonic animal of the shot object and the camera are reduced, and the three media of water, glass and air are reduced into two media of water and glass, so that the loss condition of the light passing through different medium interface layers is greatly reduced; the image acquisition effect is improved. Meanwhile, the whole weight of the device can be improved by the injected water, buoyancy is offset, the device can be conveniently and smoothly put to the bottom of a riverbed, and the exhaust valve joint can conveniently and smoothly inject and discharge water.

Furthermore, sealing covers are screwed outside the water injection port connector and the exhaust valve connector. The sealing is convenient.

Furthermore, the outer surface of the sealing box is also provided with a lifting ring for counterweight.

Thus, the counterweight can be conveniently hung, and the device can be conveniently and quickly lowered to the bottom.

Furthermore, the outer surface of the sealing box is also provided with a convex reinforcing rib. The strength of the device is conveniently improved.

Furthermore, the two glass plates are rectangular glass plates, and the sealing box is in a trapezoidal shape.

Therefore, the size of the statistical region range of the camera capable of shooting and detecting is more conveniently improved.

Furthermore, the upper end of the inner cavity of the seal box is horizontally provided with a light-diffusing plate, a camera mounting hole is formed in the middle of the light-diffusing plate, the camera is exposed downwards from the inside of the camera mounting hole, and the top lamps are multiple and are uniformly arranged above the light-diffusing plate on the periphery of the camera along the annular shape.

Therefore, the light of the ceiling lamp penetrates through the light diffusion plate to irradiate the statistical area downwards, and the influence on detection caused by shadow generated by direct irradiation can be better avoided.

Furthermore, at least one layer of light scattering material is arranged on the lower glass plate, and an upward bottom lamp is arranged below the lower glass plate.

Therefore, light rays emitted by the bottom lamp are upwards scattered and emitted through the lower glass plate and illuminate the statistical area, and the shooting, detection and statistics of the benthonic animals in the statistical area are more convenient; meanwhile, the astigmatic material on the lower glass plate shields the interference of the object below the lower glass plate on the shooting statistics, and the reliable shooting detection statistical effect is ensured.

Furthermore, scale mark grids are arranged on the two glass plates.

Therefore, when the camera shooting detection statistics is convenient, the sizes of the river benthonic animals are judged through the comparison of the graduation line meshes, and the identification and the grading statistics of the sizes and the categories of the river benthonic animals are completed in an auxiliary mode.

Furthermore, a downward detection auxiliary lamp is arranged on the lower surface of the upper glass plate.

Like this, detect supplementary lamp of using can make the zoobenthos through statistics area shine out the projection on the glass of below, like this, according to the zoobenthos on two piece upper and lower glass scale size that fall into the scope and the projection on the glass of below scale size that falls, can calculate the accurate size of a dimension numerical value that obtains the zoobenthos accurately. Therefore, accurate classification and grading statistics of the size and the category of the benthonic animals can be assisted. The accuracy of the grading statistics is greatly improved. Further, the detection auxiliary lamp is located at the edge position of the glass plate. The influence of the self existence on the detection is reduced.

Furthermore, a screw rod which is vertically and slidably arranged in a penetrating mode is further installed between the two glass plates at the corner positions on the periphery of the two glass plates, and the screw rod, the upper glass plate and the lower glass plate are fixed through a pair of nuts respectively.

Like this, can convenient and fast ground adjust the interval size of two glass boards on the screw rod for according to the riverbed bottom river water clarity condition, the height in reasonable adjustment statistics area guarantees that the detection effect satisfies the definition requirement of making a video recording.

Further, the screw rod below still is provided with the mechanism of going to bed, and the mechanism of going to bed includes the pole that inserts that a downward setting, and the pole lower extreme that inserts is thin end, the screw rod is provided with the internal thread for cavity screw rod and hole, insert the pole upper end and have the external screw thread and connect the cooperation soon in the screw rod, and it has still connect a lock nut soon to lie in screw rod lower extreme position on the pole that inserts, has still cup jointed a coil spring on the pole that inserts of lock nut below, and the coil spring below is provided with a circular shape nidation dish, and the nidation dish level sets up and the middle part is opened there is the hole that can freely slide from top to bottom on inserting the pole, and coil spring fixed connection is between lock nut and nidation dish.

Therefore, when the device is used and put to the bottom of a river bed for landing, the lower end of the insertion rod is firstly inserted into the silt of the river bed until the landing disc is contacted with the silt to support the silt and is clamped above the silt, the lower end of the device can be deeply inserted into the silt and can also improve the contact area with the upper surface of the silt by depending on the structure of the landing disc and the insertion rod, so that the stability of the device is greatly improved and the device is prevented from toppling over, and the landing disc can enable each screw rod supporting leg to be respectively suitable for different depths of the silt at different positions by depending on the elastic connection of a spring; meanwhile, the height of the insertion rod can be flexibly adjusted according to the requirement. Therefore, the implantation mechanism greatly improves the stability of the implantation under the device and avoids the device from being easily overturned due to the influence of fish activities in the use process.

In conclusion, the method can realize investigation and statistics of the river benthonic animals, and has the advantages of convenience, rapidness and reliability in statistics, contribution to ecological protection, high accuracy, high reference value and the like.

Drawings

FIG. 1 is a schematic structural diagram of a device for investigating and counting benthonic animals in a river.

Fig. 2 is a bottom view of the individual sealed cartridge of fig. 1.

Fig. 3 is a schematic diagram illustrating the principle of the device of fig. 1 for realizing accurate dimension detection of the benthonic animals.

Detailed Description

The present invention will be described in further detail below with reference to a statistical method for investigating river benthonic animals using the apparatus of the present invention.

The specific implementation mode is as follows: a method for researching and counting benthonic animals in rivers is characterized in that a statistical area in a space range is isolated above a river bed at the bottom of the river by adopting transparent materials, the statistical area is communicated with the outside in at least one direction of front, back, left and right, then a camera is adopted to directly shoot the statistical area above the statistical area, the number of the benthonic animals entering the statistical area in unit time is counted, and the effective benthonic animal activity number statistics in unit time in unit volume space of water areas at the bottom of the river is obtained.

Therefore, the method does not damage the riverbed environment, is beneficial to ecological protection, does not need to collect the sediment at the bottom of the river, and is convenient, rapid and reliable in detection and statistics. And the detection statistics is directly carried out on the water area space at the bottom of the river, the result is more accurate and reliable, and the method has more biological reference significance and value.

Wherein, the transparent material is usually obtained by separating two pieces of glass horizontally in the height direction. The method has the characteristics of simple implementation and convenient realization.

Wherein, the statistical region is communicated with the outside in the front, back, left and right directions.

Therefore, the reliability and the reference value of the detection statistical result are improved better.

And a camera shooting isolation area is arranged above the counting area, transparent media are filled in the camera shooting isolation area, and a camera is installed above the camera shooting isolation area for camera shooting counting.

The reason is so because if direct statistics area top adjacent department adopts the camera to make a video recording statistics, then the camera scope of making a video recording is very limited, statistical effect is not good, can be difficult to produce statistical significance because of the sampling region is too little even, if upwards zoom far away with the camera, then the river between camera and the statistics area can disturb to detecting, this kind of interference is that river self transparency is limited, the distance has reduced the effect of making a video recording fast after zooming far away, secondly the river between camera and the statistics area can get into the zoophobous simultaneously at the statistical in-process, lead to and count the inseparable in the area, lead to unable accurate statistics. The two points are also one reason that the river benthonic animals are not counted by adopting a camera shooting mode in the prior art. Therefore, after the improvement, the camera is arranged above the camera isolation area and carries out camera shooting statistics through the transparent medium in the camera isolation area. Therefore, the distance between the camera and the statistical area is increased, the camera statistics in a larger statistical area is facilitated, interference between the camera and the statistical area is avoided, and the statistical precision and reliability are guaranteed.

The method is realized by adopting the river benthonic animal investigation and statistics device shown in figures 1-3, the river benthonic animal investigation and statistics device comprises two horizontally arranged glass plates 1, the two glass plates 1 are fixed at intervals in the height direction to form a statistics area 2 between the two glass plates, the statistics area 2 is communicated with the outside in the front, back, left and right directions, a sealing box 3 is fixedly arranged on the upper surface of the upper glass plate in a buckled mode, a downward camera 4 and a top lamp 5 are further arranged on the top of the sealing box at the upper end of an inner cavity of the sealing box 3, and the camera 4 is connected with a camera.

Like this, put the riverbed bottom with above-mentioned device down during the use, rely on two glass boards to form statistics region on the riverbed, rely on the inner chamber of seal box to form the isolation region of making a video recording, rely on the dome lamp to provide the light source illumination, rely on the isolation region of making a video recording that the seal box formed to zoom far camera distance for the camera can realize the statistics of the number of the zoobenthos that passes through in the inside unit interval of statistics region on a large scale. The method has the characteristics of simple structure, convenience in implementation, accurate and reliable statistics and the like. Wherein the video camera is a high speed camera.

Wherein, the upper end of the sealing box 3 is provided with a cable 6 in a hanging way and is connected with a cable coiling control mechanism on the ship through the cable 6.

Therefore, the device can be conveniently stored.

Wherein, the middle part of the upper end of the seal box 3 is also upwards fixedly provided with an integrated electric control bin 7, an electric control device is hermetically arranged in the integrated electric control bin 7, the electric control device is connected with a camera, a camera and a top lamp, and a mooring rope is hung at the middle position of the upper end of the integrated electric control bin.

In this way, control of the electrical components is facilitated.

Wherein, the middle part of the upper end of the sealing box 3 is also upwards fixedly provided with a camera bin 8, the camera is hermetically arranged in the camera bin 8, and the integrated electric control bin 7 is arranged at the upper end of the camera bin 8.

Thus, the camera is convenient to mount, fix and seal.

Wherein, integrated automatically controlled storehouse upper end still is provided with cable joint 9, and cable joint department sealed connects out has the cable, and cable outer end and hawser 6 link to each other and upwards extend, and cable inner links to each other with electric control unit.

This facilitates communication to the vessel and power supply to the device.

Wherein, still be provided with water filling port joint 10 and discharge valve joint 11 on the seal box 3, water filling port joint 10 and discharge valve joint 11 communicate with the isolation region of making a video recording in the seal box 3 respectively.

Wherein, the water filling port joint 10 and the exhaust valve joint 11 are both screwed with sealing covers. The sealing is convenient.

Wherein, the outer surface of the sealing box 3 is also provided with a lifting ring 12 for counterweight.

Wherein, the outer surface of the sealing box 3 is also provided with a convex reinforcing rib 13. The strength of the device is conveniently improved.

Wherein, two glass boards 1 are rectangular glass boards, and the seal box 3 is in a trapezoidal shape.

Wherein, the sealed box inner chamber upper end still level is provided with a diffusion sheet 14, opens in the middle of the diffusion sheet has the camera mounting hole, and camera 4 exposes downwards from the camera mounting hole, and dome lamp 5 is a plurality of and evenly installs in the peripheral diffusion sheet 14 top of camera along the annular.

Wherein, the glass plate below is provided with at least one layer of light scattering material, and the bottom lamp 15 is arranged below the glass plate below.

Wherein, scale mark grids are arranged on the two glass plates 1.

A downward detection auxiliary lamp 16 is provided on the lower surface of the upper glass plate.

Thus, referring to fig. 3, the lamp for assisting detection can make the benthonic animals passing through the statistical region irradiate projections on the lower glass, and the accurate size value of the benthonic animals can be accurately calculated according to the size of the scale (section a and section b in fig. 3) of the range of the benthonic animals falling on the upper and lower glass and the size of the scale (section c in fig. 3) of the projection falling on the lower glass. Therefore, accurate classification and grading statistics of the size and the category of the benthonic animals can be assisted. The accuracy of the grading statistics is greatly improved. Wherein, the auxiliary lamp for detection is positioned at the edge of the glass plate. The influence of the self existence on the detection is reduced.

Wherein, the corner position all around between two glass boards 1 still installs the screw rod 17 that vertical slidable ground runs through the setting, realizes through a pair of nut 18 respectively between screw rod 17 and the glass board of top and the below glass board fixedly.

Wherein, screw rod 17 below still is provided with the mechanism of going to bed, and the mechanism of going to bed includes a down insertion rod 19 that sets up, and insertion rod 19 lower extreme is thin end, screw rod 17 is provided with the internal thread for cavity screw rod and hole, insertion rod 19 upper end has the external screw thread and connects the cooperation soon in the screw rod, and it has still connect soon a lock nut 20 to lie in screw rod lower extreme position on the insertion rod, has still cup jointed a coil spring 21 on the insertion rod of lock nut 20 below, and coil spring 21 below is provided with a circular shape nidation dish 22, and the hole that can freely slide from top to bottom on the insertion rod is opened to nidation dish 22 level setting and middle part, and coil spring fixed connection is between lock nut and nidation dish.

Claims

1. The utility model provides a river benthonic animal investigation statistics device which characterized in that, includes the glass board of two horizontal settings, and two glass boards are separated by fixedly on the direction of height and are made the two between form statistics region, and statistics region all communicates with each other with the external world in the direction about around, and the glass board upper surface lock joint of top is fixed and is provided with a seal box, and the seal box top of the inner chamber upper end of seal box still is provided with decurrent camera and dome lamp, and camera link to each other.

2. The apparatus for the investigation and statistics of benthonic rivers according to claim 1, wherein a cable is suspended from an upper end of the sealed box and connected to the cable reel control means of the vessel through the cable.

3. The apparatus for investigating and counting benthonic river animals as claimed in claim 2, wherein an integrated electronic control cabin is further fixedly provided upward in the middle of the upper end of the sealed box, an electronic control unit is hermetically installed in the integrated electronic control cabin, the electronic control unit is connected with the camera, the camera and the ceiling lamp, and the cable is hung in the middle of the upper end of the integrated electronic control cabin.

4. The apparatus for investigating and counting benthonic river animals as claimed in claim 3, wherein a camera chamber is further fixedly provided upwardly at the middle of the upper end of the sealed box, the camera is sealingly installed in the camera chamber, and the integrated electronic control chamber is installed at the upper end of the camera chamber.

5. The apparatus for investigating and counting benthonic river animals as claimed in claim 4, wherein the integrated electronic control cabin is further provided at an upper end thereof with a cable connector, a cable is hermetically connected to the cable connector at the cable connector, an outer end of the cable is connected to the cable and extends upward, and an inner end of the cable is connected to the electronic control unit.

6. The apparatus for investigating and counting benthonic river animals according to claim 1, wherein the sealed case is further provided with a water inlet joint and an exhaust valve joint, the water inlet joint and the exhaust valve joint being respectively communicated with the camera isolation region in the sealed case;

the water filling port joint and the exhaust valve joint are both screwed with sealing covers.

7. The apparatus for investigating and counting benthonic river animals according to claim 1, wherein the outer surface of the sealed box is further provided with a hanging ring for counterweight;

the outer surface of the sealing box is also provided with a convex reinforcing rib;

the two glass plates are rectangular glass plates, and the sealing box is in a trapezoidal shape;

the upper end of the inner cavity of the sealing box is also horizontally provided with a light-diffusing plate, the middle of the light-diffusing plate is provided with a camera mounting hole, a camera is exposed downwards from the camera mounting hole, and a plurality of top lamps are uniformly arranged above the light-diffusing plate at the periphery of the camera along the annular shape;

the lower glass plate is provided with at least one layer of light diffusion material, and the lower part of the lower glass plate is also provided with an upward bottom lamp.

8. The apparatus for investigating and counting benthonic river animals according to claim 1, wherein: and the two glass plates are provided with scale mark grids.

9. The apparatus for investigating and counting benthonic river animals according to claim 8, wherein a downward lamp for assisting detection is further provided on the lower surface of the upper glass plate.

10. The apparatus for investigating and counting benthonic river animals according to claim 1, wherein a screw rod is vertically slidably and penetratingly installed at a corner position around the two glass plates, and the screw rod, the upper glass plate and the lower glass plate are fixed by a pair of nuts respectively;

the screw rod below still is provided with the mechanism of going to bed, and the mechanism of going to bed includes the pole that inserts of a downward setting, and the pole lower extreme that inserts is thin end, the screw rod is provided with the internal thread for cavity screw rod and hole, it has the external screw thread and connects the cooperation soon in the screw rod to insert the pole upper end, and it has still connect a lock nut soon to lie in screw rod lower extreme position on the pole that inserts, has still cup jointed a coil spring on the pole that inserts of lock nut below, and the coil spring below is provided with a circular shape pad of going to bed, and the pad level sets up and the middle part is opened there is the hole that can freely slide from top to bottom on inserting the pole, and coil spring fixed connection is between lock nut and pad of going to bed.