CN201364362Y - Seabed erosion and deposition dynamic process specific resistance monitoring device - Google Patents

Abstract

The utility model relates to a seabed erosion and deposition dynamic process specific resistance monitoring device, which comprises a detection sensing device, an automatic controlling and recording device and a shell thereof, and is characterized in that the detection sensing device is provided with a plurality of electrodes which are equally spaced and fixed on the outer wall of a PVC pipe, and a conducting wire is arranged inside the PVC pipe to lead the electrodes into the automatic controlling and recording device, and a loading shaft passes through the shell of the automatic controlling and recording device and an axis wire of the PVC pipe to be connected with a conical head on the bottom end of the PVC pipe and to be sealed and fixed by a spacing piece and a nut on the top part of the shell of the automatic controlling and recording device, and the automatic controlling and recording device is provided with an electrode switch control module, a data collecting module, a microprocessor, a USB mass memory, a battery and a clock module. The seabed erosion and deposition dynamic process specific resistance monitoring device can realize the instant continuous monitoring of the dynamic variation process of the erosion and the deposition of the seabed for a long period of time, and is particularly applicable to monitoring of the seabed erosion and deposition dynamic process under the general sea conditions and the extreme sea conditions.

Description

Sea bed erosion/deposition dynamic process resistivity monitoring device

Technical field

The utility model belongs to the Ocean Surveying technical field, relates to dynamically, circulation measures near the certain limit maritime interior waters seabed interface, sedimental resistivity value, with the long-pending process dynamic monitor of sea bed erosion of the variation of interpretation seabed interface position.

Background technology

The sea bed sediment can suffer erosion or deposit under seawater eroding, and these two kinds of processes are dynamic, all may take place when extreme sea conditions such as orderly sea and storm.Because the variation of seabed interface position elevation, reflect that directly sea bed suffers erosion or the alluvial situation takes place, technology and method that at present the most frequently used monitoring sea bed corrodes alluvial have following two kinds:

The one, use optoelectronic induction feeler lever device.A plurality of photo-sensitive cells that distribute on the feeler lever can be converted into daylight electric signal output and show, feeler lever inserts the buried daylight that do not receive of sediment rear section photo-sensitive cell, sea bed sediment interface descends when sea bed weathers, and the photo-sensitive cell that exposes increases, and the electric signal of generation is strengthened; The electric signal minimizing that photo-sensitive cell then produces is blocked in the sediment alluvial, judges the seabed interface elevation change with this.This technology requires to limit it to the harshness of light source and uses, and also can't round-the-clockly carry out the dynamic real-time monitoring that seabed interface is under water invaded silt, and real-time is poor;

Two are to use acoustic technique.Utilize the underwater sound wave reflection probe to launch sound wave to the bottom, the time difference that receives sound wave by velocity of wave and emission is calculated sea bed reflecting surface elevation, judges that according to the variation of height sea bed corrodes the alluvial situation.This method is the reflection wave confusion when silt content is big in water, is difficult to judge the sea bed elevation, and has long cable when using and be exposed in the water.So high sea etc. to the most serious sea situation of corrosive effect under, flow rate of water flow is big, silt content height in the water, the elevation change of sea bed during this technology can't write down, and circuit is damaged easily.

In sum, present sea bed corrodes the alluvial monitoring technology and is difficult to accomplish to invade the dynamic monitoring record of silt process, and is subjected to the restriction of sea situation.Can under normal sea situation and extreme sea condition, all can implement continuously, monitor in real time the device that sea bed corrodes the alluvial dynamic process so be badly in need of development at present.

Summary of the invention

The purpose of this utility model provides a kind of sea bed real-time, long-term, that can overcome the extreme sea condition influence and corrodes alluvial monitoring device---sea bed erosion/deposition dynamic process resistivity monitoring device, overcome the deficiencies in the prior art, amass speed etc. with erosion amount, siltation volume, the erosion of real-time monitoring sea bed.

The principle of this device is according to significant difference on seawater about the seabed interface and the sediment resistivity, by near the resistivity value on vertical collection, the analysis sea bed, analysis obtains resistivity and the marked change position occurs, thereby draw the position of seabed interface, the variation of composite record assay surface position has realized the dynamic monitoring that sea bed corrodes depositing process.

The utility model is achieved in that it comprises the detection sensing device, automatic controlling recording device and shell thereof, it is characterized in that, described detection sensing device has some electrodes that equidistantly are fixed on the pvc pipe outer wall, having lead to penetrate the pvc pipe wall in the pvc pipe guides to electrode in the automatic controlling recording device, a load axle passes the axis of the shell and the pvc pipe of automatic controlling recording device, be connected with conehead in the pvc pipe bottom, fix with pad and nut seal at the automatic top of the shell of controlling recording device, described automatic controlling recording device has the electrode switch control module, data acquisition module, microprocessor, the USB massage storage, battery and clock module.

Advantage of the present utility model: realize real-time, the continuous monitoring of the long-pending dynamic changing process of sea bed erosion; Use the Circuits System of self-powered supply low-power consumption, be not subjected to weather effect; The USB design Storage can be stored the data volume up to 100,000,000, implements long term monitoring; The design of conehead makes injection convenient, and well stationary installation prevents to be destroyed by seawater, is suitable for the sea bed erosion/deposition dynamic process monitoring of general sea situation and extreme sea condition.

Description of drawings

Fig. 1, general structure synoptic diagram of the present utility model.

Fig. 2, decomposition texture synoptic diagram of the present utility model.

The electrode of Fig. 3, detection sensing device of the present utility model, lead connection diagram.

Fig. 4, automatic controlling recording apparatus structure connection diagram of the present utility model.

Seawater and sedimental resistivity curve synoptic diagram near the sea bed that Fig. 5, the utility model record.

Among the figure, 1, conehead, 2, the load axle, 3, pvc pipe, 4, electrode, 5, lead, 6, battery, 7, electrode switch control module, 8, microprocessor, 9, data acquisition module, 10, USB massage storage, 11, clock module, 12, pad, 13, nut, 14, shell, 15, automatic controlling recording device.

Embodiment

As Fig. 1, Fig. 2, Fig. 3, the utility model comprises the detection sensing device, automatic controlling recording device and shell thereof, it is characterized in that, described detection sensing device has some electrodes 4 that equidistantly are fixed on pvc pipe 3 outer walls, having lead 5 to penetrate the pvc pipe wall in the pvc pipe 3 guides to electrode 4 in the automatic controlling recording device 15, a load axle 2 passes the axis of the shell 14 and the pvc pipe 3 of automatic controlling recording device 15, be connected with conehead 1 in pvc pipe 3 bottoms, with pad 12 and nut 13 sealing and fixing, described automatic controlling recording device 15 has electrode switch control module 7 at the top of the automatic shell 14 of controlling recording device 15, data acquisition module 9, microprocessor 8, USB massage storage 10, battery 6 and clock module 11.

Wherein, lead passes the aperture glue and the encapsulant sealing and fixing of pvc pipe, the contact position of conehead and pvc pipe also carries out sealing and fixing to be handled, automatically the electrode switch control module in the controlling recording device, data acquisition module,, USB massage storage and clock module all be connected on the microprocessor, by the microprocessor Control work, clock module is used to be provided with time parameter and record acquisition time.

As Fig. 1, shown in Figure 2, as embodiment, pvc pipe 3 can be selected external diameter 7.5cm for use, the about 3mm of wall thickness.The load shaft diameter can be 3cm, load axle and conehead are all selected alloy material for use, corrosion-resistant and will have than hard intensity, acting force when load axle 2 is used for bearing injection and the wave effect when water, its both end thread, bottom and conehead 1 screw thread are twisted and are connected together, pass of pad 12 sealings of the position of automatic controlling recording crust of the device 14 with elastomeric material, and it is fixing with fastening nut 13, with stationary installation, its top is the diameter round platform suitable with pvc pipe 3 internal diameters, inserts in the pvc pipe 3 to interfix in the conehead 1 insertion sediment, screw hole is arranged on the round platform, make things convenient on load axle 2 spins.Conehead 1 will be used glue and epoxy sealing with pvc pipe 3 contact positions.Conehead 1 Design of length has 1m, 2m, and three kinds of specifications of 3m guarantee that the enough degree of depth of injection guarantee that registering instrument is stable.

Above-mentioned plastic shell 14 is the pipe shape, and according to the diameter design of pvc pipe 3, the top has the hole of the corresponding size of load axle so that load axle 2 passes.Shell 14 bottoms are that the pipe shape connects together with the pvc pipe 3 of surveying sensing device, and handle the contact position slit with fluid sealant.Automatically the USB massage storage 10 in the controlling recording device 15 makes memory data output up to 100,000,000, and the entire circuit system has adopted low power dissipation design.

Instrument enters automatic work behind the power-on switch, by microprocessor 8 control electrode switch modules, with the access part of data acquisition of electrode sequential loop, import microprocessor processes into and obtain resistivity data after by part of data acquisition acquired signal and conversion, deposit the USB massage storage in; Sort circuit control has realized that to the mensuration along near the resistivity of media feeler lever vertical profile promptly seawater and sediment resistivity are analyzed depositing process is corroded in realization to sea bed dynamic monitoring according to these data.

It is that the copper wire of 1～2mm is tightly done around pvc pipe and circularized that above-mentioned electrode 4 can be selected diameter for use, with the wire bonds that penetrates tube wall from pvc pipe inside together, the lead other end is connected the aperture epoxy sealing that lead passes with electrode switch module the automatic controlling recording device.Electrode number is 100, and the adjacent electrode spacing is 1cm, but also can be according to the needs electrode number of monitoring, but should not lack 50 to guarantee that image data enough analyzes.

Be example with 100 electrodes below, on-site measurement method of the present utility model is as follows:

Set the parameter of automatic controlling recording device, comprise frequency acquisition, beginning acquisition time and finish acquisition time.

At first, by load axle 2 being applied penetrating power conehead 1 and pvc pipe 3 are inserted in the sea bed sediment, and half (50) electrode 4 is imbedded in the sediment, and top residue electrode 4 will be exposed in seawater or the air at selected sea bed monitoring place or erect-position; Shell 14 sockets of then inside being equipped with self-recording unit 15 are sealed in pvc pipe 3 tops, after load axle 2 passes shell 14 end faces, tighten sealing and fixing with pad 12 and nut 13.According to the beginning test duration of default, instrument is started working; Microprocessor control electrode switch module, first electrode from bottommost begins to connect four electrodes at every turn, at first with first～the 4th electrode insert data acquisition module, data acquisition module is controlled first and the 4th electrode power supply, second and the 3rd measuring voltage or electric current process data into resistivity data and deposit the USB massage storage in; Upwards connect four electrodes again since second electrode from the bottom then, repeated acquisition and storage until last four electrodes, are circulated to bottom repeated acquisition storing process after the end, and this method is called symmetrical four-electrode method.In the time that sets, constantly repeat the circle collection that above-mentioned steps is carried out resistivity value according to the frequency acquisition that is provided with.Realize the seawater and the sedimental determination of resistivity of coastal bed vertical section, obtained the change in resistance curve on vertical in the seabed interface certain limit.

After the monitoring of a period of time through setting, the data of gathering can be imported in the host computer on the bank and carry out analyzing and processing, resistivity value sudden change location determination seabed interface at above-mentioned change in resistance curve, the seabed interface position of contrast different time, just obtained seabed interface dynamic change in time, promptly can obtain speed and total amount that sea bed corrodes alluvial, realize carrying out the real-time monitoring that sea bed corrodes the alluvial dynamic process with the method for resistivity.

Claims (3)

1, a kind of sea bed erosion/deposition dynamic process resistivity monitoring device, comprise the detection sensing device, automatic controlling recording device (15) and shell (14) thereof, it is characterized in that, described detection sensing device has some electrodes (4) that equidistantly are fixed on pvc pipe (3) outer wall, having lead (5) to penetrate the pvc pipe wall in the pvc pipe (3) guides to electrode (4) in the automatic controlling recording device (15), a load axle (2) passes the axis of the shell (14) and the pvc pipe (3) of automatic controlling recording device (15), be connected with conehead (1) in pvc pipe (3) bottom, with pad (12) and nut (13) sealing and fixing, described automatic controlling recording device (15) has electrode switch control module (7) at the top of the automatic shell (14) of controlling recording device (15), data acquisition module (9), microprocessor (8), USB massage storage (10), battery (6) and clock module (11).

2, sea bed erosion/deposition dynamic process resistivity monitoring device as claimed in claim 1 is characterized in that above-mentioned electrode (4) around pvc pipe (3) surface is annular or short cylindrical.

3, sea bed erosion/deposition dynamic process resistivity monitoring device as claimed in claim 1 is characterized in that above-mentioned conehead (1) length is greater than 1/2 of load axle (2).

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