CN103697865A - Subsurface buoy data transmission system - Google Patents

Abstract

The invention discloses a subsurface buoy data transmission system which comprises a spherical compressive cabin, a signal cable, a load, a receiving terminal, a pressure sensor, a starter, a battery pack, an emitter, a memorizer, an upper support plate, a lower support plate and a measurement sensor, wherein the pressure sensor is arranged in the spherical compressive cabin and fixed at the lower end of the lower support plate. The subsurface buoy data transmission system is simple in structure and low in cost; when the spherical compressive cabin emerges from water due to abnormal factors, data in the memorizer can be transmitted into the receiving terminal in time, so that the safety of the data can be guaranteed, and the subsurface buoy data transmission system is suitable for being popularized.

Description

A kind of subsurface buoy data communication system

Technical field

The present invention relates to a kind of oceanographic measuring system, relate in particular to a kind of subsurface buoy data communication system.

Background technology

Deep-sea subsurface buoy has become the important technology of marine environmental monitoring, temperature that can control measurement seawater by deep-sea subsurface buoy, salinity, the correlation parameter such as the velocity of sound and ocean current and then obtain a certain abyssalpelagic hydrologic data, deep-sea subsurface buoy mostly is long-term ocean weather station observation and measures, to obtain a certain fixedly waters parameter the most accurately, can obtain submarine topography landforms simultaneously, the sediment data such as submarine sedimentary strata, in order to guarantee that accuracy and the existing deep-sea of the saves energy subsurface buoy of data is mostly that the data information of monitoring is stored in the storer of equipment, then regularly receiving station sends Monitoring Data earthward, when deep-sea, subsurface buoy is received propeller for vessels, draw in the net, the improper factor such as fish causes deep-sea subsurface buoy to suffer that destruction emerges, and then make the loss of data not yet sending of storage, can cause serious economic loss.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of with pressure transducer, in subsurface buoy, suffers to destroy the subsurface buoy data communication system that can promptly send storage data while emerging.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is: a kind of subsurface buoy data communication system, comprise spherical pressure-resistant cabin, signal cable, loads, receiving end, sensor, and it is inner that described pressure transducer is fixed on described spherical pressure-resistant cabin.

As preferably, described spherical pressure-resistant cabin inside is provided with upper support dish, lower support dish, and described pressure transducer is fixed on the described lower support end of trying to get to the heart of a matter.

As preferably, described pressure transducer lower end is provided with press rods, and described spherical pressure-resistant cabin is run through on described press rods top.

As preferably, described signal cable is provided with several survey sensors, and described survey sensor is intervally arranged on described signal cable.

As preferably, described spherical pressure-resistant cabin inside is also provided with starter, power brick, transmitter, storer, and described starter, storer are fixed on described lower support dish top, and described power brick, transmitter are fixed on described upper support dish top.

As preferably, described signal cable upper end is connected with described lower support dish, and described signal cable lower end is connected with described loads.

As preferably, described pressure transducer, starter, transmitter, storer, survey sensor are connected with described power brick by power lead respectively.

The invention has the beneficial effects as follows: simple in structure, with low cost, durable for a long time, when being destroyed, can in time the data of storing in storer be sent to geoceiver, reduced loss, be of value to extensive popularization.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

Fig. 1 is the structural representation of the preferred embodiment of the present invention.

In figure, the spherical pressure-resistant cabin of 1-, 2-signal cabin, 3-loads, 4-pressure transducer, 5-starter, 6-power brick, 7-transmitter, 8-storer, 9-receiving end, 11-upper support dish, 12-lower support dish, 21-survey sensor.

Embodiment

A kind of subsurface buoy data communication system as shown in Figure 1, comprise spherical pressure-resistant cabin 1, signal cabin 2, loads 3, pressure transducer 4, starter 5, power brick 6, transmitter 7, storer 8, upper support dish 11, lower support dish 12, survey sensor 21, described pressure transducer 4 is positioned at described spherical pressure-resistant cabin 1 inside, described pressure transducer 4 is fixed on described lower support dish 12 bottoms, and described upper support dish 11 and described lower support dish 12 are all located at described spherical pressure-resistant cabin 1 inside.In order better to respond to the pressure of seawater, described pressure transducer 4 lower ends are provided with press rods 41, and described spherical pressure-resistant cabin 1 is run through on described press rods 41 tops.In order to monitor the parameters such as ocean temperature, salinity, described signal cable 2 is provided with several survey sensors 21, described survey sensor 21 is intervally arranged on described signal cable 2, and described signal cable 2 upper ends are connected with described lower support dish 12, and described signal cable 2 lower ends are connected with described loads 3.For can normal storage and send data, described spherical pressure-resistant cabin 1 inside is also provided with starter 5, power brick 6, transmitter 7, storer 8, described starter 5, storer 8 are fixed on described lower support dish 12 tops, and described power brick 6, transmitter 7 are fixed on described upper support dish 11 tops.For individual parts can normally be worked, described pressure transducer 4, starter 5, transmitter 7, storer 8, survey sensor 21 are connected with described power brick 6 by power lead respectively.When subsurface buoy emerges because improper factor causes destroying, seawater reduces the pressure of described press rods 41, now pressure transducer 4 is passed to starter 5 by signal, starter 5 starts transmitter 7, transmitter 7 sends to ground receiving end 9 in time by the data of 8 li of storeies, and then 8 li of data that do not send of subsurface buoy storer are sent to ground in time, and avoided loss of data, reduced loss.

Above-described embodiment of the present invention, does not form limiting the scope of the present invention.Any modification of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., within all should being included in claim protection domain of the present invention.

Claims (7)

1. a subsurface buoy data communication system, comprise spherical pressure-resistant cabin (1), signal cable (2), loads (3), receiving end (9), it is characterized in that: also comprise pressure transducer (4), described pressure transducer (4) is fixed on described spherical pressure-resistant cabin (1) inside.

2. a kind of subsurface buoy data communication system according to claim 1, it is characterized in that: described spherical pressure-resistant cabin (1) inside is provided with upper support dish (11), lower support dish (12), described pressure transducer (4) is fixed on described lower support dish (12) bottom.

3. a kind of subsurface buoy data communication system according to claim 1 and 2, is characterized in that: described pressure transducer (4) lower end is provided with press rods (41), and described spherical pressure-resistant cabin (1) is run through on described press rods (41) top.

4. a kind of subsurface buoy data communication system according to claim 1, is characterized in that: described signal cable (2) is provided with several survey sensors (21), and described survey sensor (21) is intervally arranged on described signal cable (2).

5. a kind of subsurface buoy data communication system according to claim 1 and 2, it is characterized in that: described spherical pressure-resistant cabin (1) inside is also provided with starter (5), power brick (6), transmitter (7), storer (8), described starter (5), storer (8) are fixed on described lower support dish (12) top, and described power brick (6), transmitter (7) are fixed on described upper support dish (11) top.

6. according to a kind of subsurface buoy data communication system described in claim 1,2 or 4, it is characterized in that: described signal cable (2) upper end is connected with described lower support dish (12), described signal cable (2) lower end is connected with described loads (3).

7. according to a kind of subsurface buoy data communication system described in claim 1,2 or 4, it is characterized in that: described pressure transducer (4), starter (5), transmitter (7), storer (8), survey sensor (21) are connected with described power brick (6) by power lead respectively.