CN105947152B - The deep-sea electromagnetics transmitter certainly floating system of auxiliary heat dissipation - Google Patents

Abstract

The present invention provides a kind of deep-sea electromagnetics transmitter certainly floating system of auxiliary heat dissipation, including emitter pressure-bearing cabin and from floating control system cabin, the first hydraulic oil circuit of oil transportation radiating tube in the defeated defeated cabin of oil-cooled tube first of magnetic valve of the 3rd magnetic valve filter pressure fuel pump meter check valve of oil-cooled tube the 4th of oil transportation radiating tube in the first cabin can be formed by magnetic valve between emitter pressure-bearing cabin and certainly floating control system cabin, and form the second hydraulic circuit of the interior outer leather bag of leather bag the first magnetic valve filter pressure fuel pump meter check valve, the intracapsular hydraulic oil of endothelium is set to flow into crust intracapsular.The certainly floating system of the deep-sea electromagnetics transmitter auxiliary heat dissipation that the present invention is provided, pass through the pipeline in certainly floating control system cabin and emitter pressure-bearing cabin, and the circulation heat exchange between pipeline out of my cabin, realize the combination of underwater electrical equipment buoyance control system and device cooling system.

Description

The deep-sea electromagnetics transmitter certainly floating system of auxiliary heat dissipation

Technical field

The present invention relates to exploration of ocean resources technical field, more particularly to a kind of deep-sea electromagnetics transmitter with auxiliary heat dissipation from Floating system.

Background technology

Pith of the deep-sea electromagnetics transmitter in Marine oil and gas resource electrical prospecting system.Deep-sea electromagnetics transmitter system System can operationally produce big calorimetric, and the alluvial of these heats can cause the damage of transmitter system switch element, influence transmitting The normal operation of machine system.

Deep-sea electromagnetics transmitter system is general, and by pressure-bearing, shell radiates to seawater out of my cabin, because pressure-bearing cabin primarily serves pressure-bearing Effect, its heat dispersion is simultaneously bad.

In addition, deep-sea electromagnetics transmitter system generally involves great expense, if towing cable is broken in deep-sea, without certainly floating system Emitter will lose the possibility of recovery, therefore deep-sea transmitter system from floating system be also essential.From floating system System buoyancy can be automatically increased after the fracture of transmitter system towing cable, emitter floated up to sea, facilitated the recovery of equipment With recycling.

But the certainly floating system of existing deep-sea electromagnetics transmitter is self-existent, and also can in the course of the work from floating system Amount of heat is produced, the alluvial of these heats can cause the damage of component, normal operation of the influence from floating system.

The content of the invention

The present invention provides a kind of deep-sea electromagnetics transmitter with auxiliary heat dissipation from floating system, for solving to launch in the prior art The problem of heat in machine pressure-bearing cabin and certainly floating control system cabin can not effectively disperse.

The present invention provides a kind of deep-sea electromagnetics transmitter with auxiliary heat dissipation from floating system, including emitter pressure-bearing cabin and from floating Control system cabin, oil inlet and oil-out are provided with the emitter pressure-bearing cabin, on the emitter pressure-bearing cabin inwall Disk is provided with the Single port connection oil inlet of oil transportation radiating tube in oil transportation radiating tube in the first cabin, first cabin, and another port connects It is connected to oil-out；

It is described to be provided with oil transportation radiating tube in oil transportation radiating tube in the second cabin, second cabin from floating control system cabin Leather bag in Single port connection one, another port connects outer leather bag, and the interior leather bag is arranged on inside the certainly floating control system cabin, The outer leather bag is arranged on certainly floating control system portion out of my cabin；

The oil inlet being provided with from floating control system cabin on oil inlet and oil-out, the emitter pressure-bearing cabin leads to Cross defeated oil-cooled tube to connect with the oil-out from floating control system cabin, the oil-out on the emitter pressure-bearing cabin passes through defeated Oil-cooled tube is connected with the oil inlet from floating control system cabin；

The oil inlet from floating control system cabin passes through internal duct and the 3rd magnetic valve being arranged in internal duct The first connectivity points of oil transportation radiating tube are connected with oil transportation radiating tube in second cabin in second cabin；It is described to be controlled from floating Oil-out in system cabin is by internal duct and the pressure-reducing valve and the 4th magnetic valve that are arranged in internal duct described second The second connectivity points of oil transportation radiating tube are connected with oil transportation radiating tube in second cabin in cabin；

In second cabin on oil transportation radiating tube and on pipeline between the first connectivity points and the second connectivity points according to It is secondary to be provided with pouring orifice, filter, oil pump, pressure gauge and check valve, the oil pump and motor linkage；

It is provided with second cabin on oil transportation radiating tube and on pipeline between the first connectivity points and interior leather bag First magnetic valve, is set on oil transportation radiating tube and on pipeline between the second connectivity points and outer leather bag in second cabin There is the second magnetic valve；

Control cabinet, the control cabinet and the motor, oil pump, pressure are provided with from floating control system cabin described Meter, each magnetic valve and pressure-reducing valve control connection；

When the first magnetic valve and the second closed electromagnetic valve, when the 3rd magnetic valve and the 4th magnetic valve opening, in the transmitting Oil transportation radiating tube in the first cabin-three magnetic valves of defeated oil-cooled tube-the-filtering is formed between machine pressure-bearing cabin and certainly floating control system cabin First hydraulic oil circuit of oil transportation radiating tube in the device-oil pump-magnetic valve of pressure gauge-check valve-the four-defeated oil-cooled tube-the first cabin, Make heat exchange between oil transportation radiating tube and defeated oil-cooled tube in oil transportation radiating tube and the second cabin in the first cabin；

When the first magnetic valve and the second magnetic valve are opened, when the 3rd magnetic valve and four closed electromagnetic valves, described from floating Second hydraulic pressure of the magnetic valve of leather bag-the first-filter-oil pump-pressure gauge-check valve-outer leather bag in being formed in control system cabin Loop, makes the intracapsular hydraulic oil of endothelium flow into crust intracapsular.

Preferably, oil transportation radiating tube is connected by flexible pipe with oil inlet and oil-out in first cabin.

Preferably, it is described to be made from floating control system cabin of titanium alloy material.

Preferably, the internal diameter and external diameter of oil transportation radiating tube and the defeated oil-cooled tube are all higher than described second in first cabin The internal diameter and external diameter of oil transportation radiating tube in cabin.

As shown from the above technical solution, the deep-sea electromagnetics transmitter auxiliary heat dissipation that the present invention is provided passes through from floating system Pipeline from floating control system cabin and emitter pressure-bearing cabin, and the circulation heat exchange between pipeline out of my cabin, are realized The combination of underwater electrical equipment buoyance control system and device cooling system.Emitter is shared from floating system and auxiliary heat dissipating system Oil pump, check valve and filter, effectively reduce the weight of a whole set of deep-sea electromagnetics transmitter system；Pressure-bearing cabin above deck equipment is used Seamless steel pipe pipeline realizes the balance of oil liquid pressure and extraneous seawater pressure；Below deck equipment is using low pressure line and passes through pressure-reducing valve Realize the balance of oil pressure and cabin inner air pressure in cabin；By using cooperatively for magnetic valve and pressure-reducing valve, system is realized Part isolates with part out of my cabin in cabin, eliminates potential safety hazard.

Brief description of the drawings

Fig. 1 is overall appearance signal of the electromagnetics transmitter auxiliary heat dissipation in deep-sea provided in an embodiment of the present invention from floating system Figure；

Fig. 2 is the structural representation in emitter pressure-bearing cabin provided in an embodiment of the present invention；

Fig. 3 is the structural representation provided in an embodiment of the present invention from floating control system cabin；

Fig. 4 is system principle schematic diagram provided in an embodiment of the present invention.

Embodiment

With reference to the accompanying drawings and examples, the embodiment to the present invention is described in further detail.Implement below Example is used to illustrate the present invention, but is not limited to the scope of the present invention.

Fig. 1-Fig. 4 shows that the embodiment of the present invention provides a kind of deep-sea electromagnetics transmitter auxiliary heat dissipation certainly floating system, from In Fig. 1 as can be seen that system described in the embodiment of the present invention include emitter pressure-bearing cabin 25 and using titanium alloy material be made from Floating control system cabin 24, emitter pressure-bearing cabin and certainly floating control system cabin are rationally connected by pipeline.

Oil inlet 17,19 and oil-out 18,20 are provided with the emitter pressure-bearing cabin as Fig. 2 can be seen that.This hair Bright embodiment emitter pressure-bearing cabin is provided with two oil inlets and two oil-outs on the drive end bearing bracket 21 and rear end cap 22 of nacelle. But no matter several oil inlets and several oil-outs are set, as long as rationally circulating between reaching hydraulic oil.

Disk is provided with oil transportation radiating tube 7 in the first cabin on the emitter pressure-bearing cabin inwall, figure it is seen that first Oil transportation radiating tube is the body spiraled on the inwall of pressure-bearing cabin in cabin.The Single port of oil transportation radiating tube passes through soft in first cabin Pipe connects oil inlet, and another port is connected with oil-out by flexible pipe.

As shown in Figure 3 and Figure 4, it is described to be provided with oil transportation radiating tube 8 in the second cabin, described second from floating control system cabin Leather bag 1 in the Single port connection one of oil transportation radiating tube 8 in cabin, another port connects outer leather bag 2, and the interior leather bag is arranged on described From inside floating control system cabin, the outer leather bag is arranged on certainly floating control system portion out of my cabin.

The oil inlet being provided with from floating control system cabin on oil inlet and oil-out, the emitter pressure-bearing cabin leads to Cross defeated oil-cooled tube to connect with the oil-out from floating control system cabin, the oil-out on the emitter pressure-bearing cabin passes through defeated Oil-cooled tube 26 is connected with the oil inlet from floating control system cabin.

The oil inlet from floating control system cabin passes through internal duct and the 3rd magnetic valve 5 being arranged in internal duct The first connectivity points 9 of oil transportation radiating tube 8 are connected with oil transportation radiating tube 8 in second cabin in second cabin；It is described certainly floating Oil-out in control system cabin is by internal duct and the magnetic valve 6 of pressure-reducing valve 16 and the 4th being arranged in internal duct in institute The second connectivity points 10 for stating oil transportation radiating tube in the second cabin are connected with oil transportation radiating tube in second cabin.

In second cabin on oil transportation radiating tube and on pipeline between the first connectivity points and the second connectivity points according to Secondary to be provided with pouring orifice, filter 11, oil pump 12, pressure gauge 13 and check valve 14, the oil pump links with motor 15.

It is provided with second cabin on oil transportation radiating tube and on pipeline between the first connectivity points and interior leather bag First magnetic valve 3, sets on oil transportation radiating tube and on pipeline between the second connectivity points and outer leather bag in second cabin It is equipped with the second magnetic valve 4.

Control cabinet 23, the control cabinet and the motor, oil pump, pressure are provided with from floating control system cabin described Meter, each magnetic valve and pressure-reducing valve control connection.

Wherein, the internal diameter and external diameter of oil transportation radiating tube and the defeated oil-cooled tube are all higher than second cabin in first cabin The internal diameter and external diameter of interior oil transportation radiating tube, can increase the run-off of hydraulic oil, and the contact area with the external world to greatest extent.

When the first magnetic valve and the second closed electromagnetic valve, when the 3rd magnetic valve and the 4th magnetic valve opening, in the transmitting Oil transportation radiating tube in the first cabin-three magnetic valves of defeated oil-cooled tube-the-filtering is formed between machine pressure-bearing cabin and certainly floating control system cabin First hydraulic oil circuit of oil transportation radiating tube in the device-oil pump-magnetic valve of pressure gauge-check valve-the four-defeated oil-cooled tube-the first cabin, Make heat exchange between oil transportation radiating tube and defeated oil-cooled tube in oil transportation radiating tube and the second cabin in the first cabin.

When the first magnetic valve and the second magnetic valve are opened, when the 3rd magnetic valve and four closed electromagnetic valves, described from floating Second hydraulic pressure of the magnetic valve of leather bag-the first-filter-oil pump-pressure gauge-check valve-outer leather bag in being formed in control system cabin Loop, makes the intracapsular hydraulic oil of endothelium flow into crust intracapsular.

Operationally, the first magnetic valve and the second closed electromagnetic valve, when the 3rd magnetic valve and the 4th magnetic valve opening, in institute State emitter pressure-bearing cabin and from formed between floating control system cabin oil transportation radiating tube in the first cabin-magnetic valve of defeated oil-cooled tube-the three- First hydraulic oil of oil transportation radiating tube in the filter-oil pump-magnetic valve of pressure gauge-check valve-the four-defeated oil-cooled tube-the first cabin Loop, makes hydraulic oil in the first cabin in oil transportation radiating tube and the second cabin in oil transportation radiating tube distribute absorbing device work in cabin Heat after flow out in defeated oil-cooled tube, and the hydraulic oil in defeated oil-cooled tube enter in oil transportation radiating tube continue absorb heat, Circulated with this, reach heat exchange.

After generation accident, the first magnetic valve and the second magnetic valve are opened, the 3rd magnetic valve and the 4th closed electromagnetic valve.This When, the interior magnetic valve of leather bag-the first-filter-oil pump-pressure gauge-check valve-crust is formed from floating control system cabin described Second hydraulic circuit of capsule, makes the intracapsular hydraulic oil of endothelium flow into crust intracapsular.Hydraulic oil, which enters outer leather bag, makes its volumetric expansion, The overall buoyancy of whole transmitter system is increased, system is floated.

Deep-sea electromagnetics transmitter provided in an embodiment of the present invention, from floating system, passes through certainly floating control system cabin with auxiliary heat dissipation With the pipeline in emitter pressure-bearing cabin, and the circulation heat exchange between pipeline out of my cabin, realize underwater electrical equipment and float The combination of Force control system and device cooling system.Emitter from floating system and auxiliary heat dissipating system share oil pump, check valve and Filter, effectively reduces the weight of a whole set of deep-sea electromagnetics transmitter system；Pressure-bearing cabin above deck equipment uses seamless steel pipe pipeline Realize the balance of oil liquid pressure and extraneous seawater pressure；Below deck equipment realizes oily in cabin using low pressure line and by pressure-reducing valve Pressure and the balance of cabin inner air pressure；By using cooperatively for magnetic valve and pressure-reducing valve, part and cabin in the cabin of system are realized The isolation of outer portion, eliminates potential safety hazard.

Although in addition, it will be appreciated by those of skill in the art that some embodiments described herein include other embodiments In included some features rather than further feature, but the combination of the feature of be the same as Example does not mean in of the invention Within the scope of and form different embodiments.For example, in the following claims, times of embodiment claimed One of meaning mode can be used in any combination.

It should be noted that the present invention will be described rather than limits the invention for above-described embodiment, and ability Field technique personnel can design alternative embodiment without departing from the scope of the appended claims.In the claims, Any reference symbol between bracket should not be configured to limitations on claims.Word "comprising" is not excluded the presence of not Element or step listed in the claims.Word "a" or "an" before element does not exclude the presence of multiple such Element.The present invention can be by means of including the hardware of some different elements and coming real by means of properly programmed computer It is existing.In if the unit claim of equipment for drying is listed, several in these devices can be by same hardware branch To embody.The use of word first, second, and third does not indicate that any order.These words can be explained and run after fame Claim.

One of ordinary skill in the art will appreciate that：Various embodiments above is merely illustrative of the technical solution of the present invention, and It is non-that it is limited；Although the present invention is described in detail with reference to foregoing embodiments, one of ordinary skill in the art It should be understood that：It can still modify to the technical scheme described in foregoing embodiments, or to which part or All technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this hair Bright claim limited range.

Claims (4)

1. a kind of deep-sea electromagnetics transmitter certainly floating system of auxiliary heat dissipation, it is characterised in that including emitter pressure-bearing cabin and certainly floating Control system cabin, oil inlet and oil-out are provided with the emitter pressure-bearing cabin, on the emitter pressure-bearing cabin inwall Disk is provided with the Single port connection oil inlet of oil transportation radiating tube in oil transportation radiating tube in the first cabin, first cabin, and another port connects It is connected to oil-out；

Described one end that oil transportation radiating tube in oil transportation radiating tube in the second cabin, second cabin is provided with from floating control system cabin Leather bag in mouthful connection one, another port connects outer leather bag, the interior leather bag be arranged on it is described from floating inside control system cabin, it is described Outer leather bag is arranged on certainly floating control system portion out of my cabin；

The oil inlet being provided with from floating control system cabin on oil inlet and oil-out, the emitter pressure-bearing cabin passes through defeated Oil-cooled tube is connected with the oil-out from floating control system cabin, and the oil-out on the emitter pressure-bearing cabin is cold by oil transportation Manage and connected with the oil inlet from floating control system cabin；

The oil inlet from floating control system cabin is by internal duct and the 3rd magnetic valve being arranged in internal duct in institute The first connectivity points for stating oil transportation radiating tube in the second cabin are connected with oil transportation radiating tube in second cabin；Certainly the floating control system Oil-out in cabin is by internal duct and the pressure-reducing valve and the 4th magnetic valve that are arranged in internal duct in second cabin Second connectivity points of oil transportation radiating tube are connected with oil transportation radiating tube in second cabin；

Set in second cabin on pipeline between the first connectivity points and the second connectivity points on oil transportation radiating tube and successively It is equipped with pouring orifice, filter, oil pump, pressure gauge and check valve, the oil pump and motor linkage；

On oil transportation radiating tube and first is provided with second cabin on pipeline between the first connectivity points and interior leather bag Magnetic valve, is provided with the in second cabin on oil transportation radiating tube and on pipeline between the second connectivity points and outer leather bag Two magnetic valves；

Control cabinet is provided with from floating control system cabin described, it is the control cabinet and the motor, oil pump, pressure gauge, each Individual magnetic valve and pressure-reducing valve control connection；

When the first magnetic valve and the second closed electromagnetic valve, when the 3rd magnetic valve and the 4th magnetic valve opening, held in the emitter Oil transportation radiating tube in the first cabin-three magnetic valves of defeated oil-cooled tube-the-filter-oil is formed between ballasting and certainly floating control system cabin First hydraulic oil circuit of oil transportation radiating tube in the pump-magnetic valve of pressure gauge-check valve-the four-defeated oil-cooled tube-the first cabin, makes Heat exchange between oil transportation radiating tube and defeated oil-cooled tube in oil transportation radiating tube and the second cabin in one cabin；

When the first magnetic valve and the second magnetic valve are opened, when the 3rd magnetic valve and four closed electromagnetic valves, described from floating control Second hydraulic circuit of the magnetic valve of leather bag-the first-filter-oil pump-pressure gauge-check valve-outer leather bag in being formed in system cabin, The intracapsular hydraulic oil of endothelium is set to flow into crust intracapsular.

2. system according to claim 1, it is characterised in that oil transportation radiating tube passes through flexible pipe and oil-feed in first cabin Mouth and oil-out connection.

3. system according to claim 1, it is characterised in that described to use titanium alloy material system from floating control system cabin Into.

4. system according to claim 1, it is characterised in that oil transportation radiating tube and the defeated oil-cooled tube in first cabin Internal diameter and external diameter be all higher than the internal diameter and external diameter of oil transportation radiating tube in second cabin.