CN206163569U - Deep sea light high energy battery device - Google Patents

Abstract

The utility model belongs to the technical field of ocean engineering and scientific investigation are under water equipped and specifically relates to a deep sea light high energy battery device, organize and battery support including globular withstand voltage dry cabin, battery flat support, lithium cell, wherein lithium cell group and battery support set up in globular withstand voltage dry cabin, and lithium cell group adorns admittedly on battery support, the globular withstand voltage cabin of doing includes spherical shell and spherical shell down upward be equipped with first installation half -turn above the spherical shell the spherical shell below is equipped with second installation half -turn down, it passes through the sealing strip connection and passes through with lower spherical shell to go up the spherical shell first installation half -turn and second installation half -turn tip link to each other fixedly, be equipped with electric plug, power output plug and vacuum port down on the spherical shell, on the battery of lithium cell group the electric wire with go up electric connector assembly, the positive negative pole of lithium cell group with power output plug connects. The utility model discloses can reduce the whole weight of battery device, improve the energy density of device, be fit for the deep sea operation.

Description

A kind of deep-sea lightweight high energy battery device

Technical field

This utility model is related to ocean engineering and underwater scientific investigation equipment field, specifically a kind of deep-sea lightweight high-energy Cell apparatus.

Background technology

Deep-sea capacity building is the important component part that ocean power builds, and is national effectively utilizes deep-sea, ensures ocean The embodiment of rights and interests overall national strength, and it is also to explore premise and the basis of unknown Sea World to possess deep-sea mobility, no matter It is the exploration to deep-sea resources and exploitation, or the great science proposition in various deep-sea forward positions is carried out reliably to probe into, all be unable to do without Advanced deep-sea underwater scientific investigation equipment.

Deep-sea underwater scientific investigation is equipped in when carrying out Activities of Ocean, is required for carrying out underwater power, general power supply mode bag Include lash ship remote power feeding, underwater battery directly to power and long-range and underwater battery hybrid power supply, and for some deep-seas under water Scientific investigation is equipped, and equipment can only be powered using underwater battery.

Lithium battery has high-energy-density, memory-less effect, low cost and other advantages, is that deep-sea underwater scientific investigation equipment is supplied under water One of main development direction of electricity.Mainly underwater battery is packaged by pressure hull both at home and abroad in prior art, with The increase of the depth of implements of deep-sea underwater scientific investigation equipment, the pressure that need to be tolerated also is increasing, and encapsulates the pressure hull of lithium battery Rustless steel, aluminium alloy or titanium alloy material are typically adopted, but can so cause the volume and weight of underwater battery device It is very huge, the energy density of underwater battery is seriously reduced, while can also have a strong impact on the effective of deep-sea underwater scientific investigation equipment Load.Therefore, the total quality of underwater battery device is reduced, improves steady in the energy density and powered operation of underwater battery It is qualitative, the Main way of research underwater battery device will be become.

Utility model content

The purpose of this utility model is to provide a kind of deep-sea lightweight high energy battery device, can significantly reduce battery dress The overall weight put, improves the energy density of device.

The purpose of this utility model is achieved through the following technical solutions：

A kind of deep-sea lightweight high energy battery device, including spherical resistance to press dry cabin, battery flat bearing, lithium battery group and battery Bracket, wherein lithium battery group and battery bracket be arranged at it is described it is spherical it is resistance to press dry in cabin, the lithium battery group is packed in the electricity On the bracket of pond, battery flat bearing be arranged at it is described it is spherical it is resistance to press dry cabin lower section；The spherical resistance to cabin that press dry includes upper spherical shell with Spherical shell, is provided with the first installation half-turn on described above spherical shell, is provided with the second installation half-turn below the lower spherical shell, it is described on Spherical shell and lower spherical shell are connected by band and are fixedly connected by the described first installation half-turn and the second installation half-turn end； The lower spherical shell is provided with plug, power output plug and vacuum nozzle, on the battery of the lithium battery group electric wire with it is described Upper plug connection, the both positive and negative polarity of the lithium battery group is connected with the power output plug.

Two first installation half-turns are provided with described above spherical shell, and described two first install half-turn or so two ends point Not Tong Guo first adjustment block be connected, two second installation half-turns, and described two second are provided with below the lower spherical shell The left and right two ends for installing half-turn are connected respectively by second adjustment block, the first adjustment block and the second adjustment positioned at the same side Block is bolted.

Described two first install connected by spacer bar in the middle part of half-turn middle part and described two second installation half-turns.

The upper plug and power output plug are symmetricly set in the vacuum nozzle both sides, and the upper plug and electricity Source output plug is watertight plug-in unit.

The battery bracket middle part is connected by screw with a fixed plate, and the battery bracket is placed in the lower spherical shell When middle, the fixed plate offsets with the lower spherical shell inner bottom.

Glass cement is smeared at the battery bracket and the contact position of the lower spherical shell to fix.

The lithium battery group is fixed on battery bracket by restraint zone.

The lithium battery group includes lid, battery carrier lower cover, lithium battery and metal connecting sheet on battery carrier, wherein each lithium electricity Pond upper and lower ends are connected respectively with lid on the battery carrier and battery carrier lower cover, are connected by metal connecting sheet between each lithium battery Connect, each lithium battery is provided with an anti-reverse charging diode, each column high-energy lithium battery is furnished with an anti-mistake and puts diode.

Advantage of the present utility model is with good effect：

1st, this utility model can significantly reduce the overall weight of cell apparatus, improve the energy density of device, be adapted to deep Extra large operation.This utility model ensure that and provide stable power supply under the working condition of 6000 meters of even full sea depths.

2nd, it is connected by installing half-turn and band between the spherical resistance to upper and lower spherical shell for pressing dry cabin of this utility model, The vacuum of casing rigidity and inside is effectively ensured.

3rd, this utility model is lightweight construction, wherein the material of upper spherical shell and lower spherical shell is glass, installs the material of half-turn It is acetal plastic, the whole spherical resistance to cabin quality that press dry mitigates significantly.

4th, the detection after this utility model is installed and installed is all very convenient, is suitable to promote on a large scale.

Description of the drawings

Fig. 1 is axonometric drawing of the present utility model；

Fig. 2 is front view of the present utility model in Fig. 1；

Fig. 3 is longitudinal section of the present utility model in Fig. 1；

Fig. 4 is sectional elevation of the present utility model in Fig. 1；

Fig. 5 is the high power lithium battery modular structure schematic diagram in Fig. 3 inside this utility model this utility model.

Wherein, 1 is the first installation half-turn, and 2 is spacer bar, and 3 is upper spherical shell, and 4 is band, and 5 is lower spherical shell, and 6 is first Adjustment block, 7 is battery flat bearing, and 8 is upper plug, and 9 is vacuum nozzle, and 10 is power output plug, and 11 is restraint zone, and 12 is lithium Set of cells, 121 is to cover on battery carrier, and 122 is metal connecting sheet, and 123 is anti-reverse charging diode, and 124 is lithium battery, and 125 are electricity Pond frame lower cover, 13 is battery bracket, and 14 is fixed plate, and 15 is second to install half-turn, and 16 is the second adjustment block, and 17 is bolt, 18 For screw.

Specific embodiment

Below in conjunction with the accompanying drawings the utility model is described in further detail.

As shown in Fig. 1～5, this utility model includes spherical resistance to pressing dry cabin, battery flat bearing 7, lithium battery group 12 and battery Bracket 13, wherein lithium battery group 12 and battery bracket 13 be arranged at it is spherical it is resistance to press dry in cabin, and the lithium battery group 12 is packed in On the battery bracket 13, battery flat bearing 7 be arranged at it is described it is spherical it is resistance to press dry cabin lower section.

As shown in figure 1, the spherical resistance to cabin that press dry is including upper spherical shell 3 and lower spherical shell 5, as shown in figure 1, the upper spherical shell 3 The top of lower spherical shell 5 is placed on, the upper spherical shell 3 and lower spherical shell 5 first pass through band 4 and connect, and by the installation of upper and lower sides half Circle end is fixedly connected, wherein the material of the upper spherical shell 3 and lower spherical shell 5 is glass, the material of the installation half-turn is poly- first Aldehyde plastics, mitigate and described spherical resistance to press dry cabin quality significantly.

As shown in figure 1, the upside of spherical shell 3 is provided with two first installation half-turns 1 on described, and described two first install half 1 or so two ends of circle are connected by the first adjustment block 6, and in the downside of the lower spherical shell 5 two second installation half-turns 15, and institute are provided with The left and right two ends for stating two second installation half-turns 15 are connected by the second adjustment block 16, positioned at the He of the first adjustment block 6 of the same side Second adjustment block 16 is connected by bolt 17, and by screwing the bolt 17 the first installation half-turn 1 and the second installation half are fixed 15 positions are enclosed, so that the installation half-turn of upper and lower sides fixes the upper spherical shell 3 and lower spherical shell 5 from outside, described spherical pressure Dry cabin top and bottom are respectively equipped with spacer bar 2, and the spherical resistance to spacer bar 2 for pressing dry cabin top is respectively by screw and two The middle part of first installation half-turn 1 is connected and separates two first installation half-turns 1, the spherical resistance to spacer bar 2 for pressing dry bilge end Respectively the middle part of half-turn 15 is installed with two second by screw to be connected and separate two second installation half-turns 15.The present embodiment In, the upper spherical shell 3 and lower spherical shell 5 are glass material.

As shown in Fig. 1～2, plug 8, power output plug 10 and vacuum nozzle 9 are provided with the front side of the lower spherical shell 5, Wherein described vacuum nozzle 9 is arranged at the front side middle part of the lower spherical shell 5, and the upper plug 8 and power output plug 10 are symmetrical The both sides of the vacuum nozzle 9 are arranged at, wherein the vacuum nozzle 9 is used to extract the spherical resistance to air pressed dry inside cabin, it is described Electric wire is connected with the upper plug 8 on the battery of lithium battery group 12, and the both positive and negative polarity of the lithium battery group 12 is exported with the power supply Plug 10 is connected, and the upper plug 8 and power output plug 10 are watertight plug-in unit.In the left and right sides of the lower spherical shell 5 A battery flat bearing 7 is respectively equipped with, the battery flat bearing 7 is fixed on second installing ring 16 by screw.

As shown in figure 3, the middle part of the battery bracket 13 is connected by screw 18 with a fixed plate 14, then by the electricity Pond bracket 13 is put in the lower spherical shell 5, and the fixed plate 14 offsets with the bottom of lower spherical shell 5, adjusts the battery bracket 13 to the center of lower spherical shell 5, and at contact position of the battery bracket 13 with the lower spherical shell 5 glass cement is smeared It is fixed.

As shown in figure 3, lithium battery group 12 is fixed on battery bracket 13 by restraint zone 11, as shown in figure 5, the lithium is electric Pond group 12 includes lid 121, battery carrier lower cover 125, lithium battery 124 and metal connecting sheet 122, wherein each lithium battery on battery carrier 124 upper and lower ends are connected respectively by screw and lid 121 on the battery carrier and battery carrier lower cover 125, each lithium battery 124 it Between connected by metal connecting sheet 122, each lithium battery 124 is provided with an anti-reverse charging diode 123, each column high-energy lithium electricity Pond is furnished with an anti-mistake and puts diode 126, by public positive pole (silver-plated higher temperature line, 0.5mm²) extraction wire is used as positive outside wire 128, by public negative pole (silver-plated higher temperature line, 0.5mm²) extraction wire as negative outside wire 127, forms the lithium battery group Both positive and negative polarity.As shown in Figures 4 and 5, six groups of lithium battery groups 12 are provided with the present embodiment altogether, six groups of lithium battery groups 12 are in crosswise Be arranged at it is spherical it is resistance to press dry cabin middle part, every group of lithium battery group 12 includes arranging the lithium batteries 124 for arranging in four row six in 24, and institute Lithium battery 124 is stated for high power lithium battery.

Mounting means of the present utility model and operation principle are：

Installation steps of the present utility model are as follows：

Step one：Lithium battery group 12 is fixed on battery bracket 13 by restraint zone 11, and battery bracket 13 and fixation Plate 14 is connected by screw 18.

Step 2：The battery bracket 13 for fixing lithium battery group 12 is put in the lower spherical shell 5, by the battery bracket 13 adjust to the center of lower spherical shell 5, and smear glass at contact position of the battery bracket 13 with the lower spherical shell 5 Glass glue is fixed；

Step 3：Vacuum nozzle 9, upper plug 8, power output plug 10 are installed on the lower spherical shell 5；

Step 4：Electric wire on the battery of the lithium battery group 12 is connected with the upper plug 8, by the lithium battery group 12 both positive and negative polarity is connected with the power output plug 10；

Step 5：The upper spherical shell 3 is positioned on the lower spherical shell 5, contact surface aligns to be formed and spherical resistance to press dry cabin；

Step 6；The spherical resistance to air pressed dry inside cabin is extracted by the vacuum nozzle 9, the He of upper spherical shell 3 is made The contact surface of lower spherical shell 5 is brought into close contact；

Step 7：The band 4 in the contact position winding of spherical shell 3 and lower spherical shell 5 on described；

Step 8：The two ends of half-turn 1 are installed by the connected, middle part of the first adjustment block 6 by the phase of spacer bar 2 by two first Even, two second installation half-turn 15 two ends are connected by the second adjustment block 16, middle part is connected by spacer bar 2, and will be same First adjustment block 6 of side and the second adjustment block 16 are connected by bolt 17；

Step 9：The spherical resistance to cabin that press dry is placed in the middle of the first installation half-turn 1 and the second installation half-turn 15, homonymy is tightened Bolt 17 between first adjustment block 6 and the second adjustment block 16 fixes the upper spherical shell 3 and lower spherical shell 5；

Step 10：Battery flat bearing 7 is fixedly mounted with to the spherical resistance to bottom two ends for pressing dry cabin, and the battery flat bearing 7 is logical Cross screw to be fixed on second installing ring 16；

Step 11：Whether the wiring of detection lithium battery group 12 is normal, vacuum meter is connected with the vacuum nozzle 9 and measures sealing Afterwards the spherical resistance to vacuum pressed dry in cabin, then thinks that sealing property meets when vacuum is not higher than -0.7 and requires, connects and is electrified Plug 8, by voltmeter the output voltage of power output plug 10 is measured, when voltage is 24 ± 0.5V, it is believed that lithium battery group 12 wiring are normal.

Claims (8)

1. a kind of deep-sea lightweight high energy battery device, it is characterised in that：Resistance to cabin, battery flat bearing (7), lithium are pressed dry including spherical Set of cells (12) and battery bracket (13), wherein lithium battery group (12) and battery bracket (13) are arranged at and described spherical resistance to press dry cabin In, the lithium battery group (12) is packed on the battery bracket (13), and battery flat bearing (7) is arranged at described spherical resistance to press dry Cabin lower section；The spherical resistance to cabin that press dry is provided with the first peace on described including upper spherical shell (3) and lower spherical shell (5) above spherical shell (3) Dress half-turn (1), in lower spherical shell (5) lower section the second installation half-turn (15) is provided with, and the upper spherical shell (3) and lower spherical shell (5) are logical Cross band (4) to connect and be fixedly connected by the described first installation half-turn (1) and the second installation half-turn (15) end；Described Lower spherical shell (5) is provided with plug (8), power output plug (10) and vacuum nozzle (9), the battery of the lithium battery group (12) Upper electric wire is connected with the upper plug (8), and the both positive and negative polarity of the lithium battery group (12) is with the power output plug (10) even Connect.

2. lightweight high energy battery device in deep-sea according to claim 1, it is characterised in that：On described on spherical shell (3) Side is provided with two first and installs half-turn (1), and described two first install half-turn (1) left and right two ends respectively by one first tune Monoblock (6) is connected, and is provided with two second in lower spherical shell (5) lower section and installs half-turn (15), and described two second install half The left and right two ends of circle (15) are connected respectively by second adjustment block (16), positioned at first adjustment block (6) and the of the same side Two adjustment blocks (16) are connected by bolt (17).

3. lightweight high energy battery device in deep-sea according to claim 2, it is characterised in that：Described two first install half Circle (1) middle part and described two second installation half-turn (15) middle parts are connected by spacer bar (2).

4. lightweight high energy battery device in deep-sea according to claim 1, it is characterised in that：The upper plug (8) and Power output plug (10) is symmetricly set in the vacuum nozzle (9) both sides, and the upper plug (8) and power output plug (10) it is watertight plug-in unit.

5. lightweight high energy battery device in deep-sea according to claim 1, it is characterised in that：In the battery bracket (13) Portion is connected by screw (18) with a fixed plate (14), and the battery bracket (13) is when being placed in the lower spherical shell (5), institute State fixed plate (14) to offset with lower spherical shell (5) inner bottom.

6. deep-sea lightweight high energy battery device according to claim 1 or 5, it is characterised in that：The battery bracket (13) with smear glass cement and fix at the contact position of the lower spherical shell (5).

7. lightweight high energy battery device in deep-sea according to claim 1, it is characterised in that：The lithium battery group (12) is led to Cross restraint zone (11) to be fixed on battery bracket (13).

8. the deep-sea lightweight high energy battery device according to claim 1 or 7, it is characterised in that：The lithium battery group (12) including (121), battery carrier lower cover (125), lithium battery (124) and metal connecting sheet (122) is covered on battery carrier, wherein each Lithium battery (124) upper and lower ends are connected respectively with lid (121) on the battery carrier and battery carrier lower cover (125), each lithium battery (124) connected by metal connecting sheet (122) between, each lithium battery (124) is provided with an anti-reverse charging diode (123), Each column high-energy lithium battery is furnished with an anti-mistake and puts diode (126).