CN207116533U - A kind of incubator and energy storage device - Google Patents
A kind of incubator and energy storage device Download PDFInfo
- Publication number
- CN207116533U CN207116533U CN201720880383.5U CN201720880383U CN207116533U CN 207116533 U CN207116533 U CN 207116533U CN 201720880383 U CN201720880383 U CN 201720880383U CN 207116533 U CN207116533 U CN 207116533U
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- side plate
- incubator
- plate
- die cavity
- battery
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model proposes a kind of incubator, the cover plate being oppositely arranged including bottom plate and bottom plate, polylith side plate is provided between the cover plate and bottom plate, the side plate includes the first side plate, the second side plate, the 3rd side plate and the 4th side plate, first side plate and the 4th side plate are oppositely arranged, second side plate and the 3rd side plate are oppositely arranged, and the bottom plate, cover plate and side plate are spliced into a containment housing, and the bottom plate, cover plate and side plate interior sides are designed with warming plate;Multiple attemperators are set in the casing, and each attemperator includes heat-preservation cylinder and the battery pack being arranged in the heat-preservation cylinder.The incubator of said structure, compared with the incubator of existing structure, there is the advantages of programming rate is fast, and temperature homogeneity is good, low-power consumption, and demolition and maintenance are convenient, and stability is good.On the other hand, the utility model also proposes a kind of energy storage device for including above-mentioned incubator.
Description
Technical field
Energy-storage battery field is the utility model is related to, more particularly to a kind of incubator and energy storage device.
Background technology
Liquid metal cell as energy storage device is a kind of low cost, high efficiency, the novel energy storage cell skill of long-life
Art, there is good application prospect in the scale energy storage of power network.The groups of Large Copacity energy-storage system of liquid metal cell, can be to electricity
Net carry out peak regulation, to load carry out peak load shifting, effectively strengthen wind-power electricity generation, solar power system operation stability,
Improve the quality of power supply.
Liquid metal cell belongs to high-temperature battery, and running temperature is typically at 400-600 DEG C, therefore battery operation needs to have and added
The device of heat insulation, and the highest design temperature of incubator stable operation is 600 DEG C, also needs to ensure incubator course of work raising middle flask
Interior maximum temperature difference is less than 20 DEG C.The incubator having been reported is typically employed in sodium-sulphur battery, and maximum temperature only has 350 DEG C, and protects
Maximum temperature difference control is 30 DEG C in incubator, such as sodium-sulphur battery special-purpose thermal insulation case (application number:CN201010584548.7 a kind of), sodium
Sulphur battery module incubator (application number:CN201410106677.3) etc..The guarantor specifically for liquid metal cell to have reported for work
Incubator is less, a kind of liquid metal cell module (application number for multikilowatt storing up electricity facility:CN201510514549.7 in)
Part about incubator describe only using electrothermal tube heat make-up system institute calorific requirement, using alumina-silicate ceramic fibre conduct
The material of heat-insulation layer, both without the position and form for illustrating electric heating tube, the temperature range that can be also controlled without explanation,
Also the description or calculating that the thickness selection to heat-insulation layer, the number of plies do not set, be embodied.A kind of liquid metal cell and liquid
State metal battery multikilowatt module (application number:CN201410777993.3 the incubator design) used, heating part is by electricity
Heated barrier in the Joule heat and case of pond group itself between battery pack maintains the temperature inside the box, is the heating design of multilayer, still
There is some defects.First, the wiring of its interlayer battery pack is connected by side, and space availability ratio is relatively low;Secondly, this is special
Sharp (application number:CN201410777993.3) emphasize that battery itself Joule heat under heavy-current discharge maintains the confession of incubator system
Heat, may is that in several multikilowatt module incubators it is feasible, but ten kilowatts, hundred kilowatts, MW class and above rank it is big
Type energy-storage thermal-insulating case is battery pack difficult to realize in normal operation complete from heat supply, especially in initial heating rank
Section, is even more difficult to be heated to target temperature;Finally, the patent (application number:CN201410777993.3) less concern
The heating design of dividing plate, mode of heating and heater element mounting arrangements situation in dividing plate are not disclosed, more without for every
Layer, which divides in cavity configuration, sets single temperature control and monitoring device, largely limits putting for liquid metal cell module
Greatly.
In summary, how to provide that a kind of programming rate is fast, and temperature homogeneity is good, low-power consumption, demolition and maintenance are convenient, stable
The good incubator of property, and the energy storage device including this incubator, into the technical problem of those skilled in the art's urgent need to resolve.
Utility model content
The technical problems to be solved in the utility model is:It is fast to provide a kind of programming rate, temperature homogeneity is good, low-power consumption,
Demolition and maintenance are convenient, the good incubator of stability, and the energy storage device including this incubator.
What solution of the present utility model was realized in:The utility model proposes a kind of incubator, including bottom plate with
And the cover plate that bottom plate is oppositely arranged, polylith side plate is provided between the cover plate and bottom plate, the side plate includes the first side plate, second
Side plate, the 3rd side plate and the 4th side plate, first side plate and the 4th side plate are oppositely arranged, second side plate and the 3rd side plate
It is oppositely arranged, the bottom plate, cover plate and side plate are spliced into a containment housing, and the bottom plate, cover plate and side plate interior sides are all set
There is warming plate;Multiple attemperators are set in the casing, and each attemperator includes heat-preservation cylinder and is arranged at described
Battery pack in heat-preservation cylinder.The incubator of said structure, fast with programming rate compared with the incubator of existing structure, temperature
The advantages of uniformity is good, low-power consumption, and demolition and maintenance are convenient, and stability is good.
Another technical scheme of the present utility model is that on above-mentioned basis the material of the warming plate is rock wool, silicon
Sour aluminum fiber or polycrystalline mullite fibre;Die cavity is additionally provided with the casing, the die cavity is set provided with multiple uniform intervals
Single-chamber, and the single-chamber is set through the both ends of the die cavity, and an attemperator is set in each single-chamber.
Another technical scheme of the present utility model is that on above-mentioned basis the die cavity comprises at least the first swaging die
Block and the second die cavity module being used cooperatively with the first die cavity module, the first die cavity module and the second die cavity module combine
Afterwards, one or more single-chambers are formed in its stitching portion.
Another technical scheme of the present utility model is that on above-mentioned basis the heat-preservation cylinder includes insulation cylinder and set
The upper lid being placed on the insulation cylinder, and the upper lid is removably secured the end for being arranged at the insulation cylinder.
Another technical scheme of the present utility model is on above-mentioned basis, is additionally provided with the inwall of the insulation cylinder
Mounting groove, the mounting groove is interior to be provided with heating wire, and the mounting groove is screw type mounting groove.
Another technical scheme of the present utility model is on above-mentioned basis, also includes bottom on the insulation cylinder,
The upper lid and bottom cover the first mounting hole and the second mounting hole further respectively having for installing thermocouple, and for wiring
Cable hole.
Another technical scheme of the present utility model is that on above-mentioned basis the incubator also includes battery and installed
Frame, the battery installing rack include one or more support bar being vertically arranged, set multiple batteries to install on the support bar
Position, one end of the battery installing rack is additionally provided with least one hanger.
Another technical scheme of the present utility model is that on above-mentioned basis the battery pack is arranged in series including polylith
Battery, the support block of insulating effect has been additionally provided with each battery installation position, the support block is provided with dead ring institute
Battery is stated to be arranged in the dead ring.
On the other hand, the utility model also proposes a kind of energy storage device, including incubator, and the incubator is as above any
Incubator described in.
Another technical scheme of the present utility model is that on above-mentioned basis the energy storage device also includes being arranged at institute
The electrical control cubicles of incubator side are stated, the electrical control cubicles are provided with the battery management system for being used for being managed to energy storage device.
Brief description of the drawings
Form a part of accompanying drawing of the present utility model to be used for providing further understanding to of the present utility model, this practicality is new
The schematic description and description of type is used to explain the utility model, does not form to improper restriction of the present utility model.
Fig. 1 is a kind of perspective view of incubator of the utility model;
Fig. 2 is the rip cutting sectional view of incubator in Fig. 1;
Fig. 3 is the cross sectional figure of incubator in Fig. 1;
Fig. 4 is the inner cavity configuration schematic diagram of incubator in Fig. 1;
Fig. 5 is the structural representation of attemperator in Fig. 1;
Fig. 6 is longitudinal schematic cross-sectional view of attemperator in Fig. 5;
Fig. 7 is the structural representation of battery pack in Fig. 1;
Fig. 8 is longitudinal schematic cross-sectional view of battery pack in Fig. 7.
Reference corresponding relation is:
The cover plate outer wall of 1 cover plate, 100 casing 11
The cable hole of 111 first cable hole, 12 first warming plate 121 second
The battery management system of 200 electrical control cubicles 2001
The warming plate of 2 first side plate, 21 first side plate outer wall 22 second
The warming plate of 3 second 31 second side plate outer wall 32 of side plate the 3rd
The warming plate of 4 the 3rd the 3rd side plate outer wall 42 of side plate 41 the 4th
The warming plate of 5 the 4th the 4th side plate outer wall 52 of side plate 51 the 5th
The cable hole of 6 bottom plate, 61 bottom plate outer wall 611 the 3rd
The cable hole of 62 the 6th warming plate 621 the 4th
The cable hole of lid 711 the 5th on 7 attemperators 71
The heat-preservation cylinder 721 of 712 first mounting hole 72 is incubated cylinder
The heating wire of 722 mounting groove 723
The mounting hole of the 6th cable hole of 73 bottom 731 732 second
The screw rod of 8 battery pack, 81 battery 82
The battery installation position of 83 nut, 84 battery installing rack 841
The hanger of 842 support bar, 843 series connection string holes 844
The dead ring of 85 support block 86
The thermocouple of 9 thermocouple, 91 first thermocouple 92 second
The die cavity module of 10 die cavity, 101 first die cavity module 102 second
103 single-chambers
Embodiment
The utility model is described in detail below in conjunction with the accompanying drawings, the description of this part be only it is exemplary and explanatory,
There should not be any restriction effect to the scope of protection of the utility model.In addition, those skilled in the art's retouching according to this document
State, respective combination can be carried out to the feature in embodiment in this document and in different embodiments.
The utility model embodiment is as follows, refers to energy storage device and its incubator shown in Fig. 1 to Fig. 8, and incubator is
One closed cavity, the cover plate 1 that bottom plate 6 and bottom plate 6 are oppositely arranged is specifically included, polylith is provided between cover plate 1 and bottom plate 6
Side plate, more specifically, side plate include the first side plate 2, the second side plate 3, the 3rd side plate 4 and the 4th side plate 5, wherein, the first side
The side plate 5 of plate 2 and the 4th is oppositely arranged, and the second side plate 3 and the 3rd side plate 4 are oppositely arranged, and bottom plate 6, cover plate 1 and side plate are spliced into one
Individual casing 100, bottom plate 6, cover plate 1 and side plate interior sides are equipped with warming plate.The specification of casing 100 is preferably rectangular parallelepiped structure, long
990mm, wide 990mm, high 1025mm, about 1 cubic metre of cumulative volume.For warming plate, more specifically, including the first warming plate
12nd, the second warming plate 22, the 3rd warming plate 32, the 4th warming plate 42, the 5th warming plate 52 and the 6th warming plate 62, the first insulation
Plate 12 is arranged at the inner side of the cover plate outer wall 11, and the second warming plate 22 is arranged at the inner side of the first side plate outer wall 21, and the 3rd protects
Warm plate 32 is arranged at the inner side of the second side plate outer wall 31, and the 4th warming plate 42 is arranged at the inner side of the 3rd side plate outer wall 41, and the 5th
Warming plate 52 is arranged at the inner side of the 4th side plate outer wall 51, and the 6th warming plate 62 is arranged at the inner side of bottom plate outer wall 61.Need
Bright, warming plate can only set one layer, can also set multilayer, can be configured according to incubator general power during use,
But when the thickness of total warming plate is more than 50mm, then need to set multi-layer heat preserving plate.In addition, multiple insulations are also set up in casing 100
Device 7, each attemperator 7 include heat-preservation cylinder 72 and the battery pack 8 being arranged in the heat-preservation cylinder 72.The guarantor of said structure
Incubator, compared with the incubator of existing structure, fast with programming rate, temperature homogeneity is good, low-power consumption, and demolition and maintenance are convenient,
The advantages of stability is good.
On the basis of above-described embodiment, in another embodiment of the utility model, for the material of warming plate, preferably rock
Cotton, alumina silicate fibre or polycrystalline mullite fibre.In addition, as shown in Figure 3 and Figure 4, die cavity 10, die cavity are additionally provided with casing 100
It is additionally provided with the single-chamber 103 that multiple uniform intervals are set on 10, the center line of each single-chamber 103 is in parallel shape, also, each single-chamber
103 are set through the upper and lower ends of die cavity 10, and an attemperator 7 is set in each single-chamber 103.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in figure 4, the type for incubator
Cavity configuration, further, die cavity 10 comprise at least the first die cavity module 101 and the second die cavity module 102, the first die cavity module
101 and second die cavity module 102 be used cooperatively, the first die cavity module 101 be provided with multiple single-chambers 103 part-structure, second
The part-structure of multiple single-chambers 103 also is provided with die cavity module 102, when the first die cavity module 101 and second begin to speak module combine
When together, multiple single-chambers 103 for being used to place insulation cylinder 721 are formed in its stitching portion.This set-up mode, will be whole internal
The sub-module of die cavity 10 is spliced, and facilitates modularized production and assembling, advantageously reduces production cost and manufacture difficulty, improves life
Produce efficiency.More specifically, the first die cavity module 101 sets multiple semicircle arcuation grooves, also is provided with the second die cavity module 102
The consistent semicircle arcuation groove of multiple structures.In other embodiments, the shape of groove can also be other shapes, such as it is square or
Regular polygon etc., the i.e. shape of cross section of single-chamber 103 can also be square, and other regular polygons etc. in addition to circle.
It can be bolted between first die cavity module 101 and the second die cavity module 102, also can may be used also by welding
The first die cavity module 101 and the second die cavity module 102 are fixed together by other any possible connected modes.Other
In embodiment, die cavity 10 can also be monolithic construction, in production process, first process the cavity structure of monoblock type, then in die cavity
Multiple single-chambers 103 are processed in structure respectively.And for the material of die cavity 10, preferably include Al2O3、SiO2And Fe2O3, and Al2O3
Mass fraction is 52%, Al2O3And SiO2Mass fraction be not less than 99%.By taking the cavity structure of multiple single-chambers 103,
Individually heating can ensure incubator entirety firing rate up to 30 DEG C/min for multiple inside of single-chamber 103, and realize that incubator heats energy
Power and the uniformity of bulk temperature field, 600 DEG C of the maximum operating temperature in incubator inside, and the temperature difference is less than 10 DEG C in the course of work.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 5 and Figure 6, attemperator 7
It is arranged in the single-chamber 103 of die cavity 10, an attemperator 7 is set in each single-chamber 103, the heat-preservation cylinder 72 of attemperator 7 wraps
The upper lid 71 for including insulation cylinder 721 and being arranged on insulation cylinder 721, also, upper lid 71 and/or bottom 73 are removably secured
The upper end and/or lower end of insulation cylinder 721 are arranged at, for the fit system between upper lid 71 and insulation cylinder 721, Ke Yiwei
It snapping, can also be spirally connected, can also be any possible connected mode.Material for being incubated cylinder 721, preferably polycrystalline are not
Carry out mineral wool, to realize that a certain degree of single string insulation and part are heat-insulated, be advantageous to improve the overall temperature homogeneity in inner chamber.This
Outside, it is necessary to which explanation, to ensure the versatility of attemperator 7, improves its and exchange efficiency, structure, the specification of each single-chamber 103
Completely the same with size, the structure of each attemperator 7, specification and size are also completely the same.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in fig. 6, insulation cylinder 721 is interior
Mounting groove 722 is additionally provided with wall, heating wire 723 is provided with mounting groove 722, mounting groove 722 is preferably screw type mounting groove 722,
I.e. heating wire 723 is a screw type heating wire, can be to uniformly being heated in heat-preservation cylinder 72 after heating wire 723 is powered.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 5 and Figure 6, cylinder is incubated
721 also include bottom 73, and the first mounting hole 712 and second for installing thermocouple 9 is additionally provided with upper lid 71 and on bottom 73
Mounting hole 732, meanwhile, the cable hole for wiring is additionally provided with upper lid 71 and on bottom 73.More specifically, thermocouple 9 wraps
The first thermocouple 91 and the second thermocouple 92 are included, the first thermocouple 91 is arranged in the second mounting hole 732, and the second thermocouple 92 is set
It is placed in the first mounting hole 712, the first thermocouple 91 is used to the temperature in insulation cylinder 721 is controlled and adjusted, and the
Two thermocouples 92 are used to be monitored the temperature in insulation cylinder 721 and early warning, when temperature is higher or lower than predetermined range value
When, timely early warning.It should be noted that two thermocouples 9 up and down are equipped with each attemperator 7, when the quantity of single-chamber 103
For n × n when, need 2n altogether2Individual thermocouple 9.Pass through the first thermocouple 91 and the second control in time of thermocouple 92 and monitoring single-chamber
Temperature in 103, it is ensured that temperature deviation is not more than 5 DEG C in single-chamber 103.And thermocouple 9 and battery management system (BMS) 2001
It is attached, realizes the control of bulk temperature field, in the course of work, the overall temperature difference in incubator is less than 10 DEG C.
For cable hole, as shown in Figure 2 and Figure 6, the cable hole being arranged on lid 71 includes the first cable hole 111, the
Two cable holes 121 and the 5th cable hole 711 etc., the first cable hole 111, the second cable hole 121 and the 5th cable hole 711 also extend through
The cover plate 1 of casing 100.Meanwhile be arranged at the cable hole on bottom 73 include the 3rd cable hole 611, the and of the 4th cable hole 621
6th cable hole 731 etc., the 3rd cable hole 611, the 4th cable hole 621 and the 6th cable hole 731 also extend through the bottom plate of casing 100
6.Battery pack 8 in casing 100 is electrically connected by corresponding cable hole with the electrical control cubicles 200 of energy storage device, and is finally aggregated into
The battery management system 2001 of electrical control cubicles 200, so that battery management system 2001 is controlled to the temperature in incubator.
On the basis of above-described embodiment, in another embodiment of the utility model, as shown in Figure 7 and Figure 8, battery pack 8 is also
Including battery installing rack 84, battery installing rack 84 includes one or more support bar 842 being vertically arranged, and is set on support bar 842
The consistent battery installation position 841 of multiple specifications is put, more specifically, the quantity of support bar 842 is preferably two, two support bars
842 be arranged in parallel, and the material of support bar 842 is preferably stainless steel, and multiple battery installation positions 841 are fixedly installed on two support bars
Between 842, also, the center line of multiple battery installation positions 841 is point-blank, and between multiple battery installation positions 841 etc.
Away from installation.In addition, one end of battery installing rack 84 is provided with shrouding, i.e., at the top of the upper end shown in figure, it is additionally provided with least one hang
Ear 844.It should be noted that moving, dismantling and lifting battery installing rack 84 for convenience, the quantity of hanger 844 is preferably two,
Two hangers 844 are oppositely arranged, also, the material of hanger 844 is preferably stainless steel.
As shown in Figure 7 and Figure 8, on shrouding in addition to hanger 844 is set, also fairlead can be set in the center of shrouding, draws
Portal preferably circular, its diameter is not more than 10mm, and topmost the negative terminal of one piece of battery 81 can be from drawing on battery installing rack 84
Portal interior extraction.Equally, the middle part of every piece of battery 81 also is provided with a connecting hole, and a negative terminal is set in each connecting hole,
Upper and lower two pieces adjacent batteries 81, are connected by negative terminal.It should be noted that in other embodiments, battery 81 removes
It is outer by negative terminal connection, it can also be attached by other high temperature wires.Connecting hole is preferably screw, and negative terminal is then preferred
For conductivity type screw rod 82, the nut 83 of fixed setting is additionally provided with screw, nut 83 is partially disposed in screw, and screw rod 82
Then revolve among nut 83 bottom.After each battery 81 is connected in groups, then led to outside casing 100 by lead, realize each guarantor
Connected in series or in parallel between warm device 7, specific connected mode can be arranged as required to.
On the basis of above-described embodiment, in another embodiment of the utility model, for battery pack 8, such as Fig. 7 and Fig. 8 institutes
Show, in addition to the battery 81 that polylith serial or parallel connection is set, to prevent the conductive contact between battery 81 and battery installing rack 84,
One dead ring 86 is set in each battery installation position 841, and battery 81 is arranged in dead ring 86.The cross section shape of battery 81
Shape is preferably circular or regular polygon, and such as square, the shape of dead ring 86 can be consistent with the shape of battery 81, single-chamber 103
Shape also can be further consistent with the shape of battery 81.More specifically, battery installation position 841 includes being arranged at two supports
The support block 85 for playing insulating effect between bar 842, support block 85 is specifically solderable to be connected between support bar 842, and dead ring 86 can
Movably it is arranged in support block 85, the material of support bar 842 is preferably stainless steel, and the material of support block 85 is preferably alumina silicate
Fiber, and for the thickness of dead ring 86, wall thickness is not more than 10mm, and material is preferably alumina silicate fibre.It should be noted that
Dead ring 86 is preferably provided to movably, during assembling, after battery 81 being put into dead ring 86, then dead ring 86 is overall
It is put into the support block 85 in battery installation position 841.In addition, the center of every piece of support block 85 is additionally provided with series connection string holes 843, string
Connection string holes 843 is to keep for 81 screw rods 82 of battery and nut 83 to realize the hole that upper and lower battery 81 is connected.
During use, when the battery pack 8 in a certain single-chamber 103 breaks down, independent shutdown inspection and dimension can be carried out
Shield, has no effect on the normal operation of other intracavitary battery packs 8, therefore, effectively increases the reliable of whole incubator battery pack 8
Property, reduce maintenance cost.
On the other hand, the utility model also proposes a kind of energy storage device, including incubator or incubator cavity structure, insulation
Case is preferably incubator as described above, and incubator cavity structure is cavity structure as described above.The energy storage device of this structure,
Correspondingly, there is the advantages of programming rate is fast, and temperature homogeneity is good, low-power consumption, and demolition and maintenance are convenient, and stability is good.
As shown in figure 1, energy storage device also includes the electrical control cubicles 200 for being arranged at incubator side, the specification of electrical control cubicles 200 is excellent
Elect rectangular parallelepiped structure, long 400mm, wide 300mm, high 500mm as.In electrical control cubicles 200 or in electrical control cubicles 200, be additionally provided with for pair
The battery management system 2001 that energy storage device is managed.Battery management system 2001 also includes temperature control system, during work,
Battery management system 2001 is by collecting and comparing to the temperature signal that temperature control system gathers, to the list less than predetermined temperature
Heating wire 723 in chamber 103 carries out increase output power, enters for heating wire 723 in the single-chamber 103 higher than target temperature
Row reduces power output control or carries out zero energy output control, to realize that incubator bulk temperature field is uniform.In addition, battery
Management system 2001 can also can also monitor insulation by the way that the temperature signal that temperature control system gathers is collected and compared
Bulk temperature in case, to find local temperature minimum point and peak, and report under computer heating control and superhigh temperature under low temperature
Alert control.
Described above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art
For art personnel, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made, these improve and
Retouching also should be regarded as the scope of protection of the utility model.
Claims (10)
- A kind of 1. incubator, it is characterised in that the cover plate being oppositely arranged including bottom plate and bottom plate, between the cover plate and bottom plate Provided with polylith side plate, the side plate includes the first side plate, the second side plate, the 3rd side plate and the 4th side plate, first side plate and 4th side plate is oppositely arranged, and second side plate and the 3rd side plate are oppositely arranged, and the bottom plate, cover plate and side plate are spliced into one Containment housing, and the bottom plate, cover plate and side plate interior sides are designed with warming plate;Multiple attemperators are set in the casing, and each attemperator includes heat-preservation cylinder and is arranged at the heat-preservation cylinder Interior battery pack.
- 2. incubator according to claim 1, it is characterised in that the material of the warming plate is rock wool, alumina silicate fibre Or polycrystalline mullite fibre;Die cavity is additionally provided with the casing, the die cavity is provided with the single-chamber that multiple uniform intervals are set, and the single-chamber runs through Set in the both ends of the die cavity, an attemperator is set in each single-chamber.
- 3. incubator according to claim 2, it is characterised in that the die cavity comprises at least the first die cavity module and with the After the second die cavity module that one die cavity module is used cooperatively, the first die cavity module and the second die cavity module combine, in its spelling The place of connecing forms one or more single-chambers.
- 4. incubator according to claim 3, it is characterised in that the heat-preservation cylinder includes insulation cylinder and is arranged at described The upper lid being incubated on cylinder, and the upper lid is removably secured the end for being arranged at the insulation cylinder.
- 5. incubator according to claim 4, it is characterised in that mounting groove is additionally provided with the inwall of the insulation cylinder, Heating wire is provided with the mounting groove, the mounting groove is screw type mounting groove.
- 6. incubator according to claim 5, it is characterised in that also include bottom, the upper lid on the insulation cylinder With the first mounting hole and the second mounting hole for installing thermocouple, and the cabling for wiring are further respectively had on bottom Hole.
- 7. incubator according to claim 6, it is characterised in that the battery pack also includes battery installing rack, the electricity Pond mounting bracket includes one or more support bar being vertically arranged, and multiple battery installation positions, the electricity are set on the support bar One end of pond mounting bracket is additionally provided with least one hanger.
- 8. incubator according to claim 7, it is characterised in that the battery pack also includes the electricity that polylith is arranged in series Pond, has each been additionally provided with the support block of insulating effect in the battery installation position, the support block is provided with dead ring, the electricity Pond is arranged in the dead ring.
- 9. a kind of energy storage device, including incubator, it is characterised in that the incubator is any one of claim 1 to 8 Incubator.
- 10. energy storage device according to claim 9, it is characterised in that the energy storage device also includes being arranged at the guarantor The electrical control cubicles of incubator side, the electrical control cubicles are provided with the battery management system for being used for being managed to energy storage device.
Priority Applications (1)
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CN201720880383.5U CN207116533U (en) | 2017-07-20 | 2017-07-20 | A kind of incubator and energy storage device |
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CN201720880383.5U CN207116533U (en) | 2017-07-20 | 2017-07-20 | A kind of incubator and energy storage device |
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CN201720880383.5U Expired - Fee Related CN207116533U (en) | 2017-07-20 | 2017-07-20 | A kind of incubator and energy storage device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108808172A (en) * | 2018-06-13 | 2018-11-13 | 河南职业技术学院 | Automobile batteries incubator and cold district batteries of electric automobile attemperator |
-
2017
- 2017-07-20 CN CN201720880383.5U patent/CN207116533U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108808172A (en) * | 2018-06-13 | 2018-11-13 | 河南职业技术学院 | Automobile batteries incubator and cold district batteries of electric automobile attemperator |
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