CN209415894U - Low capacity thermal conductivity Minton dryer and its intelligent drying system - Google Patents

Abstract

Low capacity thermal conductivity Minton dryer and its intelligent drying system, wherein, drying device includes the first clamp body, the second clamp body and at least one first thermal energy or cold energy energy source, the cavity for being used to accommodate battery or battery material of N number of sealing is constituted after first clamp body and the combination of the second clamp body, wherein, N is the integer more than or equal to 1, first thermal energy or cold energy energy source swap energy with battery in cavity or battery material with heat exchange pattern, and the single cavity is communicated with vacuum；The horizontal sectional area of the single cavity is more than or equal to 0.001 square metre and is less than or equal to 1 square metre；The volume of the single cavity is more than or equal to 0.00001 cubic metre and is less than or equal to 0.2 cubic metre.The utility model has the heating-up time short, the fast advantage of rate of drying.

Description

Low capacity thermal conductivity Minton dryer and its intelligent drying system

Technical field

The utility model relates to the equipment that a kind of pair of battery or battery material are dried, especially a kind of low capacity heat is passed Conduction Minton dryer and its intelligent drying system.

Background technique

Moisture has a major impact battery or battery material performance, it is necessary to battery or battery material be dried, reach Certain reasonable moisture, just can fluid injection.Because the water contained in battery core is during battery or battery material first charge-discharge, meeting Following reaction occurs on the Carbon anode of battery or battery material:

H₂O+2e⁺+2Li⁺→2Li₂O+H₂↑

LiPF₆+H₂O→LiF+POF₃+2HF↑

On the one hand reaction can consume limited lithium ion in battery or battery material, to make battery or battery material Irreversible capacity increases, and the HF of generation can destroy SEI film, cause secondary film-forming, leads to battery or battery material penalty；Separately One side reaction product Li₂O adversely affects electrode electro Chemical performance；Simultaneous reactions generate gas also result in battery or Battery material internal pressure increases, and causes charge and discharge, cycle efficieny reduction and battery or the battery material swell of battery or battery material Equal adverse effects.

In order to remove the moisture in battery or battery material, currently used equipment is drying box or drying line, this kind of to set The standby monomer oven for being broadly divided into heat radiation or hot wind, contact monomer oven, hot air type tunnel drying line and contact tunnel Drying line.Either all there is liter when to battery or dry battery material in monomer oven and tunnel drying line in the prior art Temperature, vaccum dewatering divide and three steps of cooling, except that three steps of monomer oven are completed in a cabinet, And three steps of tunnel drying line are that different station in line of flow is completed.Therefore, existing heat radiation or hot wind Monomer oven terminates from battery or battery material cartonning to drying, generally requires 24 hours or more, contact monomer oven is general 5 hours or more are needed, hot air type tunnel drying line and contact tunnel drying line generally require 7 hours or more, and thus band is sent a telegram here Pond or battery material production cannot work continuously, and cause the battery or battery material heap of battery or battery material drying process Product.Currently, fast deep drying is technical staff's urgent problem to be solved of the industry, contact monomer oven and contact tunnel The appearance of road drying line, though it makes moderate progress to this phenomenon, if further increasing the dry speed of battery or battery material Degree, until there is presently no good solutions.

Utility model content

Aiming at the above defects or improvement requirements of the prior art, the utility model one kind is provided can quickly will be by battery or electricity The dry low capacity thermal conductivity Minton dryer up to standard of pond material and its intelligent drying system.

Another purpose of the utility model is that the fast beat production of flowing water drying line can be achieved.

Applicants contemplate that make dry fast of battery or battery material, that is, drying time is short as far as possible, again It is able to satisfy dry requirement, i.e. the battery or battery material that must reach aqueous positive-pole material are completed in vacuum drying, and water content is wanted Lower than 400ppm, the battery or battery material of non-aqueous positive electrode, water content will be lower than the requirement of 200ppm, drying process It must satisfy high vacuum, small cavity and heat these three fast conditions, just can achieve quick-drying purpose.

The technical solution of the utility model is: providing a kind of low capacity thermal conductivity Minton dryer, including the first folder Specifically, it is constituted after the second clamp body and at least one first heating source, first clamp body and the combination of the second clamp body N number of close The cavity for being used to accommodate battery or battery material of envelope, wherein N is the integer more than or equal to 1, and first heating source is passed with heat That leads mode carries out energy exchange with battery in cavity or battery material, and the single cavity is communicated with vacuum；The single chamber The horizontal sectional area of body is more than or equal to 0.001 square metre and is less than or equal to 1 square metre；The volume of the single cavity is more than or equal to 0.00001 cubic metre is less than or equal to 0.2 cubic metre.

As the improvement to the utility model, the utility model further includes the second heating source, and second heating source is located at The opposite side of first heating source heats the another side of the battery or battery material.

As the improvement to the utility model, first heating source and first clamp body or the second clamp body it Between be equipped with the first elastic component, for will first heating source and battery or battery material compression.

As the improvement to the utility model, second heating source and second clamp body or the first clamp body it Between be equipped with the second elastic component, for will second heating source and battery or battery material compression.

As the improvement to the utility model, first heating source and first clamp body or the second clamp body it Between be equipped with the first elastic component, for the one side of first heating source and battery or battery material to be compressed；Second heating Source is located on second clamp body or the first clamp body, in second heating source and second clamp body or the first fixture The second elastic component is equipped between body, for compressing the another side of second heating source and battery or battery material.

As the improvement to the utility model, first clamp body and the second clamp body are connected by open-and-close mechanism 's.The open-and-close mechanism can be hinge or four-bar mechanism, be opened and closed by driving source, and driving source can be cylinder or electricity Cylinder etc..

As the improvement to the utility model, first clamp body and the second clamp body are by being arranged in outline border bottom surface On sealing element be tightly connected.

As the improvement to the utility model, several chambers of array arrangement on first clamp body or the second clamp body Body.

The utility model also provides a kind of intelligent drying system, dry including several above-mentioned low capacity thermal conductivity vacuum Dry device.

As the improvement to the utility model, the utility model includes for giving low capacity thermal conductivity Minton dryer It is packed into battery or battery material and covers the feeding device of clamp body, for connecting low capacity thermal conductivity Minton dryer The conveying device of first clamp body or the second clamp body, for from low capacity thermal conductivity Minton dryer take out battery or The blanking device of battery material；The feeding device is the first manipulator, and the conveying device is belt-type conveying device, blanking Device is the second manipulator, and first manipulator is located at the feeding end of the belt-type conveying device, second manipulator It is located at the discharge end of the belt-type conveying device.

As the improvement to the utility model, the utility model includes for giving low capacity thermal conductivity Minton dryer It is packed into battery or battery material and covers the feeding device of clamp body, for connecting low capacity thermal conductivity Minton dryer The conveying device of first clamp body or the second clamp body, for from low capacity thermal conductivity Minton dryer take out battery or The blanking device of battery material；The feeding device is the first manipulator, and the conveying device is disc-type conveying device, blanking Device is the second manipulator, and first manipulator is located at the pan feeding side of the disc-type conveying device, second manipulator It is located at the exit side of the disc-type conveying device.

As the improvement to the utility model, the utility model includes rack, the low capacity thermal conductivity vacuum drying First clamp body of device is fixed on the rack, and in the rack or rack side is equipped with the opening-closing machine of the second clamp body Structure, after open-and-close mechanism opens the second clamp body and the first clamp body, handling equipment is by battery to be dried or battery material It is packed into cavity or takes out dry cell or battery material out of cavity.

As the improvement to the utility model, first clamp body and the second clamp body are connected by open-and-close mechanism 's.The open-and-close mechanism can be hinge or four-bar mechanism, be opened and closed by driving source, and driving source can be cylinder or electricity Cylinder etc..

As the improvement to the utility model, the utility model includes for giving low capacity thermal conductivity Minton dryer Be packed into the feeding device of battery or battery material, for connect low capacity thermal conductivity Minton dryer the first clamp body or The conveying device of second clamp body, for being taken out under battery or battery material from low capacity thermal conductivity Minton dryer Expect device；The feeding device is the first manipulator, and the conveying device is belt-type conveying device, and blanking device is the second machine Tool hand, first manipulator are located at the feeding end of the belt-type conveying device, and second manipulator is located at the belt The discharge end of formula conveying device；It is equipped in the top of the belt-type conveying device for connecting second clamp body or first Second belt-type conveying device of clamp body；After battery or battery material are installed on the first clamp body or the second clamp body, The second fixture of first clamp body or the second clamp body in the conveying device and the second belt-type conveying device Body or the first clamp body rotary fastening make the second clamp body or the first clamp body and first clamp body or the second clamp body group Close the cavity for being formed and accommodating battery or battery material；The conveying device and the second belt-type conveying device move synchronously predetermined dry After the dry time, the two is separated, second manipulator takes out the battery or battery material after drying.

As the improvement to the utility model, the utility model further includes vacuum distribution, and the vacuum distribution makes very It is empty that only the cavity of the low capacity thermal conductivity Minton dryer in drying process is vacuumized.

As the improvement to the utility model, the utility model further includes intelligent controller, and the intelligent controller is used for Control each section co-ordination of intelligent drying system.

The utility model generally accommodates 1-200 battery or battery material due to using small cavity, i.e., big for volume Battery or battery material accommodate 1-5, battery small in size or battery material are accommodated within 800, compared to existing The dry battery or battery material for accommodating 5000 or more every time, much less, thermal energy or cold energy energy source are with the side of heat transfer Formula is directly heated or is cooled down to battery or battery material, the promotion battery or battery material heat that can be exceedingly fast in this way, preheating Time only needs the time of the 4%-50% of existing drying box, and since single cavity volume is small, the battery or battery material of receiving Quantity is few, significantly shortens battery or battery material drying and cooling time, and the flowing water particularly suitable for doing fast beat is raw Producing line makes the production of battery or battery material reach quick Production line truly.

Detailed description of the invention

Fig. 1 is a kind of dry embodiment decomposition texture schematic diagram of fixture of the utility model.

Fig. 2 is the schematic diagram of the section structure after the combination of Fig. 1.

Fig. 3 is the schematic perspective view of Fig. 1.

Fig. 4 is the schematic diagram of the section structure of dry second of the embodiment of fixture of the utility model.

Fig. 5 is the schematic perspective view of dry the third embodiment of fixture of the utility model.

Fig. 6 is the schematic perspective view of dry the 4th kind of embodiment of fixture of the utility model.

Fig. 7 is the schematic perspective view of dry the 5th kind of embodiment of fixture of the utility model.

Fig. 8 is the schematic perspective view at another visual angle of Fig. 7.

Fig. 9 is the planar structure schematic diagram of dry the 6th kind of embodiment of fixture of the utility model.

Figure 10 is that Fig. 9 removes the planar structure schematic diagram after upper fixture body.

Figure 11 is a kind of planar structure schematic diagram of embodiment of intelligent drying system of the utility model.

Figure 12 is the schematic perspective view of Figure 11.

Figure 13 is the planar structure schematic diagram of second of embodiment of intelligent drying system of the utility model.

Figure 14 is that the first clamp body of schematic perspective view of Figure 13 and the second clamp body are closed.

Figure 15 is the side structure schematic view of Figure 14.

Figure 16 is the planar structure schematic diagram of intelligent the third embodiment of drying system of the utility model.

Figure 17 is the planar structure schematic diagram of the 4th kind of embodiment of intelligent drying system of the utility model.

Figure 18 is the planar structure schematic diagram of the 5th kind of embodiment of intelligent drying system of the utility model.

Figure 19 is the A-A schematic cross-sectional view in Figure 18.

Figure 20 is the planar structure schematic diagram of the 6th kind of embodiment of intelligent drying system of the utility model.

Figure 21 is the B-B schematic cross-sectional view in Figure 20.

Figure 22 is the planar structure schematic diagram of the 7th kind of embodiment of intelligent drying system of the utility model.

Figure 23 is the F-F schematic cross-sectional view in Figure 22.

Specific embodiment

The utility model is illustrated below with reference to concrete case.

Referring to Figure 1 to Fig. 3, what Fig. 1 to Fig. 3 was disclosed is the first implementation of low capacity thermal conductivity Minton dryer Composition one is close after example, including the first clamp body 1 and the second clamp body 2, first clamp body 1 and the combination of the second clamp body 2 Envelope for accommodating the cavity 3 of battery or battery material, first heating source 4 is with heat exchange pattern and battery in cavity 3 Or battery material carries out energy exchange, the cavity 3 is communicated with vacuum；The horizontal sectional area of the cavity 3 is more than or equal to 0.001 Square metre be less than or equal to 1 square metre；The volume of the cavity 3 is more than or equal to 0.00001 cubic metre and is less than or equal to 0.2 cubic metre. When the volume of battery or battery material 6 is larger, such as power battery or battery material, it can select and only set one layer of battery or battery Material, the battery or battery material number of horizontal direction are more preferably less than 5, when battery or battery material individual are smaller, such as hand Machine battery or battery material etc. can select the mode of lamination, the layer high quantity of upper and lower lamination preferably not more than 10 layers, The battery or battery material number of horizontal direction are more preferably less than 30, i.e. the volume of cavity 3 should not be excessive；When drying cylindrical electricity When pond or battery material, the battery or battery material branch that most the hot good conductor material of high specific heat such as aluminium alloy or copper alloy are used to be done It is dried on frame, the bracket that the hot good conductor material of high specific heat is done is conducive to heat transfer.The utility model is due to using cavity 3 Volume it is small, dry battery or battery material quantity are preferably controlled within 800 (pieces) every time, and using heat transfer Mode heats, and can thus control the time that battery or battery material are completely dried within proper range, cavity 3 is true Reciprocal of duty cycle 10^-6In the environment of -10000Pa, the battery drying time within capacity 20Ah including 20Ah can complete in 2-90 minutes； Battery drying time of the capacity in 20Ah -500Ah can complete in 10-240 minutes；Generally speaking, cavity is in vacuum degree 10^-6In the environment of -10000Pa, the deadline is dried in vacuo between 2-240 minutes；Really realize what battery or battery material were given birth to Fast beat production.The vacuum drying deadline in the utility model is completely dried the battery or electricity referred to when aqueous positive-pole material The water content of pond material is lower than 400ppm, and the battery or battery material water content of non-aqueous positive electrode are lower than used in 200ppm Time.

Thermal energy or cold energy energy source in the utility model refer to heating source or cooling source, when the utility model is in vacuum When removing water section, with heating source, when the utility model is in cooling stage, with cooling source (similarly hereinafter).

In the utility model, the first heating source 4 can be located in cavity 3, can also be located at the first clamp body 1 and/or On the outer wall of two clamp bodies 2, can also on the first clamp body 1 and/or the second clamp body 2, first clamp body 1 and/ Or second clamp body 2 be metal production, the first clamp body 1 and/or the second clamp body 2 that heat is done by metal are into cavity 3 Battery or battery material 6 conduct；Thermal energy or cold energy energy source 4 can also be located on Working gantry 7, and heat is done by metal The battery or battery material 6 of first clamp body 1 and/or the second clamp body 2 into cavity 3 conduct.

Preferably, when the first heating source 4 is located in cavity 3, in first heating source 4 and second clamp body 2 Between be equipped with the first elastic component 41, for will first heating source 4 and battery or battery material compression.Alternatively, can also set It counts into and is equipped with the first elastic component 41 between first heating source 4 and first clamp body 1, for being heated described first Source 4 and battery or battery material compress (not drawing).

It is equipped in order to reach sealing effect, on the outline border bottom surface between first clamp body 1 and the second clamp body 2 close Sealing 22.The sealing element 22 can be rubber seal, can also be with metal o-ring.

Preferably, the utility model is additionally provided with the second heating source 5, and the second heating source 5 is located on first clamp body 1, It is equipped with the second elastic component 51 between second heating source 5 and first clamp body 1, is used for second heating source 5 Battery or battery material 6 are compressed.Certainly, the second heating source 5 can also be directly arranged on 1 outer wall of the first clamp body or embedding On first clamp body 1, energy is transmitted to battery or battery material 6 with heat exchange pattern.

First heating source 4 and/or the second heating source 5, can oily warm, hydro-thermal, steam heat, electricity when it is as heat source Heat, electromagnetic heating or microwave heating；It, can be cooling as medium with refrigerants such as water cooling or liquid nitrogen when it is as cold source.On State the first elastic component 41 and the second elastic component 51 include but is not limited to be spring, be also possible to other elastic components etc., as long as energy The object for playing elastic reaction is possible.

When specifically, as dry 3C battery, the volume of the cavity 3 of low capacity thermal conductivity Minton dryer can be set Meter growth 300mm, width 250mm and high 30mm volume, can place 4 batteries, every two low capacity thermal conductivity vacuum every time As one group, setting is dried drying device in a rack.

The utility model can be dried in vacuo as dry cell pole piece (one kind of battery material) in low capacity thermal conductivity Mounted on top several layers battery pole piece in the cavity 3 of device, the first heating source 4 can be using electromagnetic ovens or micro-wave oven as heat Battery pole piece is in thermo-conducting manner heated in source, can also be with the second heating source 5, to battery in order to accelerate rate of drying The another side of pole piece by radiate or heat transfer in a manner of heated.

For the utility model as dry power battery (or the relatively large battery of volume), low capacity thermal conductivity vacuum is dry The volume of the cavity 3 of dry device can be designed to that the volume of 1-2 power battery can be accommodated, using the first heating source 4 and Two faces of heating source 5 are heated in thermo-conducting manner, compared with conventional oven, drying time can save half with On.

When the utility model is as drying cylindrical battery, first cylindrical battery can be put neatly with metal tray, Then pallet is put into togerther in cavity 3 and is dried；If soft-package battery mounted on top can be existed when dry soft-package battery In cavity 3 or the good soft-package battery of mounted on top is put into togerther in cavity 3 by metal tray and is dried.

In the utility model, when cavity 3 is in vacuum degree 10^-6It include 20Ah within capacity 20Ah in the environment of -10000Pa Battery drying time can complete in 2-90 minutes；Battery drying time of the capacity in 20Ah -500Ah can be in 10-240 It is completed in minute.

The utility model is due to using small cavity, generally 1-800 battery of receiving or battery material, i.e., big for volume Battery or battery material accommodate 1-5, battery small in size or battery material are accommodated within 800, compared to existing Dry to accommodate 5000 batteries or battery material or more every time, battery or battery material amount are much smaller；In addition, additional heat energy Or cold energy energy source in thermo-conducting manner directly heats battery or battery material, the promotion battery or electricity that can be exceedingly fast in this way Pond material heat, preheating time only need the time of the 4%-50% of existing drying box, and due to the intracorporal battery of single chamber or Battery material quantity is few, significantly shortens battery or battery material drying time.

Through testing, result of the utility model drying device compared with traditional drying case is as follows:

When can be seen that single battery or dry battery material from upper Tables 1 and 2, using identical condition such as vacuum degree 10^-6Between -10000Pa, the deadline is dried in vacuo between 2-240 minutes.

Fig. 4 is referred to, Fig. 4 is the schematic diagram of the section structure of dry second of the embodiment of fixture of the utility model.Shown in Fig. 4 Embodiment is identical as Fig. 1-embodiment illustrated in fig. 3 general structure, except that also having one of cavity 3 in the second clamp body 2 Part, a complete cavity 2 is constituted with a part of cavity of the first clamp body 1, is conducive to the dress of battery or battery material 6 in this way Enter, that is, when being packed into battery or battery material 6, battery or battery material 6 is put into some of the cavity 3 on the second clamp body 2 Interior, battery or battery material 6 will not sideslips.

Fig. 5 is referred to, Fig. 5 is the schematic perspective view of dry the third embodiment of fixture of the utility model.Shown in Fig. 5 Embodiment is identical as its general structure of Fig. 1-3 illustrated embodiment, except that being equipped with multi-layer cell or battery material in cavity 3 6, battery material can be with electrode slice etc., and it is 5 that every layer of horizontal plane, which has a row in 6 figure of multiple batteries or battery material, when So, multiple rows of, forming array arrangement can also be set in the Y direction, and the first heating source 4 and the second heating source 5 are respectively provided at the On the outer wall of one clamp body 1 and the second clamp body 2.In addition, the sealing structure that the present embodiment uses is shape metallic leak-proof structure 12.

Fig. 6 is the schematic perspective view of dry the 4th kind of embodiment of fixture of the utility model.Embodiment illustrated in fig. 6 and figure 5 illustrated embodiments are substantially the same, except that the first heating source 4 and the second heating source 5 are respectively provided on Working gantry 7, this Sample is conducive to after hauling out the first clamp body 1 and the second clamp body 2 completely, after battery or battery material 6 is added, then is pushed into work Make heating in rack 7.

Fig. 7 and Fig. 8 are referred to, Fig. 7 and Fig. 8 are the stereochemical structure signals of dry the 5th kind of embodiment of fixture of the utility model Figure, Fig. 7 and embodiment illustrated in fig. 8 are identical as Fig. 1-embodiment illustrated in fig. 3 general structure, except that first clamp body 1 and second clamp body 2 be to be connected by open-and-close mechanism 21, open-and-close mechanism 21 can be with open-and-close mechanisms such as hinge or double leval jibs.This Sample is more conducive to opening or closing for the first clamp body 1 and the second clamp body 2.

Fig. 9 and Figure 10 are referred to, Fig. 9 and Figure 10 are that the planar structure of dry the 6th kind of embodiment of fixture of the utility model is shown It is intended to.In Fig. 9 and embodiment illustrated in fig. 10, several upper cavities 32 are equipped in the first clamp body 1, on the second clamp body 2 It is equipped with the equal battery or battery material station or lower chamber 33 of quantity relative to the upper cavity 32, in this way, when the first fixture After body 1 and the second clamp body 2 closure, the electricity of pre- fixed limit number can be placed in cavity 3 single in this way with several cavitys 3 Pond or battery material, in Fig. 8, cavity 3 is 24, and such as single cavity places 50 batteries or battery material, then the 4th Embodiment can place 1200 batteries or battery material every time, can greatly improve the production capacity of the utility model. In practice, the structure with long row's Multicarity 3 of 1-3 row be it is preferred, be conducive to the design of intelligent drying system in this way, number of rows is too It is more, it is unfavorable for the fastening of the first clamp body 1 and the second clamp body 2.

1 and Figure 12 referring to Figure 1, Figure 11 and Figure 12 disclose the first embodiment that ground is a kind of intelligent drying system, including Several low capacity thermal conductivity Minton dryers 100, the single low capacity thermal conductivity Minton dryer 100 include At least one sealing is constituted after first clamp body 1 and the second clamp body 2, first clamp body 1 and the combination of the second clamp body 2 For directly accommodating the cavity 3 of pre- threshold quantity battery or battery material, on first clamp body 1 or the second clamp body 2 Certainly, the first heating source 4 can also be with for the first heating source 4 directly contacted equipped at least one with the one side of battery or battery material It is designed to not be the mode directly contacted with battery or battery material, and the cavity 3 is communicated with vacuum；First heating source 4 with heat exchange pattern being heated on one side to battery in cavity 3 or battery material；The horizontal sectional area of single cavity More than or equal to 0.001 square metre less than or equal to 1 square metre, the volume of single cavity is less than more than or equal to 0.00001 cubic metre etc. In 0.2 cubic metre.All first clamp bodies 1 are arranged in conveying device 110, and move with the conveying device 110, institute There is second clamp body 2 to be arranged in the second belt-type conveying device 120, and with the second belt-type conveying device 120 Movement；After battery or battery material 6 are installed on the second clamp body 2, first clamp body 1 is in the conveying device 110 It drives lower and the second clamp body 2 to fasten, so that the second clamp body 2 is combined formation with first clamp body 1 and accommodate battery or battery The cavity 3 of material；After the conveying device 110 and the second belt-type conveying device 120 move synchronously predetermined drying time, first Clamp body 1 and the separation of the second clamp body 2, blanking device take out the battery or battery material after drying.Conveying in the present embodiment Device 110 and the second belt-type conveying device 120 are belt conveyors, and the length of the second belt-type conveying device 120 is greater than The length of conveying device 110, for grow one section of front for feeding, one section had more below is used for blanking.

Preferably, the utility model further includes feeding device (not shown), and the feeding device is in first clamp body 1 Before the combination of the second clamp body 2, battery or battery material are packed into first clamp body 1 or the second clamp body 2.This is practical Novel further includes blanking device, the blanking device after first clamp body 1 and the separation of the second clamp body 2, by battery or Battery material takes out from first clamp body 1 or the second clamp body 2.The feeding device and blanking device may each be machine Tool hand.

Preferably, the utility model further includes vacuum distribution, and the vacuum distribution is only in drying process Low capacity thermal conductivity Minton dryer vacuumizes, and vacuum distribution is the prior art, repeats no more herein.

Preferably, the utility model further includes that intelligent controller is not drawn into, and the intelligent controller is dry for controlling intelligence Each section co-ordination of drying system.

Referring to Figure 13 to Figure 15, Figure 13 to Figure 15 are a kind of second embodiments of intelligent drying system with disclosing, including Several low capacity thermal conductivity Minton dryers 100, the single low capacity thermal conductivity Minton dryer 100 include At least one sealing is constituted after first clamp body 1 and the second clamp body 2, first clamp body 1 and the combination of the second clamp body 2 For directly accommodating the cavity 3 of pre- threshold quantity battery or battery material, on first clamp body 1 or the second clamp body 2 Equipped with the first heating source 4 that at least one is directly contacted with the one side of battery or battery material, and the cavity 3 and vacuum phase It is logical；All second clamp bodies 2 are arranged on disc-type conveying device 130, and transport with the disc-type conveying device 130 Dynamic, after battery or battery material 6 are installed on the second clamp body 2, first clamp body 1 exists in the clamping lower cover of manipulator On second clamp body 2, the second clamp body 2 is made to combine the cavity for being formed and accommodating battery or battery material with first clamp body 1 3；After disc-type conveying device 130 rotates predetermined drying time, manipulator separates the first clamp body 1 and the second clamp body 2, under Expect that device takes out the battery or battery material after drying.

Preferably, the utility model further includes feeding device (not shown), and the feeding device is in first clamp body 1 Before the combination of the second clamp body 2, battery or battery material are packed into first clamp body 1 or the second clamp body 2.This is practical Novel further includes blanking device, the blanking device after first clamp body 1 and the separation of the second clamp body 2, by battery or Battery material takes out from first clamp body 1 or the second clamp body 2.The feeding device and blanking device may each be machine Tool hand.

Preferably, the utility model further includes vacuum distribution 140, and the vacuum distribution 140 is only dried to handling Low capacity thermal conductivity Minton dryer in journey vacuumizes, and vacuum distribution is the prior art, is repeated no more herein.

Preferably, the utility model further includes intelligent controller (not shown), and the intelligent controller is for controlling intelligence Each section co-ordination of drying system.

The first heating source and/or the second heating source in the utility model can use electrical heat energy or cold energy energy source, hot oil The heating methods such as heating or steam heating.

6, Figure 16 is the planar structure signal of intelligent the third embodiment of drying system of the utility model referring to Figure 1 Figure.Several low capacity thermal conductivity Minton dryers 100 of this example are located on bracket 150, and multilayer is arranged up and down, Every layer of the second clamp body 2 is connect by its bottom plate 23 with bracket 150, is equipped with the first clamp body 1 in the second clamp body 2 and is constituted chamber Body 3 is equipped with the driving mechanism 8 for the first clamp body of opening and closing 1, the driving in the present embodiment on the first clamp body 1 Mechanism 8 can be with cylinder, and being also possible to others can be with the structure of the first clamp body of opening and closing 1.

7, Figure 17 is the planar structure signal of the 4th kind of embodiment of intelligent drying system of the utility model referring to Figure 1 Figure.The intelligence drying system includes several low capacity thermal conductivity Minton dryers 100, and each low capacity heat passes Conduction Minton dryer 100 includes the first clamp body 1 and the second clamp body 2, first clamp body 1 and the second clamp body 2 Constituted after combination at least one sealing for directly accommodating cavity 3 of pre- threshold quantity battery or battery material, described the One clamp body 1 or the second clamp body 2 are equipped at least one first heating directly contacted with the one side of battery or battery material Certainly, the first heating source 4 can also be designed to it is not the mode directly contacted with battery or battery material, and the cavity 3 in source 4 It is communicated with vacuum；First heating source 4 heating on one side to battery in cavity 3 or battery material with heat exchange pattern 's；The horizontal sectional area of single cavity is more than or equal to 0.001 square metre less than or equal to 1 square metre, and the volume of single cavity is big It is less than or equal to 0.2 cubic metre in being equal to 0.00001 cubic metre.All second clamp bodies 2 are arranged in conveying device 110, And moved with the conveying device 110, all first clamp bodies 1 are by being located at the feeding device of 110 front end of conveying device It carries out lid and closes feeding device also responsible loading battery or battery material 6, the low capacity thermal conductivity equipped with battery or battery material Minton dryer 100 moves backward, after the predetermined time, into discharge station；First clamp body 1 and the second fixture Body 2 separates, and blanking device 170 takes out the battery or battery material after drying.In the present embodiment above the conveying device 110 Equipped with safety guard 180, the safety guard 180 covers the part of the conveying device 110 in addition to feeding station and discharge station.

Cavity 3 in the utility model is 6 institute of battery or battery material when only referring to for accommodating battery or battery material 6 Corresponding part space.It, can when the upper plane of the lower plane of first clamp body 1 and the second clamp body 2 is all plane To be pressed from both sides with the lower plane of sealing element 22 and metal seal 12 and the first clamp body 1 in sealing element such as the utility model and second A confined space is constituted between specific 2 upper plane, at this moment, the volume of this confined space is greater than the volume of cavity 3 's.

8 and Figure 19 referring to Figure 1, Figure 18 and Figure 19 are the flat of the 5th kind of embodiment of intelligent drying system of the utility model Face structural schematic diagram.Wherein, Figure 19 is the A-A schematic cross-sectional view in Figure 18.

As can be seen from Fig., the intelligent drying system includes several low capacity thermal conductivity Minton dryers 100, Each low capacity thermal conductivity Minton dryer 100 includes the first clamp body 1 and the second clamp body 2, first folder Specific 1 and second clamp body 2 combine after constitute at least one sealing for directly accommodating pre- threshold quantity battery or battery material The cavity 3 of material is equipped with the one side of at least one and battery or battery material on first clamp body 1 or the second clamp body 2 Certainly, the first heating source 4 can also be designed to directly be contacted with battery or battery material to the first heating source 4 directly contacted Mode, and the cavity 3 is communicated with vacuum；First heating source 4 is with heat exchange pattern to battery or battery in cavity 3 Material is on one side heated；The horizontal sectional area of single cavity is more than or equal to 0.001 square metre less than or equal to 1 square Rice, the volume of single cavity are more than or equal to 0.00001 cubic metre and are less than or equal to 0.2 cubic metre.All low capacity heat transfer Formula Minton dryer 100 is arranged in first support 101, moves in one direction under the action of the first pushing meanss 102, When a most preceding low capacity thermal conductivity Minton dryer 100 reaches 101 predetermined position of first support, perpendicular to described Second pushing meanss 103 of first support 101, by low capacity thermal conductivity Minton dryer 100 along second support 104 towards hang down It is directly mobile in the direction of first support 101, make a reservation for when low capacity thermal conductivity Minton dryer 100 reaches second support 104 When position, perpendicular to second support 104 third pushing meanss 105 by low capacity thermal conductivity Minton dryer 100 along Three brackets 106 are towards reverse movement, when low capacity thermal conductivity Minton dryer 100 reaches the predetermined position of third bracket 106 When, the 4th pushing meanss 107 are by low capacity thermal conductivity Minton dryer 100 along the 4th bracket 108 to the side of first support To promotion, start bit 109 is returned to, is then recycled again；In start bit 109, battery or battery material are loaded into low capacity heat biography Conduction Minton dryer 100 is at least respectively provided with the first guide rail 111 as anode in the two sides of first support 101 With for the second guide rail 112 as cathode, the low capacity thermal conductivity Minton dryer 100 be respectively provided with The first contact portion that anode connects and the second contact portion for connecting with cathode, are given by the first contact portion and the second contact portion The first heating source 4 being located on low capacity thermal conductivity Minton dryer 100 or/and the second heating source 5 provide electric energy；? Cold source also can be set on three brackets 106, it, can be in third after low capacity thermal conductivity Minton dryer 100 is baked To low capacity thermal conductivity Minton dryer 100 on bracket 106, then, by battery or battery material at end station 113 It is taken out out of low capacity thermal conductivity Minton dryer 100.The mode of first guide rail 111 and the power supply of the second guide rail 112 is set, It can guarantee that low capacity thermal conductivity Minton dryer 100 is continuously mobile to direction initialization.

In the present embodiment, the mode of electric energy is provided in addition to can be by the way of the first guide rail 111 and the second guide rail 112 Outside, the resilient contact for being spaced a predetermined distance in the first support 101 and a pair of of positive and negative electrode being set can also be adopted, institute is worked as State low capacity thermal conductivity Minton dryer 100 it is mobile in place after, two resilient contacts respectively with low capacity heat transfer First contact portion of formula Minton dryer 100 and the second contact portion elastic connection, equally can achieve as low capacity heat transfer The purpose of formula Minton dryer 100.

In addition to this, the mode powered to low capacity thermal conductivity Minton dryer 100, is also designed to described The side of first support 101 connects equipped with several with the first contact portion of low capacity thermal conductivity Minton dryer 100 and second The corresponding float electrode of contact portion, behind the mobile designated position of low capacity thermal conductivity Minton dryer 100, the float electrode The first contact portion and the second contact portion are stretched to, provides electric energy to low capacity thermal conductivity Minton dryer 100.

Figure 20 and Figure 21 are referred to, Figure 20 and Figure 21 are the flat of the 6th kind of embodiment of intelligent drying system of the utility model Face structural schematic diagram.Wherein, Figure 21 is the B-B schematic cross-sectional view in Figure 20.

As can be seen from Fig., the intelligent drying system includes several low capacity thermal conductivity Minton dryers 100, Each low capacity thermal conductivity Minton dryer 100 includes the first clamp body 1 and the second clamp body 2, first folder Specific 1 and second clamp body 2 combine after constitute at least one sealing for directly accommodating pre- threshold quantity battery or battery material The cavity 3 of material is equipped with the one side of at least one and battery or battery material on first clamp body 1 or the second clamp body 2 Certainly, the first heating source 4 can also be designed to directly be contacted with battery or battery material to the first heating source 4 directly contacted Mode, and the cavity 3 is communicated with vacuum；First heating source 4 is with heat exchange pattern to battery or battery in cavity 3 Material is on one side heated；The horizontal sectional area of single cavity is more than or equal to 0.001 square metre less than or equal to 1 square Rice, the volume of single cavity are more than or equal to 0.00001 cubic metre and are less than or equal to 0.2 cubic metre.The intelligence drying system also wraps First support 101 and third bracket 106 are included, the first support 101 and about 106 third bracket are arranged in parallel, all described Low capacity thermal conductivity Minton dryer 100 is arranged in first support 101, court under the action of the first pushing meanss 102 One direction is mobile, when a most preceding low capacity thermal conductivity Minton dryer 100 reaches 101 predetermined position of first support When, under the effect of the first lifting device 114, low capacity thermal conductivity Minton dryer 100 is dropped into rising for third bracket 106 Beginning, positioned at the second pushing meanss 103 of the third bracket 106 starting, by low capacity thermal conductivity Minton dryer 100 Along third bracket 106 towards reverse movement, when low capacity thermal conductivity Minton dryer 100 reaches the predetermined of third bracket 106 When position, low capacity thermal conductivity Minton dryer 100 is risen to the direction of first support 101 by the second elevating mechanism 115 It pushes, returns to start bit 109, then recycle again；In start bit 109, battery or battery material are loaded into low capacity heat transfer Formula Minton dryer 100 is at least respectively provided with 111 He of the first guide rail as anode in the two sides of first support 101 For the second guide rail 112 as cathode, the low capacity thermal conductivity Minton dryer 100 be respectively provided with just The first contact portion that pole connects and the second contact portion for connecting with cathode, are set by the first contact portion and the second contact portion The first heating source 4 or/and the second heating source 5 on low capacity thermal conductivity Minton dryer 100 provide electric energy；In third Cold source also can be set on bracket 106, it, can be in third branch after low capacity thermal conductivity Minton dryer 100 is baked To low capacity thermal conductivity Minton dryer 100 on frame 106, then, at end station 113 by battery or battery material from It is taken out in low capacity thermal conductivity Minton dryer 100.The mode of first guide rail 111 and the power supply of the second guide rail 112 is set, it can To guarantee that low capacity thermal conductivity Minton dryer 100 is continuously mobile to direction initialization.

In the present embodiment, the mode of electric energy is provided in addition to can be by the way of the first guide rail 111 and the second guide rail 112 Outside, the resilient contact for being spaced a predetermined distance in the first support 101 and a pair of of positive and negative electrode being set can also be adopted, institute is worked as State low capacity thermal conductivity Minton dryer 100 it is mobile in place after, two resilient contacts respectively with low capacity heat transfer First contact portion of formula Minton dryer 100 and the second contact portion elastic connection, equally can achieve as low capacity heat transfer The purpose of formula Minton dryer 100.

In addition to this, the mode powered to low capacity thermal conductivity Minton dryer 100, is also designed to described The side of first support 101 connects equipped with several with the first contact portion of low capacity thermal conductivity Minton dryer 100 and second The corresponding float electrode of contact portion, behind the mobile designated position of low capacity thermal conductivity Minton dryer 100, the float electrode The first contact portion and the second contact portion are stretched to, provides electric energy to low capacity thermal conductivity Minton dryer 100.

Figure 22 and Figure 23 are referred to, Figure 22 and Figure 23 are the flat of the 7th kind of embodiment of intelligent drying system of the utility model Face structural schematic diagram.Wherein, Figure 23 is the F-F schematic cross-sectional view in Figure 22.

Figure 22 and embodiment illustrated in fig. 23 are substantially the same with implementation shown in Figure 18 and Figure 19, except that described first A part of frame 101 is provided with heating part 116, and remainder is provided with cooling segment 117, when low capacity thermal conductivity vacuum For drying device 100 when passing through on heating part 116, low capacity thermal conductivity Minton dryer 100 is heated baking, little Rong Calorimetric conduction-type Minton dryer 100 on cooling segment 117 when passing through, low capacity thermal conductivity Minton dryer 100 Cooled, the present embodiment belongs to external heating source and external cooling source structure.

Certainly, it can also be completely provided with heating part 116 in the first support 101, and is set on third bracket 106 It is equipped with cooling segment 117, when low capacity thermal conductivity Minton dryer 100 passes through in first support 101, low capacity heat Battery or battery material in conduction-type Minton dryer 100 are heated baking, low capacity thermal conductivity Minton dryer 100 on third bracket 106 when passing through, and the battery or battery material in low capacity thermal conductivity Minton dryer 100 are cold But.The present embodiment belongs to external heating source and external cooling source structure.

In the various embodiments described above, single 100 cavity of low capacity thermal conductivity Minton dryer is in vacuum degree 10^-6- In the environment of 10000Pa, the deadline is dried in vacuo between 2-240 minutes.

As it will be easily appreciated by one skilled in the art that the above is only the preferred embodiment of the utility model only, not To limit the utility model, any modification made within the spirit and principle of the present invention, equivalent replacement and change Into etc., it should be included within the scope of protection of this utility model.

Claims (17)

1. a kind of low capacity thermal conductivity Minton dryer, it is characterised in that: including the first clamp body (1), the second clamp body (2) and at least one first heating source (4), N number of sealing is constituted after first clamp body (1) and the second clamp body (2) combination For accommodating the cavity (3) of battery or battery material, wherein N is the integer more than or equal to 1, first heating source (4) with Heat exchange pattern carries out energy exchange with the interior battery of cavity (3) or battery material, and the single cavity (3) communicates with vacuum； The horizontal sectional area of the single cavity (3) is more than or equal to 0.001 square metre and is less than or equal to 1 square metre；The single cavity (3) Volume be more than or equal to 0.00001 cubic metre be less than or equal to 0.2 cubic metre.

2. a kind of low capacity thermal conductivity Minton dryer according to claim 1, it is characterised in that: further include second Heating source (5), second heating source (5) are located at the opposite side of first heating source (4), with the battery or battery material The another side of material carries out transducing.

3. a kind of low capacity thermal conductivity Minton dryer according to claim 1, it is characterised in that: described the The first elastic component (41) are equipped between one heating source (4) and first clamp body (1) or the second clamp body (2), are used for institute It states the first heating source (4) and battery or battery material compresses.

4. a kind of low capacity thermal conductivity Minton dryer according to claim 2, it is characterised in that: described second The second elastic component (51) are equipped between heating source (5) and second clamp body (2) or the first clamp body (1), being used for will be described Second heating source (5) and battery or battery material compress.

5. a kind of low capacity thermal conductivity Minton dryer according to claim 2, it is characterised in that: described The first elastic component (41) are equipped between one heating source (4) and first clamp body (1) or the second clamp body (2), are used for institute The one side for stating the first heating source (4) and battery or battery material compresses；Second heating source (5) is located at second clamp body (2) or on the first clamp body (1), second heating source (5) and second clamp body (2) or the first clamp body (1) it Between be equipped with the second elastic component (51), for will second heating source (5) and battery or battery material another side compression.

6. according to claim 1 to a kind of low capacity thermal conductivity Minton dryer described in any one of 5 claims, Be characterized in that: first clamp body (1) and the second clamp body (2) are connected by open-and-close mechanism (21).

7. according to claim 1 to a kind of low capacity thermal conductivity Minton dryer described in any one of 5 claims, Be characterized in that: first clamp body (1) and the second clamp body (2) are close by the sealing element (22) being arranged on outline border bottom surface Envelope connection.

8. according to claim 1 to a kind of low capacity thermal conductivity Minton dryer described in any one of 5 claims, It is characterized in that: several cavitys (3) of array arrangement on first clamp body (1) or the second clamp body (2).

9. a kind of intelligence drying system, it is characterised in that: including described in any one of several claims 1-8 claim Low capacity thermal conductivity Minton dryer.

10. intelligence drying system according to claim 9, it is characterised in that: including for true to low capacity thermal conductivity Empty drying device is packed into battery or battery material and covers the feeding device (160) of clamp body, for connecting low capacity heat transfer The first clamp body (1) of formula Minton dryer or the conveying device (110) of the second clamp body (2), for being passed from low capacity heat The blanking device (170) of battery or battery material is taken out in conduction Minton dryer；The feeding device (160) is the first machine Tool hand, the conveying device (110) are belt-type conveying device, and blanking device (170) is the second manipulator, and described first is mechanical Hand is located at the feeding end of the belt-type conveying device, and second manipulator is located at the discharging of the belt-type conveying device End.

11. intelligence drying system according to claim 9, it is characterised in that: including for true to low capacity thermal conductivity Empty drying device is packed into battery or battery material and covers the feeding device of clamp body, for connecting low capacity thermal conductivity vacuum The first clamp body (1) of drying device or the conveying device (110) of the second clamp body (2), for true from low capacity thermal conductivity The blanking device of battery or battery material is taken out in empty drying device；The feeding device is the first manipulator, the conveying dress Setting (110) is disc-type conveying device, and blanking device is the second manipulator, and first manipulator is located at the disc type conveying The pan feeding side of device, second manipulator are located at the exit side of the disc-type conveying device.

12. intelligence drying system according to claim 9, it is characterised in that: including rack, the low capacity thermal conductivity The first clamp body (1) of Minton dryer is fixed on the rack, and in the rack or rack side is equipped with the second folder The specifically open-and-close mechanism of (2), after open-and-close mechanism opens the second clamp body (2) and the first clamp body (1), handling equipment will To be baked or/cooling battery or battery material be packed into cavity (3) will toast or/battery after cooling or battery material from It is taken out in cavity (3).

13. intelligence drying system according to claim 12, it is characterised in that: first clamp body (1) and described the Two clamp bodies (2) are connected by open-and-close mechanism.

14. intelligence drying system according to claim 9, it is characterised in that: including for true to low capacity thermal conductivity Empty drying device is packed into the feeding device of battery or battery material, for connecting the of low capacity thermal conductivity Minton dryer The conveying device (110) of one clamp body (1) or the second clamp body (2), for from low capacity thermal conductivity Minton dryer Take out the blanking device of battery or battery material；The feeding device is the first manipulator, and the conveying device (110) is belt Formula conveying device, blanking device are the second manipulator, and first manipulator is located at the feeding end of the belt-type conveying device, Second manipulator is located at the discharge end of the belt-type conveying device；It is equipped with and uses in the top of the belt-type conveying device In the second belt-type conveying device (120) for connecting second clamp body (2) or the first clamp body (1)；When battery or battery After material is installed on the first clamp body (1) or the second clamp body (2), first clamp body (1) or the second clamp body (2) exist The second clamp body (2) or the first clamp body on the conveying device (110) and the second belt-type conveying device (120) (1) rotary fastening makes the second clamp body (2) or the first clamp body (1) and first clamp body (1) or the second clamp body (2) Combination forms the cavity (3) for accommodating battery or battery material；The conveying device (110) and the second belt-type conveying device (120) it moves synchronously predetermined drying or/and after cooling time, the two is separated, second manipulator takes out dry or/and cold But battery or battery material after.

15. intelligence drying system according to claim 9, it is characterised in that: all low capacity thermal conductivity vacuum Drying device (100) is arranged on first support (101), moves in one direction under the action of the first pushing meanss (102), When a most preceding low capacity thermal conductivity Minton dryer (100) reaches first support (101) predetermined position, perpendicular to The second pushing meanss (103) of the first support (101), by low capacity thermal conductivity Minton dryer (100) along second Bracket (104) is mobile towards the direction perpendicular to first support (101), when low capacity thermal conductivity Minton dryer (100) arrives When up to second support (104) predetermined position, low capacity heat is passed perpendicular to the third pushing meanss (105) of second support (104) Conduction Minton dryer (100) along third bracket (106) towards reverse movement, when low capacity thermal conductivity Minton dryer (100) when reaching the predetermined position of third bracket (106), low capacity thermal conductivity is dried in vacuo by the 4th pushing meanss (107) Device (100) is pushed along the 4th bracket (108) to the direction of first support, is returned to start bit (109), is then recycled again；? Start bit (109), battery or battery material are loaded into low capacity thermal conductivity Minton dryer (100), in end station (113) battery or battery material are taken out out of low capacity thermal conductivity Minton dryer (100) at.

16. intelligence drying system according to claim 9, it is characterised in that: including first support (101) and third bracket (106), the first support (101) and third bracket (106) are arranged in parallel up and down, all low capacity thermal conductivity vacuum Drying device (100) is arranged on first support (101), moves in one direction under the action of the first pushing meanss (102), When a most preceding low capacity thermal conductivity Minton dryer (100) reaches first support (101) predetermined position, first Under lifting device (114) effect, low capacity thermal conductivity Minton dryer (100) is dropped to the starting of third bracket (106) End is located at the second pushing meanss (103) of the third bracket (106) starting, by low capacity thermal conductivity Minton dryer (100) along third bracket (106) towards reverse movement, when low capacity thermal conductivity Minton dryer (100) reaches third bracket (106) when predetermined position, low capacity thermal conductivity Minton dryer (100) is risen to by the second elevating mechanism (115) The direction of one bracket (101) pushes, and returns to start bit (109), then recycles again；In start bit (109), battery or battery material Material is loaded into low capacity thermal conductivity Minton dryer (100), by battery or battery material from small at end station (113) It is taken out in capacity heat transfer formula Minton dryer (100).

17. intelligence drying system according to claim 15 or 16, it is characterised in that: the one of the first support (101) Part is provided with heating part (116), and remainder is provided with cooling segment (117), when low capacity thermal conductivity is dried in vacuo For device (100) when passing through on heating part (116), low capacity thermal conductivity Minton dryer (100) is heated baking, small Capacity heat transfer formula Minton dryer (100) on cooling segment (117) when passing through, low capacity thermal conductivity vacuum drying dress It is cooled to set (100)；Or heating part (116) are completely provided on the first support (101), and in third bracket (106) On be provided with cooling segment (117), when low capacity thermal conductivity Minton dryer (100) passes through on first support (101) When, battery or battery material in low capacity thermal conductivity Minton dryer (100) are heated baking, low capacity thermal conductivity Minton dryer (100) on third bracket (106) when passing through, in low capacity thermal conductivity Minton dryer (100) Battery or battery material are cooled.