CN207467348U - Lithium band transporter bucket with function of temperature control - Google Patents
Lithium band transporter bucket with function of temperature control Download PDFInfo
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- CN207467348U CN207467348U CN201721518210.5U CN201721518210U CN207467348U CN 207467348 U CN207467348 U CN 207467348U CN 201721518210 U CN201721518210 U CN 201721518210U CN 207467348 U CN207467348 U CN 207467348U
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- temperature control
- ladle body
- magnetic field
- plate
- lithium band
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Abstract
The utility model is related to lithium band transport field, particularly a kind of lithium band transporter bucket with function of temperature control, including:The ladle body of rectangle;Stent, the stent is mounted in the ladle body, for placing lithium band;Magnetothermal effect device, the magnetothermal effect device, which is removably installed in the inner wall of the ladle body and magnetothermal effect can occur by the magnetic material of itself, to be made in the ladle body to cool down or heat up, the goal of the invention of the utility model, which is to provide, a kind of enables environment temperature of the lithium with institute's lay down location in transportational process to stablize cooling or heating, while the gas of the environment is made not accelerate the band transporter bucket of the lithium with function of temperature control of flowing because of cooling or temperature-rise period again.
Description
Technical field
The utility model is related to lithium band transport field, particularly a kind of lithium band transporter bucket with function of temperature control.
Background technology
Lithium is applied more and more wider in our life, and demand is increasing, wherein, the use demand of field of batteries
It is growing.
In the upstream manufacturer of lithium battery manufacturer, lithium material extruding is needed to become band-like lithium band, then lithium band is rolled up
Get up to form plate-like, then be packaged, supply the manufacturer in downstream.
Since lithium is a kind of extremely unstable metal, so it is supplied to the transportational process of downstream manufacturers after packaging, it is right
Temperature requirement of the lithium with local environment is very high, when reaching certain temperature, needs to cool down to transportation environment, existing transport system
In system, the mostly of use are compressor cooling modes, but have the process of gas circulation in the mode of this refrigeration, if lucky lithium
The encapsulation of band is broken, although temperature control, in the range of meeting the requirements, process of refrigerastion can accelerate the lithium band that encapsulation damages
Oxidation process, cause a series of serious accidents.
Utility model content
In view of the problems of the existing technology, the goal of the invention of the utility model is that providing one kind makes lithium band transportational process
The environment temperature of middle institute's lay down location can stablize cooling or heating, while make the gas of the environment will not be because of cooling or heating again
Process accelerates the band transporter bucket of the lithium with function of temperature control of flowing.
To achieve these goals, the technical solution adopted in the utility model is:
A kind of lithium band transporter bucket with function of temperature control, including:
The ladle body of rectangle;
Stent, the stent is mounted in the ladle body, for placing lithium band;
Magnetothermal effect device, the magnetothermal effect device are removably installed in the inner wall of the ladle body and can be by certainly
Magnetothermal effect, which occurs, for the magnetic material of body makes in the ladle body to cool down or heat up.
Magnetothermal effect (MCE) is also known as magneto-caloric effect, is a kind of inherent characteristic of magnetic material, in phase transition temperature(Including occupying
In temperature and first order phase change temperature)Nearby significantly, magnetothermal effect is the spin motion due to unpaired electron, magnetic material
Inside is there is a large amount of magnetic moment, the direction random distribution of internal magnetic moment, disorderly and unsystematic when material is in zero magnetic field, this
When magnetic entropy it is larger;After externally-applied magnetic field, magnetic moment is intended to regularly arranged along magnetic direction, and the degree of order improves, and magnetic entropy is remarkably decreased, to
The external world releases heat;Magnetic field is removed under adiabatic conditions, and magnetic moment is again unordered, and randomness increase corresponds to larger magnetic entropy, material
Material absorbs heat from the external world, so as to fulfill refrigeration.
The application then by the magnetothermal effect device of setting, realizes magnetothermal effect, since magnetothermal effect is removably to pacify
Inner wall loaded on the ladle body so before being installed in ladle body, just starts magnetothermal effect device, externally-applied magnetic field(Relatively
The outside of magnetic material rather than the outside of ladle body, magnetothermal effect device include magnetic material and magnetic field emitting devices), it is magnetic
Magnetic moment in material is intended to regularly arranged along magnetic direction, and the degree of order improves, and magnetic entropy is remarkably decreased, and outwardly releases heat,
After heat release, then magnetothermal effect device is kept externally-applied magnetic field state, installed in ladle body, then carry out the transport of lithium band,
In transportational process, if lithium band institute lay down location(Inside ladle body)Environment temperature it is excessively high, be more than threshold value, can be to the steady of lithium band
It is qualitative to impact, then cool down at this time, remove magnetic field, the magnetic moment in magnetic material is again unordered, randomness increase,
Corresponding to larger magnetic entropy, material absorbs heat from the external world, so as to fulfill refrigeration, if temperature is too low, externally-applied magnetic field again,
With above-mentioned principle, realize heating, the temperature in ladle body is adjusted, whole process will not cause certain as compressor
The flowing of gas in ladle body if there is the damaged lithium band of encapsulation and is in relatively stable state, effectively prevents accelerating envelope
The oxidation process of the lithium band of damage is filled, avoids causing a series of serious accidents.
As the preferred embodiment of the utility model, the magnetothermal effect device includes:
Temperature control plate is made of ferrimagnet and is removably installed in the ladle body;
Emission of magnetic field plate is internally provided with the coil for generating magnetic field, and removably adjacent is installed on the control
By warm plate.
Emission of magnetic field plate is installed on by the temperature control plate, the temperature control plate for emitting magnetic field since its is adjacent(By ferromagnetic
Property material form)The magnetothermal effect can occur under the influence of magnetic field, realize function of temperature control.
As the preferred embodiment of the utility model, the temperature control plate is made of ferrite, and ferrite is high frequency permeability magnetic material,
Under the influence of the magnetic field of emission of magnetic field plate transmitting, the magnetothermal effect of generation is stronger, and temperature control is sensitiveer, and refrigeration or heating effect are more
It is good.
As the preferred embodiment of the utility model, the stent includes:
Several first sliding rails being horizontally installed on inside the ladle body;
Several support plates that can be slidably matched with first sliding rail;
The one side of the ladle body, which is provided with, several corresponding with the support plate installation site be capable of the first of folding and open
Mouthful, the support plate can be slided along corresponding first sliding rail and is open across described first.
The cargo handling process for making lithium band is more efficient, and handling are more convenient.
As the preferred embodiment of the utility model, two adjacent with setting the side of first opening in the ladle body
Vertical this only has several second sliding rails on side, and the temperature control plate and emission of magnetic field plate can be slided with second sliding rail matches
It closes, is provided at the top of the ladle body and corresponding with the temperature control plate and emission of magnetic field plate installation site is capable of the second of folding
Opening, the temperature control plate and emission of magnetic field plate can be slided along corresponding second sliding rail and be open across described second,
Make the cargo handling process of temperature control plate and emission of magnetic field plate more efficient, after in supporting rack, installation is complete, then carry out temperature control plate and
The installation of emission of magnetic field plate, effectively prevents interference problem.
As the preferred embodiment of the utility model, if the ladle body inner wall is disposed with dry temperature sensor, the temperature passes
Sensor connects the emission of magnetic field plate and the temperature sensor is set to:Temperature raising reaches given threshold in the ladle body
When, the emission of magnetic field plate weakens the intensity in the magnetic field of its generation or closes the magnetic field of its generation, and cooling is realized in magnetic entropy increase.
As the preferred embodiment of the utility model, several annulus to raise up, the circle are provided in the support plate
The lithium band that the internal diameter of ring and the side bucket are transported matches, and convenient for the handling of lithium band, while also makes lithium band on the supporting plate
Placement status is more stable, is readily transported.
The beneficial effects of the utility model are:
The application realizes magnetothermal effect, since magnetothermal effect is to be removably installed by the magnetothermal effect device of setting
In the inner wall of the ladle body, so before being installed in ladle body, just start magnetothermal effect device, externally-applied magnetic field(With respect to magnetic
Property the outside of the material rather than outside of ladle body, magnetothermal effect device includes magnetic material and magnetic field emitting devices), magnetic material
Magnetic moment in material is intended to regularly arranged along magnetic direction, and the degree of order improves, and magnetic entropy is remarkably decreased, and outwardly releases heat, heat
After amount release, then magnetothermal effect device is kept externally-applied magnetic field state, installed in ladle body, then carry out the transport of lithium band,
In transportational process, if lithium band institute lay down location(Inside ladle body)Environment temperature it is excessively high, be more than threshold value, can be to the stabilization of lithium band
Property impact, then cool down at this time, remove magnetic field, the magnetic moment in magnetic material is again unordered, randomness increase, right
Answer larger magnetic entropy, material absorbs heat from the external world, so as to fulfill refrigeration, if temperature is too low, externally-applied magnetic field again, together
Above-mentioned principle is realized heating, the temperature in ladle body is adjusted, whole process will not cause certain bucket as compressor
The flowing of gas in body if there is the damaged lithium band of encapsulation and is in relatively stable state, effectively prevents accelerating encapsulation
The oxidation process of the lithium band of damage avoids causing a series of serious accidents.
Description of the drawings
Fig. 1 is the structure diagram of the utility model;
Fig. 2 is the structure diagram after the hiding magnetothermal effect device of the utility model;
Fig. 3 is the structure diagram after the hiding stent of the utility model;
Fig. 4 is the structure diagram of the support plate of the utility model;
It is marked in figure:1- ladle bodies, 2- support plates, 3- annulus, 4- second are open, 5- temperature control plates, 6- emission of magnetic field plates, 7-
One opening, the first sliding rails of 8-, the second sliding rails of 9-.
Specific embodiment
The utility model is described in further detail with reference to embodiment and specific embodiment.It but should not be by this
The range for being interpreted as the above-mentioned theme of the utility model is only limitted to following embodiment, all invention content institutes based on the utility model
The technology of realization belongs to the scope of the utility model.
Embodiment 1
Such as Fig. 1-3, a kind of lithium band transporter bucket with function of temperature control, including:
The ladle body 1 of rectangle;
Stent, the stent is mounted in the ladle body 1, for placing lithium band;
Magnetothermal effect device, the magnetothermal effect device are removably installed in the inner wall of the ladle body 1 and can pass through
Magnetothermal effect, which occurs, for the magnetic material of itself makes in the ladle body 1 to cool down or heat up.
In the present embodiment, the magnetothermal effect device includes:
Temperature control plate 5 is made of ferrimagnet and is removably installed in the ladle body 1, and the temperature control plate 5 is by iron
Oxysome is formed;
Emission of magnetic field plate 6 is internally provided with the coil for generating magnetic field, and removably adjacent is installed on the control
By warm plate 5, the S-type path of coil is arranged in emission of magnetic field plate 6.
In the present embodiment, such as Fig. 2, the stent includes:
Several first sliding rails 8 being horizontally installed on inside the ladle body 1;
Several support plates 2 that can be slidably matched with first sliding rail 8, be provided in the support plate 2 it is several upwards
The annulus 3 of protrusion(Such as Fig. 4), the lithium band that the internal diameter of the annulus 3 is transported with side bucket matches, supported in the present embodiment
The quantity of plate 2 is 10, corresponding, and 8 quantity of the first sliding rail is 20, is arranged on two opposite inner walls of ladle body 1, single
Support plate 2 on, 3 quantity of annulus be 9;
The one side of the ladle body 1, which is provided with, several corresponding with 2 installation site of support plate is capable of the first of folding
Opening 7, the support plate 2 can be slided along corresponding first sliding rail 8 and pass through the described first opening 7(First opening, 7 number
Measure is 5), such as Fig. 3, this only has vertically on two sides adjacent with setting the side of first opening 7 in the ladle body 1
Several second sliding rails 9, the temperature control plate 5 and emission of magnetic field plate 6 can be slidably matched with second sliding rail 9, the ladle body 1
Top be provided with it is corresponding with the temperature control plate 5 and 6 installation site of emission of magnetic field plate be capable of folding second opening 4, institute
Stating temperature control plate 5 and emission of magnetic field plate 6 can slide along corresponding second sliding rail 9 and across the described second opening 4, described
Second 4 quantity of opening are 1, the temperature control plate 5 and emission of magnetic field plate 6 each one, and then quantity is 4 to second sliding rail 9,
2 correspond to temperature control plate 5 and emission of magnetic field plate 6 respectively for one group.
Meanwhile if 1 inner wall of the ladle body is disposed with dry temperature sensor, the temperature sensor connects the emission of magnetic field
The plate 6 and temperature sensor is set to:When temperature raising reaches given threshold in the ladle body 1, the emission of magnetic field plate 6
Weaken the intensity in the magnetic field of its generation or close the magnetic field of its generation, when temperature reduces arrival given threshold in the ladle body 1, institute
Stating emission of magnetic field plate 6 enhances the intensity in its magnetic field generated.
Claims (7)
1. a kind of lithium band transporter bucket with function of temperature control, including:
The ladle body of rectangle;
Stent, the stent is mounted in the ladle body, for placing lithium band;
It is characterized in that, it further includes:
Magnetothermal effect device, the magnetothermal effect device be removably installed in the inner wall of the ladle body and can by itself
Magnetothermal effect, which occurs, for magnetic material makes in the ladle body to cool down or heat up.
2. the lithium band transporter bucket according to claim 1 with function of temperature control, which is characterized in that the magnetothermal effect device
Including:
Temperature control plate is made of ferrimagnet and is removably installed in the ladle body;
Emission of magnetic field plate is internally provided with the coil for generating magnetic field, and removably adjacent is installed on the temperature control plate
It is other.
3. the lithium band transporter bucket according to claim 2 with function of temperature control, which is characterized in that the temperature control plate is by iron oxygen
Body is formed.
4. the lithium band transporter bucket according to claim 3 with function of temperature control, which is characterized in that the stent includes:
Several first sliding rails being horizontally installed on inside the ladle body;
Several support plates that can be slidably matched with first sliding rail;
The one side of the ladle body is provided with several the first openings for being capable of folding corresponding with the support plate installation site, institute
Stating support plate can slide along corresponding first sliding rail and be open across described first.
5. the lithium band transporter bucket according to claim 4 with function of temperature control, which is characterized in that with setting in the ladle body
Vertical this only has several second sliding rails, the temperature control plate and emission of magnetic field on two adjacent sides of described first side being open
Plate can be slidably matched with second sliding rail, be provided at the top of the ladle body and the temperature control plate and emission of magnetic field plate
Corresponding the second opening for being capable of folding of installation site, the temperature control plate and emission of magnetic field plate can be along corresponding described second
Sliding rail is slided and is open across described second.
6. the lithium band transporter bucket according to claim 5 with function of temperature control, which is characterized in that the ladle body inner wall arrangement
If there is dry temperature sensor, the temperature sensor connects the emission of magnetic field plate and the temperature sensor is set to:Institute
When stating temperature raising arrival given threshold in ladle body, the emission of magnetic field plate weakens the intensity in the magnetic field of its generation or closes its production
Raw magnetic field.
7. the lithium band transporter bucket according to claim 6 with function of temperature control, which is characterized in that set in the support plate
There are several annulus to raise up, the lithium band that the internal diameter of the annulus is transported with side bucket matches.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721518210.5U CN207467348U (en) | 2017-11-14 | 2017-11-14 | Lithium band transporter bucket with function of temperature control |
Applications Claiming Priority (1)
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CN201721518210.5U CN207467348U (en) | 2017-11-14 | 2017-11-14 | Lithium band transporter bucket with function of temperature control |
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CN207467348U true CN207467348U (en) | 2018-06-08 |
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ID=62260364
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CN201721518210.5U Active CN207467348U (en) | 2017-11-14 | 2017-11-14 | Lithium band transporter bucket with function of temperature control |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111645997A (en) * | 2020-05-28 | 2020-09-11 | 上海海事大学 | Cold-hot double-effect logistics box adopting vacuum heat insulation plate and magnetic refrigeration technology |
CN111994476A (en) * | 2020-08-24 | 2020-11-27 | 广州思睿国际物流有限公司 | Cold-chain logistics box based on multi-type goods intermodal transportation and use method thereof |
CN113524488A (en) * | 2021-06-02 | 2021-10-22 | 曹英建 | Polyethylene hot cutting granulation equipment |
-
2017
- 2017-11-14 CN CN201721518210.5U patent/CN207467348U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111645997A (en) * | 2020-05-28 | 2020-09-11 | 上海海事大学 | Cold-hot double-effect logistics box adopting vacuum heat insulation plate and magnetic refrigeration technology |
CN111994476A (en) * | 2020-08-24 | 2020-11-27 | 广州思睿国际物流有限公司 | Cold-chain logistics box based on multi-type goods intermodal transportation and use method thereof |
CN113524488A (en) * | 2021-06-02 | 2021-10-22 | 曹英建 | Polyethylene hot cutting granulation equipment |
CN113524488B (en) * | 2021-06-02 | 2023-07-21 | 湖北康泰塑料有限公司 | Polyethylene hot-cutting granulation equipment |
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