CN209560546U - A kind of heat dissipation simulation analysis system of the lithium ion battery based on big data - Google Patents

Abstract

The utility model discloses a kind of heat dissipation simulation analysis systems of lithium ion battery based on big data of the heat dissipation simulation analysis system technical field of lithium ion battery, first hot-wire anemometer is installed at the assembly of the blast pipe and insulated cabinet, the discharge pipe and with the second hot-wire anemometer is installed at the assembly of insulated cabinet, the inner cavity top of the insulated cabinet is fixedly installed the first non-contacting infrared thermal detector, the second non-contacting infrared thermal detector is fixedly installed at the top center of the insulated cabinet, the flow valve, first hot-wire anemometer, second hot-wire anemometer, electrically output connects data computation module for first non-contacting infrared thermal detector and the second non-contacting infrared thermal detector, by corresponding electronic equipment may be implemented electrical equipment heat dissipation capacity it is automatic test and it is unattended, substantially increase test accuracy rate and testing efficiency, So as to accurately simulate the heat dissipating state of lithium battery.

Description

A kind of heat dissipation simulation analysis system of the lithium ion battery based on big data

Technical field

It is specially a kind of based on big number the utility model relates to the heat dissipation simulation analysis system technical field of lithium ion battery According to lithium ion battery heat dissipation simulation analysis system.

Background technique

In recent years, the development of new energy is noticeable, especially the high speed development of lithium ion battery, becomes new energy industry In focus concerned by people, but lithium ion battery is for a long time using giving out more heat, therefore for lithium ion battery Heat dissipation be particularly important, therefore it is necessary to carry out the measurement and control research of lithium ion battery heat dissipation capacity, pass through measuring property Test and nargin cleaning analysis, determine heat dissipation figureofmerit, so that the efficient cooling scheme design for lithium battery provides data supporting, For this purpose, it is proposed that a kind of heat dissipation simulation analysis system of the lithium ion battery based on big data.

Utility model content

The purpose of this utility model is to provide a kind of heat dissipation simulation analysis system of lithium ion battery based on big data, To solve the problems mentioned in the above background technology.

To achieve the above object, the utility model provides the following technical solutions: a kind of lithium ion battery based on big data Heat dissipation simulation analysis system, including bottom plate is fixedly installed insulated cabinet, the left and right sides of the insulated cabinet at the top of the bottom plate Blast pipe and discharge pipe are respectively fixedly connected on wall, the left end of the blast pipe, which is fixedly connected with, is fixed on bearing at the top of bottom plate Pressure fan is equipped with flow valve on the blast pipe, the first hot line wind speed is equipped at the assembly of the blast pipe and insulated cabinet Instrument, the discharge pipe and with the second hot-wire anemometer is installed at the assembly of insulated cabinet, the intracavity bottom of the insulated cabinet is fixed It is provided with lithium battery ontology, the inner cavity top of the insulated cabinet is fixedly installed the first non-contacting infrared thermal detector, the insulation The second non-contacting infrared thermal detector is fixedly installed at the top center of case, the top left side of the insulated cabinet is fixedly installed list The left side wall top of piece machine, the insulated cabinet is fixedly installed display module, the flow valve, the first hot-wire anemometer, second Electrically output connection data calculate mould for hot-wire anemometer, the first non-contacting infrared thermal detector and the second non-contacting infrared thermal detector Block, electrically output connection wireless transport module, the wireless transport module electrically export the long-range control of connection eventually to the single-chip microcontroller End.

Preferably, the single-chip microcontroller electrically output connection display module and negative-pressure air fan respectively, and the negative-pressure air fan and Lithium battery ontology is electrically connected.

Preferably, the right end of the blast pipe and the left end of discharge pipe extend to after extending through the left and right sidewall of insulated cabinet It is insulated box cavity, and is nested sealing rubber ring at the assembly of the blast pipe and discharge pipe and insulated cabinet.

Preferably, the left side wall of the insulated cabinet offers the card slot matched with display module.

Preferably, the nominal accuracy of the flow valve is 5%.

Preferably, it is provided on the insulated cabinet for line interface.

Compared with prior art, the utility model has the beneficial effects that the structure design of the utility model is reasonable, pass through negative pressure Blower can realize aeration operation, and measure intake by flow valve, connect by the way that the first non-contacting infrared thermal detector and second are non- Touching infrared temperature measurement device detects the temperature inside insulated cabinet and on outer wall respectively, passes through the first hot-wire anemometer and the second hot line wind speed Instrument detects the temperature and flow velocity of the air on blast pipe and discharge pipe respectively, can complete the heat dissipation data to lithium battery and carry out in fact When monitor, the data of acquisition be transferred to data computation module carry out data calculating, by chip microcontroller to calculate data divide Analog simulation processing is analysed and completed, and battery heat dispersal situations are gone out according to heat dissipation digital simulation, is carried out by the heat dissipation to lithium battery Simulation analysis realizes real-time exhibition by display module, efficiently cold convenient for electrical equipment convenient for understanding the heat dispersal situations of lithium battery But the design of scheme, while the automatic of electrical equipment heat dissipation capacity may be implemented by corresponding electronic equipment and test and unmanned value It keeps, substantially increases test accuracy rate and testing efficiency, so as to accurately simulate the heat dissipating state of lithium battery.

Detailed description of the invention

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is utility model works schematic diagram.

In figure: 1 bottom plate, 2 insulated cabinets, 3 blast pipes, 4 discharge pipes, 5 negative-pressure air fans, 6 flow valves, 7 first hot-wire anemometers, 8 second hot-wire anemometers, 9 lithium battery ontologies, 10 first non-contacting infrared thermal detectors, 11 second non-contacting infrared thermal detectors, 12 Single-chip microcontroller, 13 display modules, 14 data computation modules, 15 wireless transport modules, 16 remote control terminals.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of technical solution referring to FIG. 1-2: a kind of lithium ion battery based on big data dissipates Hot simulation analysis system, including bottom plate 1, the top of bottom plate 1 are fixedly installed insulated cabinet 2, distinguish in the left and right sidewall of insulated cabinet 2 It is fixedly connected with blast pipe 3 and discharge pipe 4, the left end of blast pipe 3 is fixedly connected with the negative-pressure air fan 5 for being fixed on 1 top of bottom plate, Flow valve 6 is installed on blast pipe 3, the first hot-wire anemometer 7, discharge pipe 4 are installed at the assembly of blast pipe 3 and insulated cabinet 2 With the second hot-wire anemometer 8 is installed at the assembly with insulated cabinet 2, the intracavity bottom of insulated cabinet 2 is fixedly installed lithium battery sheet Body 9, the inner cavity top of insulated cabinet 2 are fixedly installed the first non-contacting infrared thermal detector 10, fix at the top center of insulated cabinet 2 It is provided with the second non-contacting infrared thermal detector 11, the top left side of insulated cabinet 2 is fixedly installed single-chip microcontroller 12, a left side for insulated cabinet 2 Top side wall is fixedly installed display module 13, and flow valve 6, the first hot-wire anemometer 7, the second hot-wire anemometer 8, first is non-connects Touching infrared temperature measurement device 10 and the second non-contacting infrared thermal detector 11, electrically output connection data computation module 14, single-chip microcontroller 12 are electric Property output connection wireless transport module 15, the electrical output connection remote control terminal 16 of wireless transport module 15.

Wherein, electrically output connects display module 13 and negative-pressure air fan 5, and negative-pressure air fan 5 and lithium electricity to single-chip microcontroller 12 respectively Pond ontology 9 is electrically connected；

The right end of blast pipe 3 and the left end of discharge pipe 4 extend to insulated cabinet 2 after extending through the left and right sidewall of insulated cabinet 2 Inner cavity, and sealing rubber ring is nested at the assembly of blast pipe 3 and discharge pipe 4 and insulated cabinet 2；

The left side wall of insulated cabinet 2 offers the card slot matched with display module 13；

The nominal accuracy of flow valve 6 is 5%；

It is provided on insulated cabinet 2 for line interface.

Embodiment: the device can realize aeration operation when in use, by negative-pressure air fan 5, can be by blast pipe 3 to exhausted Ventilation is realized inside hot tank 2, intake is measured by flow valve 6, and pass through the first hot-wire anemometer 7 and the second hot line wind speed Instrument 8 detects the temperature and flow velocity of blast pipe 3 and the air on discharge pipe 4 respectively, and passes through the first non-contacting infrared thermal detector 10 and second non-contacting infrared thermal detector 11 detect the temperature on the inside of insulated cabinet 2 and outer wall respectively, can complete to lithium battery The heat dissipation data of ontology 9 carry out real-time monitoring, and the data of acquisition are transferred to data computation module 14 and carry out data calculating, pass through list Piece machine 12 is realized to the analysis for calculating data and completes analog simulation processing, and battery heat dissipation feelings can be gone out according to heat dissipation digital simulation Condition, carries out simulation analysis by the heat dissipation to lithium battery ontology 9, realizes real-time exhibition by display module 13, convenient for understanding lithium The heat dispersal situations of battery body 9, convenient for the design of the efficient cooling scheme of electrical equipment, while can be with by corresponding electronic equipment Realize electrical equipment heat dissipation capacity it is automatic test with it is unattended, substantially increase test accuracy rate and testing efficiency, so as to Enough heat dissipating states for accurately simulating lithium battery ontology 9, and emulation data can be passed through wireless transmission mould by single-chip microcontroller 12 Block 15 is transferred to remote control terminal 16.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of heat dissipation simulation analysis system of the lithium ion battery based on big data, including bottom plate (1), it is characterised in that: institute State and be fixedly installed at the top of bottom plate (1) insulated cabinet (2), be respectively fixedly connected in the left and right sidewall of the insulated cabinet (2) into The left end of air hose (3) and discharge pipe (4), the blast pipe (3) is fixedly connected with the negative-pressure air fan being fixed at the top of bottom plate (1) (5), it is equipped with flow valve (6) on the blast pipe (3), is equipped with first at the assembly of the blast pipe (3) and insulated cabinet (2) Hot-wire anemometer (7), the discharge pipe (4) and be equipped with the second hot-wire anemometer (8) at the assembly of insulated cabinet (2), it is described The intracavity bottom of insulated cabinet (2) is fixedly installed lithium battery ontology (9), and the inner cavity top of the insulated cabinet (2) is fixedly installed First non-contacting infrared thermal detector (10) is fixedly installed the survey of the second non-contacting infrared at the top center of the insulated cabinet (2) The top left side of warm device (11), the insulated cabinet (2) is fixedly installed single-chip microcontroller (12), the left side wall top of the insulated cabinet (2) Portion is fixedly installed display module (13), the flow valve (6), the first hot-wire anemometer (7), the second hot-wire anemometer (8), Electrically output connects data computation module for one non-contacting infrared thermal detector (10) and the second non-contacting infrared thermal detector (11) (14), the single-chip microcontroller (12) electrically output connection wireless transport module (15), the wireless transport module (15) electrically export It connects remote control terminal (16).

2. a kind of heat dissipation simulation analysis system of lithium ion battery based on big data according to claim 1, feature Be: electrically output connects display module (13) and negative-pressure air fan (5), and the negative-pressure air fan to the single-chip microcontroller (12) respectively (5) it is electrically connected with lithium battery ontology (9).

3. a kind of heat dissipation simulation analysis system of lithium ion battery based on big data according to claim 1, feature Be: the right end of the blast pipe (3) and the left end of discharge pipe (4) extend to after extending through the left and right sidewalls of insulated cabinet (2) Insulated cabinet (2) inner cavity, and sealant is nested at the assembly of the blast pipe (3) and discharge pipe (4) and insulated cabinet (2) Circle.

4. a kind of heat dissipation simulation analysis system of lithium ion battery based on big data according to claim 1, feature Be: the left side wall of the insulated cabinet (2) offers the card slot matched with display module (13).

5. a kind of heat dissipation simulation analysis system of lithium ion battery based on big data according to claim 1, feature Be: the nominal accuracy of the flow valve (6) is 5%.

6. a kind of heat dissipation simulation analysis system of lithium ion battery based on big data according to claim 1, feature It is: is provided on the insulated cabinet (2) for line interface.