CN204156038U - Electrolyte equipment for purifying - Google Patents

Abstract

The utility model discloses a kind of electrolyte equipment for purifying, aim to provide a kind of electrolyte equipment for purifying reducing impurity in electrolyte, its drip irrigation device is a kind of electrolyte equipment for purifying, it comprises feed tube, drain pipe, the mozzle of heating mechanism and setting, described heating mechanism conducting connects mozzle and feed tube and is arranged on below mozzle, dividing plate is provided with near place of heating mechanism in this mozzle, throughly on this dividing plate be provided with several glass tubes, the top end conducting of described mozzle is provided with blast pipe, cooler is provided with between described blast pipe and glass tube, described cooler conducting is connected with water inlet pipe and outlet pipe, the dome-type spherical shell of a rim of a bowl towards heating mechanism is provided with in described mozzle, this dome-type spherical shell to be located between cooler and glass tube and to be provided with the opening for upwards conducting electrolyte, one end of described drain pipe penetrates mozzle and arranges near opening.

Description

Electrolyte equipment for purifying

Technical field

It can be the device of electric energy for direct conversion chemistry that the utility model relates to a kind of, and more particularly, it relates to a kind of electrolyte equipment for purifying.

Background technology

Conventional lithium-ion battery electrolytes is generally have organic solvent and electrolyte (lithium salts) composition.Lithium ion battery is to the compatibility, conductivity etc. that require fail safe, oxidation stability and negative pole of solvent, and general requirement solvent has the feature such as higher dielectric constant, lower viscosity.Lithium ion battery generally adopts polar non-solute, present stage extensive use for carbonic ester series (comprising cyclic carbonate if EC and PC and linear carbonate are as DMC, EMC) and halogenation sulfoxide.Usual electrolyte solvent is mixed solvent.

Current ， Li Ammonium battery positive pole and negative pole, made by fluid injection nail pressing.Due to the existence of electrolyte impurity, affect the purity of battery electrolyte inside, in exoelectrical reaction process, impurity may participate in chemical reaction, and impurity is generated heat, and consumes electrolyte inside material again, new impurity may be produced again, thus reduce the output energy of battery, affect discharging efficiency, have a strong impact on the quality of battery.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of electrolyte equipment for purifying reducing impurity in electrolyte.

For achieving the above object, the utility model provides following technical scheme:

A kind of electrolyte equipment for purifying, it comprises feed tube, drain pipe, the mozzle of heating mechanism and setting, described heating mechanism conducting connects mozzle and feed tube and is arranged on below mozzle, dividing plate is provided with near place of heating mechanism in this mozzle, throughly on this dividing plate be provided with several glass tubes, the top end conducting of described mozzle is provided with blast pipe, cooler is provided with between described blast pipe and glass tube, described cooler conducting is connected with water inlet pipe and outlet pipe, the dome-type spherical shell of a rim of a bowl towards heating mechanism is provided with in described mozzle, this dome-type spherical shell to be located between cooler and glass tube and to be provided with the opening for upwards conducting electrolyte, one end of described drain pipe penetrates mozzle and arranges near opening.

By adopting technique scheme, electrolyte flows into heating mechanism by feed tube, then the feed liquor mouth of pipe is closed, heating mechanism is heated to boiling to electrolyte, electrolyte upwards flows in mozzle, through dividing plate and glass tube to the filtration of electrolyte, impurity in electrolyte is blocked, then electrolyte stream is after dome-type spherical shell, partial electrolyte liquid leads along dome-type spherical shell shell, flow out from drain pipe, the electrolyte of partial electrolyte liquid or one-tenth gaseous state continues to travel up to cooler, flow downward along mozzle inwall after being cooled, due to the setting of dome-type spherical shell, electrolyte is flowed out from drain pipe, but due to inner sealing heating, internal pressure is increased, at mozzle top, blast pipe is set, to guarantee that air pressure inside can not be excessive, by this equipment for purifying, can effective impurity in the electrolyte of place to go, and can continuous print from feed tube fluid injection, make equipment continuous operation.

The utility model is set to further: described heating mechanism comprises jacket, heating sleeve, electrolyte battery jar, described heating sleeve is arranged in jacket, described electrolyte battery jar is arranged in heating sleeve, this electrolyte battery jar is connected with mozzle conducting, be provided with insulated heat film between jacket and heating sleeve, one end conducting of described feed tube penetrates electrolyte battery jar.

By adopting technique scheme, the sheathed electrolyte battery jar of heating sleeve, carries out the heat trnasfer of maximum area to it, increase heating effect not, meanwhile, in order to keep the safety in production, add jacket at this heating sleeve skin.

The utility model is set to further: described heating mechanism comprises temperature-sensing probe, heating sleeve connecting line, described temperature-sensing probe end is inserted electrolyte battery jar and is tightly connected with electrolyte battery jar, described heating sleeve connecting line one end couples heating sleeve, and the described heating sleeve connecting line other end and temperature-sensing probe couple.

By adopting technique scheme, the connecting line of the connecting line of temperature-sensing probe and heating sleeve is together coupled on controller, make controller by the temperature feedback of temperature-sensing probe, control the heating power of heating sleeve, thus control heating mechanism to the heating of electrolyte, electrolyte can not be changed because heating-up temperature is too high.

The utility model is set to further: described blast pipe comprises an exhaust outlet and exhaust link flange, this blast pipe and mozzle Flange joint.

By adopting technique scheme, blast pipe and mozzle are passed through Flange joint, good sealing effectiveness can be played, and flange is detachable, facilitates cleaning and the replacing of internal part.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the utility model electrolyte equipment for purifying embodiment.

Reference numeral: 1, feed tube; 2, drain pipe; 3, mozzle; 31, dividing plate; 32, glass tube; 33, cooler; 331, water inlet pipe; 332, outlet pipe; 34, dome-type spherical shell; 4, hypertherm; 41, jacket; 42, heating sleeve; 43, electrolyte battery jar; 44, insulated heat film; 45, temperature-sensing probe; 46, heating sleeve connecting line; 47, controller; 5, blast pipe; 51, exhaust outlet; 52, link flange is vented.

Embodiment

With reference to Fig. 1, the utility model electrolyte equipment for purifying embodiment is described further.

A kind of electrolyte equipment for purifying, it comprises feed tube 1, drain pipe 2, the mozzle 3 of hypertherm 4 structure and setting, described hypertherm 4 structure conducting connects mozzle 3 and feed tube 1 and is arranged on below mozzle 3, dividing plate 31 is provided with near hypertherm 4 structure place in this mozzle 3, throughly on this dividing plate 31 be provided with several glass tubes 32, the top end conducting of described mozzle 3 is provided with blast pipe 5, cooler 33 is provided with between described blast pipe 5 and glass tube 32, the conducting of described cooler 33 is connected with water inlet pipe 331 and outlet pipe 332, the dome-type spherical shell 34 of a rim of a bowl towards hypertherm 4 structure is provided with in described mozzle 3, this dome-type spherical shell 34 to be located between cooler 33 and glass tube 32 and to be provided with the opening for upwards conducting electrolyte, one end of described drain pipe 2 penetrates mozzle 3 and arranges near opening.

Described dividing plate 31 is porous tetrafluoro plate, tetrafluoro plate has the glass tube 32 of much in disorder middle with hole, and dome-type spherical shell 34 is made for glass, and this spherical shell side is provided with opening, and drain pipe 2 port is lower than this opening, and cooler 33 is that annular is around setting.

Electrolyte flows into hypertherm 4 structure by feed tube 1, then feed tube 1 mouthful is closed, hypertherm 4 structure is heated to boiling to electrolyte, electrolyte upwards flows in mozzle 3, through the filtration of dividing plate 31 with glass tube 32 pairs of electrolyte, impurity in electrolyte is blocked, then electrolyte stream is after dome-type spherical shell 34, partial electrolyte liquid leads along dome-type spherical shell 34 shell, flow out from drain pipe 2, the electrolyte of partial electrolyte liquid or one-tenth gaseous state continues to travel up to cooler 33, flow downward along mozzle 3 inwall after being cooled, due to the setting of dome-type spherical shell 34, electrolyte is flowed out from drain pipe 2, but due to inner sealing heating, internal pressure is increased, at mozzle 3 top, blast pipe 5 is set, to guarantee that air pressure inside can not be excessive, by this equipment for purifying, can effective impurity in the electrolyte of place to go, and can continuous print from feed tube 1 fluid injection, make equipment continuous operation.

Described hypertherm 4 structure comprises jacket 41, heating sleeve 42, electrolyte battery jar 43, described heating sleeve 42 is arranged in jacket 41, described electrolyte battery jar 43 is arranged in heating sleeve 42, this electrolyte battery jar 43 is connected with mozzle 3 conducting, be provided with insulated heat film 44 between jacket 41 and heating sleeve 42, one end conducting of described feed tube 1 penetrates electrolyte battery jar 43.

Heating sleeve 42 is alkali-free glass fibre insulating material, by CR20Ni80 B alloy wire spring arrangement wherein.With the cotton injection mo(u)lding of alumina silicate alloy, jacket 41 is that stainless steel makes, and the insulated heat film 44 between heating collar and jacket 41 is alkali-free glass fibre insulated heat materials, and described electrolyte battery jar 43 globulate, size and heating collar match.

The sheathed electrolyte battery jar 43 of heating sleeve 42, carries out the heat trnasfer of maximum area to it, increase heating effect not, meanwhile, in order to keep the safety in production, add jacket 41 at this heating sleeve 42 skin.

Described hypertherm 4 structure comprises temperature-sensing probe 45, heating sleeve connecting line 46, described temperature-sensing probe 45 end is inserted electrolyte battery jar 43 and is tightly connected with electrolyte battery jar 43, described heating sleeve connecting line 46 one end couples heating sleeve 42, and described heating sleeve connecting line 46 other end and temperature-sensing probe 45 couple.

Described temperature-sensing probe 45 can be temperature switch, and model is 39416128 IR temperature sensor sensing rod for temperature, and this element couples heating sleeve connecting line 46, controls temperature in electrolyte battery jar 43; Another kind of scheme: temperature-sensing probe 45 selects the safe section temperature-sensing probe 45601H-R of TYCO, the connecting line of the connecting line of temperature-sensing probe 45 and heating sleeve 42 is together coupled on controller 47, make controller 47 by the temperature feedback of temperature-sensing probe 45, control the heating power of heating sleeve 42, thus control the hypertherm 4 structure heating-up temperature different to electrolyte, electrolyte can not be changed because heating-up temperature is too high.

Described blast pipe 5 comprises an exhaust outlet 51 and exhaust link flange 52, this blast pipe 5 and mozzle 3 Flange joint.

Blast pipe 5 and mozzle 3 are passed through Flange joint, good sealing effectiveness can be played, and flange is detachable, facilitates cleaning and the replacing of internal part.

The course of work is: electric liquid is flow to electrolyte battery jar 43 by inlet, enters to a certain degree etc. electrolyte stream, and when being greater than 1/2 of electrolyte container, by the mains switch of controller 47, the temperature according to humidostat setting starts heating.Meanwhile, cooling water switch is opened.When electrolyte heating reach uniform temperature come to life time, electrolyte cross glass tube 32 rises, when rising to cooler 33 position, electrolyte drop to hemispheroidal around, electric liquid flows to electrolyte complex salt tank from drain pipe 2.

The above is only preferred implementation of the present utility model, protection range of the present utility model be not only confined to above-described embodiment, and all technical schemes belonged under the utility model thinking all belong to protection range of the present utility model.It should be pointed out that for those skilled in the art, do not departing from the some improvements and modifications under the utility model principle prerequisite, these improvements and modifications also should be considered as protection range of the present utility model.

Claims (4)

1. an electrolyte equipment for purifying, it is characterized in that: it comprises feed tube, drain pipe, the mozzle of heating mechanism and setting, described heating mechanism conducting connects mozzle and feed tube and is arranged on below mozzle, dividing plate is provided with near place of heating mechanism in this mozzle, throughly on this dividing plate be provided with several glass tubes, the top end conducting of described mozzle is provided with blast pipe, cooler is provided with between described blast pipe and glass tube, described cooler conducting is connected with water inlet pipe and outlet pipe, the dome-type spherical shell of a rim of a bowl towards heating mechanism is provided with in described mozzle, this dome-type spherical shell to be located between cooler and glass tube and to be provided with the opening for upwards conducting electrolyte, one end of described drain pipe penetrates mozzle and arranges near opening.

2. electrolyte equipment for purifying according to claim 1, it is characterized in that: described heating mechanism comprises jacket, heating sleeve, electrolyte battery jar, described heating sleeve is arranged in jacket, described electrolyte battery jar is arranged in heating sleeve, this electrolyte battery jar is connected with mozzle conducting, be provided with insulated heat film between jacket and heating sleeve, one end conducting of described feed tube penetrates electrolyte battery jar.

3. electrolyte equipment for purifying according to claim 1 and 2, it is characterized in that: described heating mechanism comprises temperature-sensing probe, heating sleeve connecting line, described temperature-sensing probe end is inserted electrolyte battery jar and is tightly connected with electrolyte battery jar, described heating sleeve connecting line one end couples heating sleeve, and the described heating sleeve connecting line other end and temperature-sensing probe couple.

4. electrolyte equipment for purifying according to claim 1, is characterized in that: described blast pipe comprises an exhaust outlet and exhaust link flange, this blast pipe and mozzle Flange joint.