CN205084757U - Built -in sour purifier of temperature sensor - Google Patents

Abstract

The utility model provides a sour purifier, includes: treat the sour container of purification for hold and treat that the purification is sour, the heater for the sour container of purification is treated in the heating, in order to obtain hot acid steam, the condenser disposes as and carries out the condensation to hot acid steam, the purification acidizing fluid receiving flask of being connected with the condenser for the purification of collecting after the condensation is sour, the controller for control each part operation with the purification technology of tingling, acidizing fluid temperature sensor is arranged in the inside of treating that the purification is sour for the temperature of the purification acidizing fluid body is treated in the measurement, controller set temperature threshold value wherein, this temperature and temperature threshold value are compared to the temperature of receiving acidizing fluid temperature sensor measurement to control heater correspondingly. According to the utility model discloses inside the acidizing fluid was arranged in to sour purifier, temperature sensor, the measuring temperature equaled or equals basically the temperature of acidizing fluid, had guaranteed temperature measurement's accuracy.

Description

The sour purifier that temperature sensor is built-in

Technical field

The utility model relates generally to acid solution purifying, relates to sour purifier apparatus particularly.

Background technology

Trace, the ultra trace analysis in laboratory often will use ultrapure acid, therefore need by the acid of ordinary purity under state is boiled in Asia slow evaporation out, and condensation, collection become the higher acid of purity.

Acid purifier generally has heating function, temp. control function, liquid level monitoring function and condensation function, so as acid solution to be heated, temperature controls, liquid level monitoring and carry out condensation and collection.

During obtainable sour purifier designs on the market at present, usually there is the shortcoming of following several respects;

1, temperature controls:

(1) traditional solution is corroded by high-temperature strong acid easily for avoiding temperature sensor, its temperature sensor is arranged on container exterior, avoid contacting with strong acid, the temperature of what but such mounting means was measured is container outer wall, the true temperature of acid solution cannot be reflected, usual solution temperature will differ 5-20 DEG C with the temperature of container outer wall, and the measure error of temperature is very large.

(2) temperature controller of traditional solution is many gears type, instead of continuously adjustabe type, probably can only set a temperature value, cannot accurately set.

2, Liquid level:

(1) for the liquid level of original acid solution, what traditional solution adopted is that the mode of range estimation liquid level tube is to judge liquid level.Once personnel forget timely range estimation, dry combustion method great risk even on fire will be had.

(2) for the liquid level of high-purity acid solution, existing solution is without any automatic detection and control measure.Once liquid level overfill, acid solution will overflow bottle, corrosion periphery object.

3, control condensation and computer heating control:

(1) existing solution adopts Air flow or the running water type of cooling.These two kinds of modes all do not have temperature to indicate cooling effect.

(2) these two kinds of modes easily affect by air themperature and tap water temperature condition, once temperature or water temperature rise, cooling effect is by influenced.

(3) water-cooled mode from the beginning, causes the risk that cannot cool in addition because cutting off the water.

(4) existing solution adopts infrared lamp or resistance wire to be used as thermal source, is naked light, the inflammable gas of surrounding of easily igniting;

(5) once temperature controller lost efficacy, continuation is heated by infrared lamp or resistance wire, causes instrument to burn the great risk of even laboratory fire.

Utility model content

For the present situation of prior art, make the utility model.

According to an aspect of the present utility model, provide a kind of sour purifier, comprising: sour container to be purified, for holding acid to be purified; Heater, for heating sour container to be purified, to obtain hot acid steam; Condenser, is configured to carry out condensation for hot acid steam; The purifying acid solution receiving flask be connected with condenser, for collecting the acid of condensed purifying; Controller, runs for controlling all parts to carry out sour purifying process; Acid liquor temperature sensor, is placed in the inside of acid to be purified, for measuring the temperature of acid solution body to be purified; Its middle controller set temperature threshold value, receives the temperature of acid liquor temperature sensor measurement, by this temperature compared with temperature threshold, and correspondingly control heater.

In one example, described acid liquor temperature sensor is thermocouple type temperature sensor, article two, thermocouple wire is placed in polytetrafluoroethylene PTFE capillary, PTFE capillary is placed in stay pipe, stay pipe is placed in sour container to be purified, and PTFE capillary is extended to outside sour container to be purified by the connecting hole on the wall of sour container to be purified.

In one example, described stay pipe lower end is connected with tube wrapping device, PTFE capillary in described stay pipe through stay pipe endoporus out, and the hole again through stay pipe after winding with one circuit on tube wrapping device enters stay pipe, then upwards extend along stay pipe, the last hole from stay pipe also extends to outside sour container to be purified by the connecting hole the wall of sour container to be purified, wherein thermocouple head part is in one week that described PTFE capillary is wound, and thermocouple head part and PTFE capillary contact.

In one example, described two thermocouple wire subtends make contact to and seem a wire, and subtend contact portion becomes thermocouple head.

In one example, described acid liquor temperature sensor is thermocouple type temperature sensor, and the surface parcel PTFE integument of thermocouple wire, the position of thermocouple probe adopts hot-press method that thermocouple probe and PTFE integument are combined closely.

In one example, thermocouple wire exists one or more seal point, adopt at seal point place hot-press method to make thermocouple wire and PTFE integument brought close.

In one example, described controller can continuity ground set temperature threshold value.

In one example, described condenser comprises Peltier peltier cooler, condenser bodies and refrigerant temperature sensors, " cold water " cooled in Peltier peltier cooler, the acid vapor being entered condenser bodies pair and condenser bodies housing contacts by the pressure of water pump is cooled, " hot water " is entered in Peltier peltier cooler by water pump and cools, go round and begin again, periodic duty, refrigerant temperature sensors measures the temperature of cold-producing medium in Peltier peltier cooler.

In one example, for thickness is less than the barrier film of predetermined threshold bottom described condenser bodies, barrier film contacts with hot acid steam, cools hot acid steam, and condensed purifying acid enters purifying acid solution receiving flask by drainage tube.

In one example, the middle part of condenser bodies is divided into two parts by a baffle plate, to guide water (flow) direction, make internal temperature evenly.

In one example, described refrigerant temperature sensors adopts capillary type thermocouple; On pipeline between peltier cooler and condenser bodies, capillary type thermocouple injects pipeline, and insert port has been carried out encapsulation process.

In one example, sour purifier is placed in fume hood, but described peltier cooler and controller is placed on outside fume hood.

In one example, acid purifier also comprises: non-contact type ultrasonic liquid level sensor, be arranged on the outer surface of container, and not with container surfaces contact, for automatically measuring the liquid level of the acid to be purified in sour container to be purified, and the signal of the instruction liquid level of measurement is sent to controller, controller receives the signal of this instruction liquid level, when the signal of this instruction liquid level is lower than predetermined threshold, transmit control signal, to control to stop sour purifying process.

In one example, sour purifier also comprises: pressure sensor, for automatically responding to the weight of purifying acid solution receiving flask, and sends the signal of instruction weight to controller; And controller receives the signal of this instruction weight, when the signal of this instruction weight exceedes predetermined threshold, transmit control signal, to control to stop sour purifying process.

In one example, purifying acid solution receiving flask is positioned on pallet, and pallet adopts flange design, prevents acid solution from dripping to pressure sensor inside; And described pressure sensor design has leakage outlet, thus when sensor internal has acid solution to enter, this leakage can be discharged.

In one example, pressure sensor has carried out PTFE surface spraying.

In one example, heater is ptc heater.

In one example, controller comprises the computer as host computer and the single-chip microcomputer as slave computer, and the data between all the sensors and computer are conveyed through communication and carry out.

According to the sour purifier of the utility model embodiment, temperature sensor is placed in acid solution inside, and measured temperature equals or substantially equals the temperature of acid solution, ensure that thermometric accuracy.

Accompanying drawing explanation

Below in conjunction with accompanying drawing in the detailed description of the utility model embodiment, these and/or other side of the present utility model and advantage will become clearly and be easier to understand, wherein:

Fig. 1 shows the schematic perspective view of the sour purifier according to the utility model embodiment.

Fig. 2 shows the structural representation of the sour purifier according to the utility model embodiment.

Fig. 3 (a) and (b) respectively illustrate three-dimensional view according to the integrated form of the utility model embodiment acid solution position to be purified control assembly 300 and profile.

Fig. 4 (a) and (b) respectively illustrate stereogram according to the thermocouple type temp sensor device 400 of the utility model embodiment and profile.

Fig. 5 shows the schematic perspective view of the thermocouple type temperature sensor 500 according to the utility model embodiment.

Fig. 6 shows the topology example of the condenser bodies 600 according to the utility model embodiment.

Fig. 7 (a) and (b) show structural representation according to the interim gathering-device 700 of the pure acid of the utility model embodiment and profile.

Fig. 8 (a) and (b) show stereogram and the front view of the structure of the heater 800 according to the utility model embodiment.

Fig. 9 (a) and (b) show the stereogram being configured with the sour purifier of ultrasonic liquid level sensor 900 according to the utility model embodiment and profile.

Figure 10 (a) shows the schematic perspective view according to relative position relation between the pure acid solution receiving flask 4 of the utility model embodiment and pressure sensor and relevant portion 1000, and Figure 10 (b) shows the profile according to the utility model embodiment pressure sensor and relevant portion 1000.

Detailed description of the invention

In order to make those skilled in the art understand the utility model better, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

First illustratively, in this article, term " original acid ", " acid to be purified ", " acid to be purified " represent same implication, and refer to as purifying object inputs the acid solution of sour purifier, these terms are used interchangeably.Term " purifying acid " and " pure acid " represent same implication, are used interchangeably, refer to the acid solution obtained after sour purifier purification process.

Fig. 1 shows the schematic perspective view of the sour purifier according to the utility model embodiment.

The integrated form acid solution position to be purified control assembly E that exemplary acids purifier shown in Fig. 1 comprises original acid (acid namely to be purified) relevant portion A (comprise sour container to be purified, heater and condenser, after will describe in detail), purifying acid is collected part B, base portion C and is connected with sour container to be purified.Original acid (acid namely to be purified) relevant portion A comprises sour container to be purified, heater and condenser, after will describe in detail.

Fig. 2 shows the structural representation of the sour purifier according to the utility model embodiment.

Acid purifier comprises sour container 1 to be purified, heater 2, condenser 3, purifying acid solution receiving flask 4, integrated form acid solution to be purified position control assembly (not shown in Fig. 2, the part that in Fig. 1, label E indicates), controller (not shown).

Sour container 1 to be purified is for holding acid to be purified (be sometimes also called original acid herein, both are used interchangeably).Heater 2 heats sour container to be purified, to obtain hot acid steam.Condenser 3 carries out condensation for heating the hot acid steam obtained.Purifying acid solution receiving flask 4 is connected with condenser, for collecting the acid of condensed purifying.Controller runs for controlling all parts to carry out sour purifying process.

In one example, controller comprises host computer and slave computer two parts, host computer can be general-purpose computer as desktop computer, notebook computer, mobile terminal etc., be wherein provided be suitable for perform control software; Slave computer is such as single-chip microcomputer or Special Programmable Logic Controller etc.; each sensor wherein in sour purifier can send signal to slave computer; with wired or wireless mode, coherent signal is sent to host computer after slave computer process; host computer carries out corresponding calculating, command signal is sent to slave computer by process, judgement; slave computer is issued an order to all parts again, such as shut down, start, report to the police, time setting, threshold value setting etc.But this mode is only example, can carry out as required adjusting or changing.

For ease of describing, hereinafter sometimes claiming host computer to be " computer ", claiming slave computer to be " single-chip microcomputer ".

In the illustrated example shown in fig. 2, inner at sour container 1 to be purified, be placed with temperature sensor 5, this temperature sensor 5 is placed on the inside of acid to be purified, contacts with acid solution, for measuring the temperature of acid solution body to be purified, controller set temperature threshold value, receive the temperature of acid liquor temperature sensor measurement, by the temperature of this measurement compared with temperature threshold, and correspondingly control heater.Describe in detail to the implementation example of built-in temperature sensor below.

The overall workflow of the brief once sour purifier of the utility model embodiment below.

A) add original acid solution from addition funnel, and observe liquid level change, to suitable liquid level.

B) open the software in host computer, setting heating-up temperature (not being above the boiling point) and time, after clicking " beginning " key, heater starts heating.

C) temperature sensor constantly gathers the temperature signal of acid solution, and sends computer to, and software is according to setting value and actual value, and whether automatic decision continues heating or stop, thus keeps acid liquor temperature to be stabilized in setting value.

D) original acid solution is lower than at the temperature of boiling point, and slow evaporation, acid vapor is condenser condenses, and then is that pure sour collecting frame is collected.These acid solutions collected can enter receiving flask by drainage tube.

E) when arriving the running time of setting, program stops automatically, and whole process terminates.

F) in program operation process, original acid solution level controller constantly gathers the liquid level change of original acid solution, and sends computer to, when reaching the minimum preset, and can automatic terminator.

G) in program operation process, pure acid solution level controller constantly gathers the change of receiving flask weight, and sends computer to, when reaching the peak preset, and can automatic terminator.

Follow-up with reference to accompanying drawing introduction according to the structure of all parts of the utility model embodiment and operation principle.

One, embodiment 1: integrated form acid solution position to be purified control assembly

According to an embodiment of the present utility model, sour purifier is configured with integrated form acid solution position to be purified control assembly.

Fig. 3 (a) and (b) respectively illustrate three-dimensional view according to the integrated form of the utility model embodiment acid solution position to be purified control assembly 300 (such as, can be used as the parts E shown in Fig. 1) and profile.Integrated form acid solution position to be purified control assembly 300 is configured to the integration of addition funnel 310, liquid level tube 320 and removal waste fluid valve 330, it is inner that acid to be purified enters sour container to be purified by addition funnel 310, the liquid level of liquid level tube 320 reflects the liquid level of sour container to be purified, can effluent discharge when removal waste fluid valve 330 is opened.

Lid 340 covers on addition funnel 310, and fixed screw holes 350 and 360 is for being fixed on sour container to be purified 1 as shown in Figure 2 by acid solution position to be purified for integrated form control assembly 300 by screw.

370 and 380 indicate upper interface section and lower interface part respectively, UNICOM inner with sour container to be purified.390 instruction removal waste fluid mouths, when opening a removal waste fluid valve 330, the solution in sour container 1 to be purified is discharged from removal waste fluid mouth 390 via lower interface part 380.

The integrated form acid solution position to be purified control assembly 300 of the present embodiment can be concentrated and realize liquid feeding, discharge opeing and level monitoring function, particularly:

Liquid feeding: uncap 340, pours original acid solution into addition funnel 310, and liquid can enter sour purifier body interior by two paths up and down of upper interface section 370 and lower interface part 380 UNICOM.

Discharge opeing: rotary rowed waist valve 90 °, waste liquid will be discharged from removal waste fluid mouth 390.

Liquid level: by observing liquid level tube 320, current level situation can be estimated.

Liquid level tube, addition funnel, removal waste fluid valve integrate by the integrated form acid solution position to be purified control assembly 300 of the present embodiment, both can observe liquid level change, can carry out liquid feeding again as funnel, all right removal waste fluid; Traditional funnel, liquid level tube and the removal waste fluid valve scheme disconnected from each other that avoids adds the trouble that funnel before and after acid solution needs installing/dismounting, thus avoids funnel and deposit pollution in process.

Two, embodiment 2: built-in temperature sensor device

As previously mentioned, in traditional sour purifier, corroded easily by high-temperature strong acid for avoiding temperature sensor, temperature sensor is installed in container exterior, avoid contacting with strong acid, but such mounting means measures is the temperature of container outer wall, cannot reflect the true temperature of acid solution, usual solution temperature will differ 5-20 DEG C with the temperature of container outer wall, and the measure error of temperature is very large; And in prior art, typical temperature controller is many gears type, instead of continuously adjustabe type, probably can only set a temperature value, temperature setting accurately cannot be carried out.

According to embodiment of the present utility model, provide a kind of built-in temperature sensor device, temperature sensor is directly placed in acid solution.Controller set temperature threshold value, receives the temperature of acid liquor temperature sensor measurement, by this temperature compared with temperature threshold, and correspondingly control heater.

In one example, thermocouple type temperature sensor and matching component is adopted.The temp sensor device of this embodiment needs to solve two problems: 1, thermocouple wire directly can not contact with acid solution with thermocouple head; 2, the medium temperature that thermocouple head contacts will equal or substantially equal the temperature of acid solution.

In one example, adopt capillary thermocouple call wire (such as, external diameter is about 0.8mm), this thermocouple is penetrated in PTFE (polytetrafluoroethylene (PTFE)) capillary of internal diameter such as about 1mm, then PTFE capillary is through stay pipe endoporus, and enter stay pipe again after winding with one circuit on tube wrapping device, then two PTFE capillaries are extended outside bucket by the connecting hole on sour purifying wall again.

In one example, article two, thermocouple wire can be placed in polytetrafluoroethylene PTFE capillary, PTFE capillary is placed in stay pipe, and stay pipe is placed in sour container to be purified, and PTFE capillary is extended to outside sour container to be purified by the connecting hole on the wall of sour container to be purified.

In one example, described stay pipe lower end is connected with tube wrapping device, PTFE capillary in described stay pipe through stay pipe endoporus out, and the hole again through stay pipe after winding with one circuit on tube wrapping device enters stay pipe, then upwards extend along stay pipe, the last hole from stay pipe also extends to outside sour container to be purified by the connecting hole the wall of sour container to be purified, wherein thermocouple head part is in one week that described PTFE capillary is wound, and thermocouple head part and PTFE capillary contact.

In one example, described two thermocouple wires subtend can make contact to and seem a wire, and subtend contact portion becomes thermocouple head.

Fig. 4 (a) and (b) respectively illustrate stereogram according to the thermocouple type temp sensor device 400 of the utility model embodiment and profile.

Label 441 indicates the thermocouple leads line part such as entering stay pipe 410, and its outer cover has PTFE (polytetrafluoroethylene (PTFE)) capillary.PTFE material can tolerate 250 degree of high temperature and strong acid and strong base corrosion, is equivalent to put on layer protecting film to thermocouple, serves etch-proof effect.Here PTFE material can replace by material that is high temperature resistant by other and strong acid and strong base corrosion.

Then thermocouple leads line is along stay pipe 410 to downward-extension, from stretching out close to the outlet (not shown) around tube wall 420 on stay pipe 410, then the entrance (not shown) after winding with one circuit on tube wrapping device 420 again on stay pipe 410 enters stay pipe 410, then upwards extend along stay pipe 410, finally stretch out from stay pipe 420 upper outlet (not shown), the part 442 of then stretching out from stay pipe 420 is stretched out outside sour purifier by the connecting hole sour purifying wall.Thermocouple induction 450 is positioned at one week that described PTFE capillary is wrapped in around tube wall 420, such as, be in as shown in the figure and locate immediately below tube wall 420, to contact with acid solution.By the revolution mode of tube wrapping device circle, the crackly problem of PTFE capillary that direct doubling can be avoided to cause.

The temperature sensed to make thermocouple induction head is the temperature of acid solution, carry out the diameter design of thermocouple wire and PTFE capillary, make thermocouple wire and PTFE capillary close contact, such as, diameter difference between PTFE capillary and thermocouple wire is less than 2mm, preferably be less than 1mm, be more preferably less than 0.5mm.

Fig. 5 shows the schematic perspective view of the thermocouple type temperature sensor 500 according to another embodiment of the utility model.

As shown in Figure 5, PTFE integument 520 in thermocouple wire (two) 510 outer wrapping.The medium temperature that thermocouple induction head and thermocouple probe 530 directly contact should equal or substantially equal the temperature of acid solution, for this reason, thermocouple induction head close contact PTFE integument should be made, PTFE integument directly contacts acid solution, can think that the temperature of PTFE integument equals the temperature of acid solution.For ensureing the close contact of this thermocouple induction head and PTFE integument, in the example depicted in fig. 5, hot-press method is adopted to make probe and the perfect adaptation of PTFE wall in the position that namely thermocouple induction head pops one's head in.Further, enter for stopping cool ambient air and cause interference, wire devises multiple seal point 540, also adopt hot-press method sealing.

Thermocouple leads line is such as capillary thermocouple call wire, and such as external diameter is about 0.8mm, and thermocouple gauge bread wraps up in the PTFE integument of wall thickness about such as 0.5mm.PTFE material can tolerate 250 degree of high temperature and strong acid and strong base corrosion, is equivalent to put on layer protecting film to thermocouple, serves etch-proof effect.And probe positions is fully combined with thin-walled by hot-press method, thermometric more accurately, quicker.

Three, embodiment 3: condenser, peltier cooler, the interim gathering-device of pure acid and heater

As previously mentioned, traditional sour purifier adopts Air flow or the running water type of cooling.These two kinds of modes all do not have temperature to indicate cooling effect; And these two kinds of modes easily affect by air themperature and tap water temperature condition, once temperature or water temperature rise, cooling effect is by influenced; Water-cooled mode from the beginning in addition, causes the risk that cannot cool in addition because cutting off the water.

Peltier peltier cooler, condenser bodies, refrigerant temperature sensors is comprised according to the condenser of the utility model embodiment, wherein cooled in Peltier peltier cooler " cold water ", the acid vapor being entered condenser bodies pair and condenser bodies housing contacts by the pressure of water pump is cooled, " hot water " is entered in Peltier peltier cooler by water pump and cools, go round and begin again, periodic duty

Refrigerant temperature sensors measures the temperature of cold-producing medium in Peltier peltier cooler.

Fig. 6 shows the topology example of the condenser bodies 600 according to the utility model embodiment.

Condenser bodies 600 comprises cover part 610, intermediate 620, barrier film 630, baffle plate 640.

Seal with sealing ring 650 between cover part 610 and intermediate 620.Cover part 610 is such as PVDF material, and sealing ring 650 is such as silica gel sealing ring.Label 660 indicates the screw hole being used for fixed cover, and label 670 indicates cooling water inlet.

The bottom of described condenser bodies 600 is the barrier film 630 that thickness is less than predetermined threshold, barrier film contacts with hot acid steam (heating acid solution to be purified by the heater 2 such as shown in Fig. 1 to obtain), cool hot acid steam, condensed purifying acid enters purifying acid solution receiving flask (label 3 such as shown in Fig. 1 indicates) by drainage tube.

Be divided into two parts by baffle plate 640 in the middle part of condenser bodies, to guide water (flow) direction, make internal temperature evenly.

On pipeline between Peltier peltier cooler (not shown in Fig. 6) and condenser bodies 600, refrigerant temperature sensors (not shown in Fig. 6)---such as capillary type thermocouple---is inserted into pipeline, and insert port has been carried out encapsulation process, ensure that not having cold-producing medium oozes out.The actual temperature of what such design can ensure that thermocouple detects is cold-producing medium, instead of pipeline outside wall temperature.Capillary type thermocouple diameter such as about 1.0mm, is convenient to bend.

Work under highly corrosive environments for a long time for sour purifier, Peltier peltier cooler is easy to by the problem of acid gas corrosion, in one example, peltier cooler is placed on the outer (attention of fume hood, the main body of acid purifier is placed in fume hood usually), thus avoid the contact with acid gas.In one example, condenser bodies (also can be referred to as heat exchanger) adopts PTFE material, the cold-producing medium cooled by semiconductor cooler and acid vapor carry out exchange heat in bottom diaphragm 630 both sides of condenser bodies, cold-producing medium after exchange is pumped into cooler and again cools, and carries out this process again and again.

Then the condensed pure acid solution body of the device that is condensed generally is drained in receiving flask by of short duration collection.

Fig. 7 (a) and (b) show structural representation according to the interim gathering-device 700 of the pure acid of the utility model embodiment and profile.

Acid vapor is cooled after rising to the barrier film of condenser bodies by the rising mouth 710 on the interim gathering-device of pure acid (or being referred to as receiving flask) 700, condensed pure acid solution body from barrier film along the bucket wall backflow of collector or directly drip catch tray 720.The upper surface of catch tray 720 is designed to, in skewed, make pure acid solution body collect in draining hole 730 under gravity, enter receiving flask by drainage tube.

The heater for heating acid to be purified according to the utility model embodiment is described below.

As previously mentioned, the sour purifier of prior art adopts infrared lamp or resistance wire to be used as thermal source, is naked light, the inflammable gas of surrounding of easily igniting; And once temperature controller lost efficacy, continuation is heated by infrared lamp or resistance wire, causes instrument to burn the great risk of even laboratory fire.

Sour purifier according to the utility model embodiment adopts ptc heater, due to PTC (PositiveTemperatureCoefficient), i.e. positive temperature coefficient effect, electric current raises by causing temperature after element, namely the temperature of heater rises, once exceed certain temperature (Curie temperature), its resistance value along with the rising of temperature be almost increasing in phase step type, thus Limited Current increases, so the decline of electric current causes component temperature to reduce.And the reduction of temperature can make the reduction of resistance value, thus circuital current increases, and component temperature raises.Go round and begin again, make temperature remain on particular range.Ptc heater adstante febre is not rubescent, and the flames of anger is nonflammable.Even if temperature controller lost efficacy, ptc heater also can not continue to be heated beyond Curie temperature, can not produce danger of combustion.

According to the utility model preferred embodiment, work for a long time for sour purifier under highly corrosive environments, ptc heater is easy to by the problem of acid gas corrosion, special design has been carried out to heater, comprise following any one of, but be not limited to these, other design can be carried out:

(1) ptc heater self has done PTFE surface spraying, can effectively resist acid solution acid gas corrosion;

(2) main body of sour purifier adopts nested type to be connected design with base, the space that formation one is closed between, whole ptc heater is arranged on this space closed, and whole ptc heater is wrapped up by main body and base, has stopped the contact with extraneous acid gas;

(3) in addition, consider the uniformity of heating, specialized designs area much larger than ptc heater heating surface, thinner thickness is such as thick is the heat conducting disk of 3mm, the bottom of this heat conducting disk and sour purified bulk fits tightly, carry out heat conduction, can effectively improve because ptc heater can not be fitted the whole bottom of sour purifier main body and the problem of the heat transfer inequality caused completely.Heat conducting disk can be the extraordinary fine aluminium material of heat conductivility, and can carry out PTFE surface spraying.

Fig. 8 (a) and (b) show stereogram and the front view of the structure of the heater 800 according to the utility model embodiment.

As shown in Fig. 8 (a) He (b), heater 800 comprises ptc heater main body 810 and heat conducting disk 820.The area of heat conducting disk 820 is much larger than the area of ptc heater main body 810, and preferably, the former is equal to, or greater than 1.5 times of the latter, and the area of heat conducting disk 820 can design according to the bottom area of sour purifier main body, and such as the two area is suitable; The end face of heat conducting disk 820 bottom surface and ptc heater main body 810 fits tightly in addition, carries out heat conduction, can effectively improve because ptc heater can not be fitted the whole bottom of sour purifier main body and the problem of the heat transfer inequality caused completely.

Four, embodiment 4: sour contactless liquid level sensor to be purified

As previously mentioned, in the sour purifier of prior art, there is no liquid level sensor, consider that sour purifier works at high temperature (higher than in 100 DEG C of situations) for a long time, install if liquid level sensor is close to container outer wall, can be easy to cause the liquid level sensor being close to container outer wall overheated and lost efficacy or damaged.According to an embodiment of the present utility model, the original acid solution level sensor of acid purifier adopts non-contact type ultrasonic liquid level sensor, automatic induction level change, once liquid level is lower than settings, namely voltage signal is sent to software, software and automatic shutdown, avoid personnel's carelessness and fire disaster hidden danger; And according to the special liquid level sensor of the utility model embodiment, its measured surface does not directly contact with container outer wall, keep space that is certain, such as 2mm, avoid the Rapid Accumulation of heat and the problem easily losing efficacy or damaged, turn avoid measured surface and solution apart from too far away and lose due sensitivity problem.

Fig. 9 (a) and (b) show the stereogram being configured with the sour purifier of ultrasonic liquid level sensor 900 according to the utility model embodiment and profile.

As shown in Fig. 9 (b), according to the outer surface at sour container 1 to be purified, and and there is distance d, d and be greater than zero in ultrasonic liquid level sensor 900 between the wall of sour container to be purified 1.Label 7 indicates the shell of sour purifier.

Sour purifier according to the utility model embodiment adopts contactless specially designed ultrasonic wave infrared level sensors, be arranged on the outer surface of container, and not with container surfaces contact, both avoided sensor and directly contacted with acid solution the problem be corroded, and turn avoid sensor and directly contact with the container of high temperature and the problem damaged of the circuit caused.

Below in conjunction with accompanying drawing, the pressure sensor for indirectly sensing pure acid solution position according to the utility model embodiment is described.

Figure 10 (a) shows the schematic perspective view according to relative position relation between the pure acid solution receiving flask 4 of the utility model embodiment and pressure sensor and relevant portion 1000, and Figure 10 (b) shows the profile according to the utility model embodiment pressure sensor and relevant portion 1000.

According to the utility model embodiment, pressure sensor adopts weight resistance strain type pressure sensor, compression weight sensor constantly gathers the change of the pressure that receiving flask weight causes, and send computer to, when reaching the peak preset, automatically sour purifying procedure be can stop, personnel's carelessness and great chemical attack hidden danger avoided.

In one example, at receiving flask 4 times placement trays 1020, preferably receiving flask pallet 1020 adopts flange to design, and can hold the acid solution of the water clock of about 20mL, avoids these acid solution sinuous flows, prevents acid solution from dripping to sensor internal.In one example, sensor 1010 devises leakage outlet 1030 at such as its support place, thus just in case sensor internal has acid solution to enter, can discharge in time.

Described pressure sensor 1010 and/or other parts, such as pallet, sensor fixed screw holes 1040, data string holes 1050 can be carried out PTFE surface spraying or itself namely be adopted PTFE material to make, can anti-acid liquid corrosion.

According to an embodiment of the present utility model, the instruction that the data of all the sensors collection and computer software send all is transmitted by bluetooth or wifi mode, controller (host computer and slave computer) can be placed on outside fume hood, saved fume hood space, user of service is also remote controlled.

Be described above each embodiment of the present utility model, above-mentioned explanation is exemplary, and non-exclusive, and be also not limited to disclosed each embodiment.When not departing from the scope and spirit of illustrated each embodiment, many modifications and changes are all apparent for those skilled in the art.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (10)

1. a sour purifier, comprising:

Sour container to be purified, for holding acid to be purified;

Heater, for heating sour container to be purified, to obtain hot acid steam;

Condenser, is configured to carry out condensation for hot acid steam;

The purifying acid solution receiving flask be connected with condenser, for collecting the acid of condensed purifying;

Controller, runs for controlling all parts to carry out sour purifying process,

Acid liquor temperature sensor, is placed in the inside of acid to be purified, for measuring the temperature of acid solution body to be purified;

Its middle controller set temperature threshold value, receives the temperature of acid liquor temperature sensor measurement, by this temperature compared with temperature threshold, and correspondingly control heater.

2. sour purifier according to claim 1,

Described acid liquor temperature sensor is thermocouple type temperature sensor, article two, thermocouple wire is placed in polytetrafluoroethylene PTFE capillary, PTFE capillary is placed in stay pipe, stay pipe is placed in sour container to be purified, and PTFE capillary is extended to outside sour container to be purified by the connecting hole on the wall of sour container to be purified.

3. sour purifier according to claim 2,

Described stay pipe lower end is connected with tube wrapping device, PTFE capillary in described stay pipe through stay pipe endoporus out, and the hole again through stay pipe after winding with one circuit on tube wrapping device enters stay pipe, then upwards extend along stay pipe, the last hole from stay pipe is also extended to outside sour container to be purified by the connecting hole the wall of sour container to be purified

Wherein thermocouple head part is in one week that described PTFE capillary is wound, and thermocouple head part and PTFE capillary contact.

4. sour purifier according to claim 3,

Described two thermocouple wire subtends make contact to and seem a wire, and subtend contact portion becomes thermocouple head.

5. sour purifier according to claim 1,

Described acid liquor temperature sensor is thermocouple type temperature sensor, and the surface parcel PTFE integument of thermocouple wire, the position of thermocouple probe adopts hot-press method that thermocouple probe and PTFE integument are combined closely.

6. sour purifier according to claim 5,

Thermocouple wire exists one or more seal point, adopts at seal point place hot-press method to make thermocouple wire and PTFE integument brought close.

7. sour purifier according to claim 1,

Described controller can continuity ground set temperature threshold value.

8. sour purifier according to claim 1,

Described condenser comprises Peltier peltier cooler, condenser bodies and refrigerant temperature sensors,

" cold water " cooled in Peltier peltier cooler, the acid vapor being entered condenser bodies pair and condenser bodies housing contacts by the pressure of water pump is cooled, and " hot water " is entered in Peltier peltier cooler by water pump and cools, and goes round and begins again, periodic duty

Refrigerant temperature sensors measures the temperature of cold-producing medium in Peltier peltier cooler.

9. sour purifier according to claim 8,

For thickness is less than the barrier film of predetermined threshold bottom described condenser bodies, barrier film contacts with hot acid steam, cools hot acid steam, and condensed purifying acid enters purifying acid solution receiving flask by drainage tube.

10. sour purifier according to claim 8,

The middle part of condenser bodies is divided into two parts by a baffle plate, to guide water (flow) direction, make internal temperature evenly.