CN204986417U - Continuous stable transported system of high -purity chemicals - Google Patents
Continuous stable transported system of high -purity chemicals Download PDFInfo
- Publication number
- CN204986417U CN204986417U CN201520533989.2U CN201520533989U CN204986417U CN 204986417 U CN204986417 U CN 204986417U CN 201520533989 U CN201520533989 U CN 201520533989U CN 204986417 U CN204986417 U CN 204986417U
- Authority
- CN
- China
- Prior art keywords
- pipeline
- knock out
- pneumatic valve
- purity chemicals
- out drum
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Filling Or Discharging Of Gas Storage Vessels (AREA)
Abstract
The utility model discloses a continuous stable transported system of high -purity chemicals, including storage tank, buffer tank and push system, push system includes a push system and the 2nd push system, a push system and the 2nd push system all feed through with the delivery main, a push system is used for in high -purity chemicals propelling movement to the buffer tank in the storage tank, and this is filling process, the 2nd push system be used for with the high -purity chemicals propelling movement in the buffer tank to using the board, on a push system and the 2nd push system respectively independent setting have first air -vent valve and a second air -vent valve, still be equipped with pressure sensor and pressure monitoring meter on the 2nd push system. The utility model discloses continuous stable transported system of high -purity chemicals structural arrangement is reasonable, and is with low costs, and has realized effectively that the packing pressure in the buffer tank is adjustable with independently stabilizing of supply pressure, has effectively guaranteed the continuous stable supply of high -purity chemicals.
Description
Technical field
The utility model relates to the conveying of high-purity chemicals in thin-film solar cells industry, specifically refers to a kind of high-purity chemicals continous-stable transporting system.
Background technique
High-purity chemicals (as: diethyl zinc DEZ, trimethyl aluminum TMA etc.) has been widely used in electronic device manufacture, as among the industries such as thin-film solar cells (containing silicon-base thin-film battery, CIGS battery etc.) and pharmacy.
At present, the feedway of these high-purity chemicals or system comprise storage tank, fill knock out drum and delivery system, described delivery system many employings high purity inert gas force feed, first pass through a road inert gas by high-purity chemicals force feed from storage tank force feed to filling knock out drum, this road inert gas duct is provided with filter and some one-way valves, then the high-purity chemicals of filling in knock out drum is sent to the use board outside tens meters to rice up to a hundred by another road inert gas.But this kind of feedway or system are due to DEZ, TMA etc. have the chemical characteristics of selfdecomposition under room temperature state, its decomposition particulate matter produced can make filter appearance blocking in various degree, and along with the prolongation of filter service time and the hot environment between the spreadable life, the particulate matter that high-purity chemicals produces due to selfdecomposition effect can be more serious to the blocking of filter, this can cause slowing of filling, the problems such as filling time interval prolongation, can cause time serious chemical product in knock out drum being pushed to use board at a distance, supply discontinuity phenomenon is caused to occur.
Model utility content
The purpose of this utility model is to provide a kind of reasonable structural arrangement, cost is low, efficiency is high and the high-purity chemicals continous-stable transporting system of propelling movement continous-stable.
The utility model can be achieved through the following technical solutions:
A kind of high-purity chemicals continous-stable transporting system, comprise storage tank, knock out drum, supplying system, exhaust duct, board and control module, electronic or Pneumatic component on described supplying system is connected with control module, described supplying system pushes high-purity chemicals by inert gas, described supplying system comprises the first supplying system and the second supplying system, described first supplying system is all communicated with delivery main with the second supplying system, described first supplying system is used for the high-purity chemicals in storage tank to push in knock out drum, first supplying system comprises the first storage and pushes pipeline and the second storage propelling movement pipeline, one end that described first storage pushes pipeline is communicated with delivery main, the other end stretches into storage tank internal upper part, first storage pushes on pipeline from the one end be communicated with delivery main, is provided with the first pressure regulator valve and the first pneumatic valve successively, described first pressure regulator valve is used for the first storage to push conduit entrance place pressure adjusting to the pre-set value according to the concrete service condition of filter, the pressure pre-set value of this first pressure regulator valve setting is defined as stuffing pressure, bottom in storage tank is stretched in one end that described second storage pushes pipeline, the other end stretches into bottom in knock out drum, second storage push pipeline be provided with from storage tank connected one end be provided with filter and the second pneumatic valve successively, described second supplying system is used for the high-purity chemicals in knock out drum to push to board, second supplying system comprises the first buffering and pushes pipeline and the second buffering propelling movement pipeline, one end that described first buffering pushes pipeline is communicated with delivery main, the other end stretches into knock out drum internal upper part, described first buffering pushes on pipeline from the one end be communicated with delivery main, is provided with the second pressure regulator valve and the 3rd pneumatic valve successively, the setting of described second pressure regulator valve is used for the first buffering to push conduit entrance place pressure adjusting to according to the pre-set value of knock out drum to the concrete service condition of the factor such as distance of use board and board using end, the pressure pre-set value of this second pressure regulator valve setting is defined as propelling movement pressure, bottom in knock out drum is stretched in one end that described second buffering pushes pipeline, the other end is communicated with board, described second buffering pushes on pipeline from the one end be communicated with knock out drum, is provided with the 4th pneumatic valve successively, pressure transducer and pressure monitoring meter, pressure transducer pushes the pressure in pipeline for responding to the second buffering above knock out drum, and send the data sensed to control module in time, the unlatching of the second pneumatic valve and the 5th pneumatic valve is controlled with closed by control module, the pressure in this road pipeline monitored by pressure monitoring meter simultaneously, the pressure data of its display can revise the accuracy of pressure transducer.The sensor of the measuring limit liquid level of installing in knock out drum plays security monitoring effect, when this sensor measurement to reach on the safety margins of setting in limited time to the liquid level in knock out drum, by trigger signal to control module, control module will stop the continuation filling of chemical product for the sake of security.Above-mentioned second supplying system is located at above the first supplying system, the utility model is arranged by the first supplying system and the second supplying system up-down structure, first pressure regulator valve and the second pressure regulator valve are independently set on the first supplying system and the second supplying system simultaneously, total connection and reasonable arrangement, floor space is little; And compared with forming with the component of existing transporting system or device, the main distinction is in structural configuration and valve location setting, component increase only pressure regulator valve and pressure transducer etc., and the component increased are conventional valve, sensor, it is abundance not only, and cheap, cost is low; Prior art high-purity chemicals transporting system or device is adopted to carry out in knock out drum, filling high-purity chemicals from storage tank, the transporting system of the filter 1, just renewed, filling time is 9 minutes, and pressure when starting to fill in knock out drum is 1.8Barg, and during end-of-fill, pressure is 1.2Barg; After the transporting system of 2, newly changing filter uses one week, the filling time is 12 minutes, and pressure when starting to fill in knock out drum is 1.8Barg, and during end-of-fill, pressure is 1.0Barg; After the transporting system of 3, newly changing filter uses two weeks, the filling time is 16 minutes, and pressure when starting to fill in knock out drum is 1.8Barg, and during end-of-fill, pressure is 0.5Barg; It can thus be appreciated that, along with the prolongation of filter service time and the hot environment between the spreadable life, the particulate matter that high-purity chemicals produces due to selfdecomposition effect is more serious to the blocking of filter, and then causes the filling time to extend, and the situation that knock out drum using end pressure reduces.And adopt the utility model high-purity chemicals transporting system to carry out in knock out drum, filling high-purity chemicals from storage tank, filling time is 6 minutes, filling process from constant in 1.5Barg all the time to the pressure in end-of-fill knock out drum, charging efficiency promotes greatly, and charging efficiency is high; The utility model high-purity chemicals transporting system is adopted to carry out in knock out drum, filling high-purity chemicals from storage tank, filling time is 6 minutes, filling process from constant in 1.5Barg all the time to the pressure in end-of-fill knock out drum, namely be that pressure in knock out drum keeps constant state always, effectively prevent and high-purity chemicals cannot be pushed to use board because the increasing pressure in filling process in prior art As time goes on knock out drum is low, cause pushing the situation of interrupting to occur, whole propelling movement process continous-stable, uninterruptedly.
Knock out drum top is located at by described exhaust duct, the outer end of described exhaust duct is connected with vacuum pump, exhaust duct is provided with the 5th pneumatic valve, exhaust duct and the setting of the 5th pneumatic valve on it, effectively mediate the pressure in knock out drum, make knock out drum internal pressure maintain pre-set value, the setting of vacuum pump, make exhaust duct be in vacuum state, be convenient to the pressure vent of exhaust duct.
Preferably, the inert gas pushing high-purity chemicals in described delivery main is high pure nitrogen or high-purity argon gas, and preferred purity is 99.9999%(6N) high pure nitrogen.
Preferably, described high-purity chemicals is diethyl zinc or trimethyl aluminum.
Preferably, the inlet of described delivery main is provided with first-hand valve, for opening or turning off delivery main's gas circuit.
Preferably, described first storage pushes pipeline and is provided with second-hand's valve, and described second-hand's valve is located between the first pneumatic valve and storage tank; Described second storage pushes pipeline and is provided with at least three the 3rd hand valves, and described at least three the 3rd hand valves lay respectively between storage tank and filter, between filter and the second pneumatic valve and between the second pneumatic valve and knock out drum.Arranging on the one hand for unlatching or the shutoff of the first storage propelling movement pipeline gas circuit of second-hand's valve, is convenient to maintenance on the other hand or changes the first pneumatic valve; Arranging on the one hand for unlatching or the shutoff of the second storage propelling movement pipeline gas circuit of 3rd hand valve, is convenient to maintenance on the other hand or changes filter and the second pneumatic valve.
Preferably, described first buffering pushes pipeline and is provided with two the 4th hand valves, and two the 4th hand valves lay respectively at the front and back of the 3rd pneumatic valve; Described second buffering pushes pipeline and is provided with two the 5th hand valves, and two the 5th hand valves lay respectively at the front and back of the 4th pneumatic valve.Arranging on the one hand for unlatching or the shutoff of the first buffering propelling movement pipeline gas circuit of 4th hand valve, is convenient to maintenance on the other hand or changes the 3rd pneumatic valve.Arranging on the one hand for unlatching or the shutoff of the second buffering propelling movement pipeline gas circuit of 5th hand valve, is convenient to maintenance on the other hand or changes the 4th pneumatic valve.
Preferably, described exhaust duct is provided with two the 6th hand valves, and two the 6th hand valves lay respectively between knock out drum and the 5th pneumatic valve, and the 5th between pneumatic valve and vacuum pump.6th hand valve arrange on the one hand for unlatching or the shutoff of exhaust duct gas circuit, be convenient to maintenance on the other hand or change the 5th pneumatic valve.
Preferably, be provided with and measure the level meter of liquid level and the sensor of measuring limit liquid level in described knock out drum, the data measured for measuring the height cushioning tank level and reach, and are sent to control module by the setting of level meter in time; The sensor of the measuring limit liquid level of installing in knock out drum plays security monitoring effect, when this sensor measurement to reach on the safety margins of setting in limited time to the liquid level in knock out drum, by trigger signal to control module, control module will stop the continuation filling of chemical product for the sake of security.
Preferably, can according to actual behaviour in service in described control module, set high liquid level limit limit value and low liquid level limit limit value, the high liquid level limit limit value that this place is mentioned and low liquid level limit limit value are a setting limit value, be not have graduation line physically, and this high liquid level limit limit value and low liquid level limit limit value can rule of thumb and system status and adjusting.
Preferably, described first pneumatic valve, the second pneumatic valve, the 3rd pneumatic valve, the 4th pneumatic valve, the 5th pneumatic valve, level meter, pressure transducer are all connected with control module with the sensor of measuring limit liquid level.
Utilize a method for above-mentioned high-purity chemicals continous-stable transporting system, it is characterized in that: comprise the steps:
The first step, is placed in high-purity chemicals in the storage tank being convenient to transport safely, sealed type storage tank;
Second step, pushes pipeline by first and stretches into storage tank internal upper part and good seal, pushes the two ends of pipeline stretch in storage tank respectively and in knock out drum and good seal by second; First buffering is pushed pipeline and stretches into knock out drum internal upper part and good seal, the second buffering is pushed pipeline and to stretch in knock out drum and good seal;
3rd step, to be arranged on exhaust duct on the knock out drum with level meter and good seal;
4th step, fill knock out drum, when the high-purity chemicals liquid level in knock out drum is lower than low liquid level limit limit value, close the 3rd pneumatic valve on the first buffering propelling movement pipeline, open the first storage and push the first pneumatic valve on pipeline and the second pneumatic valve on the second storage propelling movement pipeline, pushing pipeline by high pure nitrogen or argon gas by the first storage propelling movement pipeline and the second storage pushes to knock out drum by high-purity chemicals from storage tank, due to the lasting filling of high-purity chemicals, pressure in knock out drum raises gradually, the pressure difference in stuffing pressure and knock out drum will be caused to reduce gradually, thus make that filling speed is slack-off even to be stopped, therefore in order to lasting filling must carry out suitable pressure release to knock out drum while filling, repeatedly continue opening and closing by control module control the 5th pneumatic valve simultaneously and carry out pressure release, until the high-purity chemicals liquid level in knock out drum reach high liquid level limit limit value after, end-of-fill is also in normally off by control module control the 5th pneumatic valve, or high-purity chemicals liquid level does not reach high liquid level limit limit value, but after the pressure in knock out drum is lower than presetting propelling movement force value, control the 5th pneumatic valve by control module and be in normally off, whole filling is made to continue to carry out, air pressure in filling process in knock out drum will continue to carry out along with filling and raise, until after its air pressure exceedes presetting propelling movement force value, repeatedly continue opening and closing by control module control the 5th pneumatic valve and carry out pressure release, presetting propelling movement force value is maintained to make the pressure in knock out drum, so repeatedly until after high-purity chemicals liquid level reaches high liquid level limit limit value, until end-of-fill,
5th step, high-purity chemicals is pushed to board, when the liquid level in knock out drum is limit between limit value between low liquid level limit limit value and high liquid level, open the 3rd pneumatic valve on the first buffering propelling movement pipeline, high pure nitrogen or argon gas push pipeline by the first buffering and arrive knock out drum internal upper part, and nitrogen or argon gas arrive in knock out drum endlessly; Meanwhile, from the 4th step, the air pressure in knock out drum maintains presetting propelling movement force value, and continual for the high-purity chemicals continous-stable in knock out drum the second buffering of passing through is pushed pipeline pushed arrival use board by this air pressure.
The utility model high-purity chemicals continous-stable transporting system and delivery method, compared with prior art, have following beneficial effect:
The first, reasonable structural arrangement, the utility model is arranged by the first supplying system and the second supplying system up-down structure, the structural configuration of the first pressure regulator valve and the second pressure regulator valve is independently set simultaneously on the first supplying system and the second supplying system, total connection and reasonable arrangement, floor space is little;
The second, cost is low, compared with the component of the utility model and existing transporting system or device are formed, the main distinction is in structural configuration and valve location setting, component increase only pressure regulator valve and pressure transducer etc., and the component increased are conventional valve, sensor, it is abundance not only, and cheap;
Three, charging efficiency is high, under equal conditions (the size of storage tank, knock out drum, propelling movement source gas and pushed high-purity chemicals kind identical), prior art high-purity chemicals transporting system or device is adopted to carry out in knock out drum, filling high-purity chemicals from storage tank, the transporting system of the filter 1, just renewed, filling time is 9 minutes, and pressure when starting to fill in knock out drum is 1.8Barg, and during end-of-fill, pressure is 1.2Barg; After the transporting system of 2, newly changing filter uses one week, the filling time is 12 minutes, and pressure when starting to fill in knock out drum is 1.8Barg, and during end-of-fill, pressure is 1.0Barg; After the transporting system of 3, newly changing filter uses two weeks, the filling time is 16 minutes, and pressure when starting to fill in knock out drum is 1.8Barg, and during end-of-fill, pressure is 0.5Barg; And adopt the utility model high-purity chemicals transporting system to carry out in knock out drum, filling high-purity chemicals from storage tank, filling time is 6 minutes, filling process to the pressure in end-of-fill knock out drum all the time constant 1.5Barg preset propelling movement force value; Charging efficiency is promoted greatly;
4th, push continous-stable, from thirdly, the utility model high-purity chemicals transporting system is adopted to carry out in knock out drum, filling high-purity chemicals from storage tank, filling time is 6 minutes, filling process from constant in 1.5Barg all the time to the pressure in end-of-fill knock out drum, namely be that pressure in knock out drum keeps constant state always, effectively prevent and high-purity chemicals cannot be pushed to use board because the increasing pressure in filling process in prior art As time goes on knock out drum is low, cause pushing the situation of interrupting to occur, whole propelling movement process continous-stable, uninterruptedly.
Accompanying drawing explanation
Accompanying drawing 1 is the structural representation of the utility model high-purity chemicals continous-stable transporting system;
Reference character is:
1, delivery main, 11, first-hand valve,
2, the first supplying system, the 21, first storage pushes pipeline, the 211, first pressure regulator valve, the 212, first pneumatic valve, 213, second-hand's valve, and the 22, second storage pushes pipeline, the 221, the 3rd hand valve, and 222, filter, the 223, second pneumatic valve,
3, the second supplying system, the 31, first buffering pushes pipeline, the 311, second pressure regulator valve, the 312, the 4th hand valve, 313, the 3rd pneumatic valve, the 32, second buffering pushes pipeline, the 321, the 5th hand valve, the 322, the 4th pneumatic valve, 323, pressure transducer, 324, pressure monitoring meter, 325, board
4, exhaust duct, the 41, the 6th hand valve, the 42, the 5th pneumatic valve, 43, vacuum pump,
5, storage tank, 6, knock out drum, 61, high liquid level limit limit value, 62, low liquid level limit limit value, 7, level meter, 8, the sensor of measuring limit liquid level.
Embodiment
In order to make those skilled in the art person understand the technical solution of the utility model better, below in conjunction with embodiment and accompanying drawing, the utility model product is described in further detail.
As shown in Figure 1, a kind of high-purity chemicals continous-stable transporting system, comprise delivery main 1, storage tank 5, knock out drum 6, supplying system, exhaust duct 4, board 325 and control module, electronic or Pneumatic component on described supplying system is connected with control module, described supplying system pushes high-purity chemicals by the inert gas that circulates in delivery main 1, the inert gas pushing high-purity chemicals in described delivery main 1 is high pure nitrogen or high-purity argon gas, the inlet of described delivery main 1 is provided with first-hand valve 11, described high-purity chemicals is diethyl zinc or trimethyl aluminum.Described supplying system comprises the first supplying system 2 and the second supplying system 3, described first supplying system 2 is all communicated with delivery main 1 with the second supplying system 3, described first supplying system 2 is for pushing in knock out drum 6 by the high-purity chemicals in storage tank 5, first supplying system 2 comprises the first storage and pushes pipeline 21 and the second storage propelling movement pipeline 22, one end that described first storage pushes pipeline 21 is communicated with delivery main 1, the other end stretches into storage tank 5 internal upper part, first storage pushes on pipeline 21 from the one end be communicated with delivery main 1, is provided with the first pressure regulator valve 211 and the first pneumatic valve 212 successively, bottom in storage tank 5 is stretched in one end that described second storage pushes pipeline 22, the other end stretches into bottom in knock out drum 6, second storage propelling movement pipeline 22 is provided with and is provided with filter 222 and the second pneumatic valve 223 successively from the one end be connected with storage tank 5, described second supplying system 3 is for pushing to board 325 by the high-purity chemicals in knock out drum 6, second supplying system 3 comprises the first buffering and pushes pipeline 31 and the second buffering propelling movement pipeline 32, one end that described first buffering pushes pipeline 31 is communicated with delivery main 1, the other end stretches into knock out drum 6 internal upper part, described first buffering pushes on pipeline 31 from the one end be communicated with delivery main 1, is provided with the second pressure regulator valve 311 and the 3rd pneumatic valve 313 successively, bottom in knock out drum 6 is stretched in one end that described second buffering pushes pipeline 32, the other end is communicated with board 325, described second buffering pushes on pipeline 32 and be provided with the 4th pneumatic valve 322 successively from the one end be communicated with knock out drum 6, pressure transducer 323 and pressure monitoring meter 324, knock out drum 6 top is located at by described exhaust duct 4, and the outer end of described exhaust duct 4 is connected with vacuum pump 43, and exhaust duct 4 is provided with the 5th pneumatic valve 42.
As shown in Figure 1, for the ease of the maintenance of component on pipeline, replacing or detection, described first storage pushes pipeline 21 and is provided with second-hand's valve 213, and described second-hand's valve 213 is located between the first pneumatic valve 212 and storage tank 5; Described second storage propelling movement pipeline 22 is provided with at least three the 3rd hand valves 221, described at least three the 3rd hand valves 221 and lays respectively between storage tank 5 and filter 222, between filter 222 and the second pneumatic valve 223 and between the second pneumatic valve 223 and knock out drum 6.
As shown in Figure 1, for the ease of the maintenance of component on pipeline, replacing or detection, described first buffering pushes pipeline 31 and is provided with the front and back that two the 4th hand valves, 312, two the 4th hand valves 312 lay respectively at the 3rd pneumatic valve 313; Described second buffering pushes pipeline 32 and is provided with the front and back that two the 5th hand valves, 321, two the 5th hand valves 321 lay respectively at the 4th pneumatic valve 322.
As shown in Figure 1, for the ease of the maintenance of component on pipeline, replacing or detection, described exhaust duct 4 is provided with two the 6th hand valves, 41, two the 6th hand valves 41 and lays respectively between knock out drum 6 and the 5th pneumatic valve 42, and between the 5th pneumatic valve 42 and vacuum pump 43.
As shown in Figure 1, in order to control the situation of the first supplying system 2 and the second supplying system 3, being provided with in described knock out drum 6 and measuring and control the level meter 7 of liquid level and the sensor 8 of measuring limit liquid level.Pressure transducer 323 pushes the pressure in pipeline 32 for responding to the second buffering above knock out drum 6, and send the data sensed to control module in time, the unlatching of the second pneumatic valve 223 and the 5th pneumatic valve 42 is controlled with closed by control module, the pressure in this road pipeline monitored by pressure monitoring meter 324 simultaneously, the pressure data of its display can revise the accuracy of pressure transducer 323, the sensor 8 of the measuring limit liquid level of installing in knock out drum 6 plays security monitoring effect, when the safety margins that this sensor 8 liquid level measured in knock out drum 6 reaches setting is prescribed a time limit, by trigger signal to control module, control module will stop the continuation filling of chemical product for the sake of security.
As shown in Figure 1, adopt the utility model high-purity chemicals continous-stable transporting system to carry out carrying the method for high-purity chemicals, comprise the steps:
The first step, is placed in the storage tank 5 being convenient to transport safely, sealed type storage tank 5 by high-purity chemicals;
Second step, stretches into storage tank 5 internal upper part and good seal by the first propelling movement pipeline, is stretched at the two ends that second pushes pipeline in storage tank 5 respectively and the interior also good seal of knock out drum 6; Cushion propelling movement pipeline 31 by first and stretch into knock out drum 6 internal upper part and good seal, the second buffering is pushed pipeline 32 and stretch into the interior also good seal of knock out drum 6;
3rd step, to be arranged on exhaust duct 4 on the knock out drum 6 with level meter 7 and good seal;
4th step, fill knock out drum 6, before startup is filled, first the stuffing pressure of the first pressure regulator valve is set as 3.6Barg, be 1.5Barg by the propelling movement pressure setting of the second pressure regulator valve, then filling is started, when the high-purity chemicals liquid level in knock out drum 6 is lower than low liquid level limit limit value 62, close the 3rd pneumatic valve 313 on the first buffering propelling movement pipeline 31, open the first storage and push the first pneumatic valve 212 on pipeline 21 and the second pneumatic valve 223 on the second storage propelling movement pipeline 22, pushing pipeline 22 by nitrogen or argon gas by the first storage propelling movement pipeline 21 and the second storage pushes to knock out drum 6 by high-purity chemicals from storage tank 5, due to the lasting filling of high-purity chemicals, pressure in knock out drum 6 raises gradually, the pressure difference in stuffing pressure and knock out drum 6 will be caused to reduce gradually, thus make that filling speed is slack-off even to be stopped, therefore in order to lasting filling must carry out suitable pressure release to knock out drum 6 while filling, repeatedly continue opening and closing by control module control the 5th pneumatic valve 42 simultaneously and carry out suitable pressure release, the cycle of each opening and closing of the 5th pneumatic valve 42 is 2.5 seconds, namely be in 2.5 seconds, open 0.5 second, close 2.0 seconds, opening and closing is repeatedly continued according to this rule, but, because the steam of the nitrogen above knock out drum 6 or argon gas and high-purity chemicals can be extracted out by vacuum tube when the 5th pneumatic valve open mode, the words so continued, pressure in knock out drum 6 can decline, high-purity chemicals in effective guarantee storage tank 5 is constantly pushed in knock out drum 6 with rational speed, be filled with 6 minutes to complete, and in whole filling process, it is constant that supply pressure above knock out drum maintains 1.5Barg, when the high-purity chemicals liquid level in knock out drum 6 reach high liquid level limit limit value 61 after or high-purity chemicals liquid level do not reach high liquid level limit limit value 61, but when in knock out drum 6 pressure lower than presetting propelling movement force value after, control the 5th pneumatic valve 42 by control module and be in normally off, whole filling is made to continue to carry out and in knock out drum, the air pressure of 6 raises until after this pressure exceedes presetting propelling movement force value by continuing to carry out along with filling, control module controls the 5th pneumatic valve 42 and repeatedly continues opening and closing, so repeatedly until after high-purity chemicals liquid level reaches high liquid level limit limit value 61, end-of-fill,
5th step, high-purity chemicals is pushed to board 325, when the liquid level in knock out drum 6 is limit between limit value 61 between low liquid level limit limit value 62 and high liquid level, open the 3rd pneumatic valve 313 on the first buffering propelling movement pipeline 31, high pure nitrogen or argon gas push pipeline 31 by the first buffering and arrive knock out drum 6 internal upper part, and nitrogen or argon gas arrive in knock out drum 6 endlessly; Simultaneously, from the 4th step, by the setting of the first pressure regulator valve and the second pressure regulator valve, the stuffing pressure that can realize knock out drum 6 be pushed to from knock out drum 6 that to use the supply pressure of board all independently to stablize adjustable, air pressure in knock out drum 6 maintains presetting propelling movement force value, continual for high-purity chemicals continous-stable in knock out drum 6 the second buffering of passing through is pushed pipeline 32 pushed arrival use board 325 by this propelling movement pressure, effectively ensure that high-purity chemicals can be fed to steady and continuous and uses board 325.
The above, be only preferred embodiment of the present utility model, not does any pro forma restriction to the utility model; The those of ordinary skill of all industry all can shown in by specification accompanying drawing and the above and implement the utility model swimmingly; But all those skilled in the art are not departing within the scope of technical solutions of the utility model, disclosed above technology contents can be utilized and make a little change, modify with differentiation equivalent variations, be Equivalent embodiments of the present utility model; Meanwhile, all according to substantial technological of the present utility model to the change of any equivalent variations that above embodiment does, modify and differentiation etc., within the protection domain all still belonging to the technical solution of the utility model.
Claims (9)
1. a high-purity chemicals continous-stable transporting system, comprise storage tank (5), knock out drum (6), supplying system, exhaust duct (4), board (325) and control module, electronic or Pneumatic component on described supplying system is connected with control module, described supplying system pushes high-purity chemicals by inert gas, it is characterized in that: described supplying system comprises the first supplying system (2) and the second supplying system (3), described first supplying system (2) is all communicated with delivery main (1) with the second supplying system (3), described first supplying system (2) is for pushing in knock out drum (6) by the high-purity chemicals in storage tank (5), first supplying system (2) comprises the first storage and pushes pipeline (21) and the second storage propelling movement pipeline (22), one end that described first storage pushes pipeline (21) is communicated with delivery main (1), the other end stretches into storage tank (5) internal upper part, first storage pushes on pipeline (21) and be provided with the first pressure regulator valve (211) and the first pneumatic valve (212) successively from the one end be communicated with delivery main (1), storage tank (5) interior bottom is stretched in one end that described second storage pushes pipeline (22), the other end stretches into knock out drum (6) interior bottom, second storage propelling movement pipeline (22) is provided with and is provided with filter (222) and the second pneumatic valve (223) successively from the one end be connected with storage tank (5),
Described second supplying system (3) is for pushing to board (325) by the high-purity chemicals in knock out drum (6), second supplying system (3) comprises the first buffering and pushes pipeline (31) and the second buffering propelling movement pipeline (32), one end that described first buffering pushes pipeline (31) is communicated with delivery main (1), the other end stretches into knock out drum (6) internal upper part, described first buffering pushes on pipeline (31) from the one end be communicated with delivery main (1), is provided with the second pressure regulator valve (311) and the 3rd pneumatic valve (313) successively, knock out drum (6) interior bottom is stretched in one end that described second buffering pushes pipeline (32), the other end is communicated with board (325), described second buffering pushes on pipeline (32) and be provided with the 4th pneumatic valve (322) successively from the one end be communicated with knock out drum (6), pressure transducer (323) and pressure monitoring meter (324),
Knock out drum (6) top is located at by described exhaust duct (4), and the outer end of described exhaust duct (4) is connected with vacuum pump (43), and exhaust duct (4) is provided with the 5th pneumatic valve (42).
2. high-purity chemicals continous-stable transporting system according to claim 1, is characterized in that: the inert gas pushing high-purity chemicals in described delivery main (1) is high pure nitrogen or high-purity argon gas.
3. high-purity chemicals continous-stable transporting system according to claim 1, is characterized in that: described high-purity chemicals is diethyl zinc or trimethyl aluminum.
4. high-purity chemicals continous-stable transporting system according to claim 1, is characterized in that: the inlet of described delivery main (1) is provided with first-hand valve (11).
5. high-purity chemicals continous-stable transporting system according to claim 1, it is characterized in that: described first storage pushes pipeline (21) and is provided with second-hand's valve (213), and described second-hand's valve (213) is located between the first pneumatic valve (212) and storage tank (5); Described second storage pushes pipeline (22) and is provided with at least three the 3rd hand valves (221), and described at least three the 3rd hand valves (221) lay respectively between storage tank (5) and filter (222), between filter (222) and the second pneumatic valve (223) and between the second pneumatic valve (223) and knock out drum (6).
6. high-purity chemicals continous-stable transporting system according to claim 1, it is characterized in that: described first buffering pushes pipeline (31) and is provided with two the 4th hand valves (312), and two the 4th hand valves (312) lay respectively at the front and back of the 3rd pneumatic valve (313); Described second buffering pushes pipeline (32) and is provided with two the 5th hand valves (321), and two the 5th hand valves (321) lay respectively at the front and back of the 4th pneumatic valve (322).
7. high-purity chemicals continous-stable transporting system according to claim 1, it is characterized in that: described exhaust duct (4) is provided with two the 6th hand valves (41), two the 6th hand valves (41) lay respectively between knock out drum (6) and the 5th pneumatic valve (42), and between the 5th pneumatic valve (42) and vacuum pump (43).
8. the high-purity chemicals continous-stable transporting system according to any one of claim 1 to 7 claim, is characterized in that: be provided with in described knock out drum (6) and measure the level meter (7) of liquid level and the sensor (8) of measuring limit liquid level.
9. high-purity chemicals continous-stable transporting system according to claim 8, is characterized in that: described first pneumatic valve (212), the second pneumatic valve (223), the 3rd pneumatic valve (313), the 4th pneumatic valve (322), the 5th pneumatic valve (42), level meter (7), pressure transducer (323) are all connected with control module with the sensor (8) of measuring limit liquid level.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520533989.2U CN204986417U (en) | 2015-07-22 | 2015-07-22 | Continuous stable transported system of high -purity chemicals |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520533989.2U CN204986417U (en) | 2015-07-22 | 2015-07-22 | Continuous stable transported system of high -purity chemicals |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204986417U true CN204986417U (en) | 2016-01-20 |
Family
ID=55120785
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201520533989.2U Active CN204986417U (en) | 2015-07-22 | 2015-07-22 | Continuous stable transported system of high -purity chemicals |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204986417U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104989952A (en) * | 2015-07-22 | 2015-10-21 | 广东汉能薄膜太阳能有限公司 | Continuous and stable high-purity chemical conveying system and method |
CN108434969A (en) * | 2018-05-25 | 2018-08-24 | 郑州天点科技有限公司 | The thin-film solar cells exhaust treatment system of computer control |
CN110005954A (en) * | 2018-01-05 | 2019-07-12 | 上海弗川自动化技术有限公司 | A kind of working media supply system |
CN112325158A (en) * | 2020-09-29 | 2021-02-05 | 湖南航天磁电有限责任公司 | Automatic liquid supply system for ferrite press molding saponification liquid |
-
2015
- 2015-07-22 CN CN201520533989.2U patent/CN204986417U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104989952A (en) * | 2015-07-22 | 2015-10-21 | 广东汉能薄膜太阳能有限公司 | Continuous and stable high-purity chemical conveying system and method |
CN110005954A (en) * | 2018-01-05 | 2019-07-12 | 上海弗川自动化技术有限公司 | A kind of working media supply system |
CN108434969A (en) * | 2018-05-25 | 2018-08-24 | 郑州天点科技有限公司 | The thin-film solar cells exhaust treatment system of computer control |
CN112325158A (en) * | 2020-09-29 | 2021-02-05 | 湖南航天磁电有限责任公司 | Automatic liquid supply system for ferrite press molding saponification liquid |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104989952A (en) | Continuous and stable high-purity chemical conveying system and method | |
CN204986417U (en) | Continuous stable transported system of high -purity chemicals | |
CN202897540U (en) | Powder measuring and transporting system of full-automatic mixing plant | |
CN203976390U (en) | A kind of full-automatic down filling machine | |
CN103104811A (en) | Pressure-regulating air-feeding method of natural gas pipeline network | |
CN205191205U (en) | Liquid chlorine steel bottle safety gasification conveying system | |
CN202215933U (en) | Low-temperature liquid filling system | |
CN208796026U (en) | A kind of liquid feed device of even film developing machine | |
CN205782011U (en) | A kind of hydrogen pressurization induction system | |
CN205932480U (en) | Air conveying system of intraductal atmospheric pressure of gas circuit can adjust according to different kind materials | |
CN104071736A (en) | Dosing device of filling machine | |
CN108394727B (en) | Energy-saving ultra-long distance automatic pneumatic conveying system | |
CN103832959B (en) | A kind of high neat solvent automatic filling line | |
CN106885619A (en) | A kind of feed is weighed blanking device automatically | |
BR112021010771A2 (en) | SYSTEM AND METHOD TO REDUCE ENVIRONMENTAL POLLUTION AT A MATERIAL TRANSFER POINT | |
CN212424654U (en) | Powdery material feeding device | |
CN207738095U (en) | A kind of intelligent and high-efficiency aluminium oxide hyper-dense phase conveying device | |
CN207072485U (en) | A kind of cigarette package unit pressure glue feeder | |
CN210035055U (en) | Novel standard gas filling device | |
CN202419134U (en) | Liquefied natural gas supplying system | |
CN220930849U (en) | SF6 air supplementing device based on real-time temperature locking technology | |
CN214166629U (en) | Vacuum feeding weighing system suitable for graphite cathode material | |
CN202783873U (en) | Nitrogen-filled packing control system | |
CN219346216U (en) | Gas filling system | |
CN203924003U (en) | A kind of full-automatic integrated form air filling type rubber dam fill-drain syctem |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |