CN205398248U - Gas -liquid mixing generation device - Google Patents
Gas -liquid mixing generation device Download PDFInfo
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- CN205398248U CN205398248U CN201620194227.9U CN201620194227U CN205398248U CN 205398248 U CN205398248 U CN 205398248U CN 201620194227 U CN201620194227 U CN 201620194227U CN 205398248 U CN205398248 U CN 205398248U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
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Abstract
The utility model belongs to the technical field of the water treatment, a gas -liquid mixing generation device is related to. The device's gas -liquid mixture system (12) is including gas -liquid mixture pump (121), gas -liquid mixture ware (122), air compressor machine (123), liquid level switch (124), first solenoid valve (125), drain pipe (126), gas -liquid connecting pipe (127), gaseous connecting pipe (128), blast pipe (129), second solenoid valve (130) and third solenoid valve (131), gaseous inhale unit (2) connect (22) and needle type valve (23) including gaseous suction pipe (21), green, liquid inhales unit (3) and inhales pipe (31) and check valve (32) including liquid, micro -nano bubble release unit (4) are including micro -nano bubble release pipe (41) and little bubble generator (42), the utility model discloses can be fast, the efficient produces a large amount of micro -nano bubbles, the bubble particle diameter is small even, can external air supply, automated control, it is easy and simple to handle, practice thrift artifically.
Description
Technical field
This utility model belongs to water-treatment technology field, relates to a kind of gas-liquid mixed generating means, is specifically related to a kind of micro-nano bubble generator rapidly and efficiently, can be applicable to the various fields such as agricultural, environmental protection, health care.
Background technology
Gas-liquid mixed aeration is a kind of water technology being widely used in environmental protection and aquaculture field, and obtains tremendous development.Along with development and the division of labor in society demand of science and technology, gas-liquid mixed aeration process is applied to more areas, such as oxygen supplement and sterilization, medical apparatus and instruments cleaning and sterilizing, bath health-care, the Water Conservancy Information etc. of oxygen supplement irrigation, soilless culture nutrient fluid.Gas-liquid mixed aeration to microbubble, rapidly and efficiently, the direction such as low consumption environment protection, Automated condtrol develops.
Micro-bubble aeration process is still needed and is solved a following emphasis difficult problem: (one) produces micro-nano bubble fast and efficiently;(2) size of micro-nano bubble it is precisely controlled;(3) Automated condtrol of micro-nano bubble.
Summary of the invention
The purpose of this utility model be to provide a kind of automatization, micro-nano bubble size can be precisely controlled, the micro-nano bubble generator of gas-liquid mixed fast and efficiently.
To achieve these goals, this utility model provides following technical scheme:
This utility model provides a kind of gas-liquid mixed generating means, and this device includes micro-nano bubble generation main frame 1, gas sucks unit 2, liquid sucks unit 3 and micro-nano bubble releasing unit 4;
Micro-nano bubble generation main frame 1 includes gas-fluid mixing systems 12 and cabinet 14;Gas-fluid mixing systems 12 is arranged at the inside of cabinet 14;
Gas-fluid mixing systems 12 includes gas-liquid mixing pump 121, air and liquid mixer 122, air compressor machine 123, liquid-level switch the 124, first electromagnetic valve 125, drain pipe 126, gas-liquid connecting tube 127, gas connection pipe 128, exhaustor the 129, second electromagnetic valve 130 and the 3rd electromagnetic valve 131;Wherein, gas-liquid mixing pump 121 is connected by gas-liquid connecting tube 127 with air and liquid mixer 122;Air and liquid mixer 122 is connected by gas connection pipe 128 with air compressor machine 123;It is internal that liquid-level switch 124 is installed on air and liquid mixer 122;One end of drain pipe 126 is connected with air and liquid mixer 122, and the other end stretches out outside cabinet 14, and is provided with drain valve 132;One end of exhaustor 129 is connected with air and liquid mixer 122, and the other end stretches out outside cabinet 14;
First electromagnetic valve the 125, second electromagnetic valve 130 and the 3rd electromagnetic valve 131 are respectively arranged on gas-liquid connecting tube 127, gas connection pipe 128 and exhaustor 129, are respectively used to control gas-liquid mixing pump 121, air compressor machine 123 and exhaustor 129;
Gas sucks unit 2 and includes gas suction pipe 21, Green's joint 22 and needle valve 23;Wherein, one end of gas suction pipe 21 is connected with Green's joint 22, and middle part is provided with needle valve 23, and the other end is connected with gas-liquid mixing pump 121;Green's joint 22 is fixed on outside cabinet 14;
Liquid sucks unit 3 and includes liquid suction duct 31 and check valve 32;Wherein, liquid suction duct 31 is provided with check valve 32, and one end of liquid suction duct 31 is connected with liquid cell, and the other end is connected with gas-liquid mixing pump 121;
Micro-nano bubble releasing unit 4 includes micro-nano bubble release pipe 41 and microbubble generator 42;One end of micro-nano bubble release pipe 41 is connected with microbubble generator 42, and the other end is connected with air and liquid mixer 122.
Described micro-nano bubble generation main frame 1 also includes the robot control system(RCS) 11 being arranged within cabinet 14, and robot control system(RCS) 11 includes touch screen 111, PLC control system 112, controls system output interface 113, external power input interface 114 and main switch 115;Wherein, PLC control system 112 is connected with touch screen 111, control system output interface 113 and external power input interface 114 respectively;External power input interface 114 and main switch 115 are arranged on the surface at cabinet 14 back side;Described control system output interface 113 is connected with first electromagnetic valve the 125, second electromagnetic valve 130 and the 3rd electromagnetic valve 131 respectively.
Described micro-nano bubble generation main frame 1 also includes electricity separation unit 13, and electricity separation unit 13 is arranged between robot control system(RCS) 11 and gas-fluid mixing systems 12, robot control system(RCS) 11 and gas-fluid mixing systems about 12 is separated.
Described liquid-level switch 124 includes monitoring part, and monitoring part has upper and lower bound graduation mark, and is immersed in gas and liquid mixture.
Described control system output interface 113 connects Ethernet.
Described external power input interface 114 connects external power energising, and main switch 115 controls equipment energising and runs.
Described cabinet 14 includes Moving caster 141, and Moving caster 141 is arranged at the bottom of cabinet 14.
Described cabinet 14 includes shutter and fan;Shutter is arranged at the left and right sides of cabinet 14;Fan is arranged at the back side of cabinet 14.
Compared with prior art, the beneficial effects of the utility model are in that:
1. moment produces a large amount of micro-nano bubble fast and efficiently.
2. micro-nano bubble size distribution is in 100nm~10 μm.
3. equipment realizes electricity separation, uses safety.
4. adopt PLC to control, and reserved Ethernet interface can include Internet of Things management in.Easy and simple to handle, save artificial.
5. the reserved outer gas source interface of equipment, it is achieved source of the gas variation, source of the gas pipeline is corrosion-resistant.
6. conveniently moving.
Accompanying drawing explanation
Fig. 1 is the overall framework figure of this utility model gas-liquid mixed generating means;
Fig. 2 is the structural representation of the micro-nano bubble generation main frame 1 of this utility model;
Fig. 3 is the system composition schematic diagram of this utility model robot control system(RCS) 11;
Fig. 4 is the structural representation of this utility model gas-fluid mixing systems 12.
Accompanying drawing therein is labeled as:
1 micro-nano bubble generation main frame 11 robot control system(RCS)
111 touch screen 112PLC control system
113 control system output interface 114 external power input interface
115 main switch 12 gas-fluid mixing systems
121 gas-liquid mixing pump 122 air and liquid mixers
123 air compressor machine 124 liquid-level switches
125 first electromagnetic valve 126 drain pipies
127 gas-liquid connecting tube 128 gas connection pipes
129 exhaustor 130 second electromagnetic valves
131 the 3rd electromagnetic valve 132 drain valves
13 electricity separation unit 14 cabinets
141 Moving caster 2 gases suck unit
21 gas suction pipe 22 Green's joints
23 needle valve 3 liquid suck unit
31 liquid suction duct 32 check valves
The 4 micro-nano bubble release pipes of micro-nano bubble releasing unit 41
42 microbubble generators
Detailed description of the invention
Below in conjunction with drawings and Examples, this utility model is further described.
As it is shown in figure 1, the gas-liquid mixed generating means that this utility model provides, including micro-nano bubble generation main frame 1, gas sucks unit 2, liquid sucks unit 3 and micro-nano bubble releasing unit 4.
Wherein, as in figure 2 it is shown, micro-nano bubble generation main frame 1 includes robot control system(RCS) 11, gas-fluid mixing systems 12, electricity separation unit 13 and cabinet 14;Wherein, robot control system(RCS) 11, gas-fluid mixing systems 12 and electricity separation unit 13 are arranged at the inside of cabinet 14;Electricity separation unit 13 is arranged between robot control system(RCS) 11 and gas-fluid mixing systems 12, robot control system(RCS) 11 and gas-fluid mixing systems about 12 is separated, it is achieved electricity separation.Cabinet 14 includes Moving caster 141, shutter and fan;Moving caster 141 is arranged at the bottom of cabinet 14, it is simple to mobile;Shutter is arranged at the left and right sides of cabinet 14, it is simple to ventilation and heat;Fan is arranged at the back side of cabinet 14, it is simple to heat radiation.
As it is shown on figure 3, robot control system(RCS) 11 includes touch screen 111, PLC control system 112, controls system output interface 113, external power input interface 114 and main switch 115.Wherein, PLC control system 112 is connected with touch screen 111, control system output interface 113, external power input interface 114 and main switch 115 respectively;Touch screen 111 is embedded on the surface in cabinet 14 front.Control system output interface 113 connects Ethernet;External power input interface 114 and main switch 115 are positioned on the surface at cabinet 14 back side, and external power input interface 114 connects external power energising, and main switch 115 controls equipment energising and runs.
As shown in Figure 4, gas-fluid mixing systems 12 includes gas-liquid mixing pump 121, air and liquid mixer 122, air compressor machine 123, liquid-level switch the 124, first electromagnetic valve 125, drain pipe 126, gas-liquid connecting tube 127, gas connection pipe 128, exhaustor the 129, second electromagnetic valve 130 and the 3rd electromagnetic valve 131.
Wherein, gas-liquid mixing pump 121 is connected by gas-liquid connecting tube 127 with air and liquid mixer 122, and air and liquid mixer 122 is connected by gas connection pipe 128 with air compressor machine 123;It is internal that liquid-level switch 124 is installed on air and liquid mixer 122;Liquid-level switch 124 monitoring is partially submerged in gas and liquid mixture, and monitoring part has upper and lower bound graduation mark;One end of drain pipe 126 is connected with air and liquid mixer 122, and the other end stretches out outside cabinet 14, and is provided with drain valve 132;One end of exhaustor 129 is connected with air and liquid mixer 122, and the other end stretches out outside cabinet 14.
First electromagnetic valve the 125, second electromagnetic valve 130 and the 3rd electromagnetic valve 131 are respectively arranged on gas-liquid connecting tube 127, gas connection pipe 128 and exhaustor 129, are respectively used to control gas-liquid mixing pump 121, air compressor machine 123 and exhaustor 129.
Described control system output interface 113 is connected with first electromagnetic valve the 125, second electromagnetic valve 130 and the 3rd electromagnetic valve 131 respectively.
Gas sucks unit 2 and includes gas suction pipe 21, Green's joint 22 and needle valve 23.Wherein, one end of gas suction pipe 21 is connected with Green's joint 22, and middle part is provided with needle valve 23, and the other end is connected with gas-liquid mixing pump 121;Green's joint 22 is fixed on outside cabinet 14, can external gas source.
Liquid sucks unit 3 and includes liquid suction duct 31 and check valve 32.Wherein, liquid suction duct 31 is provided with check valve 32, and one end of liquid suction duct 31 is connected with liquid cell, and the other end is connected with gas-liquid mixing pump 121.
Micro-nano bubble releasing unit 4 includes micro-nano bubble release pipe 41 and microbubble generator 42;One end of micro-nano bubble release pipe 41 is connected with microbubble generator 42, and the other end is connected with air and liquid mixer 122.
The gas-liquid mixed generating means that this utility model provides, work process is as follows:
Time initial, first electromagnetic valve the 125, second electromagnetic valve 130 and the 3rd electromagnetic valve 131 are closed mode.
External power input interface 114 connects external power, Liqiud-gas mixing device is energized, open main switch 115, operation touch screen 111, starting gas-liquid mixed program, the first electromagnetic valve 125 in gas-liquid connecting tube 127 is opened, and outer source of the gas and water (liquid) suck unit 2 from gas respectively and liquid suction unit 3 enters gas-liquid mixing pump 121 and mixes, then entering air and liquid mixer 122 through gas-liquid connecting tube 127, the liquid level of gas and liquid mixture rises;Liquid-level switch 124 monitoring is partially submerged in gas and liquid mixture, monitoring part has upper and lower bound graduation mark, when gas and liquid mixture rises to upper limit graduation mark, the second electromagnetic valve 130 controlling air compressor machine 123 is opened, gas enters air and liquid mixer 122, air and liquid mixer 122 is arranged above gas, and lower section is gas and liquid mixture;When the liquid level of gas and liquid mixture drops to lower limit graduation mark, the second electromagnetic valve 130 controlling air compressor machine 123 cuts out, and the liquid level of gas and liquid mixture rises within the scope of bound graduation mark;Effect by liquid-level switch 124, form the dynamic balance state of a kind of gas gas-liquid secondary mixing, after the secondary of air and liquid mixer 122 mixes, gas and liquid mixture enters microbubble generator 42 through micro-nano bubble release pipe 41 and carries out three gas-liquids cutting mixing, and the micro-nano bubble of final generation sprays.When, after gas-liquid mixed EP (end of program), operation touch screen 111 is exhausted draining: the second electromagnetic valve 130 controlling air compressor machine 123 cuts out, and the 3rd electromagnetic valve 131 controlling air bleeding valve 129 is opened, and gas is discharged;Opening drain valve 132, in air and liquid mixer 122, liquid is discharged;After gas and liquid are discharged, close main switch 115.
It should be pointed out that, that the above detailed description of the invention can make those skilled in the art more fully understand this utility model, but limit this utility model never in any form.Therefore, although this utility model is had been carried out detailed description by this specification and embodiment, it will be understood by those skilled in the art, however, that still this utility model can be modified or equivalent replacement;And all are without departing from the technical scheme of spirit and scope of the present utility model and improvement thereof, it is encompassed by the middle of the protection domain of this utility model patent.
Claims (8)
1. a gas-liquid mixed generating means, it is characterised in that: this device includes micro-nano bubble generation main frame (1), gas sucks unit (2), liquid sucks unit (3) and micro-nano bubble releasing unit (4);
Micro-nano bubble generation main frame (1) includes gas-fluid mixing systems (12) and cabinet (14);Gas-fluid mixing systems (12) is arranged at the inside of cabinet (14);
Gas-fluid mixing systems (12) includes gas-liquid mixing pump (121), air and liquid mixer (122), air compressor machine (123), liquid-level switch (124), the first electromagnetic valve (125), drain pipe (126), gas-liquid connecting tube (127), gas connection pipe (128), exhaustor (129), the second electromagnetic valve (130) and the 3rd electromagnetic valve (131);Wherein, gas-liquid mixing pump (121) is connected by gas-liquid connecting tube (127) with air and liquid mixer (122);Air and liquid mixer (122) is connected by gas connection pipe (128) with air compressor machine (123);It is internal that liquid-level switch (124) is installed on air and liquid mixer (122);One end of drain pipe (126) is connected with air and liquid mixer (122), and the other end stretches out cabinet (14) outward, and is provided with drain valve (132);One end of exhaustor (129) is connected with air and liquid mixer (122), and the other end stretches out cabinet (14) outward;
First electromagnetic valve (125), the second electromagnetic valve (130) and the 3rd electromagnetic valve (131) are respectively arranged on gas-liquid connecting tube (127), gas connection pipe (128) and exhaustor (129), are respectively used to control gas-liquid mixing pump (121), air compressor machine (123) and exhaustor (129);
Gas sucks unit (2) and includes gas suction pipe (21), Green's joint (22) and needle valve (23);Wherein, one end of gas suction pipe (21) is connected with Green's joint (22), and middle part is provided with needle valve (23), and the other end is connected with gas-liquid mixing pump (121);Green's joint (22) is fixed on cabinet (14) outward;
Liquid sucks unit (3) and includes liquid suction duct (31) and check valve (32);Wherein, liquid suction duct (31) is provided with check valve (32), and one end of liquid suction duct (31) is connected with liquid cell, and the other end is connected with gas-liquid mixing pump (121);
Micro-nano bubble releasing unit (4) includes micro-nano bubble release pipe (41) and microbubble generator (42);One end of micro-nano bubble release pipe (41) is connected with microbubble generator (42), and the other end is connected with air and liquid mixer (122).
2. gas-liquid mixed generating means according to claim 1, it is characterized in that: described micro-nano bubble generation main frame (1) also includes being arranged at the robot control system(RCS) (11) that cabinet (14) is internal, robot control system(RCS) (11) includes touch screen (111), PLC control system (112), controls system output interface (113), external power input interface (114) and main switch (115);Wherein, PLC control system (112) is connected with touch screen (111), control system output interface (113) and external power input interface (114) respectively;External power input interface (114) and main switch (115) are arranged on the surface at cabinet (14) back side;Described control system output interface (113) is connected with the first electromagnetic valve (125), the second electromagnetic valve (130) and the 3rd electromagnetic valve (131) respectively.
3. gas-liquid mixed generating means according to claim 2, it is characterized in that: described micro-nano bubble generation main frame (1) also includes electricity separation unit (13), electricity separation unit (13) is arranged between robot control system(RCS) (11) and gas-fluid mixing systems (12), robot control system(RCS) (11) and gas-fluid mixing systems (12) is separated up and down.
4. according to the gas-liquid mixed generating means one of claim 1-3 Suo Shu, it is characterised in that: described liquid-level switch (124) includes monitoring part, and monitoring part has upper and lower bound graduation mark, and is immersed in gas and liquid mixture.
5. the gas-liquid mixed generating means according to Claims 2 or 3, it is characterised in that: described control system output interface (113) connects Ethernet.
6. the gas-liquid mixed generating means according to Claims 2 or 3, it is characterised in that: described external power input interface (114) connects external power energising, and main switch (115) controls equipment energising and runs.
7. according to the gas-liquid mixed generating means one of claim 1-3 Suo Shu, it is characterised in that: described cabinet (14) includes Moving caster (141), and Moving caster (141) is arranged at the bottom of cabinet (14).
8. according to the gas-liquid mixed generating means one of claim 1-3 Suo Shu, it is characterised in that: described cabinet (14) includes shutter and fan;Shutter is arranged at the left and right sides of cabinet (14);Fan is arranged at the back side of cabinet (14).
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CN201620194227.9U CN205398248U (en) | 2016-03-14 | 2016-03-14 | Gas -liquid mixing generation device |
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CN201620194227.9U CN205398248U (en) | 2016-03-14 | 2016-03-14 | Gas -liquid mixing generation device |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107217270A (en) * | 2017-06-30 | 2017-09-29 | 天津森罗科技股份有限公司 | A kind of airtight aerating device of water outlet historical relic desalination |
CN108166211A (en) * | 2018-01-05 | 2018-06-15 | 徐亦隽 | A kind of industrial foam washing methods and system and device |
CN108675250A (en) * | 2018-05-30 | 2018-10-19 | 北京中农天陆微纳米气泡水科技有限公司 | A kind of liquid aerating auto-filling equipment and its packaging process |
CN108854616A (en) * | 2018-05-08 | 2018-11-23 | 李常德 | A kind of microbubble generating system |
CN110102195A (en) * | 2019-04-23 | 2019-08-09 | 上海行恒科技有限公司 | A kind of micro-nano bubble bathtub of high concentration and its control method |
CN112121656A (en) * | 2020-08-31 | 2020-12-25 | 江苏创程环境科技有限公司 | Generation equipment for generating oxygen bubble water capable of dissolving multiple gases into nanoscale |
CN115531997A (en) * | 2022-10-17 | 2022-12-30 | 中国农业科学院农田灌溉研究所 | Nanometer bubble generator |
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2016
- 2016-03-14 CN CN201620194227.9U patent/CN205398248U/en active Active
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107217270A (en) * | 2017-06-30 | 2017-09-29 | 天津森罗科技股份有限公司 | A kind of airtight aerating device of water outlet historical relic desalination |
CN108166211A (en) * | 2018-01-05 | 2018-06-15 | 徐亦隽 | A kind of industrial foam washing methods and system and device |
CN108854616A (en) * | 2018-05-08 | 2018-11-23 | 李常德 | A kind of microbubble generating system |
CN108675250A (en) * | 2018-05-30 | 2018-10-19 | 北京中农天陆微纳米气泡水科技有限公司 | A kind of liquid aerating auto-filling equipment and its packaging process |
CN108675250B (en) * | 2018-05-30 | 2023-09-26 | 北京中农天陆微纳米气泡水科技有限公司 | Automatic filling equipment for liquid inflation and filling method thereof |
CN110102195A (en) * | 2019-04-23 | 2019-08-09 | 上海行恒科技有限公司 | A kind of micro-nano bubble bathtub of high concentration and its control method |
CN112121656A (en) * | 2020-08-31 | 2020-12-25 | 江苏创程环境科技有限公司 | Generation equipment for generating oxygen bubble water capable of dissolving multiple gases into nanoscale |
CN112121656B (en) * | 2020-08-31 | 2021-06-11 | 江苏创程环境科技有限公司 | Generation equipment for generating oxygen bubble water capable of dissolving multiple gases into nanoscale |
CN115531997A (en) * | 2022-10-17 | 2022-12-30 | 中国农业科学院农田灌溉研究所 | Nanometer bubble generator |
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