CN209923112U - Water generator for cleaning modularized electronic component - Google Patents

Abstract

The utility model discloses a water generator for cleaning modular electronic components, which comprises an ionization device, a condenser and a distiller, wherein the condenser is provided with a condensation cavity, a condensation pipe is arranged in the condensation cavity, and the condensation pipe is respectively connected with the distiller and the ionization device; ionization device includes anodal subassembly, negative pole subassembly and at least one ionization unit, anodal subassembly, ionization unit and negative pole subassembly connect gradually, the ionization unit includes the ionization cavity, be provided with negative pole membrane and anode film in the ionization cavity, negative pole membrane and anode film divide into the ionization cavity and fade the room and dense room, fade the room and divide into dense room both sides. A modularization electronic components washs and uses water generator, carry out the maintenance use cost that the modularization can reduce whole device with ionization device.

Description

Water generator for cleaning modularized electronic component

Technical Field

The utility model relates to a pure water preparation equipment especially relates to a modularization electronic components washs and uses water generator.

Background

When cleaning electronic components, it is necessary to clean the electronic components with blown water. If the water contains chloride ions, the capacitor will leak electricity; when the kinescope is produced, if the cleaning water contains organic colloid, particles, bacteria and the like, the strength of the fluorescent layer and the adhesion force between the fluorescent layer and the glass shell are reduced, bubbles, stripes, light leakage points and the like are caused, and the waste and defective rate is increased; when the liquid crystal display screen is washed, if impurities such as metal ions, microorganisms, particles and the like exist in pure water, a liquid crystal display circuit can be broken down, and the quality of the liquid crystal display screen is affected.

EDI (electrodeionization) is also called as continuous electric desalting technology, which scientifically integrates the electrodialysis technology and the ion exchange technology into a whole, realizes the directional migration of ions in water under the action of an electric field through the selective permeation action of cation and anion membranes on cations and anions and the exchange action of ion exchange resin on ions in water, thereby achieving the deep purification and desalting of water, because the EDI technology has the advantages of no need of chemical regeneration, no sewage discharge and the like, is favored by various enterprises, but simultaneously has certain defects; if the investment is slightly higher, the cost of the EDI device is higher than that of the traditional mixed bed ion exchange facility; the service life of the EDI equipment is short, the service life of the general EDI equipment is five years, and the reason for the short service life of the EDI equipment is mainly because the EDI equipment is accumulated on the surface of a cathode membrane after ionization and scaling, so that the conductivity is reduced, and the current is obviously reduced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome the not enough of prior art existence, the utility model provides a modularization electronic components washs and uses water generator through carrying out the modularized design with the EDI system to improve whole washing and use water generator's practical life, reduce practical cost.

The technical scheme is as follows: in order to achieve the purpose, the utility model discloses a modular water generator for cleaning electronic components, which comprises an ionization device, a condenser and a distiller, wherein the condenser is provided with a condensation cavity, a condensation pipe is arranged in the condensation cavity, and the condensation pipe is respectively connected with the distiller and the ionization device; ionization device includes anodal subassembly, negative pole subassembly and at least one ionization unit, anodal subassembly, ionization unit and negative pole subassembly connect gradually, the ionization unit includes the ionization cavity, be provided with negative pole membrane and anode film in the ionization cavity, negative pole membrane and anode film divide into the ionization cavity and fade the room and dense room, fade the room and divide into dense room both sides.

The ionization unit is provided with a plurality of, a plurality of the ionization unit is established ties in proper order, and each the ionization unit can be dismantled and connect, positive pole subassembly and negative pole subassembly can be dismantled and connect in the head and the tail both ends of the ionization unit that a plurality of establish ties in proper order, and the anode film of each ionization unit all is as for same one side.

The ionization cavity, the positive electrode assembly and the negative electrode assembly are respectively provided with a fresh water outlet channel, a concentrated water inlet channel and a concentrated water outlet channel, the fresh water outlet channel and the concentrated water inlet channel are communicated with the concentrated chamber, and the concentrated water outlet channel is communicated with the dilute chamber.

One end face of each ionization cavity is provided with a concave part, the other end face of each ionization cavity is provided with a convex part, the concave parts and the convex parts are respectively arranged on two sides of the fresh water outlet channel, the concentrated water inlet channel and the concentrated water outlet channel, and the concave parts and the convex parts of two adjacent ionization cavities are connected.

The condenser pipe is spiral, the inlet of the condenser pipe is connected with the outlet of the distiller, the outlet of the condenser pipe is connected with the ionization device, the inlet of the condensation cavity is connected with the inlet of tap water, and the outlet of the condensation cavity is connected with the inlet of the distiller.

The distiller comprises a distillation cavity, a heating device is arranged at the bottom of the distillation cavity, a partition plate is arranged in the distillation cavity, the distillation cavity is divided into an upper cavity and a lower cavity by the partition plate, an outlet of the distiller is communicated with the upper cavity of the distillation cavity, and an exhaust hole is formed in the partition plate.

The partition plate is provided with a plurality of exhaust fans, and the exhaust fans are opposite to the exhaust holes up and down.

The utility model has the advantages as follows: the water generator for cleaning the modular electronic components splits the ionization units into a plurality of ionization units, and can determine the number of the ionization units according to the actual needs of users, so that the whole structure becomes flexible, and the production cost of enterprises can be reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a structural sectional view of the ionization device of the present invention;

fig. 3 is an exploded view of the ionization apparatus of the present invention;

fig. 4 is a cross-sectional view of an ionization unit according to the present invention;

fig. 5 is a schematic structural diagram of an ionization unit according to the present invention;

FIG. 6 is a structural sectional view of portion A of FIG. 4;

FIG. 7 is a structural sectional view of portion B of FIG. 4;

fig. 8 is a schematic structural diagram of a condenser according to the present invention;

fig. 9 is a schematic structural diagram of the distiller of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The water generator for cleaning the modular electronic components shown in the attached drawings 1 to 9 comprises an ionization device 1, a condenser 2 and a distiller 3, wherein the distiller carries out primary treatment on tap water through distillation and then sends the tap water into the ionization device through the condenser for ionization, so that impurities in the water can be filtered primarily, and the scaling time of a cathode membrane can be prolonged; the condenser 2 is provided with a condensation cavity 201, a condensation pipe 202 is arranged in the condensation cavity 201, tap water for distillation is placed in the condensation cavity, after the condensation pipe is preliminarily heated, the water temperature rises, and then the tap water is fed into a distillation device for distillation, so that the distillation time can be shortened, the heat of water vapor can be fully utilized, the energy consumption can be further reduced, and the condensation pipe 202 is respectively connected with the distiller 3 and the ionization device 1; the ionization device can be provided with a plurality of ionization devices which are arranged up and down, and condensed moisture is discharged into the ionization device through the shunt tubes.

Ionization device 1 includes anodal subassembly 101, negative pole subassembly 102 and at least one ionization unit 103, anodal subassembly 101, ionization unit 103 and negative pole subassembly 102 connect gradually, ionization unit 103 includes ionization cavity 104, be provided with negative pole membrane 105 and anode film 106 in the ionization cavity 104, negative pole membrane 105 and anode film 106 divide into ionization cavity 104 into fresh room 107 and dense room 108, fresh room 107 divides into dense room 108 both sides. The positive electrode component and the negative electrode component are respectively provided with a positive electrode and a negative electrode for ionization. The cation can permeate the cation membrane, and the anion can permeate the anion membrane, so that the ion number in the water passing through the dilute chamber is gradually reduced to form fresh water, and the concentration of the dielectric ions is continuously increased due to continuous surge of the cation and anion in the concentrated chamber to form concentrated water, thereby achieving the purposes of desalination, purification, concentration or refinement. The ionization units are modularized, the number of the adopted ionization units is selected according to the water quantity to be treated, the energy consumption can be reduced, and the purification efficiency is improved while the purification effect is ensured; scaling often can appear when the surface of certain cloudy membrane, only need to change this ionization unit can, can not change whole equipment, improved the service life of whole equipment, further reduced the use cost of this equipment.

Ionization unit 103 is provided with a plurality of, a plurality of ionization unit 103 establishes ties in proper order, and each ionization unit 103 can dismantle the connection, positive pole subassembly 101 and negative pole subassembly 102 can dismantle the connection in the head and the tail both ends of a plurality of ionization unit 103 that establishes ties in proper order, and the anode film 106 of each ionization unit 103 all is as for same one side. The ionization units 103 are connected end to end, and the anions and cations in the concentrated water chamber are combined again and then need to be desalted by ionization again.

Two end faces of the ionization chamber 104 are provided with first sealing rings 109, wherein the size of one sealing ring on the other sealing ring is different, so that the sealing effect is prevented from being influenced by the mutual pressing of the adjacent sealing rings of the two adjacent ionization chambers.

The ionization cavity 104, the positive electrode assembly 101 and the negative electrode assembly 102 are respectively provided with a fresh water outlet channel 110, a concentrated water inlet channel 111 and a concentrated water outlet channel 112, the fresh water outlet channel 110 and the concentrated water inlet channel 111 are communicated with the concentrated chamber, and the concentrated water outlet channel 112 is communicated with the dilute chamber. The distilled water vapor is condensed by a condenser, the water vapor is changed into distilled water, the distilled water enters a thick chamber from a thick water inlet channel, anions and cations of inorganic salt respectively enter a thin chamber after ionization, at the moment, the water in the thick chamber is purified and is discharged through a fresh water outlet channel, and the water in the thin chamber is discharged through a thick water outlet channel.

One end face of the ionization cavity 104 is provided with a concave part 117, the other end face is provided with a convex part 113, the concave part 117 and the convex part 113 are respectively arranged at two sides of the fresh water outlet channel 110, the concentrated water inlet channel 111 and the concentrated water outlet channel 112, the concave part 117 and the convex part 113 of two adjacent ionization cavities 104 are connected, and marks for distinguishing the concentrated water inlet channel, the concentrated water outlet channel and the fresh water outlet channel are also arranged at the two end faces of the ionization cavities so as to distinguish the channels during installation.

The convex portion 113 is provided with a second sealing ring 114 to prevent water leakage.

Connecting flanges 115 are arranged at two ends of each ionization unit 103, a plurality of connecting holes are formed in each connecting flange 115, and the connecting holes of two adjacent ionization units 103 are opposite and fixed through bolts 116. The connection hole should be provided at the outer sides of the first and second seal rings so as not to affect the sealing effect.

The condensation pipe 202 is spiral, and the length of the condensation pipe can be prolonged by the spiral condensation pipe, so that the condensation effect is improved. The inlet of the condensation pipe 202 is connected with the outlet of the distiller 3, the outlet of the condensation pipe 202 is connected with the ionization device 1, the inlet of the condensation cavity 201 is connected with the inlet of tap water, and the outlet of the condensation cavity 201 is connected with the inlet of the distiller 3. The temperature of the condensed water in the condensation cavity is increased after the condensed water is preliminarily heated by the condensation pipe, and the condensed water in the condensation cavity is discharged into the distillation pipe for distillation, so that the distillation time can be shortened, and the energy consumption is further reduced.

Distiller 3 includes distillation chamber 301, the bottom in distillation chamber 301 is provided with heating device 302, will in this embodiment heating device can make the resistance wire, distillation chamber 301 is provided with baffle 306, baffle 306 divide into upper chamber 303 and lower chamber 304 with distillation chamber 301, the export of distiller 3 communicates with each other with the upper chamber 303 in distillation chamber 301, be provided with exhaust hole 305 on the baffle 306, be provided with a plurality of exhaust fans 307 on the baffle 306, exhaust fan 307 is relative from top to bottom with exhaust hole 305, opens exhaust fan 307 and discharges the vapor that produces into the condenser pipe and carry out the ionization after condensing.

The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (7)

1. The utility model provides a modularization electronic components washs and uses water generator which characterized in that: the device comprises an ionization device (1), a condenser (2) and a distiller (3), wherein the condenser (2) is provided with a condensation cavity (201), a condensation pipe (202) is arranged in the condensation cavity (201), and the condensation pipe (202) is respectively connected with the distiller (3) and the ionization device (1); ionization device (1) includes anodal subassembly (101), negative pole subassembly (102) and at least one ionization unit (103), anodal subassembly (101), ionization unit (103) and negative pole subassembly (102) connect gradually, ionization unit (103) are including ionization cavity (104), be provided with cathodic film (105) and anode film (106) in ionization cavity (104), cathodic film (105) and anode film (106) divide into weak point room (107) and dense room (108) with ionization cavity (104), weak point room (107) branch puts dense room (108) both sides.

2. The modular water generator for cleaning electronic components as claimed in claim 1, wherein: ionization unit (103) are provided with a plurality of, a plurality of ionization unit (103) are established ties in proper order, and each ionization unit (103) can be dismantled and connect, anodal subassembly (101) and negative pole subassembly (102) can be dismantled and connect in the head and the tail both ends of a plurality of ionization unit (103) that establish ties in proper order, and anode film (106) of each ionization unit (103) all are as for same one side.

3. The modular water generator for cleaning electronic components as claimed in claim 1, wherein: the ionization cavity (104), the positive component (101) and the negative component (102) are respectively provided with a fresh water outlet channel (110), a concentrated water inlet channel (111) and a concentrated water outlet channel (112), the fresh water outlet channel (110) and the concentrated water inlet channel (111) are communicated with the concentrated chamber, and the concentrated water outlet channel (112) is communicated with the dilute chamber.

4. The modular water generator for cleaning electronic components as claimed in claim 3, wherein: one end face of the ionization cavity (104) is provided with a concave part (117), the other end face of the ionization cavity is provided with a convex part (113), the concave part (117) and the convex part (113) are respectively arranged at two sides of the fresh water outlet channel (110), the concentrated water inlet channel (111) and the concentrated water outlet channel (112), and the concave part (117) and the convex part (113) of two adjacent ionization cavities (104) are connected.

5. The modular water generator for cleaning electronic components as claimed in claim 1, wherein: the condenser pipe (202) is spiral, the inlet of the condenser pipe (202) is connected with the outlet of the distiller (3), the outlet of the condenser pipe (202) is connected with the ionization device (1), the inlet of the condensation cavity (201) is connected with the inlet of tap water, and the outlet of the condensation cavity (201) is connected with the inlet of the distiller (3).

6. The modular water generator for cleaning electronic components as claimed in claim 1, wherein: distiller (3) is including distilling chamber (301), the bottom in distilling chamber (301) is provided with heating device (302), distilling chamber (301) is provided with baffle (306), baffle (306) divide into epicoele (303) and lower chamber (304) distilling chamber (301), the export of distiller (3) communicates with each other with epicoele (303) in distilling chamber (301), be provided with exhaust hole (305) on baffle (306).

7. The modular water generator for cleaning electronic components as claimed in claim 6, wherein: the partition plate (306) is provided with a plurality of exhaust fans (307), and the exhaust fans (307) are vertically opposite to the exhaust holes (305).

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