CN211151059U - Mobile terminal purifier - Google Patents

Abstract

The utility model relates to a mobile terminal purifier, which comprises a first shell, a bipolar ion generator, a bracket and an airflow driving piece, wherein the first shell is provided with a bracket, an air inlet and an air outlet which are communicated with each other, the bracket is positioned in the air outlet direction of the air outlet, and the bracket is used for placing a mobile terminal; the bipolar ion generator comprises an ion sheet and a power converter, wherein the ion sheet comprises an emission polar plate, a grounding polar plate and a medium blocking plate, the medium blocking plate is positioned between the emission polar plate and the grounding polar plate, and the ion sheet is used for generating ion groups with different-sign charges; the power converter is used for converting power for the ion plate; the bracket is used for installing the ion plate in the first shell; the airflow driving piece is used for driving air to enter from the air inlet and flow out from the air outlet after passing through the ion sheet. The utility model discloses a mobile terminal clarifier not only can place mobile terminal, can also carry out purification treatment to mobile terminal's surface.

Description

Mobile terminal purifier

Technical Field

The utility model relates to a clarifier technical field especially relates to a mobile terminal clarifier.

Background

Mobile terminals, such as mobile phones, ipads, etc., are commonly used in daily life, and may be placed in various places, such as a bedside table, an office desk, a wash stand, etc., during use due to their small and convenient size, and environmental pollution, in particular, bacteria or harmful substances may be easily contaminated on the back of the mobile terminal due to the variability and randomness of the place where the mobile terminal is placed, and the bacteria or harmful substances may be easily infected to the hands when the mobile terminal is used, thereby affecting personal hygiene and health.

SUMMERY OF THE UTILITY MODEL

Accordingly, it is necessary to provide a mobile terminal purifier to solve the problem that the mobile terminal is easily contaminated with harmful substances such as bacteria.

The utility model discloses a mobile terminal purifier, including first casing, bipolar ion generator, support and air current driving piece, wherein, be provided with the bracket on the first casing and air intake, the air outlet of intercommunication each other, the bracket is located the air-out direction of air outlet, the bracket is used for placing mobile terminal; the bipolar ion generator comprises an ion sheet and a power converter, wherein the ion sheet comprises an emission polar plate, a grounding polar plate and a medium blocking plate, the medium blocking plate is positioned between the emission polar plate and the grounding polar plate, and the ion sheet is used for generating ion groups with different-sign charges; the power converter is used for converting electric power for the ion plate, the emission polar plate is connected with alternating-current high-voltage electricity through the power converter, and the grounding polar plate is connected with a ground wire through the power converter; the bracket is used for mounting the ion plate in the first shell; and the airflow driving piece is arranged in the first shell and used for driving air to enter from the air inlet and flow out from the air outlet after passing through the bipolar ion generator.

In one embodiment, the bipolar ionizer further comprises a plug having one end electrically connected to the ion plate in a pluggable manner and the other end electrically connected to the power converter.

In one embodiment, the first casing comprises a front casing, a middle casing and a rear casing which are detachably connected, the front casing and the rear casing are arranged oppositely, the middle casing is located between the front casing and the rear casing, the air inlet is located in the rear casing or a slit between the rear casing and the middle casing, the front casing comprises an air outlet screen plate and the bracket, the air outlet is located in the air outlet screen plate, and the bracket is located at one end of the front casing, which is far away from the rear casing.

In one embodiment, the air outlet net plate is recessed towards the inside of the first housing to increase the distance between the air outlet and the mobile terminal.

In one embodiment, the bracket comprises a front bracket and a rear bracket, wherein the front bracket comprises a first front bracket and a second front bracket which are fixedly arranged at two opposite ends of one side of the front shell close to the middle shell respectively; the rear support comprises a first rear support and a second rear support which are respectively and fixedly arranged at two opposite ends of one side of the middle shell close to the front shell; first fore-stock and first after-poppet can mutually support for it is fixed the one end of ion piece, second fore-stock and second after-poppet can mutually support for it is fixed the other end of ion piece.

In one embodiment, the bracket has a hollow structure, the plug is located in the bracket, one end of the bracket, which is far away from the front shell, is provided with a lead port, one end of the plug is in pluggable electrical connection with the ion plate, and the other end of the plug is in electrical connection with the power converter through the lead port.

In one embodiment, the ion plate further comprises a first electrical connection and a second electrical connection, the dielectric barrier plate is located between the emitter plate and the ground plate; the plug comprises a first plug and a second plug; one end of the first electric connector is fixedly and electrically connected with the emission polar plate, the other end of the first electric connector is electrically connected with one end of a first plug in a pluggable manner, and the other end of the first plug is connected with alternating-current high-voltage electricity through the power converter; one end of the second electric connector is fixedly and electrically connected with the grounding polar plate, the other end of the second electric connector is electrically connected with one end of the second plug in a pluggable mode, and the other end of the second plug is connected with the ground wire through the power converter.

In one embodiment, the first electrical connector and the second electrical connector are disposed at the same end of the ion plate; or the first electric connecting piece and the second electric connecting piece are respectively arranged at two opposite ends of the ion plate.

In one embodiment, one end of the first plug is connected with the first electric connector in a pluggable and electric manner, and the other end of the first plug is connected with the power converter in a pluggable and electric manner; one end of the second plug is connected with the second electric connector in a pluggable mode, and the other end of the second plug is connected with the power converter in a pluggable mode.

In one embodiment, one end of the first electrical connector connected with the first plug is provided with a first elastic piece, and the first elastic piece can press against the first plug, so that the first plug can be tightly abutted against the first electrical connector to realize stable electrical connection; one end of the second electric connecting piece, which is connected with the second plug, is provided with a second elastic piece, and the second elastic piece can abut against the second plug, so that the second plug can be tightly abutted against the second electric connecting piece to realize stable electric connection.

In one embodiment, a first port is formed at one end of the first electric connector connected with the first plug, the first elastic piece comprises a first elastic piece, and the first elastic piece is arranged on the side wall of the first port and inclines or bends towards the inside of the first port; the second end of the second electric connector, which is connected with the second plug, is provided with a second port, and the second elastic piece comprises a second elastic piece which is arranged on the side wall of the second port and inclines or bends towards the inside of the second port.

In one embodiment, the ion plate further comprises a second shell made of an insulating material, the second shell is arranged outside the ion plate, the ion plate sequentially comprises a first ground polar plate, a first dielectric barrier plate, a first emission polar plate, a second dielectric barrier plate, a second emission polar plate, a third dielectric barrier plate and a second ground polar plate from one side to the other side, the size of the first dielectric barrier plate and the size of the third dielectric barrier plate in the width direction are smaller than that of the second dielectric barrier plate, and the second shell is clamped on the third dielectric barrier plate, so that the surface of the second shell is flush with the surface of the ion plate.

The utility model discloses a mobile terminal clarifier, its beneficial effect is:

the utility model discloses a mobile terminal clarifier through the shape and the structure of reasonable its first shell that sets up for mobile terminal not only can be placed to the clarifier, can also carry out purification treatment to mobile terminal surfaces such as cell-phone. Additionally, furtherly, the utility model discloses mobile terminal clarifier's bipolar ion generator is connected with the ion piece electricity through can plugging out the plug, has made things convenient for the installation, the maintenance and the change of ion piece, and when the ion piece broke down, only need pull out the plug, change the ion piece can, other circuit structure or electronic components in power converter and the clarifier need not be changed.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a mobile terminal purifier in one embodiment.

Fig. 2 is a schematic diagram of an exploded structure of the mobile terminal purifier in one embodiment.

Fig. 3 is a schematic structural diagram of the mobile terminal purifier in a use state in one embodiment.

FIG. 4 is a schematic diagram of the back side of the mobile terminal purifier in one embodiment.

Fig. 5 is a schematic structural diagram of the mobile terminal purifier in an embodiment after the front shell and the middle shell are separated.

Fig. 6 is a schematic diagram of the front shell on a side near the middle shell in one embodiment.

FIG. 7 is a schematic diagram of an embodiment of a purifier with a front shell and an ion plate hidden therein.

FIG. 8 is a schematic view of the internal structure of an ion plate in one embodiment.

FIG. 9 is a schematic diagram of an embodiment of a plug connected to an ion plate.

FIG. 10 is a schematic diagram illustrating the structure of an embodiment of the plug after being pulled off the ion plate.

FIG. 11 is a schematic structural diagram of another embodiment of a plug after being pulled out of an ion plate.

Fig. 12 is a schematic structural view of the embodiment shown in fig. 11 after the plug is connected with the ion plate.

FIG. 13 is a diagram illustrating the connection of a first electrical connector to a first plug according to one embodiment.

FIG. 14 is a diagram illustrating the connection of a second electrical connector to a second plug, according to one embodiment.

FIG. 15 is a schematic diagram of a first electrical connector according to one embodiment.

FIG. 16 is a schematic diagram of a second electrical connector in accordance with one embodiment.

Fig. 17 is a schematic diagram of an exploded structure of an ion plate in another embodiment.

FIG. 18 is a schematic view showing the internal structure of an ion plate in another embodiment.

FIG. 19 is a schematic view showing the overall structure of an ion plate in another embodiment.

Reference numerals:

the air conditioner comprises a first shell 100, a bracket 110, an air inlet 120, an air outlet 130, a front shell 140, an air outlet screen plate 141, a middle shell 150 and a rear shell 160; the plasma display panel comprises a bipolar ion generator 200, an ion plate 210, a first grounding polar plate 211, a first dielectric barrier plate 212, a first emitter plate 213, a second dielectric barrier plate 214, a second emitter plate 215, a third dielectric barrier plate 216, a second grounding polar plate 217, a first leading-out terminal 218, a second leading-out terminal 219, a second shell 220, a first electric connector 221, a first elastic sheet 222, a second electric connector 223, a second elastic sheet 224, an upper shell 225 and a lower shell 226; the plug 230, the first plug 240, the third electrical connector 241, the first insulator 242, the first wire 243, the first protruding end 244, the second plug 250, the fourth electrical connector 251, the second insulator 252, the second wire 253, the second protruding end 254, the power converter 260, the bracket 300, the first front bracket 310, the second front bracket 320, the first rear bracket 330 and the second rear bracket 340, and the lead port 350; the airflow driving part 400, the motor 410 and the fan blades 420; a mobile phone 500; a hollowed-out area 600.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment, the mobile terminal purifier is structured as shown in fig. 1, fig. 2 and fig. 3, and includes a first housing 100, a bipolar ion generator 200, a bracket 300 and an airflow driving member 400, wherein the first housing 100 is provided with a bracket 110, and an air inlet 120 and an air outlet 130 which are communicated with each other, the bracket 110 is located in an air outlet direction of the air outlet 130, the bracket 110 is used for placing a mobile terminal such as a mobile phone 500, the bipolar ion generator 200 includes an ion plate 210, a plug 230 and a power converter 260, the ion plate 210 is used for generating ion groups with different sign charges; one end of the plug 230 is electrically connected with the ion plate 210 in a pluggable manner, and the other end is electrically connected with the power converter 260, wherein the power converter 260 is used for converting electric power for the ion plate 210; a supporter 300 for mounting the ion plate 210 in the first housing 100; the airflow driving member 400 is disposed in the first housing 100, and is used for driving air to enter from the air inlet 120, pass through the bipolar ion generator 200, and then flow out from the air outlet 130. In one embodiment, as shown in fig. 2, the airflow driving member 400 is a fan, and includes a motor 410 and fan blades 420, the motor 410 can drive the fan blades 420 to rotate, so as to drive air to enter from the air inlet 120, and then to flow out from the air outlet 130 through the bipolar ion generator 200.

As shown in fig. 2 and 4, the first casing 100 includes a front casing 140, a middle casing 150, and a rear casing 160 detachably connected, the front casing 140 and the rear casing 160 are both in a disc shape and are arranged opposite to each other, the middle casing 150 is located between the front casing 140 and the rear casing 160, the airflow driving member 400 is located inside the middle casing 150, as shown in fig. 4, the air inlet 120 is located in a slit between the rear casing 160 and the middle casing 150, as shown in fig. 2, the front casing 140 includes an air outlet plate 141 and a bracket 110, the air outlet 130 is located at the air outlet plate 141, the bracket 110 is located at an end of the front casing 140 away from the rear casing 160, and bottoms of the bracket 110 and the middle casing 150 are both flat for enabling the mobile terminal cleaner to be stably placed on a platform such as a desktop. It should be noted that in the embodiment shown in fig. 4, the intake vent 120 is located in the slit between the rear casing 160 and the middle casing 150, and it is understood that in other embodiments, the intake vent 120 may also be located on the rear casing 160.

When the mobile terminal purifier is operated, the airflow driving member 400 and the bipolar ion generator 200 are both operated, the airflow enters from the air inlet 120, the bipolar ion generator 200 releases ion groups with different charges, and the airflow passes through the bipolar ion generator 200, and the ion groups are taken out of the purifier from the air outlet 130, so as to purify the surface of the mobile phone 500, as shown in fig. 3. In one embodiment, as shown in fig. 1 and 2, the air outlet screen plate 141 of the front case 140 is recessed toward the inside of the first casing 100 to increase the distance between the air outlet 130 and the mobile terminal, so that on one hand, heat dissipation of the mobile terminal can be facilitated, and on the other hand, the surface of the mobile terminal can be better purified by the airflow flowing out of the air outlet 130. In addition, as shown in fig. 1 and 3, the height of the bracket 110 is low, so that the air outlet 130 and the screen of the mobile phone 500 are not blocked, and after the mobile phone 500 is placed on the bracket 110, a user can watch videos with the mobile phone 500 and sterilize and disinfect the surface of the mobile phone 500 by using a purifier; when the mobile phone 500 is not placed on the bracket 110, the bracket 110 does not block the air outlet 130, so that the user can open the purifier to purify the surrounding air.

As shown in fig. 5 and 6, the ion plate 210 is suspended and fixed in the first housing 100 by the bracket 300, so that the ion group generated by the ion plate 210 is conveniently carried out of the purifier by the airflow. As can be seen from fig. 5 and 6, the bracket 300 includes a front bracket and a rear bracket, and the front bracket 300 includes a first front bracket 310 and a second front bracket 320 fixedly disposed at opposite ends of the front case 140 near one side of the middle case 150, respectively; the rear bracket 300 includes a first rear bracket 330 and a second rear bracket 340 fixedly disposed at opposite ends of the middle case 150 near one side of the front case 140, respectively; the first front bracket 310 and the first rear bracket 330 can be fitted to each other for fixing one end of the ion sheet 210, and the second front bracket 320 and the second rear bracket 340 can be fitted to each other for fixing the other end of the ion sheet 210. In addition, as shown in fig. 5 and 7, the bracket 300 has a hollow structure, the plug 230 is located in the bracket 300, one end of the bracket 300 away from the front shell 140 is provided with a lead port 350, one end of the plug 230 is electrically connected to the ion plate 210 in a pluggable manner, and the other end is electrically connected to the power converter 260 through the lead port 350. The power converter 260 is used to convert the commercial power into the power required by the ion plate 210, and in a specific embodiment, the power converter 260 is capable of converting 220v commercial power into ac high voltage power required by the ion plate 210, and the voltage range of the high voltage power is typically 1000v-3000 v. As can be seen from fig. 5 and 7, the ion plate 210 is suspended in the first casing 100 through the bracket 300 and is installed at a position close to the air outlet 130, and the power converter 260 is disposed in the first casing 100 and close to the rear casing 160, so that on one hand, the space in the first casing 100 can be fully utilized, and on the other hand, the distance between the ion plate 210 and the power converter 260 can be shortened as much as possible, so as to facilitate the electrical connection between the ion plate 210 and the power converter 260 through the plug 230.

In an embodiment, a specific structure of the ion plate 210 is shown in fig. 8, a structure of the plug 230 connected to the ion plate 210 is shown in fig. 9, a structure of the plug 230 pulled out from the ion plate 210 is shown in fig. 10, and as can be seen from fig. 9 and 10, the ion plate 210 further includes a second housing 220 made of an insulating material, the second housing 220 is disposed outside the ion plate 210, and hollow areas 400 are respectively opened on two sides of the ion plate 210 on the second housing 220, so that the outflow of different-sign ion groups with positive and negative charges is facilitated. The plug 230 includes a first plug 240 and a second plug 250, and the first plug 240 and the second plug 250 are respectively connected to opposite ends of the ion plate 210 in a pluggable manner. As can be seen from fig. 8, the ion plate 210 is shaped like a layered rectangle, the ion plate 210 sequentially includes a first ground plate 211, a first dielectric barrier plate 212, a first emitter plate 213, a second dielectric barrier plate 214, a second emitter plate 215, a third dielectric barrier plate 216, and a second ground plate 217 from one side to the other side, the first emitter plate 213 and the second emitter plate 215 form a first lead-out terminal 218 at one end of the ion plate 210, the first lead-out terminal 218 can be electrically connected to a first plug 240, the first plug 240 is connected to ac high voltage power through a power converter 260, the first ground plate 211 and the second ground plate 217 form a second lead-out terminal 219 at the other end of the ion plate 210, the second lead-out terminal 219 can be electrically connected to a second plug 250, and the second plug is grounded through the power converter 260. The first emitter plate 213 and the first ground plate 211 form a first electric field, the second emitter plate 215 and the second ground plate 217 form a second electric field, the directions of the first electric field and the second electric field are opposite, and the double-sided ion plate 210 with a symmetrical structure increases the number of escaping electrons in unit time, enhances ion airflow, and accelerates the air purification speed. It is understood that, in other embodiments, the ion plate 210 may further include only the first emitter plate 213, the first ground plate 211 and the first dielectric barrier plate 212, the first dielectric barrier plate 212 is located between the first emitter plate 213 and the first ground plate 211, a first electric field is formed between the first emitter plate 213 and the first ground plate 211, and electrons are extracted from one end of the first emitter plate 213 to the first ground plate 211 through the middle first dielectric barrier plate 212.

In the embodiment shown in fig. 8, the first and second terminals 218 and 219 of the ion sheet 210 are located at opposite ends of the ion sheet 210, respectively, as shown in fig. 9 and 10, and the first and second plugs 240 and 250 are pluggably connected to opposite ends of the ion sheet 210, respectively. It is understood that in other embodiments, the first outlet 218 and the second outlet 219 may be located at the same end of the ion plate 210, as shown in fig. 11 and 12, and the first plug 240 and the second plug 250 may be connected to the same end of the ion plate 210 in a pluggable manner, so that the power converter 260 only needs to be disposed at a position close to the first plug 240 and the second plug 250, on one hand, the length of the first plug 240 and the second plug 250 can be shortened, and on the other hand, winding when the first plug 240 or the second plug 250 is connected to the power converter 260 can be avoided.

In one embodiment, as shown in fig. 13 and 14, ionic sheet 210 further includes a first electrical connection 221 and a second electrical connection 223, first plug 240 being pluggably electrically connected to the emitter plate of ionic sheet 210 via first electrical connection 221, and second plug 250 being pluggably electrically connected to the ground plate of ionic sheet 210 via second electrical connection 223. One end of the first electrical connector 221 is electrically connected to the first outlet 218, and the other end is electrically connected to one end of the first plug 240 in a pluggable manner, and the other end of the first plug 240 is connected to the ac high voltage power through the power converter 260; one end of the second electrical connector 223 is electrically connected to the second outlet 219, the other end is electrically connected to one end of the second plug 250 in a pluggable manner, and the other end of the second plug 250 is connected to the ground through the power converter 260. In a specific embodiment, one end of the first electrical connector 221 is soldered to the first terminal 218 by high frequency soldering to achieve a stable and secure electrical connection, and the other end is used for a pluggable electrical connection with the first plug 240; one end of the second electrical connector 223 is soldered to the second lead-out end 219 by high frequency soldering to achieve a stable and secure electrical connection, and the other end is used for being electrically connected to the second plug 250 in a pluggable manner.

As shown in fig. 13, the first plug 240 includes a third electrical connector 241, a first insulating member 242 and a first conductive wire 243, the third electrical connector 241 is located in the first insulating member 242, one end of the third electrical connector 241 protrudes from the first insulating member 242 to form a first protruding end 244, and the other end of the third electrical connector 241 is electrically connected to the first conductive wire 243 in the first insulating member 242. As shown in fig. 14, the second plug 250 includes a fourth electrical connector 251, a second insulating member 252 and a second conductive line 253, the fourth electrical connector 251 is located in the second insulating member 252, and one end of the fourth electrical connector 251 protrudes from the second insulating member 252 to form a second protruding end 254, and the other end of the fourth electrical connector 251 is electrically connected to the second conductive line 253 in the second insulating member 252. The first protruding terminal 244 can be inserted into the first electrical connector 221, so that the first plug 240 can be electrically connected with the first emitter plate 213 and the second emitter plate 215; the second protruding terminal 254 can be inserted into the second electrical connector 223, so that the second plug 250 can be electrically connected with the first and second ground plates 211 and 217.

In addition, as shown in fig. 15, the first elastic sheet 222 is disposed on the sidewall of the first electrical connector 221, the first elastic sheet 222 inclines or bends toward the inside of the first electrical connector 221, and after the first protruding end 244 is inserted into the first electrical connector 221, the first elastic sheet 222 can press against the first protruding end 244, so that the first protruding end 244 can tightly abut against the first electrical connector 221 to achieve stable electrical connection. Similarly, as shown in fig. 16, a second elastic sheet 224 is disposed on a sidewall of the second electrical connector 223, the second elastic sheet 224 is inclined or bent toward the inside of the second electrical connector 223, and after the second protruding end 254 is inserted into the second electrical connector 223, the second elastic sheet 224 can press against the second protruding end 254, so that the second protruding end 254 can be tightly abutted against the second electrical connector 223 to achieve a stable electrical connection.

In addition, for convenience of processing, the first electrical connector 221 and the second electrical connector 223 are made of a metal material with good conductivity, the first elastic sheet 222 is integrally formed with the first electrical connector 221, and the second elastic sheet 224 is integrally formed with the second electrical connector 223. In addition, it is understood that in other embodiments, another elastic structure may be further disposed at one end of the first electrical connector 221 connected to the first plug 240, which is collectively referred to as a first elastic member, and the first elastic member can press against the first plug 240, so that the first plug 240 can tightly abut against the first electrical connection to realize stable electrical connection; other elastic structures can be further arranged at one end of the second electric connecting piece 223 connected with the second plug 250, and the other elastic structures are collectively called as second elastic pieces, and the second elastic pieces can press the second plug, so that the second plug 250 can be tightly abutted against the second electric connecting piece 223 to realize stable electric connection.

In addition, in order to prevent the erroneous insertion, as shown in fig. 13 and 14, the first projecting end 244 has a cylindrical shape or a cylindrical shape, and a port where the first electrical connector 221 is connected to the first plug 240 has a cylindrical shape; the second protruding end 254 is flat, and the port of the second electrical connector 223 connected to the second plug 250 is also flat, so that the first plug 240 can only be inserted into the first electrical connector 221, and the second plug 250 can only be inserted into the second electrical connector 223. And to further increase the visibility of the first plug 240 and the second plug 250, the peripheral cross-section of the first insulating member 242 is circular and the peripheral cross-section of the second insulating member 252 is oval or square.

In the embodiment shown in fig. 13 and 14, the first plug 240 is electrically connected to the first electrical connector 221 in a pluggable manner, and the second plug 250 is electrically connected to the second electrical connector 223 in a pluggable manner, so that the ion plate 210 can be conveniently installed, maintained and replaced. In addition, in some embodiments, one end of the first plug 240 is electrically connected to the first electrical connector 221 in a pluggable manner, the other end is electrically connected to the power converter 260 in a pluggable manner, one end of the second plug 250 is electrically connected to the second electrical connector 223 in a pluggable manner, the other end is electrically connected to the power converter 260 in a pluggable manner, so designed, it is convenient to select or replace plugs 230 with different lengths or specifications according to the specific installation positions of the ion plate 210 and the power converter 260, when the ion plate 210 and the power converter 260 are installed at the outlet 130 of the cross flow fan, the first plug 240 and the second plug 250 are selected to be connected between the ion plate 210 and the power converter 260 in a pluggable manner only by considering the proper installation positions of the ion plate 210 and the power converter 260, and after the ion plate 210 and the power converter 260 are installed, the length or specification is selected.

In addition, in one embodiment, the bipolar ion generator 200 and the airflow driving member 400 may share a power supply, or may be individually connected to the commercial power, and the electronic control system for controlling the operation of the bipolar ion generator 200 may be independent from or associated with the electronic control system of the airflow driving member 400. In another embodiment, a pneumatic relay for detecting wind power may be installed in the air duct of the mobile terminal purifier, and when air flow is detected, the pneumatic relay controls the ion plate 210 to generate ions, thereby implementing automatic control, and avoiding the ineffective operation of the bipolar ion generator 200, so as to save electric energy. It will be appreciated that when the electronic control system of bipolar ionizer 200 is associated with the electronic control system of airflow driver 400, no pneumatic relay needs to be loaded.

In addition, in one embodiment, as shown in fig. 17 to 19, the ion plate 210 includes a second housing 220 made of an insulating material, the second housing 220 includes an upper shell 225 and a lower shell 226, the second housing 220 is disposed outside the ion plate 210, and hollow areas 600 are opened on the upper shell 225 and the lower shell 226 on both upper and lower sides of the ion plate 210, so as to facilitate outflow of different-sign ion groups with positive and negative charges. The ion plate 210 sequentially comprises a first grounding polar plate 211, a first dielectric barrier plate 212, a first emission polar plate 213, a second dielectric barrier plate 214, a second emission polar plate 215, a third dielectric barrier plate 216 and a second grounding polar plate 217 from one side to the other side, the sizes of the first dielectric barrier plate 212 and the third dielectric barrier plate 216 in the width direction are smaller than that of the second dielectric barrier plate 214, steps are formed between the first dielectric barrier plate and the second dielectric barrier plate and between the third dielectric barrier plate and the second dielectric barrier plate, and an upper shell 225 and a lower shell 226 are clamped on the steps on the upper side and the lower side of the third dielectric barrier plate 216, so that the surface of the second shell 220 is flush with the surface of the ion plate 210, and therefore, different-sign ion groups with positive and negative charges can flow out of the hollow area 600 more conveniently.

The utility model discloses bipolar ion generator in the mobile terminal clarifier forms an electric field that has accurate size after launching polar plate and ground connection polar plate access electric current, adopts the alternating current, draws forth the medium barrier plate at the electron that field ground connection one side sent the launching polar plate, produces the gas ion of abnormal sign, can clear away harmful substance such as the bacterium on cell-phone surface effectively. Under the traditional single-stage ion airflow condition, the particle can be charged, bacteria attached to the particle can be electrified, however, the bacteria cannot be killed by changing the potential of the bacteria, and the bird cannot be killed by touching the electricity as if the bird falls on a high-voltage wire, and the reason is that no current is formed on the bird body. And the utility model discloses a heteropolar gas ion that bipolar ion ware produced forms the cell wall that small electric current can pierce through the bacterium to kill the bacterium, it is required to explain that the small electric current that here formed is less than 1mA, and is safe to the human body. Additionally, the utility model discloses bipolar ion generator in the mobile terminal clarifier, can also air-purifying, when the electron of effusion reaches certain speed, can encourage the oxygen molecule to be the ionic state, ionized gas makes the particulate matter go up the electricity, electrified particulate matter is when meetting earthing pole or reverse polarity thing, just reduce the particulate matter in the indoor air very easily, make the dust that wafts in the air turn into the dust fall, reduce floated particulate matter, the unbalanced oxygen ion that produces simultaneously possesses the physics striking effect of high kinetic energy simultaneously, be favorable to the decomposition of harmful volatile gas molecule under physics effect and chemical action dual function, also can play the effect of killing to the disease microorganism, reach air purification and sterile purpose.

The utility model discloses a mobile terminal clarifier through the shape and the structure of reasonable its first shell that sets up for the clarifier can carry out purification treatment to mobile terminal surfaces such as cell-phone. Additionally, the utility model discloses mobile terminal clarifier's bipolar ion generator is connected with the ion piece electricity through can pluggably with the plug, has made things convenient for the installation, the maintenance and the change of ion piece, when the ion piece broke down, only need pull out the plug, change the ion piece can, other circuit structure or electronic components in power converter and the clarifier need not be changed.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (12)

1. A mobile terminal purifier, comprising:

the mobile terminal comprises a first shell, a second shell and a power supply, wherein the first shell is provided with a bracket, an air inlet and an air outlet which are communicated with each other, the bracket is positioned in the air outlet direction of the air outlet, and the bracket is used for placing a mobile terminal;

the bipolar ion generator comprises an ion sheet and a power converter, wherein the ion sheet comprises an emission polar plate, a grounding polar plate and a medium blocking plate, the medium blocking plate is positioned between the emission polar plate and the grounding polar plate, and the ion sheet is used for generating ion groups with different-sign charges; the power converter is used for converting electric power for the ion plate, the emission polar plate is connected with alternating-current high-voltage electricity through the power converter, and the grounding polar plate is connected with a ground wire through the power converter;

a support for mounting the ion plate within the first housing; and

and the airflow driving piece is arranged in the first shell and used for driving air to enter from the air inlet and flow out from the air outlet after passing through the bipolar ion generator.

2. The mobile terminal purifier of claim 1, wherein the bipolar ionizer further comprises a plug having one end electrically connected to the ion plate in a pluggable manner and the other end electrically connected to the power converter.

3. The mobile terminal purifier according to claim 2, wherein the first housing comprises a front housing, a middle housing and a rear housing, the front housing and the rear housing are opposite, the middle housing is located between the front housing and the rear housing, the air inlet is located at the rear housing or at a slit between the rear housing and the middle housing, the front housing comprises an air outlet screen and the bracket, the air outlet is located at the air outlet screen, and the bracket is located at an end of the front housing away from the rear housing.

4. The mobile terminal purifier of claim 3, wherein the air outlet screen is recessed towards the inside of the first housing to increase the distance between the air outlet and the mobile terminal.

5. The mobile terminal purifier according to claim 3, wherein the bracket comprises a front bracket and a rear bracket, the front bracket comprises a first front bracket and a second front bracket, and the first front bracket and the second front bracket are respectively fixedly arranged at two opposite ends of one side of the front shell close to the middle shell; the rear support comprises a first rear support and a second rear support which are respectively and fixedly arranged at two opposite ends of one side of the middle shell close to the front shell; first fore-stock and first after-poppet can mutually support for it is fixed the one end of ion piece, second fore-stock and second after-poppet can mutually support for it is fixed the other end of ion piece.

6. The mobile terminal purifier according to claim 3, wherein the bracket has a hollow structure, the plug is located in the bracket, a lead port is opened at an end of the bracket away from the front shell, one end of the plug is electrically connected to the ion plate in a pluggable manner, and the other end of the plug is electrically connected to the power converter through the lead port.

7. The mobile terminal purifier of claim 2, wherein the ionic sheet further comprises a first electrical connector and a second electrical connector; the plug comprises a first plug and a second plug; one end of the first electric connector is fixedly and electrically connected with the emission polar plate, the other end of the first electric connector is electrically connected with one end of a first plug in a pluggable manner, and the other end of the first plug is connected with alternating-current high-voltage electricity through the power converter; one end of the second electric connector is fixedly and electrically connected with the grounding polar plate, the other end of the second electric connector is electrically connected with one end of the second plug in a pluggable mode, and the other end of the second plug is connected with the ground wire through the power converter.

8. The mobile terminal purifier of claim 7, wherein the first and second electrical connections are disposed at a same end of the ionic sheet; or the first electric connecting piece and the second electric connecting piece are respectively arranged at two opposite ends of the ion plate.

9. The mobile terminal purifier of claim 7, wherein one end of the first plug is pluggably electrically connected to the first electrical connector and the other end is pluggably electrically connected to the power converter; one end of the second plug is connected with the second electric connector in a pluggable mode, and the other end of the second plug is connected with the power converter in a pluggable mode.

10. The mobile terminal purifier according to any one of claims 7-9, wherein a first elastic member is disposed at an end of the first electrical connector connected to the first plug, and the first elastic member can press against the first plug, so that the first plug can be tightly abutted against the first electrical connector to realize stable electrical connection; one end of the second electric connecting piece, which is connected with the second plug, is provided with a second elastic piece, and the second elastic piece can abut against the second plug, so that the second plug can be tightly abutted against the second electric connecting piece to realize stable electric connection.

11. The mobile terminal purifier according to claim 10, wherein a first port is opened at an end of the first electrical connector connected to the first plug, and the first elastic member comprises a first elastic piece, the first elastic piece is disposed on a sidewall of the first port and is inclined or bent toward an inside of the first port; the second end of the second electric connector, which is connected with the second plug, is provided with a second port, and the second elastic piece comprises a second elastic piece which is arranged on the side wall of the second port and inclines or bends towards the inside of the second port.

12. The mobile terminal purifier of claim 1, wherein the ionic sheet further comprises a second shell made of an insulating material, the second shell is disposed outside the ionic sheet, the ionic sheet sequentially comprises a first ground polar plate, a first dielectric barrier plate, a first emission polar plate, a second dielectric barrier plate, a second emission polar plate, a third dielectric barrier plate and a second ground polar plate from one side to the other side, the first dielectric barrier plate and the third dielectric barrier plate are smaller than the second dielectric barrier plate in size in the width direction, and the second shell is clamped on the third dielectric barrier plate, so that the surface of the second shell is flush with the surface of the ionic sheet.

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