DEVICE FOR ELECTRONIC SPRAYING SPRAYING AT A CONSTANT RATE

专利摘要:
A constant rate atomizing atomizing spray device comprises a main unit (1) containing a printed circuit board (20), an electrode plate (30), liquid tanks (40) and syringes (50). The electrode plate includes the liquid reservoirs and the sealed syringes, and the printed circuit board connects an electrical current to the electrode plate and the syringes. The present invention further includes an actuating mechanism (60) and a metering device (70). The actuating mechanism drives a screw to raise or lower it, pushing the pistons of the metering device through a gear change. The syringes are connected to the liquid tanks. When the pistons are linked to the actuating mechanism and shifting to rise, the liquid in the liquid tanks is sprayed at a constant rate through the syringes, forming a fog carrying negative ions. As the pistons descend, the ambient liquid is drawn into the fluid reservoirs through the syringes, waiting for the next electrospray.
公开号:FR3065654A1
申请号:FR1853636
申请日:2018-04-26
公开日:2018-11-02
发明作者:Huang Tien-Yao；Tsai Chin-Hong
申请人:Elite Secret Biotechnology Corp；
IPC主号:

专利说明:

Holder (s): ELITE SECRET BIOTECHNOLOGY CORP ..
Extension request (s)
Agent (s): CASALONGA.
(04 / ELECTRONIC SPRAYING DEVICE SPRAYING AT A CONSTANT RATE.
FR 3 065 654 - A1 (3 // An electrospray sprayer spraying at a constant rate comprises a main unit (1) containing a printed circuit board (20), an electrode plate (30), liquid reservoirs (40) and syringes (50). The electrode plate includes liquid reservoirs and sealed syringes, and the printed circuit board connects electrical current to the electrode plate and syringes. The present invention includes in addition to an actuating mechanism (60) and a metering device (70). The actuating mechanism drives a screw to raise or lower it, pushing the pistons of the metering device via a gear change The syringes are connected to the liquid tanks. When the pistons are linked to the actuation mechanism and the gear change to go up, the liquid in the liquid tanks is sprayed at a constant rate through syringes, forming a mist carrying negative ions. When the pistons descend, the ambient liquid is drawn into the liquid reservoirs through the syringes, awaiting a next electrospray.

Spray device electrospray spraying at a constant rate
The present invention relates to an electrospray spray device spraying at a constant rate, and more particularly to an electrospray spray device spraying at a constant rate, in which a gasoline concentrate for facial or skin care is sprayed onto the skin after ionization by nano-electrospray, so that the gasoline concentrate can be absorbed through the skin easily. In addition, the defect in a conventional atomizing spray device which cannot be sprayed at a constant rate can be eliminated, and the gasoline concentrate which is nanodimensioned and carries negative ions can be sprayed outside at a constant rate at each electrospray.
It is known that gasoline concentrate is a liquid often used to care for the skin, and most gasoline concentrate contains highly effective and stable antioxidant to repair progressively damaged skin, forming healthy skin and tense. In addition, the redness of the skin can be reduced and the skin can be whitened. On the other hand, as the essence concentrate can also moisten the skin, it becomes an essential care product for modern women who want to be attractive. A common way to use gasoline concentrate is to combine gasoline concentrate with a skin care facial mask and cover the skin care facial mask on one side or human skin to care for the skin. However, it takes time and work to cover the face mask on the face or skin, and people have to wait long enough for the gasoline concentrate to take effect, which causes a lot of inconvenience. In addition, immersing the gasoline concentrate in the facial skin care mask does not allow the function of the gasoline concentrate to be developed, mainly because the water molecules in the gasoline concentrate are large and cannot not infiltrate the skin. Also, the facial mask can be used only to temporarily retain moisture and has no antioxidant function, showing no efficacy when used for many people.
In addition, for an existing device that sprays the gasoline concentrate on human skin, the gasoline concentrate is vibrated at high frequency to form a mist which is then sprayed on the skin. Spray mist saves a lot of time without having to put on the face mask for a long time. However, the water molecules in the spray mist after the high frequency vibrations are still large and cannot be absorbed by the skin. Also, the practical effect is not significant and is still used to temporarily moisten the skin. The gasoline concentrate can also be sprayed onto the skin by electrospray, in which the gasoline droplets are obtained by high-voltage negative ionization and the gasoline concentrate which is negatively ionized is nanodimensioned and forms fine atomized molecules which are then sprayed onto the skin, so that the fine molecules sprayed into the gasoline concentrate can be introduced into the skin, obtaining a better effect because they are easily absorbed by the skin. However, each time an electrospray sprayer sprays the gasoline concentrate on the skin, the amount of spraying cannot be controlled, and a user cannot control the stock and amount of spraying of the gasoline concentrate. In addition, if the gasoline concentrate is stored in the sprayer, the stock of gasoline concentrate in the sprayer is limited and the gasoline concentrate can be contaminated easily, causing many usage problems.
The conventional skin care mask can only be used to temporarily retain moisture without developing the function of the essence concentrate in it. In addition, there is no other antioxidant function. In addition, if the gasoline concentrate is sprayed onto the skin using the sprayer, as the gasoline molecules are large, each spray cannot be controlled at a constant rate.
Therefore, the present invention describes an electrospray sprayer spraying at a constant rate, comprising a main unit which includes a transformer, a printed circuit board, an electrode plate, several liquid reservoirs and several syringes. An interior of the electrode plate is provided with several liquid reservoirs, the syringes are arranged above the liquid reservoirs, the liquid reservoirs contain liquid water, and the printed circuit board connects an electric current to the electrode plate and syringes. When liquid water flows through the syringes, it becomes a mist and carries negative ions. The present invention is characterized in that the electrospray spray device includes an actuation mechanism and a metering device. The actuation mechanism is provided with a motor, the motor is provided with a drive shaft, the drive shaft rotates a gear change, the gear change drives a screw to make it go up or down, and an upper side of the screw is pivoted with and abuts on a push plate.
In the metering device, a piston is arranged on a bottom of a liquid tank, and an upper plate is placed on a top of a liquid tank to seal the liquid tank. A syringe is arranged above the top plate and is connected to a liquid reservoir. The piston is linked to the push plate to go up or down. When the pistons rise due to the actuation mechanism, the liquid in the liquid reservoirs is sprayed outside through the syringes, forming a mist carrying negative ions. On the other hand, when the pistons descend due to the actuation mechanism, the ambient liquid is drawn into the liquid reservoirs through the syringes to wait for a next electrospray.
The primary object of the present invention is to provide an atomizing spray device spraying at a constant rate, in which the gasoline concentrate for facial or skin care, carrying negative ions, is sprayed onto the skin by ionization by nano-electrospray. The gasoline concentrate can be absorbed through the skin easily and the disadvantage of a conventional spray mist device which cannot be sprayed at a constant rate can be avoided, with this the gasoline concentrate can be sprayed at a rate constant at each electrospray.
To enable a better understanding of said objectives and of the technological methods of the present invention, a brief description of the drawings is provided below followed by a detailed description of the preferred embodiments.
FIG. 1 shows a schematic three-dimensional view of a main unit directed upwards, according to the present invention.
FIG. 2 shows a schematic three-dimensional view of a main unit pointing downwards, according to the present invention.
FIG. 3 shows a plan perspective view from below of the present invention.
FIG. 4 shows a side plan view in perspective of the present invention.
FIG. 5 shows a schematic sectional view of a suction action of the ambient gasoline concentrate, according to the present invention.
FIG. 6 shows a schematic sectional view of an electrospray action of the gasoline concentrate, according to the present invention.
FIG. 7 shows a schematic plan view of a gear change, according to the present invention.
Referring to FIGS. 1 to 7, the present invention comprises a main unit 1 which is provided with a handle 2 and a nozzle 3. The handle 2 is held by one hand and is provided with a first push button 4, with a second push button 4a and a switch 5. The nozzle 3 is arranged on an upper side of the handle 2 for sucking up liquid (gasoline concentrate) and spraying a mist. An interior of the main unit 1 includes a transformer 10, a printed circuit board 20, an electrode plate 30, several liquid reservoirs 40, several syringes 50, an actuation mechanism 60 (as shown in FIGS. 5 to 7) and a metering device 70. The main unit 1 can be connected externally to a supply line 6 (or the interior of the main unit 1 can be provided with batteries), and the line power supply 6 is connected to a current source which supplies electricity to the transformer 10, to the printed circuit board 20 and to the actuation mechanism 60. The electrode plate 30 is a cylinder and an interior of the plate d electrode 30 is provided with several liquid reservoirs 40 which are small sealed barrels. Above each liquid reservoir 40 is an upper plate 41 for sealing the liquid reservoir 40, and a syringe 50 is disposed above the upper plate 41. The syringe 50 is connected to the liquid reservoir 40 which can store liquid water (the essence concentrate for skin care). An electric current flows to the electrode plate 30 and the syringes 50. The transformer 10 controls the circuit on the printed circuit board 20 to increase the pilot voltage which is converted into high voltage having negative polarity through a circuit rectifier, and is then applied to the syringes 50 (negative electrode), releasing electrons to give negative ions. When liquid water flows through syringes 50, it becomes a mist and carries negative ions. The actuating mechanism 60 includes a motor 61, the motor 61 is provided with a transmission shaft 62, the transmission shaft 62 rotates a gear change 80, and the gear change 80 drives a screw 81 for the raise or lower. The gear shift 80 is provided with a small gear 82 and a large gear 83, and a center of the small gear 82 is connected to the drive shaft 62 of the motor 61, while the drive shaft 62 drives the small gear 82 and then the large gear 83. A center of the large gear 83 is provided with a threaded hole 831, and when the large gear 83 rotates, the threaded hole 831 simultaneously rotates to raise or lower the screw 81. The first push button 4 of the handle 2 controls the motor 61 so that it rotates clockwise, while the second push button 4a of the handle 2 controls the motor 61 so that it rotates in the direction counterclockwise. The switch 5 of the handle 2 turns on the power supply, and an upper side of the screw 81 is pivoted with and abuts on a push plate 71. The metering device 70 includes pistons 72, the push plates 71 and the liquid tanks 40. A piston 72 is arranged on a bottom of a liquid tank 40 and a liquid tank 40 is provided with an upper plate 41 for sealing the liquid tank 40. Above an upper plate 41 is a syringe 50 which is connected to a liquid reservoir 40. A rod 73 is arranged between the piston 72 and the thrust plate 71, and the nozzle 3 of the main unit 1 is provided with several of the holes pin 301 (as shown in FIG. 2 and FIG. 5) which are opposite the syringes 50. The pistons 72 are linked by the push plates 71 to go up or down, and when the pistons 72 go up of the actuating mechanism 60, the liquid da ns the liquid tanks 40 is sprayed outside through the syringes 50, forming a mist carrying the negative ions. On the other hand, when the pistons 72 descend due to the actuation mechanism 60, the ambient liquid is sucked into the liquid reservoirs 40 through the syringes 50 to wait for a next electrospray.
By the above structures, when using the present invention, the switch 5 of the handle 2 is pressed down to turn on the power, and pinholes 301 of the nozzle 3 are immersed in the gasoline concentrate ( using a bowl unit to store the gasoline concentrate, and allowing the pinholes 301 of the nozzle 3 to touch the gasoline concentrate in the bowl unit). At this time, the first push button 4 is pushed, and the motor 61 is controlled to rotate clockwise. The drive shaft 62 of the motor 61 rotates the small gear 82, and then the small gear 82 drives the large gear 83. When the large gear 83 rotates clockwise, the threaded hole 831 rotates simultaneously to lower the screw 81. When the pistons 72 are actuated by the action of the actuating mechanism 60, the screw 81 descends. In addition, when the pressure in the liquid reservoirs 40 is low, the gasoline concentrate is drawn into the liquid reservoirs 40 through the syringes 50. Then, the nozzle 3 is aligned with the skin, and then the second push button 4a is pushed to control the motor 61 so that it rotates anti-clockwise. The drive shaft 62 of the motor 61 then rotates the small gear 82 counterclockwise, while the small gear 82 drives the large gear 83. When the large gear 83 rotates counterclockwise clockwise, the threaded hole 831 rotates simultaneously to raise the screw 81. When the pistons 72 are actuated by the action of the actuating mechanism 60, the screw 81 rises. In addition, when the pressure in the liquid tanks 40 is high, the gasoline concentrate in the liquid tanks 40 is withdrawn and sprayed outside through the syringes 50. Thus, the operation is repeated in advance and in back to remove gasoline concentrate at a constant rate and spray the gasoline concentrate sprayed at a constant rate.
At the same time, the transformer 10 controls the circuit on the printed circuit board 20 and increases the pilot voltage which is converted into high voltage having a negative polarity through a rectifier circuit, and is then applied to the syringes 50 (negative electrode ), releasing electrons to give negative ions. When the gasoline concentrate flows through the syringes 50, it becomes finely sprayed into a mist (forming a nanosized mist), easily absorbed by the human body.
In the present invention, the gasoline concentrate is removed by electrospray ionization, forming a nanosized fog of the gasoline concentrate which carries the negative ions. On the other hand, the gasoline concentrate is sucked and sprayed out at a constant rate by the metering device 70, which overcomes the disadvantage of the prior art that the conventional gasoline concentrate is coarse and also resolves the disadvantage of the prior art that the conventional gasoline concentrate cannot be sprayed at a constant rate with each spraying. In addition, since the gasoline concentrate is stored outside the sprayer and is vacuumed when necessary, it can be vacuumed and sprayed in real time, which avoids the problem of being contaminated or the development of fungi when the gasoline concentrate is stored in the sprayer.
It should of course be understood that the embodiments described here are merely illustrative of the principles of the invention and that a large variety of modifications can be made by those skilled in the art without departing from the spirit and of the field of the invention presented in the following claims.

权利要求:
Claims (8)
[1" id="c-fr-0001]
1. A spray device for electrospray spraying at a constant rate, comprising a main unit (1) which comprises a transformer (10), a printed circuit board (20), an electrode plate (30), several liquid tanks ( 40) and several syringes (50), in which the electrode plate includes the several liquid tanks, the syringes are arranged above the liquid tanks, the liquid tanks contain liquid water, the circuit board printed connects an electric current to the electrode plate and to the syringes, with that when the liquid water flows through the syringes, the liquid water becomes a mist and carries negative ions; wherein the atomizing sprayer device spraying at a constant rate includes an actuating mechanism (60) and a metering device (70), the actuating mechanism is provided with a motor (70), the engine is provided with '' a drive shaft (62), the drive shaft rotates a gear change, the gear change causes a screw (81) to move it up or down, an upper side of the screw is pivoted with and comes in stop on a thrust plate (71), the metering device is provided with a piston (72) on a bottom of a liquid tank, the liquid tank is provided with an upper plate (41) for sealing the liquid tank, a syringe (50) is arranged above an upper plate and is connected to a liquid tank (40), and the piston is on the push plate which makes it go up or down, with that when the pistons rise due to the mechanism of actuation, the liquid in the liquid reservoirs is sprayed outside through the syringes to form a mist carrying negative ions, or when the pistons descend due to the actuation mechanism, the ambient liquid is drawn into the reservoirs liquid through the syringes to wait for a next electrospray.
[2" id="c-fr-0002]
2. A spraying device atomizing spraying at a constant rate, according to claim 1, wherein the gear change (80) is provided with a small gear (82) and a large gear (83), a center of the small gear is connected to the drive shaft of the motor to drive the small gear and then the large gear, a center of the large gear is provided with a threaded hole (831), and the threaded hole allows the ascent or descent of the opinion.
[3" id="c-fr-0003]
3. A spraying device atomizing spraying at a constant rate, according to claim 1, in which pinholes (301) are arranged on the main unit, opposite the syringes (50).
[4" id="c-fr-0004]
4. A spraying device atomizing spraying at a constant rate, according to claim 1, wherein the main unit is externally connected to a supply line (6) which is connected to a power source which supplies electricity to the transformer, to the printed circuit board and to the motor.
[5" id="c-fr-0005]
5. A spraying device atomizing spraying at a constant rate, according to claim 1, wherein the transformer (10) drives the circuit on the printed circuit board and increases the pilot voltage which is converted into high voltage having a negative polarity through a rectifier circuit and is then applied to the syringes.
[6" id="c-fr-0006]
6. A spraying device atomizing spraying at a constant rate, according to claim 1, wherein the main unit (1) is provided with a handle (2) and a nozzle (3).
[7" id="c-fr-0007]
7. A spray device electrospray spraying at a constant rate, according to claim 1, wherein a rod (73) is disposed between the piston (72) and the thrust plate (71).
[8" id="c-fr-0008]
8. Device for spraying electrospray spraying at a constant rate, according to claim 6, in which the handle (2) is provided with a first push button (4), with a second push button (4a) and with a switch. (5).
1/7

类似技术:

---

公开号 | 公开日 | 专利标题

---

FR3065654A1|2018-11-02|DEVICE FOR ELECTRONIC SPRAYING SPRAYING AT A CONSTANT RATE

---

DE602004012462T2|2009-03-19|Motor operated atomizer

---

JP5491038B2|2014-05-14|Fluid product dispenser device and fluid product supply method

---

JP4674541B2|2011-04-20|Electrostatic atomization device and food storage equipped with electrostatic atomization device

---

EP2140777A3|2010-06-09|Hair dryer with static atomizing device

---

CN105209899B|2017-12-01|MALDI sample modulator approach and sample preparation apparatus

---

CN207282079U|2018-04-27|A kind of outdoor multifunctional ad distribution shows device

---

EP1975719A3|2008-12-24|Method of forming resist pattern and semiconductor device manufactured with the same

---

EP1921504A3|2010-11-24|Liquid-immersion exposure method and liquid-immersion exposure apparatus

---

EP2113939A3|2011-07-13|Semiconductor wafer processing method and apparatus

---

FR3025723A1|2016-03-18|MULTI-FUNCTION CIRCUIT DIFFUSION APPARATUS BY ATOMIZING MULTIPLE LIQUID PRODUCTS SEPARATELY OR SIMULTANEOUSLY

---

TW200607576A|2006-03-01|Die-coating method and pellicle for photolithography manufactured by the same method

---

Wang et al.2016|Pulsed-laser micropatterned quantum-dot array for white light source

---

RU2012139482A|2014-04-10|METHOD FOR MANUFACTURING A DEVICE FOR DOSING A MEDICINE

---

JP2011075196A|2011-04-14|Mist generator

---

FR2980370A1|2013-03-29|Skin treatment device for treatment of skin of e.g. face, by electrical stimulation, has pair of electrodes to be applied to area of skin, and dispensing system dispensing cosmetic product intended to be applied to treated skin area

---

US20060157499A1|2006-07-20|Apparatus for spray application of a sunless tanning product

---

CN103861761A|2014-06-18|Portable motorized fluid delivery device apparatus and methods

---

TW200714152A|2007-04-01|Dip coating apparatus

---

JP2005334518A|2005-12-08|Facial treatment device

---

EP3389436B1|2019-08-14|Vorrichtung zur behandlung von menschlichen keratinsubstanzen

---

Delmas2021|Hypnose et addictions

---

DE2724175C3|1979-11-15|Inhaler for treating the respiratory tract

---

KR20160045374A|2016-04-27|Cosmetic sprayer and cosmetic container

---

JP3194119U|2014-11-06|Spray tool for hydrogen gas injection

同族专利:

---

公开号 | 公开日

---

CN208524029U|2019-02-22|

---

US20180311447A1|2018-11-01|

---

TWI615202B|2018-02-21|

---

DE202018102237U1|2018-04-26|

---

CN108783836B|2021-01-15|

---

CN108783836A|2018-11-13|

---

JP3216579U|2018-06-07|

---

TW201838718A|2018-11-01|

---

US10518047B2|2019-12-31|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US6205999B1|1995-04-05|2001-03-27|Aerogen, Inc.|Methods and apparatus for storing chemical compounds in a portable inhaler|

---

CN2245460Y|1996-01-28|1997-01-22|蔡航翔|Masticatory barrel type quantitative aerohaler|

---

US6397838B1|1998-12-23|2002-06-04|Battelle Pulmonary Therapeutics, Inc.|Pulmonary aerosol delivery device and method|

---

CN2536092Y|2002-05-16|2003-02-19|杭州利蒙达实业有限公司|Miniature hand-push perfume dosing pump|

---

JP4739698B2|2004-06-29|2011-08-03|有子 木村|Massage equipment|

---

FR2910253B1|2006-12-20|2010-03-12|Oreal|METHOD FOR DISPENSING A PRODUCT SPRAYED BY A PIEZOELECTRIC SPRAY SYSTEM AND A SPRAY SYSTEM FOR IMPLEMENTING SUCH A METHOD|

---

JP2008264728A|2007-04-24|2008-11-06|Daikin Ind Ltd|Electrostatic spray apparatus|

---

US20090088700A1|2007-09-27|2009-04-02|Olympus Corporation|Apparatus and method for liquid spray administration|

---

TW201116334A|2009-11-13|2011-05-16|Quantum Technology Co Ltd|Structure of sprayer|

---

TWM437745U|2012-01-31|2012-09-21|Quantum Technology Co Ltd|Construction of potable sprayer|

---

CN203694290U|2013-09-30|2014-07-09|徐国巍|Portable anion nano sprayer|

---

KR20160045374A|2014-10-17|2016-04-27|서유진|Cosmetic sprayer and cosmetic container|

---

TWI615202B|2017-04-26|2018-02-21|Quantitative electrospray spray device|TWI615202B|2017-04-26|2018-02-21|Quantitative electrospray spray device|

---

KR102248221B1|2019-07-30|2021-05-03|경희대학교 산학협력단|Portable droplet spray device|

法律状态:
2019-04-24| PLFP| Fee payment|Year of fee payment: 2 |

---

2020-04-22| PLFP| Fee payment|Year of fee payment: 3 |

---

2021-03-18| PLFP| Fee payment|Year of fee payment: 4 |

---

2021-10-08| PLSC| Publication of the preliminary search report|Effective date: 20211008 |

---

2022-01-26| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

---

申请号 | 申请日 | 专利标题

---

TW106114010A|TWI615202B|2017-04-26|2017-04-26|Quantitative electrospray spray device|

---

TW106114010|2017-04-26|

---