CN105266955B - A kind of atomization type Moisture-keeping eye-mask and implementation method - Google Patents

Abstract

The invention discloses a kind of atomization type Moisture-keeping eye-mask and implementation method, including：Eyeshade body, have and be oppositely arranged and close the first point of cover body and second point of cover body of shade eye, and the connecting bracket being fixed between described two points of cover bodies；Elastic head band, installed in the both sides of first point of cover body and second point of cover body；First moisturizing layer, installed in the inner surface of first point of cover body, and there is the first orifice；Second moisturizing layer, installed in the inner surface of second point of cover body, and there is the second orifice；Humidity collector on the first moisturizing layer and the second moisturizing layer, for gathering circumference of eyes air humidity data；Atomization control device in the connecting bracket, for according to the air humidity data, it is determined whether be atomized；Mist generating device in the connecting bracket, for being atomized according to determined result.The present invention can carry out protection moisturizing to the eye of the bad patient of catacleisis.

Description

A kind of atomization type Moisture-keeping eye-mask and implementation method

Technical field

The present invention relates to medical instruments field, more particularly to a kind of atomization type Moisture-keeping eye-mask and implementation method.

Background technology

Patient is because of the reasons such as disease or medicine for treatment, such as stupor or general anesthesia and patients with mechanical ventilation, eye muscle It is uncontrolled, it may appear that hypophasis, to make the exposure for a long time of conjunctiva, cornea and eyeball in atmosphere.Conjunctiva, cornea and eye For a long time outside, surface lacks tear and dried ball, adds the danger of local damage and infection, easily causes to expose Disease or the ocular complications such as property keratitis.

Fig. 1 is the atomization Eye path structure figure that prior art provides, as shown in figure 1, existing atomization eyeshade includes being used to cover The first point of cover body 11 and second point of cover body 12 of patient's eye.First point of cover body 11 and second point of inner side of cover body 12 pass through company Connect support 13 to be fixed together, outside is connected with elastic head band 2.Atomization gas pipeline 70 is connected to the atomizer pump of hospital's configuration, And the atomization gas for exporting atomizer pump is exported to the first orifice 30 and the second orifice 40, and eye is atomized. It can be seen that to ensure eye's moistening, existing atomization eyeshade can only keep spray pattern, cause to be atomized the mist that eyeshade is connected Changing pump needs to work long hours, and reduces the service life of atomizer pump, also, reach saturation when being atomized air humidity in eyeshade When, water droplet drippage is easily formed on first point of cover body 11 and second point of cover body 12, causes the reduction of eye's comfort level.

The content of the invention

It is an object of the invention to provide a kind of atomization type Moisture-keeping eye-mask and implementation method, can preferably solve according to eyeshade The problem of interior air humidity situation starts or stops atomization.

According to an aspect of the invention, there is provided a kind of atomization type Moisture-keeping eye-mask, including：

Eyeshade body, have and be oppositely arranged and close the first point of cover body and second point of cover body of shade eye, and it is fixed Connecting bracket between first point of cover body and second point of cover body；

Elastic head band, installed in the both sides of first point of cover body and second point of cover body；

First moisturizing layer, installed in the inner surface of first point of cover body, and there is the first orifice；

Second moisturizing layer, installed in the inner surface of second point of cover body, and there is the second orifice；

Also include：

Humidity collector on the first moisturizing layer and the second moisturizing layer, for gathering circumference of eyes Air humidity data；

Atomization control device in the connecting bracket, for according to the air humidity data gathered, it is determined that Whether it is atomized；

Mist generating device in the connecting bracket, for the determination result according to the atomization control device Start atomization, and upon actuation export its caused atomization gas to first orifice and/or institute via atomization pipeline The second orifice is stated, is atomized.

Preferably, the atomization control device is compared the air humidity data gathered and default first humidity threshold Compared with if the air humidity data gathered are less than default first humidity threshold, it is determined that need to enter air near eye Row atomization process, otherwise, it determines atomization process need not be carried out to air near eye.

Preferably, the atomization control device will gather in real time during the mist generating device exports atomization gas Circumference of eyes air humidity data compared with default second humidity threshold, if the air humidity data gathered are more than Default second humidity threshold, then control the mist generating device to stop output atomization gas, wherein, described default second Humidity threshold is more than default first humidity threshold.

Preferably, the atomization control device is during the mist generating device exports atomization gas, using adopting in real time Collect the air humidity data of circumference of eyes, calculate the humidity delta data in the scheduled time, and will be wet in the scheduled time Delta data is spent compared with default humidity change threshold, if the humidity delta data in the scheduled time is more than default humidity and become Change threshold value, it is determined that the eye for currently wearing the user of the atomization type Moisture-keeping eye-mask is in closure state, and controls the mist Change generating means to stop exporting atomization gas to the eye in closure state.

Preferably, in addition to：

Image collecting device on the first moisturizing layer and the second moisturizing layer, for gathering eye video Image, and send the eye video image gathered to the atomization control device, so that the atomization control device passes through Human eye detection and analysis are carried out to the eye video image, determine eye closure state information.

According to another aspect of the present invention, there is provided a kind of implementation method of atomization type Moisture-keeping eye-mask, the atomization type are protected Wet eyeshade is above-mentioned eyeshade, and methods described includes：

Using the humidity collector on the first moisturizing layer and the second moisturizing layer, eye is gathered in real time The air humidity data of surrounding；

Using the atomization control device in the connecting bracket, at the air humidity data that are gathered Reason, and judge whether to need to carry out atomization process to air near eye；

If it is determined that needing to carry out atomization process to air near eye, then start the atomization being arranged in the connecting bracket Generating means；

The mist generating device is exported to described the via atomization pipeline after start-up, by its caused atomization gas One orifice and/or second orifice, to improve air humidity near eye.

Preferably, the air humidity data to being gathered are handled, and are determined the need for empty near eye The step of gas progress atomization process, includes：

By the air humidity data gathered compared with default first humidity threshold；

If the air humidity data gathered are less than default first humidity threshold, it is determined that need to empty near eye Gas carries out atomization process, otherwise, it determines atomization process need not be carried out to air near eye.

Preferably, in addition to：

During the mist generating device exports atomization gas, by the air humidity data of the circumference of eyes gathered in real time Compared with default second humidity threshold；

If the air humidity data gathered are more than default second humidity threshold, the mist generating device is controlled Stop output atomization gas；

Wherein described default second humidity threshold is more than default first humidity threshold.

Preferably, in addition to：

During the mist generating device exports atomization gas, the air humidity number of real-time collection circumference of eyes is utilized According to the humidity delta data in the calculating scheduled time；

By the humidity delta data in the scheduled time compared with default humidity change threshold；

If the humidity delta data in the scheduled time is more than default humidity change threshold, it is determined that described in current wearing The eye of the user of atomization type Moisture-keeping eye-mask is in closure state, and controls the mist generating device to stop in closed form The eye output atomization gas of state.

Preferably, in addition to：

During the mist generating device exports atomization gas, startup is arranged on the first moisturizing layer and described second Image collecting device on moisturizing layer, and described image harvester is utilized, gather eye video image；

The atomization control device carries out human eye detection and analysis to the eye video image, it is determined that described in current wearing Whether the eye of the user of atomization type Moisture-keeping eye-mask is in closure state；

If it is determined that the eye for currently wearing the user of the atomization type Moisture-keeping eye-mask is in closure state, then the mist is controlled Change generating means to stop exporting atomization gas to the eye in closure state.

Compared with prior art, the beneficial effects of the present invention are：

The present invention determines whether to carry out mist to eye's surrounding air by humidity collector and atomization control device Change is handled, and is timed, quantified, automatic atomising according to determination result, can either extend the service life of mist generating device, And can enough ensures that the eyes of hypophasis obtain timely moisturizing, effectively avoids forming water droplet drippage on cover body is divided and reducing Patient comfort.

Brief description of the drawings

Fig. 1 is the atomization Eye path structure figure that prior art provides；

Fig. 2 is the atomization type Moisture-keeping eye-mask structure chart that first embodiment of the invention provides；

Fig. 3 is the workflow diagram of atomization type Moisture-keeping eye-mask shown in Fig. 2；

Fig. 4 is the atomization type Moisture-keeping eye-mask structure chart that second embodiment of the invention provides；

Fig. 5 is the workflow diagram of atomization type Moisture-keeping eye-mask shown in Fig. 4；

Fig. 6 is the atomization type Moisture-keeping eye-mask structure chart that third embodiment of the invention provides；

Fig. 7 is the workflow diagram of atomization type Moisture-keeping eye-mask shown in Fig. 6；

Fig. 8 is control function module diagram provided in an embodiment of the present invention；

Description of reference numerals：11- first divides cover body；12- second divides cover body；13- connecting brackets；2- elastic head bands；3- One moisturizing layer；The orifices of 30- first；4- the second moisturizing layers；The orifices of 40- second；The humidity sensors of 51- first；52- second is wet Spend sensor；6- is atomized control device；7- mist generating devices；70- atomization gas pipelines；71- gas pipings；72- valves.

Embodiment

Below in conjunction with accompanying drawing to a preferred embodiment of the present invention will be described in detail, it will be appreciated that described below is excellent Select embodiment to be merely to illustrate and explain the present invention, be not intended to limit the present invention.

Fig. 2 is the atomization type Moisture-keeping eye-mask structure chart that first embodiment of the invention provides, as shown in Fig. 2 including：

Eyeshade body, have and be oppositely arranged and close the first point of cover body 11 and second point of cover body 12 of shade eye, and The connecting bracket 13 being fixed between first point of cover body 11 and second point of cover body 12.Wherein, first point of cover body 11 and second point of cover Body 12 can be transparent glasses lens, and connecting bracket can be elastic support.

Elastic head band 2, installed in the both sides of first point of cover body 11 and second point of cover body 12.Elastic head band 2 can be one Frenulum, one end connect the side of first point of cover body 11, and the other end connects the side of second point of cover body 12.Elastic head band 2 can be with Including two tether panels, i.e. the first elastic frenulum and the second elastic frenulum, the fixing end of the first elastic frenulum is arranged on first point of cover On body 11, the free end of the first elastic frenulum is provided with the first paster, and the fixing end of the second elastic frenulum is arranged on second point of cover body On 12, the free end of the second elastic frenulum is provided with the second paster being engaged with the first paster.

First moisturizing layer 3, installed in the inner surface of first point of cover body 11, and there is the first orifice (not shown), It can be the annular moisturizing layer made of non-woven fabrics, prevent circumference of eyes atomization gas from leaking.

Second moisturizing layer 4, installed in the inner surface of second point of cover body 12, and there is the second orifice (not shown), It can be the annular moisturizing layer made of non-woven fabrics, prevent circumference of eyes atomization gas from leaking.

For gathering the humidity collector of circumference of eyes air humidity data, including the first humidity sensor 51 and second Humidity sensor 52；Wherein, the first humidity sensor 51 be arranged on the first moisturizing layer 3 towards left eye and away from the first orifice Surface, for gathering left eye ambient air humidity data；The direction that second humidity sensor 52 is arranged on the second moisturizing layer 4 is right Eye and the surface away from the second orifice, for gathering right eye ambient air humidity data.

Control device 6 is atomized, can be arranged on by the mode such as be spirally connected in connecting bracket 13, for according to the sky gathered Air humidity degrees of data, it is determined whether be atomized.Atomization control device 6 includes touch display screen and processor.Wherein, processor can To be single-chip microcomputer or PLD, its first data input pin, which passes through, to be connected the output of the first humidity sensor 51 and terminates Enter left eye ambient air humidity data, its second data input pin accesses the right side by connecting the output end of the second humidity sensor 52 Eye ambient air humidity data, its control signal access external control instruction by connecting the output end of touch display screen, its Control output end exports instruction for starting or stoping atomization by connecting the control signal of mist generating device 7, such as Start the instruction that is atomized to left eye surrounding air, stop instruction for being atomized to right eye surrounding air etc..Wherein, exist Default first humidity threshold and default second humidity threshold can be preserved in processor, the first humidity threshold is preset and is less than default the Two humidity thresholds, when air humidity data are less than default first humidity threshold, it is determined that atomization, to ensure hypophasis Eyes obtain moisturizing, when air humidity data are more than default second humidity threshold during atomization, it is determined that stopping atomization, make sky Air humidity degree is maintained at below saturation state.

Mist generating device 7, it can be arranged on by the mode such as be spirally connected in connecting bracket 13, for according to atomization control dress The determination result for putting 6 starts atomization, and upon actuation exports its caused atomization gas to the first atomization via atomization pipeline Hole and/or the second orifice, are atomized.

For example, preset when the ambient humidity data for the first humidity sensor 51 collection that atomization control device 6 receives are less than During the first humidity threshold, sent to mist generating device 7 for starting the instruction being atomized to left eye surrounding air, atomization hair Generating apparatus 7 starts after the instruction is received and starts to be atomized, and by being atomized pipeline by its caused atomization gas via first Orifice exports, to improve left eye ambient air humidity.Similarly, during atomization, when atomization control device 6 receive first When the ambient humidity data that humidity sensor 51 gathers are more than default second humidity threshold, send and be used for mist generating device 7 Stop the instruction being atomized to left eye surrounding air, mist generating device 7 stops atomization after the instruction is received.

It should be noted that default first humidity threshold and the second humidity threshold can be as obtained from repetition test Empirical value.During specific design, one group of threshold value of wide temperature range (such as 10-40 degrees Celsius) can be adaptable to, Multigroup threshold value of different temperatures (such as 10,15,20,25,30 degrees Celsius etc.) can be adaptable to, when in atomization control device It is interior configuration multigroup threshold value when, it is necessary in eyeshade body mounting temperature sensor so that atomization control device 6 according to eye week Environment temperature selection respective sets threshold value is enclosed, that is, chooses presetting the first humidity threshold and presetting corresponding to circumference of eyes environment temperature Second humidity threshold.That is, the 3rd data input pin of atomization control device 6 is by connecting the output end of temperature sensor Circumference of eyes air themperature data are accessed, and use default first humidity threshold and default second corresponding to the air themperature data Humidity threshold is as the basis for estimation for starting or stoping atomization.

Fig. 3 is the workflow diagram of atomization type Moisture-keeping eye-mask shown in Fig. 2, as shown in figure 3, step includes：

Step S101：Utilize the humidity collector on the first moisturizing layer 3 and the second moisturizing layer 4, in real time collection Circumference of eyes air humidity data.

Humidity collector includes：

First humidity sensor 51, installed in the surface towards left eye and remote first orifice of the first moisturizing layer 3, use In collection left eye ambient air humidity data in real time；

Second humidity sensor 52, installed in the surface towards right eye and remote second orifice of the second moisturizing layer 4, use In collection right eye ambient air humidity data in real time.

Step S102：Using the atomization control device 6 in connecting bracket 13, to the air humidity data gathered Handled, and judge whether to need to carry out atomization process to circumference of eyes air.

Atomization control device 6 receives the left eye ambient air humidity data and second that the first humidity sensor 51 gathers in real time The right eye ambient air humidity data that humidity sensor 52 gathers in real time, and the left eye ambient air humidity data that will be gathered in real time It is compared with right eye ambient air humidity data respectively at default first humidity threshold, if a certain air humidity data are less than in advance If the first humidity threshold, then judge to need to carry out atomization process to the branch hole portion surrounding air.For example, right eye ambient air humidity Data are less than default first humidity threshold, then judge to need to carry out atomization process to right side circumference of eyes air.

Step S103：According to the judged result of atomization control device 6, start atomization.

If it is determined that needing to carry out atomization process to air near circumference of eyes, then the atomization in connecting bracket 13 is sent out Generating apparatus 7 starts and produces atomization gas.

Step S104：Mist generating device 7 upon actuation exports its caused atomization gas to the via atomization pipeline One orifice and/or the second orifice, are atomized.

For example, the left eye ambient air humidity data and right eye ambient air humidity data that gather in real time are respectively less than default the One humidity threshold, now need to carry out atomization process to left eye and right eye near its circumference air, mist generating device 7 is produced Atomization gas export the first orifice and the second orifice, so as to by improving left eye and right eye ambient air humidity, keep The humidity of eye surface.

Fig. 4 is the atomization type Moisture-keeping eye-mask structure chart that second embodiment of the invention provides, as shown in figure 4, the present invention is directed to The atomization type Moisture-keeping eye-mask that hypophasis patient uses includes being used for the eyeshade body for covering patient's eye, eyeshade body bag Two points of cover bodies, i.e. first point of cover body 11 and second point of cover body 12 are included, are passed through between first point of cover body 11 and second point of cover body 12 Connecting bracket 13 is connected, and the one end of the outside of first point of cover body 11 and second point of cover body 12 respectively with elastic head band 2 is connected.Elasticity Headband 2 includes the first elastic frenulum and the second elastic frenulum, and the fixing end of the first elastic frenulum is arranged on first point of cover body 11, The free end of first elastic frenulum is provided with the first paster (not shown), and the fixing end of the second elastic frenulum is arranged on second point On cover body 12, the free end of the second elastic frenulum is provided with the second paster (not shown) being engaged with the first paster, wherein, First paster and the second paster are the VELCRO that cooperates, by the first elastic frenulum and the second elastic frenulum around suffering from during use Person head is connected.The atomization type eyeshade is used to be adapted to different patients, connecting bracket 13 can be elastic support, so as to logical Adjustment elastic support 13 and elastic head band 2 are crossed, improves the versatility of atomization type eyeshade.

First point of cover body 11 and second point of cover body 12 can be transparent glasses lens, and inner surface is lined with being made up of non-woven fabrics respectively Prevent the first moisturizing layer 3 and the second moisturizing layer 4 that atomization gas leaks, to improve the comfortableness that patient uses.First protects Wet layer 3 is provided with the first orifice and the first humidity sensor 51, and the second orifice is provided with the second moisturizing layer 4 and the second humidity passes Sensor 52.Wherein, the first orifice and the second orifice connection mist generating device 7；First humidity sensor 51 and second is wet The atomization control device 6 that the connection of sensor 52 is arranged in connecting bracket 13 is spent, and data are carried out by touch display screen and shown； Valve 72 is provided with mist generating device 7, the valve 72 is connected with gas piping 71.

Atomization control device 6 in the present embodiment includes touch display screen, and the first humidity sensor 51 and the second humidity pass Sensor 52 gather circumference of eyes air humidity data can be shown for transmission to touch display screen, so that medical personnel check, together When medical personnel by touch display screen mist generating device 7 can also be controlled to start and produce atomization gas and via the first mist Change hole and/or the second orifice is atomized, realize to the intelligent of eye atomization moisturizing.

When being treated to hypophasis patient, gas piping 71 is connected with the oxygen unit that hospital configures, The gas piping 71 accesses mist generating device 7 by valve 72.Touch display screen power supply is opened, is controlled by touch display screen Mist generating device 7 is atomized, and the wet air of atomization is sprayed onto patient's eyeball by the first orifice and/or the second orifice Surface；The first humidity sensor 51 and the second humidity sensor 52 in atomization type eyeshade are by eye's ambient air humidity number According to being transmitted to touch display screen, touch display screen can according to medical personnel setting is simple eye to patient or eyes are timed, quantitative Atomization moisturizing；Medical personnel can also open the automatic control mode in touch display screen, under automatic control mode state, By the first humidity sensor 51 and the Real-time Monitoring Data of the second humidity sensor 52, circumference of eyes air humidity data are passed Atomization control device 6 is passed, controls mist generating device 7 to carry out intelligence to the eye for needing moisturizing automatically by atomization control device 6 It can be atomized, so as to avoid injury of the dry air to hypophasis eye, meanwhile, also meet to simple eye or double The hommization of eye dysraphism patient and intelligentized treatment require.

Fig. 5 is the workflow diagram of atomization type Moisture-keeping eye-mask shown in Fig. 4, as shown in figure 5, step includes：

Step S201：Left eye surrounding air is gathered in real time using the first humidity sensor on the first moisturizing layer 3 Humidity data, right eye ambient air humidity data are gathered in real time using the second humidity sensor on the second moisturizing layer 4.

Step S202：Judge whether mist generating device 7 is currently in spray pattern, if so, then execution step S204, no Then perform step S203.

Step S203：By the left eye ambient air humidity data gathered in real time and right eye ambient air humidity data respectively with Default second humidity threshold compares, so as to judge whether to be less than default second humidity threshold, if being less than default second humidity threshold, Step S207 is then performed, otherwise performs S206.

Step S204：By the left eye ambient air humidity data gathered in real time and right eye ambient air humidity data respectively with Default first humidity threshold compares, so as to judge whether to be less than default first humidity threshold, if being less than default first humidity threshold, Step S205 is then performed, otherwise performs S201.

Step S205：If the left eye ambient air humidity data and/or right eye ambient air humidity data that gather in real time are small In default first humidity threshold, then mist generating device 7 is controlled to start and produce atomization gas, and by caused atomization gas Patient's left eye and/or right eye surface are sprayed to by the first orifice and/or the second orifice.

Step S206：If the left eye ambient air humidity data and/or right eye ambient air humidity data that gather in real time are big In equal to default second humidity threshold, illustrate that circumference of eyes air humidity can ensure eye's moisturizing, now control atomization Generating means 7 stops atomization gas being sprayed to patient's left eye and/or right eye surface.

Step S207：If the left eye ambient air humidity data and/or right eye ambient air humidity data that gather in real time are small In default second humidity threshold, then current spray pattern is kept.

The atomization type Moisture-keeping eye-mask that above-described embodiment provides can only determine whether according to circumference of eyes ambient humidity situation It is atomized and simple eye or eyes is atomized, without can determine that whether the current eye of patient is closed.If in patient Eye is atomized eyeshade formula in the case of having closed and is still within spray pattern, then certain medical resource will be caused to waste.This hair It is bright to solve the problem by humidity data situation of change, specifically, the atomization gas phase is exported in mist generating device 7 Between, using the air humidity data of real-time collection circumference of eyes, the humidity delta data in the scheduled time is calculated, and will be described pre- Humidity delta data in fixing time is compared with default humidity change threshold, if the humidity delta data in the scheduled time is big In default humidity change threshold, illustrate that atomization gas is not sprayed to eyeball surface, i.e., do not caused by ocular absorption in the unit interval Air humidity changing value increases, and now determines that the eye for currently wearing the patient of the atomization type Moisture-keeping eye-mask is in closed form State, and control the mist generating device to stop exporting atomization gas to the eye in closure state, or stop to left eye Or right eye output atomization gas.If conversely, the humidity delta data in the scheduled time, which is less than or equal to default humidity, changes threshold Value, illustrates that atomization gas has been sprayed to eyeball surface, for eye moisturizing.

In addition to aforesaid way, eye's closure situation can also be determined by way of the embodiment that Fig. 6 is provided.

Fig. 6 is the atomization type Moisture-keeping eye-mask structure chart that third embodiment of the invention provides, as shown in fig. 6, with it is real shown in Fig. 4 Apply example to compare, the present embodiment is provided with towards eye for gathering left-eye video image in the inner surface of the first moisturizing layer 3 First image collecting device 81, it is provided with the inner surface of the first moisturizing layer 3 towards eye for gathering right eye video image The second image collecting device 82.During the mist generating device exports atomization gas, startup is separately mounted to the first guarantor The first image collecting device 81 and the second image collecting device 82 on the moisturizing layer 4 of wet layer 3 and second, and it is utilized respectively the first figure As the image collecting device 82 of harvester 81 and second gathers left-eye video image and right eye video image.It is atomized control device 6 Human eye detection and analysis are carried out to left eye and right eye video image, it is determined that currently wear the patient of the atomization type Moisture-keeping eye-mask Whether eye is in closure state, however, it is determined that the eye for currently wearing the user of the atomization type Moisture-keeping eye-mask is in closed form State, then the mist generating device is controlled to stop exporting atomization gas, such as if it is determined that left eye to the eye in closure state Or right eye is in closure state, then the mist generating device is controlled to stop to left eye or right eye output atomization gas, however, it is determined that Left eye and right eye are in closure state, then control the mist generating device to stop output atomization gas.

Wherein, atomization control device 6 can determine whether eye is in closure state in the following manner：Utilize Corner Detection principle, the position at left eye angle and right eye angle is obtained from left eye and right eye video image, and according to the left eye angle With the position at right eye angle, the height of eyes, width, the vertical coordinate of eye center position are calculated, utilizes the height of eyes, width Degree, the vertical coordinate of eye center position, eye position is positioned, from extraction eye image.Then to the gray scale point of eye image Cloth is counted, and obtains eye image normalization histogram, and eye image normalization histogram is schemed with default open eyes respectively Image set normalization histogram, eye closing image set normalization histogram carry out similitude processing, obtain eye image with respect to eye opening figure The eye opening similarity of image set and eye image with respect to eye closing image set eye closing similarity, by the eye opening similarity and The eye closing similarity, it is eyes-open state or closed-eye state to determine the eye state.In default timing statisticses, to eyes figure The closed-eye state of picture is counted, if resulting closed-eye state statistical result is more than default closed-eye state threshold value, or pre- If closed-eye state is consecutively detected in timing statisticses, it is determined that eye is in closure state, otherwise determines at eye In dysraphism state.

Fig. 7 is the workflow diagram of atomization type Moisture-keeping eye-mask shown in Fig. 6, as shown in fig. 7, step includes：

Step S301：Left eye surrounding air is gathered in real time using the first humidity sensor on the first moisturizing layer 3 Humidity data, right eye ambient air humidity data are gathered in real time using the second humidity sensor on the second moisturizing layer 4.

Step S302：Judge whether mist generating device 7 is currently in spray pattern, if so, then execution step S304, no Then perform step S303.

Step S303：By the left eye ambient air humidity data gathered in real time and right eye ambient air humidity data respectively with Default first humidity threshold compares, so as to judge whether to be less than default first humidity threshold, if being less than default first humidity threshold, Step S305 is then performed, otherwise performs S301.

Step S304：By the left eye ambient air humidity data gathered in real time and right eye ambient air humidity data respectively with Default second humidity threshold compares, so as to judge whether to be less than default second humidity threshold, if being less than default second humidity threshold, Step S305 is then performed, otherwise performs S308.

Step S305：It is utilized respectively the first image collecting device 81 and the second image collecting device 82 and gathers left eye in real time and regards Frequency image and right eye video image.

Step S306：The left-eye video image gathered in real time using the image collecting device 82 of image collecting device 81 and second With right eye video image, judge whether patient's left eye and right eye are in hypophasis state, if so, then performing step S307, otherwise perform step S308:.

Step S307：Being atomized control device 6 controls mist generating device 7 to produce atomization gas, and by caused atomization Gas is sprayed in patient's left eye of hypophasis state and/or the right side by the first orifice and/or the second orifice Eye surface.

Step S308：Atomization control device 6 controls mist generating device 7 to stop atomization gas being sprayed to patient's left eye And/or right eye surface.

Fig. 8 is control function module diagram provided in an embodiment of the present invention, as shown in figure 8, atomization provided by the invention Formula Moisture-keeping eye-mask includes being used for the power circuit powered to the atomization type Moisture-keeping eye-mask, and power circuit connection touches display Screen, humidity collector, atomization control device and mist generating device, and be touch display screen, humidity collector, atomization control Device and mist generating device processed provide working power.

Touch display screen controls mist generating device to start or stop atomization by being atomized control device, and regularly, calmly Amount, automatic atomising.

Mist generating device connects orifice by atomization gas pipeline, and it is simple eye or double that atomization gas is sprayed into patient Eye, realize and moisturizing is carried out to the eye of patient's dysraphism.

Humidity collector shows circumference of eyes air humidity data transfer to touch display screen via atomization control device Show, medical personnel is grasped eye's moisture condition in real time.

The information transmission that touch display screen 303 sets medical personnel gives atomization control device, by atomization control device control Mist generating device processed exports atomization gas to orifice, realizes atomization..

In summary, the present invention has following technique effect：

1st, the present invention is applied to hypophasis patient and used, can be with hypophasis patient treatment procedure Effectively avoid because patient's eye conjunctiva, cornea and eyeball long-time contact drying air and caused by injure；

2nd, the atomization control device of the invention by humidity sensor and with touch display screen, enters to mist generating device Row intelligent control, it is ensured that the eyes of dysraphism can obtain moisturizing in time, especially suitable in stupor or general anesthesia or The patient of effective communication can not be carried out during Failure Treated with Mechanical Ventilation with medical personnel；

3rd, the present invention can prevent and treat eye disease in time, meanwhile, medical personnel can be fixed according to conditions of patients When, the quantitative simple eye or eyes to needing moisturizing be atomized, there is stronger practicality.

Although the present invention is described in detail above, the invention is not restricted to this, those skilled in the art of the present technique Various modifications can be carried out according to the principle of the present invention.Therefore, all modifications made according to the principle of the invention, all should be understood to Fall into protection scope of the present invention.

Claims (5)

1. a kind of atomization type Moisture-keeping eye-mask, including：

Eyeshade body, have and be oppositely arranged and close the first point of cover body and second point of cover body of shade eye, and be fixed on institute State the connecting bracket between first point of cover body and second point of cover body；

Elastic head band, installed in the both sides of first point of cover body and second point of cover body；

First moisturizing layer, installed in the inner surface of first point of cover body, and there is the first orifice；

Second moisturizing layer, installed in the inner surface of second point of cover body, and there is the second orifice；

Characterized in that, also include：

Humidity collector on the first moisturizing layer and the second moisturizing layer, for gathering circumference of eyes air Humidity data；

Atomization control device in the connecting bracket, the first moisturizing layer and described second are arranged on for basis The air humidity data of humidity collector collection on moisturizing layer, it is determined whether be atomized；

Mist generating device in the connecting bracket, for being started according to the determination result of the atomization control device Atomization, and upon actuation export its caused atomization gas to first orifice and/or described the via atomization pipeline Two orifices, are atomized；

Wherein, the atomization control device is during the mist generating device exports atomization gas, it is determined that described in current wearing When the eye of the user of atomization type Moisture-keeping eye-mask is in closure state, the mist generating device is controlled to stop in closed form The eye output atomization gas of state.

2. atomization type Moisture-keeping eye-mask according to claim 1, it is characterised in that the atomization control device will be gathered Air humidity data are compared with default first humidity threshold, if the air humidity data gathered are less than described default first Humidity threshold, it is determined that need to carry out atomization process to air near eye, otherwise, it determines air near eye need not be entered Row atomization process.

3. atomization type Moisture-keeping eye-mask according to claim 2, it is characterised in that the atomization control device is in the atomization During generating means output atomization gas, by the air humidity data of the circumference of eyes gathered in real time and default second humidity threshold It is compared, if the air humidity data gathered are more than default second humidity threshold, controls the atomization to fill Stopping output atomization gas is put, wherein, default second humidity threshold is more than default first humidity threshold.

4. according to the atomization type Moisture-keeping eye-mask described in claim 1-3 any one, it is characterised in that the atomization control device During the mist generating device exports atomization gas, using the air humidity data of real-time collection circumference of eyes, calculate pre- Fix time interior humidity delta data, and by the humidity delta data in the scheduled time and default humidity change threshold ratio Compared with if the humidity delta data in the scheduled time is more than default humidity change threshold, it is determined that currently wear the atomization The eye of the user of formula Moisture-keeping eye-mask is in closure state, and controls the mist generating device to stop in closure state Eye exports atomization gas.

5. according to the atomization type Moisture-keeping eye-mask described in claim 1-3 any one, it is characterised in that also include：

Image collecting device on the first moisturizing layer and the second moisturizing layer, for gathering eye video figure Picture, and send the eye video image gathered to the atomization control device, so as to the atomization control device pass through it is right The eye video image carries out human eye detection and analysis, determines eye closure state information.