CN105411601A - Blood oxygen monitoring device and breathing mask - Google Patents

Abstract

The invention provides a blood oxygen monitoring device. The blood oxygen monitoring device comprises a blood oxygen monitoring module, wherein the blood oxygen monitoring module comprises a casing, a detection module and a wireless transmission module, the detection module and the wireless transmission module are arranged in the casing; the detection module is connected with the wireless transmission module. According to the technical scheme, the wireless transmission module is arranged in the blood oxygen monitoring module, data are transmitted through the wireless transmission module when the blood oxygen saturation is monitored, the situation that a data line is pulled accidentally when the data line is adopted is avoided, and accordingly, the monitoring result of the blood oxygen saturation is more accurate.

Description

Oxygen saturation monitor device and breathing mask

Technical field

The present invention relates to medical monitoring technique with the apparatus field, particularly relate to a kind of oxygen saturation monitor device and comprise the breathing mask of this oxygen saturation monitor device.

Background technology

Formulation and the enforcement of respiratory therapy scheme are decided by the actual physiological situation of patient usually, and blood oxygen saturation and pulse, as the important parameter reflecting body physiological state, are the important evidence determining respiratory therapy scheme.Respiratory therapy utilizes pressure support device to be carried the pressure-vent of a lasting pressure-vent (CPAP) or change with the air flue of breathing mask to patient of patient worn by pipeline usually, such as, along with two horizontal pressure force of patient respiration mechanical periodicity or the automatic Regulation that changes along with patient monitoring situation are ventilated.Respiratory therapy process is long-time and lasting, patient often need whole night wear breathing mask; Meanwhile, utilize the sensing blood oxygen saturation that blood oxygen sniffer can continue, and data are passed to pressure support device, to adjust corresponding oxygen parameter.

In prior art, blood oxygen saturation monitoring mainly contains two kinds of modes: refer to folder penetration oxygen saturation monitor and the reflective oxygen saturation monitor of forehead two kinds of modes.Blood oxygen saturation is normally in a dynamic range, need realize obtaining good monitoring effect by long-time and lasting wearing.Therefore, for finger folder penetration oxygen saturation monitor mode, patient's finger position is responsive to sensation, refers to that folder penetration oxygen saturation monitor mode makes patient easily do not feel like oneself.And the impact such as accuracy tested person position, motion of oxygen saturation monitor obviously, finger-clipped measures the impact being easily subject to hand exercise, makes measurement result inaccurate.The reflective metering system of forehead, the reflective oxygen saturation monitor device of forehead is fixed on patients head, and patients head's sensitivity is pointed lower relatively, and patient is comparatively comfortable when wearing.

Fig. 1 is the schematic diagram of the reflective oxygen saturation monitor device of forehead of the prior art, and this device entirety is curved, and arcuately direction is provided with data wire, with the oximetry data of monitoring to single-chip microcomputer real-time Transmission.Forehead of the prior art reflective oxygen saturation monitor device is wired, and in long-time observation process, data wire is involved and then causes the monitoring result of blood oxygen saturation inaccurate.

Summary of the invention

The invention provides a kind of oxygen saturation monitor device, when monitoring blood oxygen saturation to overcome in prior art, data wire is involved and then is caused the inaccurate technical problem of blood oxygen saturation monitoring result.

The invention provides a kind of oxygen saturation monitor device, comprise oxygen saturation monitor module;

Described oxygen saturation monitor module comprises housing, detecting module and wireless transport module, and described detecting module and wireless transport module are arranged in described housing, and described detecting module is connected with described wireless transport module.

Preferably, described wireless transport module comprises any one in bluetooth module, Wifi module, 2.4G wireless module and Zigbee.

Preferably, described oxygen saturation monitor module also comprises supply module, and described supply module is connected with described wireless transport module with described detecting module.

Preferably, described supply module comprises battery management unit, battery and charhing unit, and described battery management unit is electrically connected with described battery, described charhing unit respectively.

Preferably, described charhing unit comprises the wireless interface receiving end magnetic coil be built in described housing and the wireless transmitting terminals magnetic coil being placed on described housing.

Preferably, described charhing unit comprises power interface, and described power interface is any one in USB interface, DC interface, binding post and conductive pin.

Preferably, described housing comprises lower house, upper shell and cushion,

Described lower house is connected in a snap-fit manner with described upper shell;

Described cushion is arranged at the outer surface of described upper shell, and is connected by back-off with described upper shell;

Described cushion is provided with at least one fin, when described cushion fits on human body, described fin closely can fit to human body.

Preferably, described detecting module comprises circuit board, signal projector and signal receiver,

Described signal projector is by bearing settlement on circuit board, and described signal receiver passes through another bearing settlement on circuit board, and two bottom surface of support saddles tilt, and are inclined to predetermined angle to make the upper surface of described signal projector and described signal receiver.

Preferably, described device also comprises fixed support module,

Described fixed support module and described oxygen saturation monitor model calling, be fixed on human body by described oxygen saturation monitor module.

The present invention also provides a kind of breathing mask, the forehead supports comprising liner, be arranged at the framework on described liner and be arranged on described framework, described breathing mask also comprises oxygen saturation monitor module as above, and described oxygen saturation monitor module installation is on described forehead supports.

Technical scheme of the present invention, by arranging wireless transport module in oxygen saturation monitor module, when monitoring blood oxygen saturation, transmit data by wireless transport module, when keeping away enough employing data wires, data wire is involved, thus makes blood oxygen saturation monitoring result more accurate.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic diagram of the reflective oxygen saturation monitor device of forehead of the prior art;

Fig. 2 is the schematic diagram of the embodiment one of oxygen saturation monitor device of the present invention;

Fig. 3 is the schematic diagram of the embodiment one of oxygen saturation monitor device of the present invention;

Fig. 4 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Fig. 5 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Fig. 6 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Fig. 7 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Fig. 8 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Fig. 9 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 10 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 11 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 12 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 13 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 14 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 15 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 16 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 17 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention;

Figure 18 is the schematic diagram of the embodiment three of oxygen saturation monitor device of the present invention.

Detailed description of the invention

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment one

Fig. 2 is the schematic diagram of oxygen saturation monitor device embodiment one of the present invention, and as shown in Figure 2, the oxygen saturation monitor device of the present embodiment, specifically can comprise oxygen saturation monitor module 10 and fixed support module 20.

Oxygen saturation monitor module 10 comprises housing 101, detecting module 102 and wireless transport module 103, and as shown in Figure 3, detecting module and wireless transport module are arranged in housing, and detecting module is connected with wireless transport module.

Particularly, wireless transport module 103 wirelessly transmits for the blood oxygen saturation data detected detecting module.

Further, wireless transport module 103 comprises any one in bluetooth module, Wifi module, 2.4G wireless module and Zigbee.

Optionally, wireless data transfer module 103 can comprise bluetooth module, to realize closely point-to-point, the point-to-multipoint wireless data transmission of low-power consumption.

Optionally, wireless data transfer module 103 can comprise Wifi module, to realize near/point-to-point, point-to-multipoint wireless data transmission at a distance.

Optionally, wireless data transfer module 103 can comprise 2.4G wireless module, to realize near, the remote point-to-point wireless data transmission of low-power consumption.

Optionally, wireless data transfer module 103 can comprise ZigBee wireless module, with realize low-power consumption closely, point-to-point, point-to-multipoint, multi-multipoint wireless data transmission at a distance.

Fixed support module 20 is connected with oxygen saturation monitor module 10, can be fixed on human body.

Particularly, such as, fixed support module 20 can adopt the form of fixing band, is wound in the monitoring that the head of human body, wrist or leg carry out blood oxygen saturation.

The technical scheme of the present embodiment, by wireless transport module will be arranged in oxygen saturation monitor module, when monitoring blood oxygen saturation, transmit data by wireless transport module, when keeping away enough employing data wires, data wire is involved, thus makes blood oxygen saturation monitoring result more accurate.

Embodiment two

Fig. 4 is the schematic diagram of the embodiment two of oxygen saturation monitor device of the present invention, and the oxygen saturation monitor device of the present embodiment, on the basis of above-described embodiment one, introduces technical scheme of the present invention further in further detail.As shown in Figure 4, the oxygen saturation monitor device of the present embodiment, can comprise:

Alternatively, described detecting module comprises circuit board 1021, signal projector 1022 and signal receiver 1023, described signal projector 1022 is arranged on circuit board by bearing 1024, signal receiver 1022 is arranged on circuit board 1021 by another bearing 1024, and two bottom surface of support saddles tilt, the upper surface of two bearings is made to form predetermined angle, simultaneously, also make the upper surface of described signal projector 1022 and signal receiver 1023 tilt, signal projector 1022 and signal receiver 1023 also form predetermined angle.This predetermined angle can be carried out adjustment according to patient head forehead radian and be increased suitability, and this angle can be between 0-10 degree.This enforcement is preferably 3 degree.In addition, the plane of departure of signal projector 1016 and the center distance of signal receiver 1017 receiving plane can be between 6-18mm, the preferred 13.3mm of the present embodiment.

Signal projector 1022 is for tissue utilizing emitted light signal, received optical signal is also converted to the signal of telecommunication and is supplied to circuit board 1021 by the optical signal that signal receiver 1023 reflects for recipient soma, circuit board 1021 comprises data processing unit, and the signal of telecommunication of signal receiver 1023 is carried out process and generates oximetry data by data processing unit.Then the oximetry data of generation is transmitted by wireless transport module 103 by data processing unit again.

In the present embodiment, the tilt adjustable of bearing 1024 bottom surface is whole, to adjust the emission angle of the sensing signal that signal projector 1022 is launched, adjust the receiving angle of the sensing signal that signal receiver 1023 receives, emission angle and receiving angle match simultaneously.As by replacing time 1024 or the object of installing regulating part to reach adjustment bearing 1024 inclined bottom surface angle on the bottom surface of bearing 1024.

Alternatively, as shown in Figure 5, oxygen saturation monitor module 10 also comprises supply module 104, and supply module 104 is connected with wireless transport module 103 with detecting module 102.Supply module 104 can be connected with detecting module 102 and wireless transport module 103 respectively, powers to give detecting module 102 and wireless transport module 103 respectively; Supply module 104 also can be connected with detecting module 102 and wireless transport module 103, powers to give detecting module 102 and wireless transport module 103 simultaneously.

Further, supply module 104 is for providing electric energy to detecting module 102 and wireless transport module 103.In actual applications, supply module 104 is not only detecting module 102 and wireless transport module 103 provides electric energy, also for other modules of oxygen saturation monitor device provide electric energy.

Such as, the oxygen saturation monitor device of the present embodiment is also provided with display lamp and display screen, and supply module 104 also can be powered for display lamp and display screen respectively.

As shown in Figure 6, supply module 104 comprises battery management unit 1041, battery 1042 and charhing unit 1043, and battery management unit 1041 can be electrically connected with battery 1042, charhing unit 1043 respectively.Battery management unit 1041 can have seamless, rectification, current stabilization, circuit on/off, circuit protection function.

Particularly, battery management unit 1041 is connected with battery 1042, to implement to monitor battery capacity, provides the dump energy of battery 1042 at any time; Battery management unit 1041 is electrically connected with charhing unit 1043, with in charging process, and protection circuit.

Further, charhing unit 1043 comprises wireless receiving terminal and wireless transmitting terminals magnetic coil and wireless interface receiving end magnetic coil.

Particularly, charhing unit 1043 can adopt wireless charging mode to be that battery 1042 charges, as shown in Figure 7, being placed on by the oxygen saturation monitor device of the present embodiment is in the wireless charger 1 of "on" position, by the wireless transmitting terminals magnetic coil generation inductance signal in wireless charger 1, the wireless interface receiving end of charhing unit is also magnetic coil, and receiving inductance signal to produce faradic current, thus is battery charging.Particularly, the mode of magnetic resonance can also be adopted to be that battery 1042 charges, or adopt two plane electrodes in field coupling mode, utilize antenna to receive wave mode that electric wave is converted to electric energy charges for battery 1042.

Further, charhing unit 1043 comprises power interface, and power interface is any one in USB interface, DC interface, binding post and conductive pin.

Particularly, charhing unit 1043 can adopt wired charging modes to be that battery 1042 charges.Charhing unit can arrange power interface, this power interface is connected with detecting module, and stretch out housing by arranging the outlet tackled mutually on housing, power interface can be USB interface, DC interface, binding post, conductive pin, such as, adopt binding post to be directly welded on detecting module, also can be electrically connected by connector, binding post can for comprising waterproof wiring terminal; Again such as, the external terminal of the external unit of the power supply of wired mode can comprise data-transformation facility.

Particularly, charhing unit 1043 can be combination that is wired and wireless mode.

In the present embodiment, battery 1042 is polymer Li-ion batteries, also can be the chemical cell of other forms or type, at least one of capacitor batteries.

Alternatively, the housing 101 of oxygen saturation monitor module 10 has and is connected with fixed support module 20 and realizes this device connector fixing with human body forehead.

Here the structure of the oxygen saturation monitor module 10 of the present embodiment is introduced:

Housing 101 comprises lower house 1011, upper shell 1012 and cushion 1013.As shown in Figure 8, lower house 1011 is connected in a snap-fit manner with upper shell 1012.As shown in Figure 9, cushion 1013 is provided with back-off 10131, interlocking with upper shell 1012 is connected.Optionally, connect can comprise removably connect, at least one of non-dismountable connection.Removably connect can comprise that buckle connects, is threaded, anchor ear connect at least one; Non-dismountable connection can comprise hot-melt adhesive paste, ultra-sonic welded, riveted joint, splicing at least one.Optionally, lower house 1 is connected can comprises flexible connection with upper shell 6, be flexibly connected comprise be hinged, chute connect at least one.

Such as, cushion 7 and lower house 1, upper shell 6 are to clamp and snap is connected simultaneously.Optionally, connect can comprise removably connect, at least one of non-dismountable connection, removably connect can comprise clamping, buckle connects, be threaded, at least one of anchor ear connection; Non-dismountable connection can comprise at least one of splicing, riveted joint.

Again such as, cushion can be connected separately with lower house.Connected mode comprise removably connect, at least one of non-dismountable connection, removably connect and comprise at least one that buckle connects, is threaded, anchor ear connects; Non-dismountable connection comprises at least one of splicing, riveted joint.Optionally, connection can comprise flexible connection, be flexibly connected comprise be hinged, chute connect at least one.

Again such as, cushion can be connected separately with upper shell.Connected mode comprise removably connect, at least one of non-dismountable connection, removably connect and comprise at least one that buckle connects, is threaded, anchor ear connects; Non-dismountable connection comprises at least one of splicing, riveted joint, post forming, dijection injection moulding.Optionally, connection can comprise flexible connection, be flexibly connected comprise be hinged, chute connect at least one.

Particularly, cushion material comprises at least one of silica gel, rubber, gel, foam, yarn fabric, is preferably silica gel material.

Particularly, as shown in Figure 10, cushion 1013 is provided with at least one fin 10132, when cushion 1013 fits on human body, fin 10132 closely can fit to human body, to realize the protection to sensor light signal, avoids the interference between the external world or sensor light signal.In the present embodiment, cushion 1013 is provided with at least three fins 10132, simultaneously cushion 1013 also with lower house, upper shell interference fit, realize waterproof sealing.

Particularly, cushion 1013 keeps away bit architecture 10133, and by forming elastic deformation space locally with upper shell, the action by contact power being worn timer and human body by adjustment is distributed, and realizes the improvement of comfortableness.Optionally, keep away a feature can be positioned on upper shell.

Particularly, cushion 1013 is cambered surface 10134 towards the one side of human body, and better fit with human organ to realize cushion 1013, cambered surface feature arc radius is 120mm, can be between 30-240mm.

Mask modules 30 is connected with ripple vent line by bend pipe, and ripple vent line is connected with press device, adjusts oxygen parameter.

Particularly, the mask modules 30 that adopts of the present embodiment can for the mask modules 20 of routine used in prior art.Such as, can be nasal mask, also can be oral nose mask, full face mask, nose pillow top cover etc.

Particularly, the housing 101 of the present embodiment is also provided with display lamp and display screen, oxygen saturation monitor module comprises data processing unit, to process detecting the blood oxygen signal obtained, data processing unit can signal instruction, with at least one of the combination suggestion device charged state of lamplight pointing, electronic sound mode or more mode, device power shortage state, device normal operating conditions; Display lamp is arranged on detecting module, points out the charged state of oxygen saturation monitor device, power shortage state or normal operating conditions by sending the visible pilot light of outward appearance, and prompting mode can comprise pilot light flicker or pilot light color; Oxygen saturation monitor device monitor the blood oxygen saturation data display that obtains on a display screen, can be text importing, the display of numerical monitor, figure, electronic sound or equipment motivation signal mode show; Also can with text importing, numerical monitor, figure display, electronic sound or the prompting of equipment motivation aspect charged state, device power shortage state or device normal operating conditions.

Particularly, the housing of the present embodiment is also provided with button, by the button on touching housing with the machine open/close of implement device.Optionally, button can be positioned on upper shell or lower house.Wherein key switch is touch-switch.Optionally, also can be capacitor type touch switch.

The instrument of current monitoring blood oxygen saturation mostly adopts reflective principle, be exactly to human-body emitting first preset wavelength in simple terms, as infrared light and second preset wavelength of 660nm, if the near infrared light of 940nm is as injecting light source, measure the light conductive strength by tissue bed, calculate hemoglobin concentration and blood oxygen saturation, instrument can show human body blood oxygen saturation.

Particularly, when patient uses the oxygen saturation monitor device of the present embodiment, oxygen saturation monitor module is fitted in the forehead of patient, mask modules covers on the positions such as the mouth and nose of patient, and fixed support module and human body forehead are fixed.When reality uses, after pressure support device starts, oxygen is passed into mask modules 20 by ripple vent line, oxygen saturation monitor module 10 detects the blood oxygen saturation data of patient, and blood oxygen saturation data are sent to pressure support device by wireless transport module 103, pressure support device is according to the current blood oxygen saturation of patient, and adjustment oxygen parameter is to suitable numerical value.Such as, the value of normal blood oxygen saturation data is 95%-98%, and current blood oxygen saturation data are lower than normal value, and as being 85%, then press device regulates corresponding oxygen parameter, for patient increases the supply of oxygen.

The technical scheme of the present embodiment, using by oxygen saturation monitor module being combined with breathing module, can share a fixed support module, can monitor blood oxygen saturation and adjustment breathing simultaneously, simplify operating procedure.

Further, as shown in figure 11, fixed support module 20 comprises fixing band 201 and the first link 202, as shown in figure 12, housing 101 is provided with the second link 105 matched with the first link 202.

Further, fixing band 201 is elasticity material or non-elastic material.

Particularly, fixing band 201 can be comprise the non-elastic material that is connected with elastomeric material or with elastomeric material/combines with band, chain, hoop form or combinations thereof.

Particularly, fixing band 201 can be comprise with non-elastic material with elastic construction or comprise elastic construction with band, chain, hoop form or combinations thereof.

Further, the first link 202 and the second link 105 are at least one in hole, groove, hangers, buckle, chute, articulated elements, thread gluing, button and adhesive tape.

Particularly, the connected mode of oxygen saturation monitor module 10 and fixed support module 20 can be: on housing 101, arrange the second link 105, fixed support module 20 comprises the first link 202, by the first link 202 and the second link 105 in mating connection.Such as, housing 101 comprises lower house, upper shell and cushion, then the second link 105 can be positioned on the lower house of housing 101, upper shell or cushion, and the second link 105 can be at least one in hole, groove, hangers, buckle, chute, articulated elements, thread gluing, button and adhesive tape; First link 202 can for being at least one in hole, groove, hangers, buckle, chute, articulated elements, thread gluing, button and adhesive tape.

Such as, the magic tape that fixed support module 20 comprises fixing band 201 and is attached thereto, fixing band 201 is connected with the housing 101 of oxygen saturation monitor module 10 by magic tape.Concrete using method is: as shown in figure 13, fixing band 201 walks around sidepiece and the top of the head of human body, oxygen saturation monitor module 10 is positioned at the forehead of human body, the position corresponding with forehead both sides arranges buckle, buckle on the buckle at the two ends of fixing band 201 and housing 101 fastens, as shown in figure 14, thus realize the fixing of oxygen saturation monitor module 10 and fixed support module 20, also can by buckle and chute combined, realize the fixing of oxygen saturation monitor module 10 and fixed support module 20, as shown in figure 15.

Again such as, fixed support module 20 is connected in hinged way with oxygen saturation monitor module 10, and as shown in figure 16, hinged enlarged drawing as shown in figure 17.

Again such as, directly the oxygen saturation monitor module 10 of the present embodiment can be sticked to the forehead of human body with adhesive tape.

In other embodiments of the invention, oxygen saturation monitor module 10 can be fixed on the different parts such as wrist, leg by fixed support assembly.

The technical scheme of the present embodiment, can adopt wireless charging mode, makes charging process more convenient, also can comprise multiple implementation simultaneously, and be fixed on the suitable components of human body for fixed support module, conveniently carries out oxygen saturation monitor in varied situations.

Embodiment three

Figure 18 is the schematic diagram of the embodiment one of breathing mask of the present invention, originally as shown in figure 18, and the forehead supports 50 that the breathing mask of the present embodiment comprises liner 30, is arranged at the framework 40 on described liner 30 and is arranged on described framework.

Because the liner in oxygen saturation monitor module 10 and breathing mask of the prior art is all worn on human body face, for simplifying the structure of the liner of oxygen saturation monitor module and breathing mask of the prior art, can be integrated into one the two formation type structure, such as, by support, oxygen saturation monitor module and breathing mask are fixed, form the breathing mask with oxygen saturation monitor function.

Further, the breathing mask of the present embodiment also comprises the oxygen saturation monitor module 10 of the embodiment as shown in Fig. 2-17, and described oxygen saturation monitor module 10 is arranged on described forehead supports 50.

For making oxygen saturation monitor module 10 and liner 30 be connected the structure of formation type, be connected by the first end of oxygen saturation monitor module 10 with forehead supports 50, framework 40 is connected with the second end of forehead supports 50.Support and framework can be one-body molded, also can be removably connect, and the material of support and framework can be silica gel.

Alternatively, the first end of fixed support module 20 is connected with forehead supports 50, and the second end of fixed support module 20 is connected with framework 40.The oxygen saturation monitor module be connected with forehead supports 50 and the liner be connected with framework can be fixed so simultaneously.

The breathing mask of the present embodiment includes oxygen saturation monitor module, and is fixed on human body forehead by fixed support module 20 and realizes simultaneously for patient-monitoring blood oxygen saturation and delivering oxygen.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (11)

1. an oxygen saturation monitor device, is characterized in that, comprises oxygen saturation monitor module,

Described oxygen saturation monitor module comprises housing, detecting module and wireless transport module, and described detecting module and wireless transport module are arranged in described housing, and described detecting module is connected with described wireless transport module.

2. oxygen saturation monitor device according to claim 1, is characterized in that, described wireless transport module comprise in bluetooth module, Wifi module, 2.4G wireless module and Zigbee any one.

3. oxygen saturation monitor device according to claim 1, is characterized in that, described oxygen saturation monitor module also comprises supply module, and described supply module is connected with described wireless transport module with described detecting module.

4. oxygen saturation monitor device according to claim 3, is characterized in that, described supply module comprises battery management unit, battery and charhing unit, and described battery management unit is electrically connected with described battery, described charhing unit respectively.

5. oxygen saturation monitor device according to claim 4, is characterized in that, described charhing unit comprises the wireless interface receiving end magnetic coil be built in described housing and the wireless transmitting terminals magnetic coil being placed on described housing.

6. oxygen saturation monitor device according to claim 4, is characterized in that, described charhing unit comprises power interface, and described power interface is any one in USB interface, DC interface, binding post and conductive pin.

7. the oxygen saturation monitor device according to any one of claim 1 to 6, is characterized in that, described housing comprises lower house, upper shell and cushion,

Described lower house is connected in a snap-fit manner with described upper shell;

Described cushion is arranged at the outer surface of described upper shell, and is connected by back-off with described upper shell.

8. oxygen saturation monitor device according to claim 7, is characterized in that,

Described cushion is provided with at least one fin, when described cushion fits on human body, described fin closely can fit to human body.

9. oxygen saturation monitor device according to claim 7, is characterized in that, described detecting module comprises circuit board, signal projector and signal receiver,

Described signal projector is by bearing settlement on circuit board, and described signal receiver passes through another bearing settlement on circuit board, and two bottom surface of support saddles tilt, and are inclined to predetermined angle to make the upper surface of described signal projector and described signal receiver.

10. oxygen saturation monitor device according to claim 9, is characterized in that, described device also comprises fixed support module,

Described fixed support module and described oxygen saturation monitor model calling, be fixed on human body by described oxygen saturation monitor module.

11. 1 kinds of breathing masks, it is characterized in that, the forehead supports comprising liner, be arranged at the framework on described liner and be arranged on described framework, described breathing mask also comprises the oxygen saturation monitor module described in any one of the claims 1 to 10, and described oxygen saturation monitor module installation is on described forehead supports.