CN202681946U

CN202681946U - Physiological Detection System

Info

Publication number: CN202681946U
Application number: CN 201220325448
Authority: CN
Inventors: 宋庆龙
Original assignee: Sls Medical Technology Corp ltd
Current assignee: Sls Medical Technology Corp ltd
Priority date: 2012-02-24
Filing date: 2012-07-06
Publication date: 2013-01-23
Anticipated expiration: 2022-07-06
Also published as: TWM430985U

Abstract

The utility model relates to a physiology is listened and is listened system, it includes: a mask for a user to wear; a processing unit; a first transmission unit; the sensing device is arranged on the mask and comprises a sensing unit, the sensing unit comprises a first sensor and a second sensor, the first sensor is used for sensing the gas state in the mask, the second sensor is used for sensing the acceleration direction of the mask, and a sensing signal which is generated by the first sensor and corresponds to the gas state and a sensing signal which is generated by the second sensor and corresponds to the acceleration direction are transmitted to the processing unit through the first transmission unit. Therefore, the utility model discloses not only can sense user's breathing situation, can sense the posture that the user lies, consequently can comparatively accurately diagnose whether the user suffers from the dyspnea syndrome.

Description

The physiology detecting system

Technical field

This utility model is relevant with medical auxiliary system, refers to especially a kind of physiology detecting system that utilizes breathing state.

Background technology

In medical auxiliary system, breathing equipment mainly provides patient's use that can't reach enough gas exchanges to pulmonary function, for example chronic lung disease patient, or asthma patient etc.Commonly use breathing equipment and comprise a face shield, and a respiratory organ that is connected with face shield by an air supply pipe, face shield is for the mouth and nose that cover sufferer, and respiratory organ then can provide oxygen or air to face shield, and then makes oxygen or air enter the pulmonary of sufferer.

Some uses the sufferer of breathing equipment still can have suddenly breathing unstable, even the generation of the symptom of Apnea, but medical personnel were not necessarily arranged at that time by the side of, especially in the sufferer nighttime sleep.Therefore, a kind of known breathing mask is arranged, its inboard also is provided with a sensor, be used for the gaseous state in the sensing face shield, temperature, humidity, flow, pressure or carbon dioxide content etc. such as gas, and utilize a blood processor to record the sensing signal of sensor, even further utilize these sensing signals to converse number of times, frequency, cycle or power of user's breathing etc., to assess and to diagnose the breathing of user whether abnormal is arranged.

Yet, some adnormal respiration disease, especially Apnea disease, face upward when lying in sufferer easily and show effect, when lying on one's side, sufferer then can show effect hardly, therefore, even the breath state of the sufferer that the aforementioned processing device records is without any unusual, can't represent that still sufferer do not suffer from Apnea disease, may be sufferer in recording process, all take the posture of lying on one's side and so that Apnea disease do not show effect.In other words, but utilize the breathing equipment of known sensing respiration situation still can't diagnose exactly sufferer whether to suffer from adnormal respiration disease.

Summary of the invention

For the problems referred to above, main purpose of the present utility model is to provide a kind of physiology detecting system, but it is the breath state of sensing user not only, more can sense the posture that user couches, and therefore can diagnose comparatively exactly user whether to suffer from adnormal respiration disease.

For achieving the above object, a kind of physiology detecting system provided by the utility model is characterized in that including: a face shield, wear for a user; One processing unit; One first transmission unit; One sensing apparatus, be located at described face shield, described sensing apparatus includes a sensing cell, described sensing cell includes a first sensor for the gaseous state in the described face shield of sensing, and second sensor that is used for the acceleration direction of the described face shield of sensing, the sensing signal of the corresponding described acceleration direction that the sensing signal of the corresponding described gaseous state that described first sensor produces and described the second sensor produce transfers to described processing unit by described the first transmission unit.

In the above-mentioned the technical solution of the utility model, described face shield has an opening, and described sensing apparatus also includes a shell, and described shell is for being coupled to discretely the opening of described face shield, and described sensing cell is located at described enclosure.

The shell of described sensing apparatus have one with the passage of the open communication of described face shield, an end of described passage is installed an air supply pipe, described sensing cell is located in the described passage.

Described sensing apparatus also includes one and has flexual linkage unit, and an end of described linkage unit is relative with described shell fixing, and the other end of described linkage unit is relative with described sensing cell fixing.

The shell of described sensing apparatus has a holding part and a pipe section, and described passage is positioned at described pipe section, and described shell also has one makes space in the described holding part and the through hole of described channel connection.

Also include a respiratory organ, described respiratory organ by an air supply pipe and supply gas to described face shield, described processing unit is located in the blood processor, described processing unit receives the sensing signal of described first sensor and calculates a sensor parameter, and described sensor parameter transferred to a control unit of described respiratory organ by one second transmission unit, to control the air feed situation of described respiratory organ.

Also include a respiratory organ, described respiratory organ by an air supply pipe and supply gas to described face shield, described processing unit is located in the described respiratory organ, described processing unit calculates a sensor parameter by the sensing signal of described first sensor, controls the air feed situation of described respiratory organ according to described sensor parameter for a control unit of described respiratory organ.

Adopt technique scheme, when user changes its sprawl (for example face upward and lie or lie on one's side), face shield of the present utility model can move and produces acceleration with user, and therefore, the direction of the second acceleration that sensor senses can have corresponding relation with the sprawl of user.The sensing signal of first sensor can be used for diagnosing user's breathing whether abnormal is arranged, the sensing signal of the second sensor can be used for then judging whether user takes the posture of lying on one's side, with the sensing signal of automatic eliminating first sensor when user is lain on one's side, or got rid of voluntarily by diagnosis person, thus, can diagnose comparatively exactly user whether to suffer from adnormal respiration disease.

Description of drawings

Fig. 1 is the user mode sketch map of this utility model the first preferred embodiment;

Fig. 2 is a face shield of this first preferred embodiment of this utility model and the sketch map of a sensing apparatus;

Fig. 3 is the block schematic diagram of this first preferred embodiment of this utility model;

Fig. 4 is the user mode sketch map of this utility model the second preferred embodiment;

Fig. 5 is the block schematic diagram of this second preferred embodiment of this utility model;

Fig. 6 is the block schematic diagram of this utility model the 3rd preferred embodiment

Fig. 7 is the three-dimensional exploded view of a sensing apparatus of this utility model the 4th preferred embodiment;

Fig. 8 is the three-dimensional combination figure of a face shield, an air supply pipe and this sensing apparatus of this utility model the 4th preferred embodiment;

Fig. 9 is analogous to Fig. 8, shows that a sensing cell of this sensing apparatus is positioned at the position different from Fig. 8;

Figure 10 is analogous to Fig. 7, shows that this sensing apparatus has a linkage unit different from Fig. 7.

The specific embodiment

In order to describe structure of the present utility model, Characteristic in detail, the existing following preferred embodiment of act also cooperates description of drawings as follows.

The applicant at first this explanation, the following embodiment that will introduce and graphic in, identical reference number represents identical or similar element or its architectural feature.Secondly, when addressing an element flexible, deflection in this description or having pliability, represent this element and can be subjected to an External Force Acting and change its shape, and, after this external force removes, the shape when this element maintains this external force and removes.

As shown in Figure 1 to Figure 3, the physiology detecting system 11 that this utility model one first preferred embodiment provides includes a face shield 20, a sensing apparatus 30, one first transmission unit 40, and a blood processor 50.

Face shield 20 is analogous to the face shield of the breathing equipment of commonly using, and is used for wearing for a user, to cover the mouth and nose of user.

Sensing apparatus 30 includes a sensing cell 32, and sensing cell 32 includes one and is fixedly arranged on the circuit board 322 of face shield 20, and a first sensor 324 and one second sensor 326 of being located at circuit board 322.First sensor 324 is a kind of sensor chip of commonly using, and can be used to the gaseous state in the sensing face shield 20, for example the temperature of gas, humidity, flow, pressure or carbon dioxide content.The second sensor 326 is advised (accelerometer) for the acceleration of commonly using, and can be used to the acceleration direction of sensing face shield 20.The sensing signal of the corresponding face shield 20 interior gaseous states that first sensor 324 produces, and the sensing signal of the corresponding face shield 20 acceleration directions that produce of the second sensor 326 transfer to a processing unit 52 of blood processor 50 by the first transmission unit 40.

User is being exhaled and when air-breathing, temperature, humidity, flow, pressure and the carbon dioxide content of face shield 20 interior gases can change, therefore, processing unit 52 can utilize the sensing signal of first sensor 324 to calculate user's breath state, for example respiratory frequency or strong and weak etc.Blood processor 50 can store the parameter that processing unit 52 calculates, and is used for assessing afterwards and diagnoses the breathing of user whether abnormal is arranged for the healthcare givers, and it is fast or slack-off for example to breathe sudden change, perhaps Apnea etc.Perhaps, blood processor 50 can be uploaded to the parameter that processing unit 52 calculates parsing software, also can assess and diagnose the breathing of user whether abnormal is arranged.

When user changes its sprawl (for example face upward and lie or lie on one's side), face shield 20 can move and produces acceleration with user, therefore, the sensing signal of the second sensor 326 can have corresponding relation with user's sprawl, anticipate namely, the sensing signal of the second sensor 326 can be used to judge whether the user takes the posture of lying on one's side.Thus, processing unit 52 can be got rid of the sensing signal of first sensor 324 when user is lain on one's side by the sensing signal of the second sensor 326; Perhaps, diagnosis person can compare the posture of the data that processing unit 52 calculates by these sensing signals and the user who judges, the sensing result when lying on one's side to get rid of voluntarily user voluntarily.Thus, by physiology detecting system 11, diagnosis person can diagnose user whether to suffer from adnormal respiration disease comparatively exactly.

In the first preferred embodiment, the first transmission unit 40 is to transmit wirelessly each sensing signal, yet the first transmission unit 40 also can transmit each sensing signal (as shown in Figure 4) in wired mode.In addition, blood processor 50 also can be desk computer, intelligent mobile phone except being a notebook computer, or Portable disk etc.

As shown in Figure 4, the physiology detecting system 12 that this utility model one second preferred embodiment provides also includes a respiratory organ 60, respiratory organ 60 extends an air supply pipe 62, the opening 22(that air supply pipe 62 is coupled to face shield 20 is as shown in Figure 2), but so that respiratory organ 60 supply oxygens or air to face shield 20.The processing unit 52 of blood processor 50 can utilize the sensing signal of first sensor 324 to calculate a sensor parameter, with feedback control respiratory organ 60, so that respiratory organ 60 can be adjusted the air feed situation according to the breath state of user, to help the user second wind.

As shown in Figure 5, in the second preferred embodiment, to be the sensor parameters that will calculate transfer to a control unit 64 of respiratory organ 60 by one second transmission unit 70 to processing unit 52, with the air feed situation of control respiratory organ 60.The second transmission unit 70 can be wired or wireless transmission unit.

As shown in Figure 6, in the physiology detecting system 13 that this utility model 1 the 3rd preferred embodiment provides, respiratory organ 60 is interior except having control unit 64, also has a processing unit 66, thus, physiology detecting system 13 can not include aforesaid blood processor 50 and the second transmission unit 70, sensing cell 32 transfers to processing unit 66 with each sensing signal by the first transmission unit 40, and the sensor parameter that control unit 64 calculates by processing unit 66 is again controlled the air feed situation of respiratory organ 60.

Among aforementioned each embodiment, sensing apparatus 30 is for being fixedly arranged at face shield 20, yet the sensing apparatus of physiology detecting system provided by the utility model also can be one to be arranged at separably the sensing apparatus of face shield, use for user selection ground, for example the following example provides.

To shown in Figure 9, the sensing apparatus 80 of the physiology detecting system that this utility model 1 the 4th preferred embodiment provides includes a shell 82, a circuit unit 84, a sensing cell 86 and a linkage unit 88 such as Fig. 7.

Shell 82 includes a body 822 and a lid 824, body 822 has a holding part 822a and the 822b of pipe section that mutual one connects, and the through hole 822d(that a passage 822c who makes the interior space and of holding part 822a be positioned at the 822b of pipe section is communicated with as shown in Figure 8).Circuit unit 84 is located in the holding part 822a, and lid 824 is covered on holding part 822a.

Sensing cell 86 is identical with aforesaid sensing cell 32, includes a circuit board 862, and a first sensor 864 and one second sensor 866 of being located at circuit board 862.Linkage unit 88 is located in the passage 822c, and is connected with sensing cell 86.

In the present embodiment, linkage unit 88 can only include the wire 882 of a deflection, and two ends of wire 882 are connected with the circuit board 862 of circuit unit 84 and sensing cell 86 respectively.Perhaps, as shown in figure 10, linkage unit 88 can include a wire 882 that is connected with circuit unit 84 and circuit board 862, and a flexible spare 884 that is connected with wire 882.In other words, sensing cell 86 is to be electrically connected with circuit unit 84 by linkage unit 88, and linkage unit 88 has pliability, not only can be temporarily fixing sensing cell 86, the user more can be by linkage unit 88 is the crooked or stretching sensing cell 86 that changes with respect to the position of shell 82.

Such as Fig. 8 and shown in Figure 9, sensing apparatus 80 in use, the 822b of pipe section of shell 82 is coupled to the opening 22 of face shield 20, so that passage 822c is communicated with opening 22, air supply pipe 62 with respiratory organ is installed in passage 822c one end again, so that the gas that respiratory organ provides is entering the first passage 822c by sensing apparatus 80 of face shield 20 front meetings.The user can with linkage unit 88 bendings, so that sensing cell 86 is positioned at passage 822c (as shown in Figure 8), and then make the more exactly state of sensing respiration device supply gas of sensing cell 86.The user also can be stretching with linkage unit 88, so that stretching out passage 822c, sensing cell 86 is positioned at face shield 20 (as shown in Figure 9), then sensing cell 86 just can detect by the gaseous state in the sensing face shield 20 breath state of user, and sensing cell 86 more can cooperate different users's shape of face and face position and be adjusted to the high sensing position.

It is worth mentioning that, the sensing apparatus 80 main characteristics that the 4th preferred embodiment provides are to separate with face shield 20, use for the user selectivity, therefore, the shape of shell 82 is not limit, the mode that sensing cell 86 is arranged in the shell 82 is not limit yet, as long as sensing cell 86 is to be positioned at the position that shell 82 is communicated with the opening 22 of face shield 20.Another characteristics of sensing apparatus 80 are that linkage unit 88 makes sensing cell 86 temporary transient relative fixing with shell 82 because having pliability with can changing the position, therefore, sensing cell 86 is not limit by linkage unit 88 with the electrical connection of circuit unit 84 and is realized, that is, linkage unit 88 existence conducting function not.And as described in aforementioned each embodiment, the sensor 864 of sensing cell 86,866 sensing signal can transmit by wireless mode, so sensing apparatus 80 also can not have circuit unit 84.

In aforementioned physiology detecting system provided by the utility model, because its sensing cell can quite directly respond to the variation that user is breathed, so this physiology detecting system can fast and accurately be detected the breath state of user quite near user's mouth and nose.And this physiology detecting system more can sense the posture that user couches, and therefore can diagnose comparatively exactly user whether to suffer from adnormal respiration disease.Even this physiology detecting system does not include this respiratory organ, also have the function that detecting is breathed, can be used as easy breathing state and detect diagnostic tool, to carry out the house monitoring.

The composed component that this utility model discloses in the aforementioned embodiment at last, must be described again; only for illustrating; be not the scope of patent protection that limits this case, substituting or variation of other equivalence elements also should be contained by the scope of patent protection of this case.

Claims

1. physiology detecting system is characterized in that including:

One face shield is worn for a user;

One processing unit;

One first transmission unit;

One sensing apparatus, be located at described face shield, described sensing apparatus includes a sensing cell, described sensing cell includes a first sensor for the gaseous state in the described face shield of sensing, and second sensor that is used for the acceleration direction of the described face shield of sensing, the sensing signal of the corresponding described acceleration direction that the sensing signal of the corresponding described gaseous state that described first sensor produces and described the second sensor produce transfers to described processing unit by described the first transmission unit.

2. physiology detecting system as claimed in claim 1, it is characterized in that: described face shield has an opening, and described sensing apparatus also includes a shell, and described shell is for being coupled to discretely the opening of described face shield, and described sensing cell is located at described enclosure.

3. physiology detecting system as claimed in claim 2 is characterized in that: the shell of described sensing apparatus have one with the passage of the open communication of described face shield, an end of described passage is installed an air supply pipe, described sensing cell is located in the described passage.

4. physiology detecting system as claimed in claim 3, it is characterized in that: described sensing apparatus also includes one and has flexual linkage unit, one end of described linkage unit is relative with described shell fixing, and the other end of described linkage unit is relative with described sensing cell fixing.

5. physiology detecting system as claimed in claim 2, it is characterized in that: the shell of described sensing apparatus has a holding part and a pipe section, described passage is positioned at described pipe section, and described shell also has one makes space in the described holding part and the through hole of described channel connection.

6. physiology detecting system as claimed in claim 1, it is characterized in that: also include a respiratory organ, described respiratory organ by an air supply pipe and supply gas to described face shield, described processing unit is located in the blood processor, described processing unit receives the sensing signal of described first sensor and calculates a sensor parameter, and described sensor parameter transferred to a control unit of described respiratory organ by one second transmission unit, to control the air feed situation of described respiratory organ.

7. physiology detecting system as claimed in claim 1, it is characterized in that: also include a respiratory organ, described respiratory organ by an air supply pipe and supply gas to described face shield, described processing unit is located in the described respiratory organ, described processing unit calculates a sensor parameter by the sensing signal of described first sensor, controls the air feed situation of described respiratory organ according to described sensor parameter for a control unit of described respiratory organ.