CN202505340U - Multi-air sac type hematomanometer - Google Patents

Abstract

The utility model discloses a multi-air sac type hematomanometer. The multi-air sac type hematomanometer can be connected with an arm-type tourniquet, a wrist-type tourniquet and a finger-type tourniquet and senses all connected tourniquets so as to adjust air pressure which is output to the tourniquets and measure various kinds of blood pressure.

Description

Many gasbag-types sphygomanometer

Technical field

This utility model relates to a kind of many gasbag-types sphygomanometer, refers in particular to have the sphygomanometer that can connect and detect arm type arm-rest belt, wrist formula arm-rest belt and finger-type arm-rest belt.

Background technology

At present, the method for measuring blood pressure can be divided into the direct method of measurement (Direct Measurement Method) or be called intrusive mood measurement method (Invasive Method) and the indirect method of measurement (Indirect Measurement Method) or be called two kinds of non-intrusion measurement methods (Noninvasive Method).The indirect method of measurement is used wider, and it mainly is to utilize cuff compressing blood vessel, and reuse stethoscope or other pick off come amount to get blood pressure.The equipment of the employing indirect method of measurement can be divided into hydrargyrum again, blood pressure is taken into account the electronics automatic sphygmomanometer.Compare with mercurial sphygmomanometer, electronics automatically and sphygomanometer have advantages such as volume is less, easy to use.The sphygomanometer of convention is divided into arm type sphygomanometer, wrist formula sphygomanometer and finger-type sphygomanometer again according to the difference of measurement sites.At present; If use the sphygomanometer of different measurement modes just to need to use different sphygomanometers to connect; So arm type arm-rest belt, wrist formula arm-rest belt or finger-type arm-rest belt must use different sphygomanometers to measure respectively; Often therefore must prepare many sphygomanometers, so that the use of different blood pressure measuring modes to be provided.

The utility model content

Because above-mentioned prior art problems, a wherein purpose of this utility model is to provide a kind of many gasbag-types sphygomanometer exactly, needs to prepare the problem of multiple sphygomanometer with the arm-type arm-rest belt of connection hand, wrist formula arm-rest belt and finger-type arm-rest belt to solve.

For reaching above-mentioned purpose; Many gasbag-types sphygomanometer according to this utility model; It comprises a kind of many gasbag-types sphygomanometer; Comprise: a plurality of arm-rest belts, wherein to be selectivity in the blood pressure measuring process be used in a measurement sites of a user with the arm-rest belt in these arm-rest belts to a user, and this measurement sites is arm, wrist or finger; A plurality of gas delivery tube, an end of these gas delivery tube is communicated to arm-rest belt respectively; An and sphygomanometer body.

Wherein, this sphygomanometer body comprises: at least one Port, and the other end of these gas delivery tube is communicated to Port; One feeder, this feeder are to be communicated to Port, and provide a gas to give the arm-rest belt in the use via Port, make this arm-rest belt produce a pulse pressure ripple; One Auto-Sensing assembly, this Auto-Sensing assembly electrically connects this feeder, and the state that gas is provided of feeder can controlled or detect to the Auto-Sensing assembly by this.This Auto-Sensing assembly more is communicated with this connectivity port, and this Auto-Sensing assembly is detected thus and judged the kind that this arm-rest belt in these arm-rest belts just is being used, thereby makes the feeder adjustment provide this gas to give the arm-rest belt in the use; And one the blood pressure signal analyze sensing component, it is the variation that sees through the pulse pressure ripple of the arm-rest belt of this gas delivery tube in using with detecting that this blood pressure signal is analyzed sensing component, and learns the pressure value of user measurement sites.

Wherein, these arm-rest belts are an arm type arm-rest belt, a wrist formula arm-rest belt and a finger-type arm-rest belt.

Wherein this Port has a plurality of these other ends that connect the hole with these gas delivery tube of socket.Wherein, many gasbag-types of this utility model sphygomanometer can comprise that also gas supply handover module is located on Auto-Sensing assembly or the feeder, thereby switches and provide gas to give the arm-rest belt in the use according to the result of determination of Auto-Sensing assembly.

Wherein, this Port also has single and connects the hole, and this connects the hole in order to be communicated to the gas delivery tube of the arm-rest belt in the use in these gas delivery tube of socket.

Wherein, the Auto-Sensing assembly judges that the method for the kind of arm-rest belt is when arm-rest belt reaches a force value, and what of gas this Auto-Sensing assembly detecting feeder provide, thereby learns the kind of arm-rest belt.

Wherein, the Auto-Sensing assembly judges that the method for the kind of arm-rest belt does, this Auto-Sensing assembly is detected by the hole that connects of the Port of gas delivery tube connection, thereby learns the kind of arm-rest belt.

Wherein, the Auto-Sensing assembly judges that the method for the kind of this arm-rest belt does, Auto-Sensing assembly detecting user is set the kind of the arm-rest belt of sphygomanometer body, thereby learns the kind of arm-rest belt.

Wherein, after the Auto-Sensing assembly was judged the kind of this arm-rest belt, this feeder adjustment provided this gas to give this arm-rest belt in the use.

Hold the above, because of the many gasbag-types sphygomanometer according to this utility model, it can have one or more following advantage:

(1) this many gasbag-types sphygomanometer can be recognized the variety classes arm-rest belt with this through Auto-Sensing assembly detecting connectivity port, makes this utility model can connect different types of arm-rest belt, thereby can improve the convenience of many gasbag-types sphygomanometer.

(2) this many gasbag-types sphygomanometer can be detected the connectivity port through the Auto-Sensing assembly, thus the gas that the adjustment feeder provides.

For technical characterictic of this utility model and the effect that is reached are had further understanding and understanding, existing with preferred embodiment and cooperate detailed explanation as after.

Description of drawings

Fig. 1 is the configuration diagram of the gasbag-type sphygomanometer more than first kind of this utility model.

Fig. 2 is the configuration diagram of the gasbag-type sphygomanometer more than second kind of this utility model.

[primary clustering symbol description]

1: the sphygomanometer body

11: the blood pressure signal is analyzed sensing component

12: feeder

13: gas supply handover module

2: arm-rest belt

21: the arm type arm-rest belt

22: wrist formula arm-rest belt

23: the finger-type arm-rest belt

3: gas delivery tube

31: arm type arm-rest belt gas delivery tube

32: wrist formula arm-rest belt gas delivery tube

33: finger-type arm-rest belt gas delivery tube

5: the Auto-Sensing assembly

6: Port

61: arm type arm-rest belt gas delivery tube connects the hole

62: wrist formula arm-rest belt gas delivery tube connects the hole

63: finger-type arm-rest belt gas delivery tube connects the hole

64: gas delivery tube connects the hole

A: signal

B: gas

C: pulse pressure ripple

The specific embodiment

Below will the embodiment according to many gasbag-types sphygomanometer of this utility model be described, and be convenient to understand that the same components among the following embodiment is to explain with identical symbology for making with reference to relevant drawings.

See also Fig. 1, it is the configuration diagram of the gasbag-type sphygomanometer more than first kind of this utility model.See also Fig. 2, it is the configuration diagram of the gasbag-type sphygomanometer more than second kind of this utility model.Like Fig. 1 and shown in Figure 2, many gasbag-types sphygomanometer of this utility model comprises arm-rest belt 2, gas delivery tube 3 and sphygomanometer body 1.Sphygomanometer body 1 comprises feeder 12, Auto-Sensing assembly 5, connectivity port 6 and blood pressure signal analysis sensing component 11.One characteristics of many gasbag-types sphygomanometer of this utility model are and can from a plurality of arm-rest belts, select an arm-rest belt to measure blood pressure according to demand; These arm-rest belts 2 for example are arm type arm-rest belt 21, wrist formula arm-rest belt 22 and finger-type arm-rest belt 23 or other suitable type, thereby optionally are used in a measurement sites of user according to actual demand.This measurement sites for example is the position of arm, wrist or finger or other suitable amount measuring blood pressure.

In many gasbag-types sphygomanometer of this utility model; Arm-rest belt 2 is to be communicated with an end of corresponding gas delivery tube 3, and wherein this corresponding gas delivery tube 3 for example is arm type arm-rest belt gas delivery tube 31, wrist formula arm-rest belt gas delivery tube 32 and finger-type arm-rest belt gas delivery tube 33.Gas delivery tube 3 is to see through corresponding Port 6 to be communicated with sphygomanometer body 1.In the embodiment of the gasbag-type sphygomanometer more than first kind of this utility model; This Port 6 is positions on the surface of sphygomanometer body 1 and has a plurality of holes that connect that for example arm type arm-rest belt gas delivery tube connects hole 61, wrist formula arm-rest belt gas delivery tube connects hole 62 and connects hole 63 with finger-type arm-rest belt gas delivery tube.In the embodiment of the gasbag-type sphygomanometer more than second kind of this utility model, 6 of this Ports are to have the pure gas transfer tube to connect hole 64.

In many gasbag-types sphygomanometer of this utility model; Feeder 12 is to be communicated to the Port 6 of position on the surface of sphygomanometer body 1; Thereby be communicated with via the other end of Port 6 with gas delivery tube 3; Thereby make feeder 12 can deliver the gas to arm-rest belt 2, make arm-rest belt 2 when the blood pressure of the measurement sites that measures user, for example produce a pulse pressure ripple C.In addition; The blood pressure signal is analyzed sensing component 11 and is communicated to Port 6; And be communicated with gas delivery tube 3 via Port 6, thus sensing and analyze the variation of pulse pressure ripple C in the arm-rest belt 2, and further learn the size of systolic pressure and diastolic pressure in the pressure value of this measurement sites of user.Be noted that many gasbag-types sphygomanometer of this utility model is not limited to the sphygomanometer of above-mentioned operation principles, many gasbag-types sphygomanometer of this utility model is more applicable to the sphygomanometer of other operation principles.

The Auto-Sensing assembly 5 of many gasbag-types sphygomanometer of this utility model electrically connects with feeder 12, and Auto-Sensing assembly 5 more is communicated with this Port 6.In addition, another characteristics of many gasbag-types of this utility model sphygomanometer are to possess Auto-Sensing assembly 5 in order to judge the kind of this arm-rest belt 2.The first method of the kind of Auto-Sensing assembly 5 these arm-rest belts 2 of judgement Auto-Sensing assembly 5 for this reason is to be connected to Port 6; Thereby utilize electrically or the blowing pressure or inflationtime with the kind of the arm-rest belt 2 of the selected use of automatic judgement user, that is judge that which in the middle of arm type arm-rest belt 21, wrist formula arm-rest belt 22 and the finger-type arm-rest belt 23 user just using.In detail, this Auto-Sensing assembly 5 more electrically connects with feeder 12.Auto-Sensing assembly 5 judges that the second method of the kind of this arm-rest belt 2 is that this Auto-Sensing assembly 5 is electrically connected to Port 6; Connect the hole to learn that arm type arm-rest belt gas delivery tube connects hole 61, wrist formula arm-rest belt gas delivery tube and connects hole 62 or finger-type arm-rest belt gas delivery tube and connect in the middle of the hole 63 which and connected through detecting Port 6; Thereby judge the kind of the arm-rest belt 2 of the selected use of user automatically, that is judge that which in the middle of arm type arm-rest belt 21, wrist formula arm-rest belt 22 or the finger-type arm-rest belt 23 user just using.In addition, Auto-Sensing assembly 5 judges the third method of the kind of this arm-rest belt 2 is that these Auto-Sensing assembly 5 detecting sphygomanometer bodies 1 person of being used is set at which kind of arm-rest belt 2, thereby learns the kind of arm-rest belt 2.In other words, after user was set and used which kind of arm-rest belt 2, this set 5 detectings of Auto-Sensing assembly, thereby learnt the kind of arm-rest belt 2.

The another characteristics of the gasbag-type sphygomanometer more than first kind of this utility model are that Auto-Sensing assembly 5 or feeder 12 more possess gas supply handover module 13; This gas supply handover module 13 is to electrically connect Auto-Sensing assembly 5 and selectivity is communicated to that arm type arm-rest belt gas delivery tube connects hole 61, wrist formula arm-rest belt gas delivery tube connects hole 62 or finger-type arm-rest belt gas delivery tube connects hole 63 according to the result of determination of Auto-Sensing assembly 5; That is alternative be communicated to aforementioned three meet of hole and be not communicated to simultaneously aforementioned three connect the hole in addition both, thereby switch the arm-rest belt of supply gas in use.Therefore; After this Auto-Sensing assembly 5 is learnt the kind of the arm-rest belt 2 in the use; Auto-Sensing assembly 5 promptly sends a signal A and gives gas supply handover module 13; Gas to make this feeder 12 supplied can be provided to the arm-rest belt 22 in the use, thereby can reach the effect of switching the use pattern.

More in detail, as shown in Figure 1 when reality is used the gasbag-type sphygomanometer more than first kind of this utility model, wherein Fig. 1 is that being coated on the wrist of a user with wrist formula arm-rest belt 22 is example.Sphygomanometer body 1 is detected the kind of the arm-rest belt 2 that user just using through Auto-Sensing assembly 5, and the detecting mode of Auto-Sensing assembly 5 for example Auto-Sensing assembly 5 provides gas B to make arm-rest belt 2 arrive the kind that a pressure required time is learnt arm-rest belt 2 through detecting feeder 12.When Auto-Sensing assembly 5 judges that user is just using wrist formula arm-rest belt 22; Then Auto-Sensing assembly 5 promptly sends a signal A to gas supply handover module 13; Make the gas B of feeder 12 supplies can be provided to wrist formula arm-rest belt 22, thereby produce enough pressure.As aforesaid operation principles; Wrist formula arm-rest belt 22 can be oppressed the blood vessel of wrist to produce pulse pressure ripple C; The pressure variation that wrist formula arm-rest belt gas delivery tube 32 obtains pulse pressure ripple C and analyzes this pulse pressure ripple C be can see through to make the blood pressure signal analyze sensing component 11, thereby the systolic pressure and the diastolic pressure of the pressure value of user learnt.

Brought forward is said, the detecting mode of Auto-Sensing assembly 5 again for example which of Auto-Sensing assembly 5 detecting connectivity ports 6 connect the hole and connected, thereby learn the kind of the arm-rest belt 2 that is connected.The detecting mode of Auto-Sensing assembly 5 is after more for example user set to use which kind of arm-rest belt 2, and this sets 5 detectings of Auto-Sensing assembly, learns the kind of arm-rest belt 2 by this.

More in detail, as shown in Figure 2 when reality is used the gasbag-type sphygomanometer more than second kind of this utility model, wherein Fig. 2 also is that being coated on the wrist of a user with wrist formula arm-rest belt 22 is example.More than second kind in the gasbag-type sphygomanometer of this utility model; The Port 6 of sphygomanometer body 1 has the pure gas transfer tube and connects hole 64; It is to be connected with wrist formula arm-rest belt gas delivery tube 32 for example that gas delivery tube connects hole 64; Wrist formula arm-rest belt gas delivery tube 32 is connected with wrist formula arm-rest belt 22, and wrist formula arm-rest belt 22 is coated on the wrist of a user.Another characteristics of the gasbag-type sphygomanometer more than second kind of this utility model are that Auto-Sensing assembly 5 or feeder 12 need not possess aforesaid gas supply handover module 13.In other words; Auto-Sensing assembly 5 can for example utilize the blowing pressure or inflationtime and judge that automatically user is just using wrist formula arm-rest belt 22, and feeder 12 can be according to the required gas B of the result of determination supply wrist formula arm-rest belt of Auto-Sensing assembly 5 22 to produce enough pressure.Thereby; Wrist formula arm-rest belt 22 can be oppressed the blood vessel of wrist to produce pulse pressure ripple C; See through the pressure variation that wrist formula arm-rest belt gas delivery tube 32 obtains pulse pressure ripple C and analyzes this pulse pressure ripple C to make the blood pressure signal analyze sensing component 11, thereby learn a systolic pressure and a diastolic pressure of the pressure value of user.

Brought forward is said, Auto-Sensing assembly 5 judge user just using arm-rest belt 2 kind mode again for example, when user set use wrist formula arm-rest belt 22 after, 5 these settings of detecting of Auto-Sensing assembly, thus learn that user is just using wrist formula arm-rest belt 22.

The above is merely illustrative, but not is restricted.Any spirit and category that does not break away from this utility model, and it is carried out equivalent modifications or change, all should be contained in the claim of this utility model.

Claims (10)

1. gasbag-type sphygomanometer more than a kind is characterized in that it comprises:

A plurality of arm-rest belts are that selectivity is used in a measurement sites with the arm-rest belt in these arm-rest belts;

A plurality of gas delivery tube, an end of these gas delivery tube is communicated to these arm-rest belts respectively; And

One sphygomanometer body comprises:

At least one Port, the other end of these gas delivery tube is communicated to this Port;

One feeder, this feeder are to be communicated to this Port and to provide a gas to give this arm-rest belt in the use to produce a pulse pressure ripple via this Port;

One Auto-Sensing assembly, this Auto-Sensing assembly electrically connects this feeder, and this Auto-Sensing assembly is communicated with this connectivity port, and this Auto-Sensing assembly is in order to judge the kind of these arm-rest belts; And

One blood pressure signal is analyzed sensing component, and it is to see through these gas delivery tube are learnt this measurement sites with the variation of this pulse pressure ripple of this arm-rest belt in the detecting use a pressure value that this blood pressure signal is analyzed sensing component.

2. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, this measurement sites is arm, wrist or finger.

3. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, these arm-rest belts are an arm type arm-rest belt, a wrist formula arm-rest belt and a finger-type arm-rest belt.

4. many gasbag-types sphygomanometer as claimed in claim 3; It is characterized in that; Comprise that also gas supply handover module is located on this Auto-Sensing assembly or this feeder, thereby switch and provide this gas to give this arm-rest belt in the use according to the result of determination of this Auto-Sensing assembly.

5. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, this Port has a plurality of these other ends that connect the hole with these gas delivery tube of socket.

6. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, this Port has one and connects the hole to be communicated to this gas delivery tube of this arm-rest belt in the use in these gas delivery tube of socket.

7. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, when this arm-rest belt reached a force value, what of this gas this this feeder of Auto-Sensing assembly detecting provided, thereby learns the kind of this arm-rest belt.

8. many gasbag-types sphygomanometer as claimed in claim 5 is characterized in that, this of this Port that the detecting of this Auto-Sensing assembly is connected by this gas delivery tube connects the hole, thereby learns the kind of this arm-rest belt.

9. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, the kind of this arm-rest belt that this sphygomanometer body of this Auto-Sensing assembly detecting is set, thus learn the kind of this arm-rest belt.

10. many gasbag-types sphygomanometer as claimed in claim 1 is characterized in that, after this Auto-Sensing assembly was judged the kind of this arm-rest belt, this feeder adjustment provided this gas to give this arm-rest belt in the use.

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