CN205568936U - Sphygmomanometer sleeve area and wrist -watch formula electrosphygmomanometer - Google Patents

Abstract

The application discloses sphygmomanometer sleeve area and wrist -watch formula electrosphygmomanometer should include the gasbag in the sleeve area. This gasbag is including sealed air chamber and be used for the air cock with this air chamber and sphygmomanometer body gas circuit intercommunication, and this air chamber has initial volume, this air cock and this air chamber intercommunication. During blood pressure measuring, the area that only needs to tuck inside the sleeve is most likely being pasted limbs and is being binded, just can guarantee that binding of this sleeve area does not influence blood pressure measuring precision, provides one kind promptly and dresses the sphygmomanometer sleeve area that the elasticity was easily controlled, measurement accuracy is high.

Description

Sphygmomanometer girding and watch style electric sphygmomanometer

Technical field

The application relates to the cuff structure in a kind of sphygomanometer, especially sphygomanometer.

Background technology

Introduction on Technology is measured as follows: when pressurization during the pressurization of electric sphygmomanometer, air is filled in the air bag of cuff and makes cuff to fasten arm (wrist) portion, pressurize by certain aeration speed to the air-channel system of sphygomanometer by air pump, in pressure process, detection blood pressure superposition and the signal of air-channel system, thus by algorithm, calculate contraction pressure, diastolic pressure, pulse etc..If pressing speed is too fast, the pulse signal being concealed in air pump forced air signal is difficult to extract, and causes measurement error the most failed；Whereas if pressing speed is too slow, the comfort level during measurement reduces, and blood pressure measurement error strengthens.In order to accurately measure blood pressure, pulse, pressing speed is usually set to 3～about 8mmHg/s.Correspondingly, during pressurization measure technology sphygomanometer there is pressing speed administrative mechanism, when pressing speed the most within the limits prescribed, sphygomanometer is automatically stopped work, needs again to bundle cuff and starts again at blood pressure measurement.

Current sphygmomanometer girding generally comprises the air bag that two thin film surroundings combine.Being characterized in, when air bag is worn on limbs, two thin films are close to, and the little elasticity dressing cuff that depends entirely on to almost nil, pressing speed of bag volume before inflation, i.e. with the corresponding inflatable volume of elasticity dressing cuff.When cuff dresses pine, air bag has dresses the corresponding inflatable volume of elasticity with this；When cuff is dressed tight, air bag is almost without inflatable volume.Specifically, binding slightly tight (cuff againsts limbs binding), the inflatable volume between two thin films of air bag is the least, causes pressing speed too fast, causes measurement error the most failed；Binding is too tight (tying tight), had both caused and has measured unsuccessfully, the most uncomfortable；Bundling the most loose, the inflatable volume between two thin films of air bag is too big, causes pressing speed too slow, measures overlong time, and comfort level reduces and blood pressure measurement error strengthens.This tightest the most loose binding requirement, the most difficult for user, frequently result in and measure unsuccessfully.Especially watch style electric sphygmomanometer, owing to its cuff itself is the least, the elasticity of cuff binding is especially big on the impact of inflatable volume, thus is more prone to cause measurement problem.

Summary of the invention

The application provides a kind of novel sphygmomanometer girding and uses the watch style electric sphygmomanometer of this cuff.

The sphygmomanometer girding that the application provides, including:

Air bag, described air bag includes air chamber and the valve for being connected by this air chamber sealed with main body gas circuit, and described air chamber has original volume, and described valve connects with air chamber.

As the further improvement of described cuff, described air bag includes at least two base material, and in described at least two base material, at least one is provided with depressed part, and described at least two base material is superimposed with each other to enclose depressed part and forms the air chamber with original volume.

Further improvement as described cuff, described air bag includes the first base material, the second base material and valve, in described first base material and the second base material, at least one is provided with depressed part, described first base material and the second base material are superimposed with each other, being enclosed by described depressed part and form the air chamber with original volume, described valve connects with described air chamber.

Further improvement as described cuff, it is provided with multiple caveli on described second base material, described first base material is provided with groove towards the one side of the second base material caveli, and after the first base material and the second base material overlap, the plurality of caveli all connects with described groove.

As the further improvement of described cuff, on described second base material, the one side contrary with caveli has at least one groove, and the orientation of described groove is consistent with the direction of the human body wrist that the second base material is attached or arm.

As the further improvement of described cuff, described caveli is strip, and described strip caveli is consistent with described groove orientation, and described groove is correspondingly arranged at the back side of the connecting portion between adjacent two strip cavelis.

As the further improvement of described cuff, described second base material edge turnover forms a circle installation cavity, and the edge correspondence of described first base material is installed in described installation cavity, makes described second base material that the edge of described first base material is sealed cladding.

As the further improvement of described cuff, also including connector, described connector is fixing with described air bag to be connected, and described connector has the fixed part for being connected with main body.

As the further improvement of described cuff, described connector is flexible collar, described flexible collar elastically deformable diametrically, and described flexible collar winds the outside being fixed on described air bag in the form of a ring.

As the further improvement of described cuff, also include that bag container, described air bag are contained in bag container.

The watch style electric sphygmomanometer that the application provides, including:

Main body；

And as described in above-mentioned any one cuff, described cuff can form circulus and wear for user, and described cuff is connected with main body, and the valve in described cuff connects with the gas circuit in main body.

The watch style electric sphygmomanometer that the application provides, including:

Main body；

Watchband, described watchband is connected with main body；

And the cuff as described in above-mentioned any one, described cuff is arranged on the watchband side near people's body surface skin, and described cuff is connected with main body, and the valve in described cuff connects with the gas circuit in main body.

The application provides the benefit that:

The cuff that the application provides, it includes air bag.This air bag includes air chamber and the valve for being connected by this air chamber sealed with main body gas circuit, and this air chamber has original volume, and this valve connects with this air chamber.When measuring blood pressure, this cuff only need to be against limbs binding, it is ensured that the binding of this cuff does not affect the precision of blood pressure measurement, i.e. provide a kind of and dress the sphygmomanometer girding that elasticity is easily controllable, certainty of measurement is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of the application the first embodiment of sphygmomanometer girding；

Fig. 2 is the exploded view of embodiment illustrated in fig. 1；

Fig. 3 is the sectional view (omission process has been done at middle part) of embodiment illustrated in fig. 1；

Fig. 4 is schematic diagram after the first base material and connector combine in embodiment illustrated in fig. 1；

Fig. 5 is structure another side schematic diagram shown in Fig. 4 (in circle, part has carried out cutting and amplified)；

Fig. 6 is the schematic diagram of the first base material in embodiment illustrated in fig. 1；

Fig. 7 is A-A sectional view in Fig. 6；

Fig. 8 is B-B sectional view in Fig. 6；

Fig. 9 is the schematic diagram of connector in embodiment illustrated in fig. 1；

Figure 10 is the schematic diagram of the second base material in embodiment illustrated in fig. 1；

Figure 11 is C-C sectional view in Figure 10；

Figure 12 is D-D sectional view in Figure 10；

Figure 13 is the second base material another side schematic diagram shown in Figure 10；

Figure 14 is the partial enlarged drawing after the assembling of angle shown in Fig. 7 and Figure 11；

Figure 15 is the partial enlarged drawing after the assembling of angle shown in Fig. 8 and Figure 12；

Figure 16 is the schematic diagram of a kind of watch style electric sphygmomanometer that have employed cuff shown in Fig. 1；

Figure 17 is the sectional view of watch style electric sphygmomanometer shown in Figure 16；

Figure 18 is the structural representation of the application sphygmomanometer girding the second embodiment；

Figure 19 is the exploded view of embodiment illustrated in fig. 18；

Figure 20 is the sectional view of embodiment illustrated in fig. 18；

Figure 21 is the schematic diagram of the first base material in embodiment illustrated in fig. 18；

Figure 22 is the first base material another side schematic diagram shown in Figure 21；

Figure 23 is the schematic diagram of the second base material in embodiment illustrated in fig. 18；

Figure 24 is the second base material another side schematic diagram shown in Figure 23；

Figure 25 is bag container schematic diagram in embodiment illustrated in fig. 18；

Figure 26 is bag container another side schematic diagram shown in Figure 25；

Figure 27 is the schematic diagram of connector in embodiment illustrated in fig. 18；

Figure 28 is the schematic diagram of a kind of watch style electric sphygmomanometer that have employed cuff shown in Figure 18；

Figure 29 is the sectional view of watch style electric sphygmomanometer shown in Figure 28；

Figure 30 is the structural representation of the application the third embodiment of sphygmomanometer girding；

Figure 31 is the exploded view of embodiment illustrated in fig. 30；

Figure 32 is the schematic diagram of structure another side shown in Figure 31；

Figure 33 is the schematic diagram of a kind of watch style electric sphygmomanometer that have employed cuff shown in Figure 30；

Figure 34 is the sectional view of watch style electric sphygmomanometer shown in Figure 33.

Detailed description of the invention

Combine accompanying drawing below by detailed description of the invention the present invention is described in further detail.The application can realize with multiple different form, however it is not limited to the embodiment described by the present embodiment.The purpose providing detailed description below is easy for present disclosure is become apparent from thorough explanation, wherein the words of the indicating position such as upper and lower, left and right be only for shown structure in respective figure for position.

But, those skilled in the art may be aware that one or more detail describes and can be omitted, or can also use other method, assembly or material.In some instances, some embodiments do not describe or are not described later in detail.

Additionally, technical characteristic described herein, technical scheme can also be combined in any suitable manner in one or more embodiments.For a person skilled in the art, it is easy to understand that the step of the method relevant with embodiment provided herein or operation order can also change.Therefore, any order in drawings and Examples is merely illustrative purposes, does not implies that requirement in a certain order, requires unless expressly stated according to a certain order.

Herein for parts institute serialization number itself, such as " first ", " second " etc., be only used for distinguishing described object, do not have any order or art-recognized meanings.And the application described " connection ", " connection ", " in conjunction with ", " overlapping ", if no special instructions, all include directly or indirectly connecting, couple, combine, overlap.

The sphygmomanometer girding that the application provides includes air bag, and this air bag includes air chamber and the valve for being connected by this air chamber sealed with main body gas circuit, and this air chamber has original volume, and this valve connects with this air chamber.

This original volume refers to that air bag itself has defined the cavity of a sealing under normal non-aerated form, elasticity regardless of cuff, the original volume of this air chamber is held essentially constant, therefore can reduce the impact that the cuff binding inflatable volume of elasticity brings to pressing speed, improve certainty of measurement.

Wherein, this air chamber with original volume may be made up of at least two base material, and in this at least two base material, at least one is provided with depressed part.This at least two base material is mutually combined, and (bonding, ultrasonic bonding, heat seal etc.) are fixing the most in some way, enclosed by depressed part and form the air chamber with original volume.

Certainly, this air chamber with original volume is likely to be made up of other forms, as one-body molded.

The application sphygmomanometer girding presented below is to illustrate as a example by the first base material and the second base material, in first base material and the second base material, at least one is provided with depressed part, first base material and the second base material are superimposed with each other, being enclosed by depressed part and form the air chamber with original volume, this valve connects with this air chamber.

Embodiment one:

Referring to figs. 1 through 3, the sphygmomanometer girding 1000 that the present embodiment one provides includes air bag, and this air bag includes the first base material 1100, the second base material 1200 and valve 1300.

Referring to figs. 1 through 8, the material of the first base material 1100 can be silica gel or other materials, it has the first noumenon 1101, the first noumenon 1101 has connection through hole 1102, marginal portion 1103 (Fig. 6 shade position, for fixing), groove 1104 (a kind of concrete scheme of depressed part), fixed strip 1105 with the second base material 1200.

Forming the valve 1300 of cylinder from the first noumenon 1101 to the side that groove 1104 is contrary, the axis of cylindrical valve 1300 has air nozzle hole 1301, air nozzle hole 1301 is through hole.One end 1302 of air nozzle hole 1301 is positioned at groove 1104, and the other end 1303 of air nozzle hole 1301 is positioned at the end face of valve 1300；Fixed strip 1105 is positioned at the side that groove 1104 is contrary, and fixed strip 1105 two ends are connected with the first noumenon 1101.

Refer to Fig. 1,2,10 to 13, the material of the second base material 1200 can be silica gel or other materials, and it has the second body 1201, and this second body 1201 includes connecting through hole 1202 and caveli 1204 (a kind of concrete scheme of depressed part).

This caveli 1204 is multiple (other embodiments are likely to be one), groove 1104 (at least one) is arranged on first base material 1100 one side towards the caveli 1204 of the second base material 1200, after the first base material 1100 and the second base material 1200 overlap, multiple cavelis 1204 all connect with groove 1104, thus each caveli 1204 is connected, it is collectively forming an air chamber 1001 (as shown in Figure 3) with original volume.

Refer to Fig. 2, this caveli 1204 is strip, including rectangle, ellipse, kidney-shaped etc..But its shape is not limited in shown in Fig. 2, it is possible to be designed as other arbitrary shapes.

Further, in view of when cuff is worn on limbs, cuff is along limbs circumferential deformation, therefore on the second base material 1200, multiple groove 1205 (as shown in figure 13) can be set the one side contrary with caveli 1204, the orientation of this groove 1205 is consistent with the direction of the human body wrist that the second base material 1204 is attached or arm, and i.e. it arranges along human body wrist or arm profile bending direction.

Refer to Figure 13 and 16, the arrangement of this groove 1205 makes it can absorb the deformation of the second base material 1200, it is to avoid gauffer occurs, thus avoids bringing unnecessary noise during pressurization；Cuff the most also can be avoided to contact with widespread skin, and the comfort level of sphygomanometer is worn in impact.

Further, the caveli 1204 of strip is consistent with groove 1205 orientation, and groove 1205 is correspondingly arranged at the back side of the connecting portion between adjacent two strip cavelis 1204, so can must reduce the thickness of the second base material 1200 as far as possible.

Be combined with the form that sealing is fixing between first base material 1100 with the second base material 1200, make air chamber 1001 only be connected with main body gas circuit by valve 1300.

Refer to Figure 11 and 12, edge 1203 turnover of the second base material 1200 forms a circle installation cavity.Refer to Fig. 6,7 and 8, edge 1103 (Fig. 6 shade position) correspondence of the first base material 1100 is installed in installation cavity, makes the second base material 1200 that the edge of the first base material 1100 is sealed cladding.

Certainly, the edge 1103 of the first base material 1100 can be the most bonding with the edge 1203 of the second base material 1200, as shown in FIG. 14 and 15, thus ensures the sealing of air chamber 1001.

First base material 1100 is combined with the air-tightness of the second base material 1200, it is also possible to use other shapes, even other modes.

Refer to Fig. 1, this sphygmomanometer girding 1000 also includes connector 1400, and this connector 1400 is fixing with air bag to be connected, and connector 1400 has the fixed part for being connected with main body.

Further, refer to Fig. 2,4 and 9, this fixed part can be snap fit 1403, this connector 1400 part is embedded in the first base material 1100, snap fit 1403 is protruding from the first base material 1100, and connector the 1400, first base material 1100 and the second base material 1200 are separately provided for fixing the connection through hole 1402,1102,1202. being connected with main body

Specifically, refer to Fig. 9, the material of connector 1400 can be foil, and it has slice part 1401, and slice part 1401 has connection through hole 1402 and buckle 1403.

The slice part 1401 of connector 1400 imbeds the first base material 1100 in advance, and buckle 1403 and valve 1300 are in the same side of the first base material 1100.

Refer to Fig. 5, the connection through hole 1402 of connector 1400 is coaxial with the connection through hole 1102 of the first base material 1100, the diameter connecting through hole 1402 is slightly less than the diameter connecting through hole 1102 of the first base material 1100, and the diameter connecting through hole 1202 of the second base material 1200 is slightly larger than the diameter connecting through hole 1402 of connector 1400.

Refer to Fig. 2, connect through hole 1102, connect through hole 1402 and to be connected through hole 1202 coaxial, be in the region outside air chamber 1001.Air chamber 1001 can only be connected with outside gas circuit by air nozzle hole 1301.

The groove 1104 of the first base material 1100 in the present embodiment is except in addition to forming the air chamber 1001 with certain original volume, moreover it is possible to plays and prevents the effect that gas circuit is blocked, connect air chamber 1001 and main body gas circuit.

What Figure 16 and 17 showed is a kind of watch style electric sphygmomanometer that have employed cuff shown in the present embodiment.

This watch style electric sphygmomanometer includes watch style main body (MU) 4000, watchband (BAND) 5000, cuff 1000.The air chamber of cuff 1000 is hermetic connected with the gas circuit within main body (MU) 4000 by valve 1300, buckle 1403 stretches into main body (MU) 4000, catch on main body (MU) 4000 internal structure, being connected by fixing with main body (MU) 4000 for sphygmomanometer girding 1000 at through hole 1402 by screw, air bag then passes through fixed strip 1105 and is enclosed within watchband (BAND) 5000 again.

Embodiment two:

Refer to Figure 18 to 20, the another kind of sphygmomanometer girding 2000 that the present embodiment two provides.

This sphygmomanometer girding 2000 includes air bag 2002, connector 2400 and bag container 2600.

This air bag 2002 has the first base material 2100 and the second base material 2200, and air bag 2002 is provided with valve 2300.

The mode that this first base material 2100 and the second base material 2200 constitute sealed air chamber is basically identical with embodiment one.

Refer to Figure 21 to 22, the material of the first base material 2100 can be silica gel, and it has the first noumenon 2101, and the first noumenon 2101 includes marginal portion 2103, the back side 2106 that groove 2104 (a kind of concrete scheme of depressed part) is contrary with groove 2104.

Forming the valve 2300 of cylinder from the first noumenon 2101 to the side that groove 2104 is contrary, the axis of cylindrical valve 2300 has air nozzle hole 2301, air nozzle hole 2301 is through hole.One end 2302 of air nozzle hole 2301 is positioned at groove 2104, and the other end 2303 of air nozzle hole 2301 is positioned at the end face of valve 2300.

Refer to Figure 23 to 24, the material of the second base material 2200 can be silica gel, and it has the second body 2201.Second body 2201 has caveli 2204 (a kind of concrete scheme of depressed part), and second body 2201 edge 2203 turnover formed one circle installation cavity, edge 2103 correspondence of the first base material 2100 is installed in installation cavity, makes the second base material 2200 that the edge 2103 of the first base material 2100 is sealed cladding.

Equally, the edge 2103 of the first base material 2100 is the most bonding with the edge 2203 of the second base material 2200 for air bag 2002, forms the air chamber with certain original volume, refers to structure shown in embodiment one；Air chamber can only be connected with outside gas circuit by air nozzle hole 2301.

Refer to Figure 19, the material of connector 2400 can be PP, has slice part 2401, buckle 2402.Slice part 2401 is open annular, diametrically elastically deformable；Buckle 2402 is positioned at ring-type outside, and ring-type inner side is faying face 2406.Also there is on slice part 2401 through hole 2404.

Refer to Figure 25 to 26, the material of bag container 2600 can be cloth, has bag 2601.The two ends of bag 2601 are respectively provided with the hook face 2602 of VELCRO, hair side 2603, and the side of bag 2601 has aperture 2604,2605.

Refer to Figure 19 to 27, the back side 2106 of air bag 2002 is bonding with the faying face 2406 of connector 2400, and valve 2300, through the through hole 2404 of connector 2400, forms air bag component 2003 (Figure 27).

Refer to Figure 18,20 and 27, air bag component 2003 is built in bag container 2600, and valve 2300, through the aperture 2604 of bag container 2600, buckle 2402 through the aperture 2605 of bag container 2600, forms sphygmomanometer girding 2000.

What Figure 28 and 29 showed is a kind of watch style electric sphygmomanometer that have employed cuff shown in the present embodiment.

This watch style electric sphygmomanometer includes watch style main body (MU) 4000 and cuff 2000.The air chamber of cuff 2000 is hermetic connected with the gas circuit within watch style main body (MU) 4000 by valve 2300, buckle 2402 stretches into watch style main body (MU) 4000, the structure caught in watch style main body (MU) 4000, is fixed with Wrist blood pressure meter body MU by sphygmomanometer girding 2000.

In the present embodiment, this cuff 2000 can directly replace watchband, say, that cuff can form circulus and wear for user, thus omits watchband.

Embodiment three:

Refer to Figure 30 to 32, the another kind of sphygmomanometer girding 3000 that the present embodiment three provides.

This sphygmomanometer girding 3000 includes air bag, and this air bag includes the first base material 3100 and the second base material 3200.

Refer to Figure 31 and 32, the material of the first base material 3100 can be silica gel, having the first noumenon 3101 of strip, this first noumenon 3101 has edge part 3103, groove 3104 (a kind of concrete scheme of depressed part), air nozzle hole 3105 (a kind of concrete scheme of valve), connects post 3106, fixing hole 3107, the solid shaped cavity 3108 of sphygomanometer.

Groove 3104 is created on one end of the first noumenon 3101.Air nozzle hole 3105 is created on the first noumenon 3101, one end communication groove 3104, and the other end is inside the solid shaped cavity 3108 of sphygomanometer.The opposition side of groove 3104 generates and connects post 3106；The other end of the first noumenon 3101 generates fixing hole 3107.

Refer to Figure 31 and 32, the material of the second base material 3200 is silica gel, and it has the second body 3201, and this second body 3201 has edge 3203, caveli 3204 (a kind of concrete scheme of depressed part), groove 3205.

Edge 3203 turnover of the second base material 3200 forms a circle installation cavity, and the edge part 3103 of the first base material 3100 is the most bonding with the edge 3203 of the second base material 3200, forms the air chamber with certain original volume, refers to structure shown in embodiment one.Air chamber can only be connected with outside gas circuit by air nozzle hole 3105.

First base material 3100 is combined with the air-tightness of the second base material 3200, it is also possible to use other shapes, even other modes.

Figure 33,34 show be a kind of watch style electric sphygmomanometer that have employed cuff shown in the present embodiment.

This watch style main body (MU) 4000 is installed on the solid shaped cavity 3107 of sphygomanometer of cuff 3000, and the air chamber of cuff 3000 is hermetic connected with the gas circuit within watch style main body (MU) 4000 by air nozzle hole 3105.

Above content is to combine specific embodiment further description made for the present invention, it is impossible to assert the present invention be embodied as be confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, it is also possible to make some simple deduction or replace.

Claims (12)

1. a sphygmomanometer girding, it is characterised in that including:

Air bag, described air bag includes the air chamber sealed and for by described air chamber and main body The valve of gas circuit connection, described air chamber has original volume, and described valve connects with described air chamber.

2. cuff as claimed in claim 1, it is characterised in that described air bag include to Few two base materials, in described at least two base material, at least one is provided with depressed part, described at least Two base materials are superimposed with each other to enclose described depressed part and form the air chamber with original volume.

3. cuff as claimed in claim 1, it is characterised in that described air bag includes the One base material, the second base material and valve, in described first base material and the second base material, at least one is arranged Having depressed part, described first base material and the second base material are superimposed with each other, and described depressed part is enclosed shape Becoming to have the air chamber of original volume, described valve connects with described air chamber.

4. cuff as claimed in claim 3, it is characterised in that on described second base material Being provided with multiple caveli, described first base material is provided with towards the one side of the second base material caveli Groove, after the first base material and the second base material overlap, the plurality of caveli all with described groove Connection.

5. cuff as claimed in claim 4, it is characterised in that on described second base material The one side contrary with described caveli has at least one groove, the arrangement side of described groove To consistent with the direction of the human body wrist that described second base material is attached or arm.

6. cuff as claimed in claim 5, it is characterised in that described caveli is for long Bar shaped, described strip caveli is consistent with described groove orientation, and described groove The back side of the connecting portion being correspondingly arranged between adjacent two described strip cavelis.

7. cuff as claimed in claim 3, it is characterised in that described second base material side Edge turnover forms a circle installation cavity, and the edge correspondence of described first base material is installed in described installation cavity In, make described second base material that the edge of described first base material is sealed cladding.

8. cuff as claimed in claim 3, it is characterised in that also include connector, Described connector is fixing with described air bag to be connected, and described connector has for sphygomanometer originally The fixed part that body connects.

9. cuff as claimed in claim 8, it is characterised in that described connector is for scratching The property collar, described flexible collar elastically deformable diametrically, described flexible collar is rolled up in the form of a ring Around the outside being fixed on described air bag.

10. the cuff as described in any one of claim 1～9, it is characterised in that also include Bag container, described air bag is contained in bag container.

11. 1 kinds of watch style electric sphygmomanometers, it is characterised in that including:

Main body；

And as described in any one of claim 1-10 cuff, described cuff can form ring-type knot Structure is worn for user, and described cuff is connected with main body, the valve in described cuff and Gas circuit connection in main body.

12. 1 kinds of watch style electric sphygmomanometers, it is characterised in that including:

Main body；

Watchband, described watchband is connected with main body；

And the cuff as described in any one of claim 1-10, described cuff is arranged on watchband Near the side of people's body surface skin, and described cuff is connected with main body, in described cuff Valve connects with the gas circuit in main body.