CN201641991U - Winding blood pressure cuff - Google Patents

Abstract

The utility model relates to a winding blood pressure cuff used for being wound on and compressing a part of a human body to be measured. The blood pressure cuff comprises a cuff-shaped body, an inflatable bag and a bendable spring plate, wherein, the inflatable bag is arranged on the cuff-shaped body; the bendable spring plate is attached to the cuff-shaped body along the length direction of the cuff-shaped body; and when being bent and deformed under an external force, the bendable spring plate can automatically and elastically curl and contract, and drives the cuff-shaped body to be wound and positioned on the part to be measured. Therefore, the blood pressure cuff has the advantages of convenient and simple operation, and rapid positioning.

Description

The takeup type sphygmomanometer cuff

Technical field

This utility model relates to a kind of blood pressure measurement device, relates in particular to a kind of takeup type sphygmomanometer cuff.

Background technology

Blood pressure is the pressure that body-internal-circulation blood causes in blood vessel wall, the pressure that heart contraction is produced when blood is sent to whole body via tremulous pulse is called systolic pressure (or being called maximal blood pressure), heart loosens the pressure that blood is produced during to heart via venous return and is called diastolic pressure (or being called minimal blood pressure), the unit of blood pressure is with millimetres of mercury (mmHg) office, defining standard according to World Health Organization (WHO), when systolic pressure more than the 160mmHg and diastolic pressure more than 95mmHg, perhaps when systolic pressure below the 100mmHg and diastolic pressure below 60mmHg, it is unusual to be pressure value, and pressure value is the alert news of many great chronic diseases unusually, apoplexy for example, heart disease, uremia, diabetes and hypertension etc., just can know whether hide disease factor in the body so take blood pressure, use the operation situation between sphygomanometer monitoring of cardiac and the blood vessel, can understand the health status of human body, also more actively and positively precognition effect is arranged for the morbidity sign that detects chronic disease, again if can regularly measure and the recording blood pressure value on long-term tracing study ground, can be used as the personal health inspection and the important references when seeking medical advice.

General sphygomanometer comprises that a type inflatable wrist strap and configuration be fixed in a pressure-sensing spare of type inflatable wrist strap, one end of type inflatable wrist strap is sewed with a clasp, type inflatable wrist strap two sides is pasted with devil's felt respectively, during use the type inflatable wrist strap is wound on the arm of testee, the other end of type inflatable wrist strap passes clasp and inflection, and utilize devil's felt to be located constraint, again the type inflatable wrist strap is inflated and oppressed arm, promptly can carry out blood pressure measuring by pressure-sensing spare this moment, so after the inflation of inflated type wrist strap, the inflated type wrist strap can push the packing arm, clasp then can sting the pressure arm, make the twinge of user sensation and uncomfortable, and when the type inflatable wrist strap being wound in arm, be not easy independent operation by testee is independent.

The utility model content

The purpose of this utility model is to provide a kind of takeup type sphygmomanometer cuff, deflection distortion and reel and be positioned the tested position of human body, easy to operate easily and can locate fast.

To achieve the above object, this takeup type sphygmomanometer cuff comprises:

One belt body;

One gas cell bag is arranged at this belt body; And

One pliability shell fragment is along the length direction of this belt body and be attached on this belt body;

Wherein, when this pliability shell fragment is subjected to the external force effect and during deflection deformation, this pliability shell fragment can spontaneous elasticity crimp shrinkage, and drives this belt body and twine and be positioned described tested position.

Above-mentioned takeup type sphygmomanometer cuff, wherein, this pliability shell fragment and this gas cell bag are arranged at the same side of this belt body.

Above-mentioned takeup type sphygmomanometer cuff, wherein, this pliability shell fragment and this gas cell bag are arranged at the phase heteropleural of this belt body.

Above-mentioned takeup type sphygmomanometer cuff, wherein, this pliability shell fragment is a chromium steel spare.

Above-mentioned takeup type sphygmomanometer cuff, wherein, this pliability shell fragment is the chrome alum steel part.

Above-mentioned takeup type sphygmomanometer cuff wherein, also comprises an end liner that is connected in this belt body, and this end liner and this belt body coat this gas cell bag jointly.

Above-mentioned takeup type sphygmomanometer cuff wherein, also comprises a public adhesive buckle layer that is arranged at this end liner lateral surface and a female adhesive buckle layer that is arranged at this belt body lateral surface, and this public affairs adhesive buckle layer and this mother's adhesive buckle layer cooperatively interact and paste.

Above-mentioned takeup type sphygmomanometer cuff, wherein, this gas cell bag inside has an air chamber, and offers an air-filled pore that is communicated with this air chamber on this gas cell bag.

Above-mentioned takeup type sphygmomanometer cuff, wherein, this belt body offers an intercommunicating pore that is communicated with this air-filled pore, and this mother's adhesive buckle layer offers a perforation that is communicated with this air-filled pore.

Above-mentioned takeup type sphygmomanometer cuff, wherein, also comprise be arranged at this belt body and be connected to this air-filled pore, this intercommunicating pore, and this perforation in a ventilating joint.

Effect of the present utility model is, when just making this pliability shell fragment that is hard straight shape be subjected to external force to do in order to bending, this pliability shell fragment is understood deflection deformation and the elasticity crimp shrinkage, and then drive this belt body and twine and be positioned described tested position, easy to operate easily and can locate fast, structure very simply makes manufacturing cost reduce again, increases commercial competitiveness, can avoid existing clasp thorn pressure arm in addition and make the uncomfortable situation of user sensation twinge.

Below in conjunction with the drawings and specific embodiments this utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is a three-dimensional exploded view of the present utility model;

Fig. 2 is the assembled perspective view of Fig. 1;

Fig. 3 is the cutaway view of Fig. 2 along the 3-3 line;

Fig. 4 is an occupation mode sketch map of the present utility model;

Fig. 5 is curled in the cutaway view at tested position automatically for this utility model;

Fig. 6 twines the cutaway view that is positioned tested position for this utility model;

Fig. 7 is the three-dimensional exploded view of another embodiment of this utility model;

Fig. 8 is the assembled sectional view of another embodiment of this utility model.

Wherein, Reference numeral

Belt body 100

Intercommunicating pore 110

Gas cell bag 200

Air chamber 210

Air-filled pore 220

Pliability shell fragment 300

End liner 400

Public adhesive buckle layer 500

Female adhesive buckle layer 600

Perforation 610

Ventilating joint 700

Human body 800

Tested position 810

The specific embodiment

Relevant detailed description of the present utility model and technology contents cooperate graphic being described as follows, yet appended graphic reference and the explanation usefulness of only providing not is to be used for this utility model is limited.

This utility model relates to a kind of takeup type sphygmomanometer cuff, please refer to Fig. 1 to shown in Figure 3, this takeup type sphygmomanometer cuff comprises a belt body 100, a gas cell bag 200, a pliability shell fragment 300, an end liner 400, one public adhesive buckle layer 500, one female adhesive buckle layer 600, reaches a ventilating joint 700.

This belt body 100 can be has preferable tension force soft materials, guaranteeing its ruggedness, but is not restriction with this material, and this belt body 100 is long rectangle, but is not shaped as restriction with this, and this belt body 100 offers an intercommunicating pore 110 again.

This gas cell bag 200 is arranged at a side of this belt body 100, its directly sutured in this belt body 100, these gas cell bag 200 inside have an air chamber 210, and offer an air-filled pore 220 that is communicated with this air chamber 210 on this gas cell bag 200, again this air-filled pore 220 and be communicated with this intercommunicating pore 110.

This pliability shell fragment 300 is along the length direction of this belt body 100 and be attached on this belt body 100, this pliability shell fragment 300 and this gas cell bag 200 are arranged at the same side of this belt body 100, and this pliability shell fragment 300 is sincere between this belt body 100 and this gas cell bag 200 by folder, this pliability shell fragment 300 is made by metal material, for example chromium steel or chrome-vanadium steel, but be not restriction with this kind material, this pliability shell fragment 300 has directed elasticity of curling, when this pliability shell fragment 300 is pulled when straight, it can keep hard straight state, and be subjected to the external force effect and by when bending when this pliability shell fragment 300, this pliability shell fragment 300 can produce an elastic return immediately and decide power, makes these pliability shell fragment 300 deflection deformations and spontaneous elasticity crimp shrinkage and be scroll.

In addition, this utility model is not limited to monolithic pliability shell fragment, also can be the combination of multi-disc pliability shell fragment, for example two or three, or one is long and the other is short, or one wide one is thin, or two be unlike material, and right above embodiment all is included in the disclosed category of this utility model.

The periphery of this end liner 400 is connected in this belt body 100, and coat this gas cell bag 200 and this pliability shell fragments 300 jointly with this belt body 100, then this gas cell bag 200 directly sutured in this belt body 100, this end liner 400 is a soft material, for example a flannelette has preferable touch comfort.

This public affairs adhesive buckle layer 500 is attached at this end liner 400 outsides, this mother's adhesive buckle layer 600 is attached at the another side of this belt body 100, that is should public affairs adhesive buckle layer 500 and this mother's adhesive buckle layer 600 be arranged at the phase heteropleural of this belt body 100, and should public affairs adhesive buckle layer 500 cooperate with this mother's adhesive buckle layer 600 and can paste mutually, this public affairs adhesive buckle layer 500 is devil's felt, this mother's adhesive buckle layer 600 is a flannelette, should offer a perforation 610 that is communicated with this intercommunicating pore 110 by mother's adhesive buckle layer 600 again.

This ventilating joint 700 is arranged on this gas cell bag 200, and this air-filled pore 220 of cross-under, this intercommunicating pore 110, and this perforation 610, then gas can enter in this air chamber 210 by this ventilating joint 700, this ventilating joint 700 is to be incorporated into this gas cell bag 200 with hot pressing mode in the practical application, these ventilating joint 700 major parts have only fraction to expose to this gas cell bag 200 in this air chamber 210.

When using this utility model, please refer to Fig. 4 to shown in Figure 6, this pliability shell fragment 300 just makes and is hard straight state, an end that this end liner 400 is not attached this public affairs adhesive buckle layer 500 is by on a tested position 810 of a human body 800, described tested position 810 is arm for example, 600 on this mother's adhesive buckle layer is to outwardly, and this pliability shell fragment 300 bent inwards a little with external force, then these pliability shell fragment 300 meeting deflection deformations, do not need to apply again external force this moment, the elastic return that this pliability shell fragment 300 promptly can itself produce is decided power and spontaneous elasticity crimp shrinkage, and then drive this belt body 100 and be wound in described tested position 810, and borrow this public affairs adhesive buckle layer 500 to locate with these mother's adhesive buckle layer 600 mutual adhesive buckles.

This pliability shell fragment 300 is oppressed in described tested position 810 to decide the power winding, has basic compressing power to described tested position 810, improve the accuracy of measurement error that fixed form in the past can cause because of manual operation is improper, it is easy to operate easy to make, can locate fast, and structure very simply makes manufacturing cost reduce, and increases commercial competitiveness.

200 in this gas cell bag twines described tested position 810 across this end liner 400, can push the described tested position 810 of packing this moment with these gas cell bag 200 inflations, can measure blood pressure afterwards, again because this end liner 400 is a soft material, it can not influence the degree of accuracy of blood pressure measuring, and contact this end liner 400 in 810 at described tested position makes us feeling comfortable and can twinge.

Please refer to Fig. 7 and shown in Figure 8, this pliability shell fragment 300 is along the length direction of this belt body 100 and be attached on this belt body 100, this pliability shell fragment 300 and this gas cell bag 200 are arranged at the phase heteropleural of this belt body 100, and this pliability shell fragment 300 is sincere between this belt body 100 and this mother's adhesive buckle layer 600 by folder, make this pliability shell fragment 300 can directly not contact this gas cell bag 200, because of this pliability shell fragment 300 is harder material, so can avoid 300 pairs of these soft gas cell bags 200 of this pliability shell fragment to cause damage.

Moreover this mother's adhesive buckle layer 600 can be integrated with this belt body 100, and promptly this belt body 100 itself is a flannelette, and energy directly cooperates with this public affairs adhesive buckle layer 500 and can paste mutually.

Certainly; this utility model also can have other various embodiments; under the situation that does not deviate from this utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to this utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of this utility model.

Claims (10)

1. a takeup type sphygmomanometer cuff in order to twine and to oppress the tested position of human body, is characterized in that, comprising:

One belt body;

One gas cell bag is arranged at this belt body; And

One pliability shell fragment is along the length direction of this belt body and be attached on this belt body;

Wherein, when this pliability shell fragment is subjected to the external force effect and during deflection deformation, this pliability shell fragment can spontaneous elasticity crimp shrinkage, and drives this belt body and twine and be positioned described tested position.

2. takeup type sphygmomanometer cuff according to claim 1 is characterized in that, this pliability shell fragment and this gas cell bag are arranged at the same side of this belt body.

3. takeup type sphygmomanometer cuff according to claim 1 is characterized in that, this pliability shell fragment and this gas cell bag are arranged at the phase heteropleural of this belt body.

4. takeup type sphygmomanometer cuff according to claim 1 is characterized in that, this pliability shell fragment is a chromium steel spare.

5. takeup type sphygmomanometer cuff according to claim 1 is characterized in that, this pliability shell fragment is the chrome alum steel part.

6. takeup type sphygmomanometer cuff according to claim 1 is characterized in that, also comprises an end liner that is connected in this belt body, and this end liner and this belt body coat this gas cell bag jointly.

7. takeup type sphygmomanometer cuff according to claim 6 is characterized in that, also comprises a public adhesive buckle layer that is arranged at this end liner lateral surface and a female adhesive buckle layer that is arranged at this belt body lateral surface, and this public affairs adhesive buckle layer and this mother's adhesive buckle layer cooperatively interact and paste.

8. takeup type sphygmomanometer cuff according to claim 7 is characterized in that, this gas cell bag inside has an air chamber, and offers an air-filled pore that is communicated with this air chamber on this gas cell bag.

9. takeup type sphygmomanometer cuff according to claim 8 is characterized in that, this belt body offers an intercommunicating pore that is communicated with this air-filled pore, and this mother's adhesive buckle layer offers a perforation that is communicated with this air-filled pore.

10. takeup type sphygmomanometer cuff according to claim 9 is characterized in that, also comprise be arranged at this belt body and be connected to this air-filled pore, this intercommunicating pore, and this perforation in a ventilating joint.

Images