CN209285636U - Air valve and vapour-pressure type radial artery compression hemostat - Google Patents

Abstract

It includes: valve base and flexible valve that the utility model, which provides a kind of air valve and vapour-pressure type radial artery compression hemostat, air valve,；Wherein, described air valve one end with the vapour-pressure type radial artery compression hemostat for connecting, the other end with air charging system for connecting, the valve base is the perforative hollow structure in both ends, and at least partly inner wall of the outer wall of the valve and the valve base is interference fit so that the valve is placed in the valve base.Using scheme provided by the utility model, production cost can be reduced, improves inflation/deflation operation ease.

Description

Air valve and vapour-pressure type radial artery compression hemostat

Technical field

The utility model belongs to the field of medical instrument technology, is related to a kind of air valve and the hemostasis of vapour-pressure type arteria radialis compressing Device.

Background technique

After percutaneous coronary intervention (pci) (percutaneous coronary intervention, PCI) operation, need Hemostasis by compression is carried out using site of puncture of the radial artery hemostat to radial artery.The vapour-pressure type radial artery clinically used at present Compression apparatus, air valve are all made of spring and the sealing of silica gel valve form, when being filled and deflated by, are required to Aerating needle pressing air valve, Make spring-compressed, so that filling channel be made to open, Aerating needle is extracted after inflation, spring bounces, and closes filling channel.

However, above-mentioned vapour-pressure type radial artery compression hemostat, air valve structure complexity (generally comprises shell, spring, rubber plug Deng), spare and accessory parts quantity and material category are more, complex process (shell needs ultrasonic bonding or bonding), produce precision to accessory More demanding with assembly difficulty, production cost is relatively high.And when this kind of air valve is filled and deflated by, it is required to the hands hold respectively Valve body and inflator pump are held, keeps pressing state to completion is filled and deflated by, this holds pressing operation, causes inflation/deflation process same The pressure of step pressing perception air bag, operation are more inconvenient.

Utility model content

The purpose of this utility model is to provide a kind of air valve and vapour-pressure type radial artery compression hemostats, to reduce production Cost improves inflation/deflation operation ease.

To achieve the above object, the utility model provides a kind of air valve, for vapour-pressure type radial artery compression hemostat It is filled and deflated by, comprising: valve base and flexible valve；

Wherein, for connecting with the vapour-pressure type radial artery compression hemostat, the other end is used for and fills for described air valve one end Device of air connection, the valve base are the perforative hollow structure in both ends, and the outer wall of the valve and the valve base are at least Internal partial wall is interference fit so that the valve is placed in the valve base.

Optionally, the air valve further include: valve upper cover, the valve upper cover are placed in one end of the valve base, For the valve to be fixed in the valve base；

Through-hole is offered on the valve upper cover, the through-hole is for providing a channel so that Aerating needle passes through the valve body Upper cover is inserted into the valve.

Optionally, the elastic conjunction by way of buckle is connect the valve base with the valve upper cover.

Optionally, the valve base and the valve upper cover are by ultrasonic bonding, or pass through glue sticking.

Optionally, the material of the valve is rubber material.

Optionally, the material of the valve is silica gel.

Optionally, the hollow structure of the valve base is cylinder, and the shape of the valve is cylinder.

Optionally, the shape of the valve is T-type, including orthogonal first part and second part, described first The inner wall of the outer wall and the valve base that divide is interference fitted.

Optionally, the shape of the hollow structure of the valve base is also T-type, including mutually perpendicular first inner chamber And second inner chamber, the inner wall interference fit of the outer wall of the first part and the first inner chamber, the outer wall of the second part It is contacted with the inner wall of the second inner chamber.

Optionally, described valve one end offers a counterbore, and the counterbore is for providing an insertion channel to fill for described Air tube is inserted through the valve.

Optionally, the counterbore base has the notch axially extending along the counterbore, and the notch and the insertion are logical Road connection, is inserted through the valve by the notch convenient for the Aerating needle.

Optionally, the shape of the notch is linear type or cross.

To achieve the above object, the utility model additionally provides a kind of vapour-pressure type radial artery compression hemostat, and feature exists In, including air valve as described in any one of the above embodiments.

Compared with prior art, air valve provided by the utility model includes valve base and flexible valve, the valve Body pedestal is the perforative hollow structure in both ends, and at least partly inner wall of the outer wall of the valve and the valve base is interference fit So that the valve is placed in the valve base, and generates certain extruding between the outer wall of the valve and the valve base, make The valve be closed with the valve base to be formed it is airtight.As it can be seen that air valve provided by the utility model, product structure is simple, should not High-precision is sought, die manufacturing cost is low, and spare and accessory parts are few, and simple for assembly process, frock tool needed for assembling is simple, and production cost is aobvious Writing reduces, high production efficiency.Using the vapour-pressure type radial artery compression hemostat of above-mentioned air valve, inflation/deflation more convenient operation, inflation Needle be inserted into air valve can inflation/deflation, inflation/deflation process can not have to it is hand steered hold air valve, convenient for freeing hand to accurately perceive air bag gas The size of pressure.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the vapour-pressure type radial artery compression hemostat that an embodiment of the present invention provides；

Fig. 2 is the structural schematic diagram for the air valve that an embodiment of the present invention provides；

Fig. 3 is the structural schematic diagram for the valve base that an embodiment of the present invention provides；

Fig. 4 is the structural schematic diagram for the air charging system that an embodiment of the present invention provides；

Fig. 5 is the air valve inflation/deflation schematic diagram that an embodiment of the present invention provides；

Wherein, 10- main body, 11- velcro (mother)；12- velcro (public affairs)；13- compression bladder (big)；14- compression bladder (small)；15- puncture marks point；16- liner plate；17- tracheae；18- examines air bag；19- air valve；191- valve base；1911- first Inner cavity；1912- second inner chamber；192- valve；1921- first part；1922- second part；1923- counterbore；193- valve upper cover； 1931- through-hole；20- needle cap；21- Aerating needle；22- rubber plug；23- inflator pump；24- inflates push rod.

Specific embodiment

Below in conjunction with the drawings and specific embodiments to the utility model proposes a kind of air valve and vapour-pressure type pressure of the radial artery Urgent haemostat is described in further detail.According to claims and following explanation, the advantages of the utility model and feature will more It is clear.It should be noted that attached drawing is all made of very simplified form and using non-accurate ratio, only to convenient, apparent Ground aids in illustrating the purpose of the utility model embodiment.The same or similar appended drawing reference represents the same or similar portion in attached drawing Part.

The core concept of the utility model is to provide a kind of air valve and vapour-pressure type radial artery compression hemostat, to solve Existing its air valve structure of vapour-pressure type radial artery compression hemostat is complicated, and production cost is relatively high, and inflation/deflation process operates The problems such as inconvenient.

To realize above-mentioned thought, the utility model provides a kind of air valve, is applied to vapour-pressure type radial artery compression hemostat Be filled and deflated by, the air valve includes: valve base and flexible valve；Wherein, described air valve one end is used for and the air pressure The connection of formula radial artery compression hemostat, for the other end for connecting with air charging system, the valve base is that both ends are perforative hollow At least partly inner wall of structure, the outer wall of the valve and the valve base is interference fit, so that the valve is placed in the valve In body pedestal.

In turn, the utility model additionally provides the vapour-pressure type radial artery compression hemostat including the air valve.The air pressure A kind of specific structure of formula radial artery compression hemostat is as shown in Figure 1, the main body 10 of haemostat is band-like, 10 both ends of main body difference It is provided with velcro (male) 12, velcro (mother) 11, the middle section of main body 10 is bilayer, and liner plate 16 is located in double-layer structure Portion, liner plate 16 play a supportive role and in gas replenishment process to compression bladder (big) 13 and compression bladder (small) 14 carry out compressing to Realize hemostasis, compression bladder (big) 13 and compression bladder (small) 14 stick at 10 middle section velcro (public affairs) of main body, 12 side together, Compression bladder (small) 14 has puncture marks point 15, compression bladder (small) 14 and compressing at the separate edge with the junction of main body 10 Air bag (big) 13 is communicating with the junction of main body 10 and is sharing 19 inflation/deflation of air valve.Certainly, the gas including the air valve Pressure type radial artery compression hemostat may be other structures, structure of the utility model to vapour-pressure type radial artery compression hemostat With no restrictions.

The air valve structure is simple, and spare and accessory parts quantity (including valve base and flexible valve) and material category are few, It is simple for assembly process, it is easily assembled, production cost is low.In addition, and the utility model air valve, when inflation/deflation, it is only necessary to will fill Air tube passes through flexible valve, a hand-held air charging system, and another hand does not need to keep holding by pressure valve, but can It, can be with the pressure of sharp synchronous pressing perception air bag with for changing by pressuring gasbag sensed pressure, operation is very easy.It can be with Understand, the normally closed of the air valve is to be realized by valve base to the extruding of the flexible valve, in Aerating needle After extraction, flexible valve described in inflation needle-penetration, which is formed by opening, to be closed completely, to keep good airtight Property, therefore, air valve provided by the utility model is existing there is no common spring air valve because machining accuracy or installation are bad etc. The defect that the air valve of certain probability is not closed completely caused by factor, product quality reliability provided by the utility model are higher.

Referring to FIG. 2, it is a kind of structural schematic diagram of air valve 19 provided by the utility model.As shown in Fig. 2, the gas Valve 19 includes: valve base 191 and flexible valve 192, and described 19 one end of air valve is used for and the vapour-pressure type pressure of the radial artery Compel haemostat connection, for the other end for connecting with air charging system, the valve base 191 is the perforative hollow structure in both ends, institute At least partly inner wall of the outer wall and the valve base 191 of stating valve 192 is interference fit so that the valve 192 is placed in the valve In body pedestal 191, the outer wall of the valve 192 generates certain extruding to the valve base 191, so that the valve 192 is placed in institute One end air-tightness closure in valve base 191 is stated, to achieve the purpose that pressure maintaining.For convenient for assembly, the outer wall of the valve 192 with It can be slight interference fit between the inner wall of the valve base 191.

The material of the valve 192 can be rubber material, preferably silica gel material.Silica gel has good resilience and light Clean notch has the characteristics that autoadhesion, and silica gel valve is after Aerating needle extraction, and opening is closed completely, so as to keep good gas Close property.

The hollow structure of the valve base 191 can be cylinder, correspondingly, the shape of the valve 192 may be column Body, outer diameter slightly larger than the cylinder hollow structure of the valve base 191 internal diameter, in this way, can make the outer wall of the valve 192 with The inner wall slight interference fit of the valve base 191.

In addition, the shape of the valve 192 may be T-type, including orthogonal first part 1921 and second part 1922, the inner wall interference fit of the outer wall of the first part 1921 and the valve base 191, the second part 1922 leans on The end face of the nearly first part 1921 can contact or not contact with the end face of 191 other end of valve base.Into One step, as shown in Figures 2 and 3, the shape of the hollow structure of the valve base 191 may be T-type, including hang down mutually Straight first inner chamber 1911 and second inner chamber 1912, the inner wall of the outer wall of the first part 1921 and the first inner chamber 1911 Interference fit, the outer wall of the second part 1922 are contacted with the inner wall of the second inner chamber 1912.Specifically, the valve 192 Lower part be cylinder, outer diameter slightly larger than the first inner chamber 1911 cylinder internal diameter.

Preferably, when the valve 192 it is longer when, need using biggish power could will inflation needle-penetration described in valve 192, Therefore for the ease of valve 192 described in inflation needle-penetration, a counterbore 1923 can be opened up in one end on the valve 192, it is described heavy It hole 1923, can be with by 1923 Aerating needle of counterbore for providing an insertion channel to be inserted through the valve 192 for Aerating needle It is more easily inserted through the valve 192, the counterbore 1923 is blind hole.

Furthermore it is also possible to the notch axially extending along the counterbore 1923 is opened up in 1923 bottom of counterbore, it is described to cut Mouth is connected to the insertion channel, in order to which the Aerating needle is inserted through the valve 192 by the notch.It is understood that The valve 192 has elasticity, and the extruding force generated between the valve base 191 and the valve 192, can make described cut Mouthful closure forms airtight, achievees the purpose that pressure maintaining.

The notch can run through the bottom of the valve 192, can also be not through the shape of the notch can be a word Shape or cross, or other forms, the utility model do not limit this.

Further, the valve 192 falls off from the valve base 191 in order to prevent, can also be arranged on a valve body Lid 193, the valve upper cover 193 are fixedly connected with the other end of the valve base 191, the valve 192 are fixed on described In valve base 191.The valve upper cover 193 can be by way of ultrasonic bonding, or makes mode and the institute of glue sticking Valve base 191 is stated to be fixedly connected.

Preferably, the elastic conjunction in such a way that interference buckles connects the valve upper cover 193 with valve base 191, this Kind connection type, structure is simple, does not require high-precision, simple for assembly process, production cost is low, high-efficient.Specifically, the valve The circumferential direction of body upper cover 193 is provided with protrusion, and the other end of institute's valve base 191 is provided with towards the protrusion inside hollow structure, The valve upper cover 193 is embedded in the hollow structure of the valve base 191 from the other end of institute's valve base 191, The structure of the protrusion of the valve base 191 and the protrusion composition interference buckle of the valve upper cover 193.

Also, through-hole 1931 is offered on the valve upper cover, the through-hole 1931 is for providing a channel so as to fill Air tube is inserted into the valve 192 by the valve upper cover 193.Preferably, the counterbore 1923 of the through-hole 1931 and the valve 192 Axis coincide, it is furthermore preferred that the internal diameter of the through-hole 1931 is less than or equal to the internal diameter of the counterbore 1923, in order to avoid air charging system The valve 192 is touched in puncture process, generates unnecessary pause and transition in rhythm or melody sense.

Below with reference to Fig. 1-5, the process that is filled and deflated by of air valve is illustrated.Fig. 4 used inflation dress when being inflation/deflation A kind of concrete structure schematic diagram set.

When inflation, the puncture marks point 15 on compression bladder (small) 14 is directed at patient's radial artery site of injury, is then adjusted Two magics of radial artery compression hemostat are labelled to suitable position, and two velcro of adhesion, pull out the needle cap 20 of air charging system, Being pulled outwardly inflation push rod 24 makes to be filled with gas in inflator pump 23, and Aerating needle 21 is inserted into air valve 19, and passes through described with elasticity 192 bottom of valve, formed filling channel, be pushed home into inflation push rod 24, with hand press examine air bag 18 experience pressure size, press After power is suitable by Aerating needle 21 extract air valve 19, flexible 192 bottom of valve because itself have elasticity and with valve body bottom Extruding force between seat 191, the flexible valve 192 are inflated the puncture of needle 21 and are formed by opening and are closed completely, inflate Channel is also accordingly turned off, and compression bladder (big) 13, compression bladder (small) 14 expand and oppress point of puncture at this time, realizes hemostasis mesh 's.

When deflation, it is pushed home into inflation push rod 24 and empties gas in inflator pump 23 to bottom, then Aerating needle 21 is inserted into gas Valve 19, and flexible 192 bottom of valve is passed through, bleed passage is formed, inflation push rod 24 is pulled outwardly, is pressed and examined with hand Air bag 18 experiences pressure size, Aerating needle 21 is extracted air valve 19 after pressure is suitable, flexible 192 bottom of valve is because certainly Body has elasticity and the extruding force between valve base 191, and the flexible valve 192 is inflated the puncture of needle 21 and is formed Opening be closed completely, bleed passage is also accordingly turned off.After hemostatic closure, velcro is torn, haemostat is removed.

To sum up, compared with prior art, air valve provided by the utility model includes valve base and flexible valve, valve Body pedestal is the perforative hollow structure in both ends, at least partly inner wall of the outer wall of the valve and valve base be interference fitted so that The valve is placed in the valve base, and certain extruding is generated between the outer wall of the valve and the valve base, is made described Valve be closed with valve base to be formed it is airtight.As it can be seen that air valve provided by the utility model, product structure is simple, does not require high-precision, Die manufacturing cost is low, and spare and accessory parts are few, simple for assembly process, and frock tool needed for assembling is simple, and production cost significantly reduces, raw It produces high-efficient.Using the vapour-pressure type radial artery compression hemostat inflation/deflation more convenient operation of above-mentioned air valve, Aerating needle is inserted into air valve Can inflation/deflation, inflation/deflation process can not have to it is hand steered hold air valve, convenient for free hand to accurately perceive air bag pressure size.

Foregoing description is only the description to the utility model preferred embodiment, not to any limit of the scope of the utility model Fixed, any change, the modification that the those of ordinary skill in the utility model field does according to the disclosure above content belong to right and want Seek the protection scope of book.

Claims (13)

1. a kind of air valve, for being filled and deflated by for vapour-pressure type radial artery compression hemostat characterized by comprising valve base and Flexible valve；

Wherein, for connecting with the vapour-pressure type radial artery compression hemostat, the other end is used to fill with inflation for described air valve one end Connection is set, the valve base is the perforative hollow structure in both ends, and the outer wall of the valve and the valve base are at least partly Inner wall is interference fit so that the valve is placed in the valve base.

2. air valve as described in claim 1, which is characterized in that further include: valve upper cover, the valve upper cover are placed in the valve In one end of body pedestal, for the valve to be fixed in the valve base；

Through-hole is offered on the valve upper cover, the through-hole is for providing a channel so that the air charging system passes through the valve Body upper cover is inserted into the valve.

3. air valve as claimed in claim 2, which is characterized in that the side that the valve base and the valve upper cover pass through buckle The connection of formula elastic conjunction.

4. air valve as claimed in claim 2, which is characterized in that the valve base and the valve upper cover pass through supersonic welding It connects, or passes through glue sticking.

5. air valve as described in claim 1, which is characterized in that the material of the valve is rubber material.

6. air valve as claimed in claim 5, which is characterized in that the material of the valve is silica gel.

7. air valve as described in claim 1, which is characterized in that the hollow structure of the valve base is cylinder, described The shape of valve is cylinder.

8. air valve as described in claim 1, which is characterized in that the shape of the valve is T-type, including orthogonal first Divide and second part, the outer wall of the first part and the inner wall of the valve base are interference fitted.

9. air valve as claimed in claim 8, which is characterized in that the shape of the hollow structure of the valve base is also T Type, including mutually perpendicular first inner chamber and second inner chamber, the inner wall mistake of the outer wall of the first part and the first inner chamber It is full of cooperation, the outer wall of the second part is contacted with the inner wall of the second inner chamber.

10. air valve as described in claim 1, which is characterized in that described valve one end offers a counterbore, and the counterbore is for mentioning For an insertion channel to be inserted through the valve for the air charging system.

11. air valve as claimed in claim 10, which is characterized in that the counterbore base is provided with axially extending along the counterbore Notch, the notch is connected to the insertion channel, is inserted through the valve by the notch convenient for the air charging system.

12. air valve as claimed in claim 11, which is characterized in that the shape of the notch is linear type or cross.

13. a kind of vapour-pressure type radial artery compression hemostat, which is characterized in that including such as described in any item gas of claim 1-12 Valve.