CN215821059U - Femoral artery and vein intervention puncture compression device - Google Patents

Abstract

The utility model provides a femoral artery and vein interventional puncture compression device, and belongs to the technical field of medical fixing devices. It is including being used for exerting pressure to puncture department's oppression sacculus, oppression sacculus fix in puncture department through wearing fixed knot structure, oppression sacculus still even have the pressure adjustment subassembly that is used for adjusting the oppression power. Thereby the oppression sacculus can exert pressure to puncture department and play the effect of stanching to puncture department, and can not produce the skin loss when getting the oppression sacculus, dresses fixed knot and constructs can fix the oppression sacculus at puncture department and can not exert an influence to the travelling comfort of patient's health, and pressure adjustment subassembly can adjust the pressure that the oppression sacculus was applyed to puncture department to adjust pressure to the situation of difference.

Description

Femoral artery and vein intervention puncture compression device

Technical Field

The utility model belongs to the technical field of medical fixing devices, and relates to a femoral artery and vein interventional puncture compression device.

Background

Femoral artery and femoral vein are puncture parts commonly used in lower limb interventional surgery, and after surgery, a puncture point is firstly stuck by using a wide adhesive plaster, and then is bandaged by using 3M bandage for compression and hemostasis; however, this fixing method has the disadvantage that the groin is not easy to fix, and needs to be wound around the waist for auxiliary fixation, but the 3M bandage for the waist is easy to be rolled into a line, the pain of the bony prominence of the hip is obvious, the comfort of the patient is very poor, and secondly, the skin damage is easy to occur after the wide adhesive plaster is torn.

In order to overcome the defects of the prior art, people continuously explore and provide various solutions, for example, a Chinese patent discloses a salt bag compression hemostasis fixing device after transfemoral puncture intervention [ application number: 201921697258.6], comprising a first fixing band, a first elastic band, a second elastic band, a third elastic band, a first adhesive rough surface, a first adhesive smooth surface, a second adhesive rough surface, a second adhesive smooth surface, a second fixing band and a folding bag, wherein the first fixing band is fixedly arranged at one side of the second fixing band, the first fixing band and the second fixing band are fixedly butted with each other through the first elastic band, the second elastic band and the third elastic band, and the first elastic band is arranged at the upper trisection between the first fixing band and the second fixing band; by using the salt bag compression hemostasis fixing device after transfemoral arteriovenous puncture intervention, the salt bag can be tightly pressed on the puncture part of a patient, the effectiveness of salt bag compression is ensured, and repeated checking by medical personnel is avoided; meanwhile, the salt bag is better fixed, and the salt bag is prevented from sliding off, so that the patient can more confidently perform ankle pump movement for puncturing the lower limbs on the side.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides a femoral artery and vein interventional puncture compression device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a puncture oppression device is intervene to thigh sound arteries and veins, is including being used for applying the oppression sacculus of pressure to puncture department, the oppression sacculus fix in puncture department through wearing fixed knot structure, the oppression sacculus still even have the pressure adjustment subassembly that is used for adjusting the oppression power.

In foretell a thigh sound arteries and veins intervenes puncture oppression device, wearing fixed knot construct including waist connecting band and shank connecting band, waist connecting band and shank connecting band all be annular setting and both ends and link firmly with the oppression sacculus respectively, waist connecting band keep away from the junction of oppression sacculus one side winding at back of the body buttockss, shank connecting band keep away from the junction of oppression sacculus one side winding at buttockss leg.

In foretell a thigh sound arteries and veins intervenes puncture oppression device, dressing fixed knot construct including no bullet waistband and no bullet leg area, no bullet waistband and no bullet leg area and oppression sacculus between all link to each other through two detachable bandage connection structure, no bullet waistband cover establish the junction at waist buttockss, no bullet leg area cover establish at the root of thigh.

In foretell a thigh sound arteries and veins intervenes puncture constriction device, bandage connection structure include two lifting hooks, detachable even has the fixed rope of no bullet between two lifting hooks, no bullet waistband and no bullet leg area on still be equipped with a connection structure who is used for connecting the lifting hook, the oppression sacculus on still be equipped with No. two connection structure who is used for connecting the lifting hook.

In foretell a thigh arteries and veins intervenes puncture constriction device, a connection structure include the connecting block, the connecting block in be equipped with the round hole, no bullet waistband and no bullet leg area on all be equipped with two connecting blocks.

In the femoral artery and vein interventional puncture compression device, the distance between the two connecting blocks on the elastic-free waistband is less than the length of one half of the elastic-free waistband and more than the length of two fifths of the elastic-free waistband; the distance between the two connecting blocks on the non-elastic leg band is less than the length of half of the non-elastic leg band and more than the length of two fifths of the non-elastic leg band.

In foretell a thigh arteries and veins intervenes puncture oppression device, No. two connection structure include the sacculus fixed block that links firmly with the oppression sacculus, the sacculus fixed block on be provided with four spread grooves that run through the sacculus fixed block along circumference, the cross-section of spread groove be the arc.

In the femoral artery and vein interventional puncture compression device, the compression balloon comprises an oval air bag inner core and an elastic cloth sleeve wrapped on the air bag inner core, and the elastic cloth sleeve is detachably arranged.

In the femoral artery and vein interventional puncture compression device, the pressure adjusting assembly comprises an inflatable hose connected with an air bag inner core, the outer end of the inflatable hose is connected with an inflatable ball, and the inflatable ball is further provided with a knob type sealing valve.

In the femoral artery and vein interventional puncture compression device, the compression balloon is also connected with a pressure gauge for displaying pressure data applied to a puncture part by the balloon in real time.

Compared with the prior art, the utility model has the advantages that:

1. thereby the oppression sacculus can exert pressure to puncture department and play the effect of stanching to puncture department, and can not produce the skin loss when getting the oppression sacculus, dresses fixed knot and constructs can fix the oppression sacculus at puncture department and can not exert an influence to the travelling comfort of patient's health, and pressure adjustment subassembly can adjust the pressure that the oppression sacculus was applyed to puncture department to adjust pressure to the situation of difference.

2. Oppression sacculus upside links firmly through two detachable bandage connection structure and no bullet waistband, oppression sacculus downside links firmly through two detachable bandage connection structure and no bullet leg strap, through no bullet waistband, no bullet leg strap and four bandage connection structure can fix the oppression sacculus in puncture department, no bullet waistband and no bullet leg strap can not produce oppression and uncomfortable to patient's health, no bullet waistband and no bullet leg strap adopt no bullet material to make like the cow hide and can prevent that the oppression sacculus from leading to shifting because of waistband and leg strap warp, bandage connection structure can conveniently dismantle.

3. The compression sacculus and do not have between play waistband, compression sacculus and the no play leg strap all fix through two no fixed ropes of bullet, can carry out accurate location to the compression sacculus through the length of adjusting four no fixed ropes of bullet, make this device can be applicable to the patient of different sizes.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic structural diagram of the first embodiment;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a schematic structural view of the second embodiment;

FIG. 4 is a schematic cross-sectional view at the balloon anchor block;

fig. 5 is a schematic view of a compression balloon.

In the figure: the device comprises a compression balloon 1, a wearing fixing structure 2, a pressure adjusting assembly 3, a waist connecting belt 4, a leg connecting belt 5, a non-elastic waistband 6, a non-elastic leg belt 7, a binding belt connecting structure 8, a lifting hook 9, a non-elastic fixing rope 10, a first connecting structure 11, a second connecting structure 12, a connecting block 13, a balloon fixing block 14, a connecting groove 15, an air bag inner core 16, an elastic cloth sleeve 17, an inflation hose 18, an inflation ball 19, a knob type sealing valve 20 and a pressure gauge 21.

Detailed Description

Example one

As shown in fig. 1 and 2, a femoral artery and vein intervention puncture compression device comprises a compression balloon 1 for applying pressure to a puncture site, wherein the compression balloon 1 is fixed at the puncture site through a wearing fixing structure 2, and the compression balloon 1 is further connected with a pressure adjusting assembly 3 for adjusting compression force.

In this embodiment, thereby oppress the sacculus and can exert pressure to puncture department and play the effect of stanching to puncture department, and can not produce the skin loss when getting off the oppression sacculus, dress fixed knot structure can fix the oppression sacculus at puncture department and can not exert an influence to the travelling comfort of patient's health, and pressure regulating assembly can adjust the pressure that the oppression sacculus was applyed to puncture department to adjust pressure to the situation of difference.

Specifically speaking, combine fig. 1 and fig. 2 to show, dress fixed knot and construct 2 and include waist connecting band 4 and shank connecting band 5, waist connecting band 4 and shank connecting band 5 all be annular setting and both ends and link firmly with oppression sacculus 1 respectively, waist connecting band 4 keep away from the junction of oppression sacculus 1 one side winding back of the body buttockss, shank connecting band 5 keep away from the junction of oppression sacculus 1 one side winding at buttockss leg. The compression saccule 1 is fixed on the body of the patient through a waist connecting belt 4 and a leg connecting belt 5, and the waist connecting belt 4 and the leg connecting belt 5 can adopt elastic belts.

The working principle of the first embodiment is as follows: oppression sacculus 1 is fixed on one's body the patient through waist connecting band 4 and the shank connecting band 5 of making by the elastic webbing, thereby the oppression sacculus can exert pressure to puncture department and play the effect of stanching to puncture department, and can not produce the skin damage when getting off the oppression sacculus, dress fixed knot structure can fix the oppression sacculus in puncture department and can not exert an influence to the travelling comfort of patient's health, the pressure that the oppression sacculus was applyed to puncture department can be adjusted to the pressure regulation subassembly, with adjust pressure to the situation of difference.

Example two

The structure and the working principle of the second embodiment are basically the same as those of the first embodiment, and the differences are shown in fig. 3-5:

dress fixed knot and construct 2 including no elasticity waistband 6 and no elasticity leg area 7, no elasticity waistband 6 and no elasticity leg area 7 and oppression sacculus 1 between all link to each other through two detachable bandage connection structure 8, no elasticity waistband 6 cover establish the junction at waist buttockss, no elasticity leg area 7 cover establish at the root of thigh.

Oppression sacculus 1 upside links firmly with no bullet waistband through two detachable bandage connection structure 8, oppression sacculus downside links firmly through two detachable bandage connection structure 8 and no bullet leg strap 7, through no bullet waistband 6, no bullet leg strap 7 and four bandage connection structure 8 can fix the oppression sacculus in puncture department, no bullet waistband and no bullet leg strap can not produce oppression and uncomfortable to patient's health, no bullet waistband and no bullet leg strap adopt no bullet material to make like the cow hide can prevent that the oppression sacculus from leading to the aversion because of waistband and leg strap warp, bandage connection structure 8 can conveniently dismantle.

Specifically, as shown in fig. 3 to 5, the binding band connecting structure 8 includes two hooks 9, a non-elastic fixing rope 10 is detachably connected between the two hooks 9, the non-elastic fixing rope 10 is made of a non-elastic material such as cow leather and can prevent the compression balloon from being displaced due to deformation of the fixing rope, a first connecting structure 11 for connecting the hooks 9 is further provided on the non-elastic waist band 6 and the non-elastic leg band 7, and a second connecting structure 12 for connecting the hooks 9 is further provided on the compression balloon 1. A connection structure 11 includes connecting block 13, connecting block 13 in be equipped with the round hole, no bullet waistband 6 and no bullet leg strap 7 on all be equipped with two connecting blocks 13. The distance between the two connecting blocks 13 on the elastic-free waistband 6 is less than half of the length of the elastic-free waistband 6 and more than two fifths of the length of the elastic-free waistband 6; the distance between two connecting blocks 13 on the elastic-leg-free belt 7 is less than half the length of the elastic-leg-free belt 7 and greater than two fifths of the length of the elastic-leg-free belt 7. The second connecting structure 12 comprises a balloon fixing block 14 fixedly connected with the compression balloon 1, four connecting grooves 15 penetrating through the balloon fixing block 14 are formed in the balloon fixing block 14 in the circumferential direction, and the cross section of each connecting groove 15 is arc-shaped. The compression sacculus 1 is fixed through two no bullet fixed ropes 10 between no bullet waistband, compression sacculus and the no bullet leg strap, can carry out accurate location to the compression sacculus through the length of adjusting four no bullet fixed ropes, makes this device can be applicable to the patient of different sizes.

Preferably, as shown in fig. 5, the compression balloon 1 includes an oval balloon core 16 and an elastic cloth cover 17 covering the balloon core 16, and the elastic cloth cover 17 is detachably disposed. The elastic cloth sleeve is detachably arranged, so that cleaning and disinfection can be performed after the elastic cloth sleeve is conveniently detached.

Specifically, referring to fig. 1-4, the pressure regulating assembly 3 comprises an inflation hose 18 connected to an inner core 16 of the airbag, an inflation ball 19 is connected to the outer end of the inflation hose 18, and a knob-type sealing valve 20 is further disposed on the inflation ball 19. The inflatable ball 19 can be manually pressed and used for inflating the air bag inner core through the inflatable hose, and the knob type sealing valve can seal the air bag inner core after inflation so as to prevent air leakage.

Preferably, as shown in fig. 1-4, the compression balloon 1 is further connected with a pressure gauge 21 for displaying pressure data applied to the puncture site by the balloon in real time. The manometer can be convenient for observe the oppression power that the oppression sacculus produced to puncture department, and can be convenient for in time supply qi after the oppression sacculus leaks gas, prevents that the undersize from leading to puncture department to bleed again.

The working principle of the second embodiment is as follows: the compression balloon can apply pressure to the puncture position so as to achieve the effect of stopping bleeding of the puncture position, skin damage cannot be generated when the compression balloon is taken off, the wearing and fixing structure can fix the compression balloon at the puncture position and cannot influence the comfort of the body of a patient, and the pressure adjusting assembly can adjust the pressure applied to the puncture position by the compression balloon so as to adjust the pressure according to different conditions;

the upper side of a compression saccule 1 is fixedly connected with a non-elastic waistband through two detachable bandage connecting structures 8, the lower side of the compression saccule is fixedly connected with a non-elastic leg band 7 through two detachable bandage connecting structures 8, the compression saccule can be fixed at a puncture position through the non-elastic waistband 6, the non-elastic leg band 7 and the four bandage connecting structures 8, the non-elastic waistband and the non-elastic leg band can not generate compression and discomfort to the body of a patient, the non-elastic waistband and the non-elastic leg band are made of non-elastic materials such as cow leather and can prevent the compression saccule from shifting caused by the deformation of the waistband and the leg band, the bandage connecting structures 8 can be conveniently detached, the non-elastic fixing ropes 10 are made of non-elastic materials such as cow leather and can prevent the compression saccule from shifting caused by the deformation of the fixing ropes, the compression saccule 1, the non-elastic waistband, the compression saccule and the non-elastic leg band are all fixed through two non-elastic fixing ropes 10, and the compression saccule can be accurately positioned by adjusting the lengths of the four non-elastic fixing ropes, make this device can be applicable to the patient of different sizes, the setting can be dismantled to the elastic cloth cover and carry out cleaning and disinfection after can convenient to detach, it can manually press and aerify the gasbag inner core through aerifing the hose to aerify ball 19, knob formula seal valve can seal the gasbag inner core after aerifing, prevent gas leakage, the manometer can be convenient for observe the oppression power that the oppression sacculus produced to puncture department, and can be convenient for in time carry out the tonifying qi after the air leakage of oppression sacculus, prevent that the pressure undersize from leading to puncture department to bleed again.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (8)

1. The utility model provides a puncture oppression device is intervene to thigh sound arteries and veins, is including being used for applying oppression sacculus (1) of pressure to puncture department, its characterized in that, oppression sacculus (1) fix in puncture department through wearing fixed knot structure (2), oppression sacculus (1) still even have pressure regulating assembly (3) that are used for adjusting the oppression power, oppression sacculus (1) including being oval-shaped gasbag inner core (16) and wrapping up elasticity cloth cover (17) on gasbag inner core (16), elasticity cloth cover (17) can dismantle the setting, oppression sacculus (1) on still even have manometer (21) that are used for showing in real time that the sacculus applys pressure data to puncture department.

2. The femoral artery and vein intervention puncture compression device according to claim 1, wherein the wearing fixing structure (2) comprises a waist connecting belt (4) and a leg connecting belt (5), the waist connecting belt (4) and the leg connecting belt (5) are both annularly arranged, two ends of the waist connecting belt (4) and two ends of the leg connecting belt (5) are fixedly connected with the compression balloon (1) respectively, the waist connecting belt (4) is far away from one side of the compression balloon (1) and is wound at the joint of the hip, and the leg connecting belt (5) is far away from one side of the compression balloon (1) and is wound at the joint of the hip and the leg.

3. The femoral artery and vein intervention puncture compression device according to claim 1, wherein the wearing fixing structure (2) comprises a non-elastic waistband (6) and a non-elastic leg band (7), the non-elastic waistband (6) and the non-elastic leg band (7) are connected with the compression balloon (1) through two detachable bandage connecting structures (8), the non-elastic waistband (6) is sleeved at the joint of the waist and the hip, and the non-elastic leg band (7) is sleeved at the root of the thigh.

4. The femoral artery and vein intervention puncture compression device according to claim 3, wherein the bandage connecting structure (8) comprises two lifting hooks (9), a non-elastic fixing rope (10) is detachably connected between the two lifting hooks (9), a first connecting structure (11) for connecting the lifting hooks (9) is further arranged on the non-elastic waistband (6) and the non-elastic leg band (7), and a second connecting structure (12) for connecting the lifting hooks (9) is further arranged on the compression balloon (1).

5. The femoral arteriovenous interventional puncture compression device as claimed in claim 4, wherein the first connecting structure (11) comprises a connecting block (13), a round hole is formed in the connecting block (13), and two connecting blocks (13) are respectively arranged on the inelastic waist band (6) and the inelastic leg band (7).

6. The femoral arteriovenous interventional puncture compression device according to claim 5, wherein the distance between two connecting blocks (13) on the inelastic waistband (6) is less than the length of half of the inelastic waistband (6) and more than the length of two fifths of the inelastic waistband (6); the distance between the two connecting blocks (13) on the non-elastic leg band (7) is less than half of the length of the non-elastic leg band (7) and more than two fifths of the length of the non-elastic leg band (7).

7. The femoral artery and vein intervention puncture compression device according to claim 4, wherein the second connecting structure (12) comprises a balloon fixing block (14) fixedly connected with the compression balloon (1), four connecting grooves (15) penetrating through the balloon fixing block (14) are formed in the balloon fixing block (14) along the circumferential direction, and the cross section of each connecting groove (15) is arc-shaped.

8. The femoral arteriovenous interventional puncture compression device as claimed in claim 1, wherein the pressure regulating assembly (3) comprises an inflation hose (18) connected with an inner core (16) of the balloon, an inflation ball (19) is connected with the outer end of the inflation hose (18), and a knob type sealing valve (20) is further arranged on the inflation ball (19).

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