CN211156013U - Radial artery compression hemostasis device with pressure display function - Google Patents

Abstract

The utility model discloses the device discloses a radial artery hemostasis by compression device that shows of area pressure, need oppress bearing structure when human plane region takes place the damage, the oppression is supported and is the body arc globular, the gasbag pipe is installed to the intermediate position intercommunication, the forced induction gasket is fixed on the skin layer, the adhesion of forced induction gasket up end is on the ribbon, the inboard laminating of forced induction gasket is on skin laminar flow blood position surface, need the annular to support when human limbs position takes place the damage, at this moment ribbon parcel winding is in limbs week side, the fastening end is provided with the ribbon snap ring, the ribbon outside is provided with the annular and supports. Has the advantages that: the utility model provides a radial artery hemostasis by compression device that shows of area pressure sets up the forced induction gasket between ribbon and the skin that the gasbag was forced in the area, gathers pressure size and through display device external demonstration through the forced induction gasket, and the doctor adjusts the pressurization situation at any time according to the pressure numerical value that shows, accomplishes the pressure quantization of radial artery hemostasis by compression device in the clinic.

Description

Radial artery compression hemostasis device with pressure display function

Technical Field

The utility model belongs to medical auxiliary assembly field, concretely relates to radial artery hemostasis by compression device of area pressure demonstration.

Background

In recent years, radial artery disease interventional therapy has been widely applied to clinic, and the injury of local blood vessels occurs after operation, namely, hemostasis compression is needed to ensure wound healing, but the thickness of the epidermal tissue of each patient is different, the sensory nerve of a human body is also different, the adjustment of wrapping pre-tightening force is adjusted manually by doctors, the device for hemostasis by compression is not professional, the radial artery hemostasis by compression is operated according to experience at present, no accurate inflation device capable of displaying inflation pressure value is provided, and a hemostasis by compression device capable of displaying real-time pressure in a matched mode is designed.

Disclosure of Invention

Not enough more than, the utility model discloses the device provides a radial artery hemostasis by compression device that shows of taking pressure, accomplishes the radial artery hemostasis by compression device's in clinical pressure quantization.

The utility model discloses the technical scheme that its technical problem was solved to the device adopted is: the device mainly comprises a compression support, a blood vessel, an air bag pressure and a pressure sensing gasket, wherein when a human body plane area is damaged, a compression support structure is required, the compression support is in a spherical shape, an air bag guide pipe is installed and connected at the middle position, the pressure sensing gasket is fixed on a skin layer, the upper end face of the pressure sensing gasket is adhered to a binding belt, the inner side of the pressure sensing gasket is adhered to the surface of a skin laminar blood part, when a human body limb part is damaged, an annular support is required, the binding belt wraps and winds around the limb part, a binding belt clamping ring is arranged at a fastening end, the annular support is arranged outside the binding belt, the fastening end of the annular support is provided with a support clamping ring, the pressure sensing gasket is adhered to the inner side of the annular wrapping binding belt, and the inner side; the top of the air bag conduit is provided with a conduit joint in a communicated manner, air bag pressure F is applied on a skin layer or a limb through a pressure sensing gasket, a damaged blood vessel is arranged inside the skin layer or the limb, blood flows inside the blood vessel, a pressing magic tape is arranged at the contact position of the pressing support bottom and a flat binding tape, the pressing magic tape is detachably stuck on the upper surface of the binding tape of the skin layer, an arc-shaped spherical positioning air bag is arranged at the contact position of the bottom end of the air bag conduit and the binding tape, the positioning air bag is in flowing elastic contact with the surface of a transition air bag, the positioning air bag and the transition air bag are arranged in a flowing bag cavity, the flowing bag cavity is embedded into the inner side surface of the pressing support, the air bag conduit passes through the pressing support or the annular support and is communicated on the positioning air bag of the flowing bag cavity, the other end of the, the pressure sensing gasket is externally connected with a transmission line, the other end of the transmission line is connected to a pressure control plate, and the pressure control plate controls the display through signals.

The technical scheme is provided for the problem that the pressure of a radial artery compression hemostasis device in clinic cannot be quantified, when a human epidermis plane area is damaged, a compression supporting structure is needed, the compression supporting structure is in a spherical shape, an air bag conduit is communicated and installed at the middle position, a pressure sensing gasket is fixed on a skin layer, the upper end face of the pressure sensing gasket is adhered to a binding belt, the inner side of the pressure sensing gasket is adhered to the surface of a skin laminar blood part, air bag pressure F is applied to the skin layer through the pressure sensing gasket, the skin layer is sunken to compress a blood vessel, the blood flow sectional area in the blood vessel is reduced, hemostasis is achieved, when the human limb part is damaged, an annular support is needed, the binding belt is wound around the limb part, a binding belt clamping ring is arranged at a fastening end, the binding force of the binding belt is adjusted, and the annular support is arranged, the annular supports fastening end and is provided with the support snap ring, carries out the vertical pressure fastening to spiral regulation structure, the adhesion of forced induction gasket is inboard at annular parcel ribbon, the inboard laminating of forced induction gasket is on limbs bleeding position surface, and the removal of rotatory pipe joint regulation gasbag pipe is exerted gasbag pressure F on the limb surface through the forced induction gasket, and the blood vessel is oppressed in limb surface depression, reduces the blood flow cross section in the blood vessel, and then stanchs.

Particularly, an arc-shaped positioning air bag is arranged at the contact position of the bottom end of the air bag conduit and a binding belt, the positioning air bag is in flowing elastic contact with the surface of the transition air bag, the positioning air bag and the transition air bag are both arranged in a flowing bag cavity, the flowing bag cavity is embedded in the inner side surface of the compression support, the flowing bag cavity can be roughly positioned, then the compression position can be accurately positioned through the positioning air bag, the positioning air bag is in flowing elastic contact with the transition air bag, and auxiliary massage protection is carried out on nerves around the compression position; the air bag conduit penetrates through the compression support or the annular support to be communicated with the positioning air bag of the flowing bag cavity, the other end of the air bag conduit is connected with a conduit connector, the open end of the conduit connector can be communicated with an external air conveying pipe, and the control of the air bag pressure F can be carried out through the amount of gas input by the air conveying pipe.

In addition, the pressure sensing gasket is externally connected with a transmission line, the other end of the transmission line is connected to a pressure control plate, the pressure control plate controls a display through signals, the applied pressure value F can be continuously increased, the transmission line transmits the pressure value F to the pressure control plate, real-time data are displayed on a screen through the control display, and a patient and a doctor can know and control the pressure sensing gasket in real time.

Has the advantages that: the utility model provides a radial artery hemostasis by compression device that shows of taking pressure sets up the forced induction gasket between the ribbon of spiral pressure bar and skin, gathers pressure size and externally shows through display device through the forced induction gasket, and the doctor adjusts the pressurization situation at any time according to the pressure numerical value that shows, becomes the partly of hemostasis by compression device, accomplishes the radial artery hemostasis by compression device's in clinical pressure quantization.

Drawings

The device of the present invention will be further explained with reference to the drawings and the embodiments.

Fig. 1 is a schematic view of a radial artery compression hemostasis device with a pressure display of the utility model;

fig. 2 is a top view of the radial artery compression hemostatic device with pressure display of the present invention;

FIG. 3 is a front cross-sectional view of a limb application of the radial artery compression hemostasis device with pressure display of the present invention;

1. compression support, 2 compression magic tape, 3 bandage, 4 skin layer, 5 blood vessel, 6 blood, 7 air bag pressure, 8 pressure sensing gasket, 9 transmission line, 10 pressure control panel, 11 display, 12 catheter joint, 13 air pipe, 14 air bag catheter, 15 positioning air bag, 16 support snap ring, 17 bandage snap ring, 18 annular support, 19 limb, 20 flow bag cavity, 21 transition air bag

2. Detailed description of the preferred embodiments

As shown in fig. 1-2, the device mainly comprises a compression support 1, a blood vessel 5, an air bag pressure 7 and a pressure sensing gasket 8, when a human body plane area is damaged, the compression support 1 is in a body arc ball shape, an air bag conduit 14 is installed at the middle position in a communicating manner, the pressure sensing gasket 8 is fixed on a skin layer 4, the upper end face of the pressure sensing gasket 8 is adhered on a binding belt 3, and the inner side of the pressure sensing gasket 8 is attached to the surface of a bleeding part of the skin layer 4; as shown in fig. 3, when a limb part of a human body is damaged, an annular support 18 is needed, the bandage 3 is wrapped and wound around the periphery of the limb 19, a bandage snap ring 17 is arranged at the fastening end, the annular support 18 is arranged outside the bandage 3, a support snap ring 16 is arranged at the fastening end of the annular support 18, the pressure sensing gasket 8 is adhered to the inner side of the annular wrapped bandage 3, and the inner side of the pressure sensing gasket 8 is attached to the surface of the bleeding part of the limb 19; the top of the air bag conduit 14 is provided with a conduit connector 12 which can be rotationally adjusted, air bag pressure 7F is applied on a skin layer 4 or a limb 19 through a pressure sensing gasket 8, a damaged blood vessel 5 is arranged inside the skin layer 4 or the limb 19, blood 6 flows inside the blood vessel 5, a pressing magic tape 2 is arranged at the contact position of the bottom of the pressing support 1 and a binding tape 3, the pressing magic tape 2 is detachably adhered on the upper surface of the binding tape 3 of the skin layer 4, an arc-ball-shaped positioning air bag 15 is arranged at the contact position of the bottom end of the air bag conduit 14 and the binding tape 3, the positioning air bag 15 flows and elastically contacts the surface of a transition air bag 21, the positioning air bag 15 and the transition air bag 21 are arranged in a flowing air bag cavity 20, the flowing air bag cavity 20 is embedded in the pressing support 1, the air bag conduit 14 passes through the pressing support 1 or an annular support 18 and is communicated on the, the other end of the air bag conduit 14 is connected with a conduit connector 12, the open end of the conduit connector 12 can be communicated with an external air conveying pipe 13, the pressure induction gasket 8 is externally connected with a transmission line 9, the other end of the transmission line 9 is connected to a pressure control board 10, and the pressure control board 10 controls a display 11 through signals.

This technical scheme's the unable problem of quantifying of pressure to radial artery hemostasis by compression device in clinical and propose, need oppress bearing structure when human epidermis plane area takes place the damage, oppression support 1 is the body arc globular, and intermediate position intercommunication formula installs gasbag pipe 7, and forced induction gasket 8 is fixed on skin layer 4, 8 up end adhesion of forced induction gasket is on ribbon 3, 8 inboard laminating of forced induction gasket are on 4 bloody position surfaces of skin layer, and rotatory conduit coupling 12 adjusts gasbag pipe 14 and removes, applys gasbag pressure 7F at skin layer 4 through forced induction gasket 8, and the sunken oppression blood vessel 5 in skin layer 4 reduces the blood flow cross section area in the blood vessel, and then stanchs.

Need annular when human limbs position takes place the damage and support 18, at this moment 3 parcel windings of ribbon are in 19 week sides of limbs, and the fastening end is provided with ribbon snap ring 17, carries out the regulation of 3 laminating dynamics of ribbon, 3 outsides of ribbon are provided with annular supports 18, 18 fastening ends of annular support are provided with support snap ring 16, 8 adhesions of forced induction gasket are inboard at annular parcel ribbon 3, 8 inboard laminating of forced induction gasket are on 19 bloody position surfaces of limbs, and rotatory pipe joint 12 adjusts the removal of air bag pipe 14, and apply gasbag pressure 7F on 19 surfaces of limbs through forced induction gasket 8, 19 superficial depressions of limbs oppression blood vessel 5 reduces the blood flow sectional area in the blood vessel, and then stanchs.

Specifically, an arc-ball-shaped positioning air bag 15 is installed at the contact position of the bottom end of the air bag conduit 14 and the bandage 3, the positioning air bag 15 is in flowing elastic contact with the surface of a transition air bag 21, the positioning air bag 15 and the transition air bag 21 are both arranged in a flowing air bag cavity 20, the flowing air bag cavity 20 is embedded in the inner side surface of the compression support 1, the flowing air bag cavity 20 can be positioned at a general position, then the compression position can be accurately positioned through the positioning air bag 15, the positioning air bag 15 is in flowing elastic contact with the transition air bag 21, and auxiliary massage protection is performed on nerves around the compression position; the air bag conduit 14 penetrates through the compression support 1 or the annular support 18 and is communicated with the positioning air bag 15 of the flow bag cavity 20, the other end of the air bag conduit 14 is connected with a conduit connector 12, the open end of the conduit connector 12 can be communicated with an external air conveying pipe 13, and the air bag pressure F can be controlled through the amount of air input by the air conveying pipe.

In addition, the pressure sensing gasket 8 is externally connected with a transmission line 9, the other end of the transmission line 9 is connected to a pressure control board 10, the pressure control board 10 controls a display 11 through signals, the applied pressure value F can be continuously increased, the transmission line 9 is transmitted to the pressure control board 10, real-time data is displayed on a screen through the control display 11, and a patient and a doctor can know and control in real time.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (5)

1. The utility model provides a radial artery hemostasis by compression device that shows of area pressure mainly includes oppression support (1), blood vessel (5), gasbag pressure (7), forced induction gasket (8), its characterized in that: need oppress and support (1) structure when human plane region takes place the damage, oppression is supported (1) and is the body orbiform, and intermediate position erection joint has gasbag pipe (14), and forced induction gasket (8) are fixed on skin layer (4), the up end adhesion of forced induction gasket (8) is on ribbon (3), the inboard laminating of forced induction gasket (8) is on skin layer (4) bleeding position surface, needs annular support (18) when human limbs position takes place the damage, at this moment ribbon (3) parcel winding is around limbs (19), and the fastening end is provided with ribbon snap ring (17), ribbon (3) outside is provided with annular support (18), annular support (18) fastening end is provided with supports snap ring (16), forced induction gasket (8) adhesion is inboard at annular parcel ribbon (3), the inner side of the pressure sensing gasket (8) is attached to the surface of the bleeding part of the limb (19).

2. The radial artery compression hemostasis device with pressure display of claim 1, wherein: the top of the balloon catheter (14) is provided with an adjustable catheter joint (12), balloon pressure (7) F is applied to a skin layer (4) or a limb (19) through a pressure sensing gasket (8), a damaged blood vessel (5) is arranged inside the skin layer (4) or the limb (19), and blood (6) flows inside the blood vessel (5).

3. The radial artery compression hemostasis device with pressure display of claim 1, wherein: oppression supports (1) bottom and ribbon (3) contact position and is provided with oppression magic subsides (2), oppress the detachable ribbon (2) of pasting on ribbon (3) upper surface of skin layer (4).

4. The radial artery compression hemostasis device with pressure display of claim 1, wherein: balloon shape location gasbag (15) are installed with ribbon (3) contact position in gasbag pipe (14) bottom, location gasbag (15) mobile elastic contact is on transition gasbag (21) surface, location gasbag (15) transition gasbag (21) are all arranged in and are flowed bag chamber (20), it supports (1) medial surface to flow bag chamber (20) embedding in oppression, gasbag pipe (14) are passed oppression and are supported (1) or annular and support (18) intercommunication on the location gasbag (15) of flowing bag chamber (20), and gasbag pipe (14) other end is connected with conduit coupling (12), conduit coupling (12) open end can lead to gas-supply pipe (13) of peripheral hardware.

5. The radial artery compression hemostasis device with pressure display of claim 1, wherein: the pressure induction gasket (8) is externally connected with a transmission line (9), the other end of the transmission line (9) is connected to a pressure control plate (10), and the pressure control plate (10) controls a display (11) through signals.

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