CN217723488U - Noninvasive arterial blood pressure and blood oxygen monitoring device - Google Patents

Abstract

The utility model belongs to the technical field of medical instrument, concretely relates to there is not arterial blood pressure blood oxygen monitoring devices of wound, including disk body, display screen, the groove of accomodating has been seted up to the bottom of disk body, accomodates the inslot and is equipped with the instantaneous detector, installs electronic device in the disk body, still installs in the disk body and receive and release the subassembly, and the instantaneous detector is installed at accomodating the inslot through receiving and releasing the subassembly, and the symmetry is installed and is bound the subassembly on the lateral wall of disk body. The utility model discloses changed the mounting means of its detector, the detector of having avoided traditional outstanding setting on the one hand probably receives the condition of external striking and takes place easily, another convenience is when not using this device, can also provide good accommodation space for the detector, its life has been ensured, still design the installation of bandage simultaneously, make the bandage can realize automatic rolling, the bandage that sets up like this can realize the tightness to the not unidimensional wrist, can adjust the elasticity of bandage at any time, adaptability is wider.

Description

Noninvasive arterial blood pressure and blood oxygen monitoring device

Technical Field

The utility model belongs to the technical field of medical equipment, concretely relates to there is not arterial blood pressure blood oxygen monitoring devices of wound.

Background

The blood pressure and the blood oxygen are detected separately in the traditional medical technology, the blood pressure can be detected directly in vitro by adopting a sphygmomanometer, which is the most common medical blood pressure detection mode in the prior art, the blood oxygen needs to be extracted and detected from blood in an artery, the detection is often performed for patients in hospitals, so that the blood pressure and the blood oxygen of the patients in different periods can be conveniently monitored, but for people who have small body but are not hospitalized, the equipment is obviously not suitable for the people, so that monitoring devices which can be worn on the wrist or the arm are produced, the devices mostly exist in the form of watches or wristbands, the far away instantaneous detector can not be kept away from the instruments, the detector can realize the rapid detection of the blood in the skin of the body, and then the blood can be transmitted to an area capable of displaying numbers through an FPC (flexible printed circuit) sensor and the like for monitoring and observation of the people.

The detector of this kind of current monitoring devices is most all outstanding the installation at the back, alright hug closely at the skin surface with guaranteeing the sensor maximum when wearing, but also outstanding the setting when not using, if drop by accident, the probability on detector direct contact ground is very big, and current monitoring devices's wrist strap is most all the eye-splice formula, can not roll when not using, set into telescopic upper belt even a bit, though can deal with not unidimensional wrist, but be in for a long time and tie up the discomfort that the state caused the wrist very easily, to above-mentioned problem, we propose a non-invasive arterial blood pressure blood oxygen monitoring devices.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a there is not arterial blood pressure blood oxygen monitoring devices of wound can withdraw the disk body inside when the detector is not used in the twinkling of an eye, and the structural design of bandage can deal with not unidimensional wrist, and can also realize automatic winding when not using.

The utility model discloses the technical scheme who takes specifically as follows:

the utility model provides a no wound artery blood pressure blood oxygen monitoring devices, includes the disk body, the display screen is installed at the top of disk body, the bottom center of disk body has been seted up and has been accomodate the groove, accomodate the inslot and be equipped with the quick induction detector that is used for carrying out quick non-invasive detection to human skin top layer, install in the disk body and be used for the data transmission after the induction detector detects the electron device on the display screen in the twining, still install in the disk body and receive and release the subassembly, the induction detector is through receiving and releasing the unit mount and taking in the inslot, the symmetry is installed and is bound the subassembly on the lateral wall of disk body.

Further, bind the subassembly and include the fixed block and dismantle the piece, fixed block fixed mounting is on the lateral wall of disk body, the slot has been seted up towards the one end of dismantling the piece to the fixed block, dismantle and be equipped with the inserted block in the relative one side of piece and fixed block, the inserted block is corresponding with the slot, still be equipped with the locating lever in the fixed block, the slot setting is passed at the middle part of locating lever, just the length direction of locating lever and the length direction parallel arrangement of slot, set up the locating hole that sets up along its length direction in the inserted block, the gim peg is installed to the both ends tip of locating lever.

Further, the one end that the fixed block was kept away from to the dismantlement piece is inside to be seted up and to accomodate the chamber, the opening part of accomodating the chamber is equipped with the knot of tying up, the inside of accomodating the chamber is equipped with automatic winding mechanism, the winding is equipped with the bandage on the automatic winding mechanism.

Further, automatic winding mechanism includes the rolling axle, the both ends of rolling axle are rotated through the installation bearing and are installed in accomodating the intracavity, just the both ends of rolling axle still are connected with the inner wall of accomodating the chamber through the torsional spring, the bandage winding sets up on the rolling axle, the installation sleeve is still installed to the inside of dismantling the piece, the installation sleeve is located directly over the central point of rolling axle, the internally mounted of installation sleeve has the rotation type telescopic shaft, the intracavity is located to the bottom tip of rotation type telescopic shaft, the bottom tip fixed mounting of rotation type telescopic shaft has the clamp plate, the clamp plate sets up along the length direction of rolling axle, the top tip fixed mounting of rotation type telescopic shaft has the knob.

Further, receive and release the subassembly and include the reciprocal telescopic link of push type, the reciprocal telescopic link of push type is located inside the disk body, the one end of the reciprocal telescopic link of push type is located and is accomodate the inslot, and the other end is worn out the disk body and is installed the button, the reciprocal telescopic link of push type is located and accomodates the one end tip of inslot and is connected with the top of sensing detector through coupling assembling, it sets up two sets ofly to receive and release the subassembly symmetry setting.

Further, coupling assembling is including installing the installation plectane at the reciprocal telescopic link tip of push type and installing the shaped plate on the detector is felt to the transition, install first articulated seat on the installation plectane, the articulated seat of second, two are installed to the symmetry on the shaped plate be connected through the gangbar between the articulated seat of second, the gangbar is "Contraband" font setting, the one end middle part that the articulated seat of second was kept away from to the gangbar is connected with first articulated seat through the connecting rod.

The utility model discloses the technological effect who gains does: the utility model has the advantages of simple and reasonable structure, the mounting means of its detector has been changed under the condition of the change to traditional intelligent blood pressure blood oxygen detecting instrument internal component not, the detector of having avoided traditional outstanding setting on the one hand probably receives the condition of external striking to take place easily, another convenience is when not using this device, can also provide good storage space for the detector, its life has been ensured, still design the installation of bandage simultaneously, make the bandage can realize automatic rolling, the bandage that sets up like this can realize the tightness to the not unidimensional wrist, can adjust the elasticity of bandage at any time, adaptability is wider.

Drawings

FIG. 1 is a schematic view of a non-invasive arterial blood pressure and blood oxygen monitoring device according to the present invention;

FIG. 2 is a schematic bottom view of a disk of the non-invasive device for monitoring arterial blood pressure and blood oxygen;

FIG. 3 is a schematic view of a binding mechanism of a non-invasive arterial blood pressure and blood oxygen monitoring device according to the present invention;

FIG. 4 is a schematic view of a detachable block of the non-invasive arterial blood pressure and blood oxygen monitoring device of the present invention;

FIG. 5 is a schematic view of an automatic winding mechanism of the non-invasive device for monitoring arterial blood pressure and blood oxygen;

FIG. 6 is a schematic view of the non-invasive device for monitoring arterial blood pressure and blood oxygen with a transient detector installed therein;

fig. 7 is a schematic structural diagram of a connection assembly of the non-invasive arterial blood pressure and blood oxygen monitoring device of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a tray body; 101. a receiving groove; 2. a display screen; 3. binding the components; 31. a fixed block; 311. a slot; 312. positioning a rod; 313. a fixing bolt; 32. disassembling the block; 321. inserting a block; 322. positioning holes; 323. binding and buckling; 324. a receiving cavity; 325. binding bands; 326. an automatic winding mechanism; 3261. a winding shaft; 3262. mounting a bearing; 3263. a torsion spring; 3264. installing a sleeve; 3265. a rotary telescopic shaft; 3266. pressing a plate; 3267. a knob; 4. a transient detector; 5. a retraction assembly; 51. a pressing type reciprocating telescopic rod; 52. a button; 53. a connecting assembly; 531. mounting a circular plate; 532. a first hinge mount; 533. a strip plate; 534. a second hinge mount; 535. a linkage rod; 536. a connecting rod.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims to which this invention pertains.

As shown in fig. 1-2, a non-invasive arterial blood pressure and blood oxygen monitoring device comprises a disk body 1, a display screen 2 is installed at the top of the disk body 1, a receiving groove 101 is formed in the center of the bottom of the disk body 1, a transient detector 4 for performing fast non-invasive detection on the skin surface of a human body is arranged in the receiving groove 101, an electronic device for transmitting data detected by the transient detector 4 to the display screen 2 is installed in the disk body 1, the transient detector 4 and the electronic device in the disk body 1 are known technologies commonly used in the existing intelligent wrist watch, and are not repeated here any more, for example, the transient detector 4 can be an elegant transient blood glucose meter which is most commonly used in the prior art, and blood glucose values on arms of the human body can be fast detected by the instruments, and can be transmitted to various instruments with the display screens through an FPC sensor, a signal transmitter and the like, and belongs to the known conventional technology. The disc body 1 is also internally provided with a retracting component 5, the transient detector 4 is arranged in the accommodating groove 101 through the retracting component 5, the retracting component 5 can retract and arrange the position of the transient detector 4 in the accommodating groove 101, and the transient detector 4 can be retracted into the accommodating groove 101 when not in use, most detectors in the prior art are arranged in a protruding mode, and are used for being tightly attached to the surface of skin to achieve the purpose of monitoring all the time, but are also arranged in a protruding mode when not in use, and if the detectors fall down carelessly, the probability that the detectors are in direct contact with the ground is very high, so that the detectors are arranged in a retractable mode, the safety performance of the transient detector 4 can be greatly improved, the binding components 3 are symmetrically arranged on the side wall of the disc body 1, the binding components 3 are automatically arranged through the binding bands 325, and can be automatically retracted into the retracting components 3 when not in use, and do not occupy space.

As shown in fig. 3, in order to enable the binding assembly 3 to be quickly installed and replaced, in this embodiment, the binding assembly 3 includes a fixing block 31 and a detaching block 32, the fixing block 31 is fixedly installed on a side wall of the tray body 1, a slot 311 is formed in one end of the fixing block 31 facing the detaching block 32, an insertion block 321 is integrally arranged on one surface of the detaching block 32 opposite to the fixing block 31, the insertion block 321 corresponds to the slot 311, a positioning rod 312 is further arranged in the fixing block 31, the middle of the positioning rod 312 passes through the slot 311, the length direction of the positioning rod 312 is parallel to the length direction of the slot 311, a positioning hole 322 is formed in the insertion block 321 and arranged along the length direction of the insertion block, when the insertion block 321 is inserted into the slot 311, the positioning rod 312 passes through the positioning hole 322, in order to ensure stability of the positioning rod 312, fixing bolts 313 are installed at two end portions of the positioning rod 312, and the fixing bolts 313 can ensure stability of the positioning rod 312 during installation and ensure that the positioning rod does not fall off.

As shown in fig. 4, in order to enable the binding band 325 in the detaching block 32 to be automatically folded and unfolded, in this embodiment, an accommodating cavity 324 is formed inside one end of the detaching block 32, which is far away from the fixing block 31, a binding buckle 323 is arranged at an opening of the accommodating cavity 324, an automatic winding mechanism 326 is arranged inside the accommodating cavity 324, the binding band 325 is wound on the automatic winding mechanism 326, when the device needs to be bound to the wrist, two binding buckles 323 at two sides of the tray body 1 can be pulled, the binding buckle 323 can pull the binding band 325 to stretch out of the accommodating cavity 324, when the two binding buckles 323 are contacted to realize fixation, the positioning of the tray body is realized, when the two binding buckles 323 are separated from each other, the automatic winding mechanism 326 can automatically drive the binding band 325 to realize a winding function until the binding buckle 323 resets.

As shown in fig. 5, in order to ensure that the automatic winding mechanism 326 does not extend out of the accommodating cavity 324 again when the binding buckle 323 is positioned, in this embodiment, the automatic winding mechanism 326 includes a winding shaft 3261, two ends of the winding shaft 3261 are rotatably installed in the accommodating cavity 324 through an installation bearing 3262, and two ends of the winding shaft 3261 are further connected with an inner wall of the accommodating cavity 324 through a torsion spring 3263, the binding belt 325 is wound on the winding shaft 3261, when the binding belt 325 is pulled, the winding shaft 3261 rotates and loses the pulling force, the winding shaft 3261 can rotate under the action of the torsion spring 3263 to reset and wind the binding belt 325, a mounting sleeve 3264 is further installed inside the dismounting block 32, the mounting sleeve 3264 is installed right above a central point of the winding shaft 3261, a rotary telescopic shaft 3265 is installed inside the mounting sleeve 3264, a bottom end of the rotary telescopic shaft 3265 is installed in the accommodating cavity 324 and right above the winding shaft 3261, a bottom end of the rotary telescopic shaft 3265 is fixedly installed with a pressing plate 3266, the pressing plate 3265 is installed along a direction of the winding shaft 3261, when the length of the winding shaft 3265 can be adjusted, and the pressing plate 325 can be driven by the winding shaft 3261, and the pressing plate 3267, and the winding shaft 3261 can be driven by the winding shaft to reach a position, and the top end of the winding shaft 3267.

As shown in fig. 6, in order to enable the transient detector 4 to achieve adjustable retraction in the storage groove 101, in the present embodiment, the retraction assembly 5 includes a push-type reciprocating telescopic rod 51, the push-type reciprocating telescopic rod 51 is disposed inside the tray body 1, one end of the push-type reciprocating telescopic rod 51 is disposed in the storage groove 101, the other end of the push-type reciprocating telescopic rod 51 penetrates through the tray body 1 and is provided with a button 52, the push-type reciprocating telescopic rod 51 can be extended and retracted by pressing the button 52, the distance of the telescopic rod is similar to the ejection and retraction of a pen point of an automatic ball pen, which belongs to the prior art, one end of the push-type reciprocating telescopic rod 51 in the storage groove 101 is connected to the top of the transient detector 4 through a connection assembly 53, two sets of the retraction assemblies 5 are provided, and the two sets of the retraction assemblies 5 are symmetrically arranged.

As shown in fig. 7, in order to facilitate the adjustment of the pressing reciprocating telescopic rod 51 to drive the retraction and extension of the transient detector 4, in this embodiment, the connecting assembly 53 includes a circular mounting plate 531 mounted at the end of the pressing reciprocating telescopic rod 51 and a strip-shaped plate 533 mounted on the transient detector 4, the circular mounting plate 531 is mounted with a first hinge base 532, the strip-shaped plate 533 is symmetrically mounted with second hinge bases 534, the two second hinge bases 534 are connected through a linkage rod 535, the linkage rod 535 is arranged in a shape of "Contraband", and the middle of one end of the linkage rod 535 away from the second hinge base 534 is connected with the first hinge base 532 through a connecting rod 536.

The working principle of the utility model is that: when the device needs to be worn, the back of the disc body 1 is tightly attached to a wrist, then the binding buckles 323 are manually pulled until the two binding buckles 323 are mutually bound on the other side of the wrist, at the moment, the knob 3267 can drive the rotary telescopic shaft 3265 to rotate through rotating the knob 3267, the position of the pressing plate 3266 can be adjusted through rotating the rotary telescopic shaft 3265, when the pressing plate 3266 is pressed downwards to reach the binding bands 325 on the winding shaft 3261, the binding bands 325 can be positioned, the binding bands 325 cannot be driven to be wound by the winding shaft 3261, the binding bands 325 arranged in the way can be used for tightly binding wrists with different sizes, the tightness of the binding bands 325 can be adjusted at any time, then the two buttons 52 on the side wall of the disc body 1 are pressed, the buttons 52 can directly act on the reciprocating pressing type telescopic rods 51, the reciprocating type telescopic rods 51 drive the connecting rods 536 and the connecting rods 535 to move through the first hinged seats 532 at the end portions of the connecting rods, the linkage rods 535 can drive the transient detector 4 to extend out of the transient detector receiving grooves 101 through the second hinged seats 534 arranged on the top of the transient detector 4, and the skin of the transient detector 4 can be attached to detect blood oxygen in real-blood pressure.

The utility model has the advantages of simple and reasonable structure, the mounting means of its detector has been changed under the condition of the change to traditional intelligent blood pressure blood oxygen detecting instrument internal element not, the detector of having avoided traditional outstanding setting on the one hand probably receives the condition of external striking to take place easily, another convenience is when not using this device, can also provide good storage space for the detector, its life has been ensured, still design bandage 325's installation simultaneously, make bandage 325 can realize automatic rolling, bandage 325 that sets up like this can realize the tightness to the not unidimensional wrist, can adjust bandage 325's elasticity at any time, adaptability is wider.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated in the present application are generally implemented in the art by conventional means without specific recitation or limitation.

Claims (6)

1. The utility model provides a noninvasive artery blood pressure blood oxygen monitoring devices, includes disk body (1), its characterized in that: display screen (2) are installed at the top of disk body (1), the bottom center of disk body (1) has been seted up and has been accomodate groove (101), it is used for carrying out quick noninvasive detection's transient detector (4) on human skin top layer to accomodate to be equipped with in groove (101), install in disk body (1) and be used for the data transmission after transient detector (4) detect to the electron device on display screen (2), still install in disk body (1) and receive and release subassembly (5), transient detector (4) are installed in accomodating groove (101) through receiving and releasing subassembly (5), the symmetry is installed and is bound subassembly (3) on the lateral wall of disk body (1).

2. The non-invasive arterial blood pressure and blood oxygen monitoring device according to claim 1, wherein: bind subassembly (3) including fixed block (31) and dismantlement piece (32), fixed block (31) fixed mounting is on the lateral wall of disk body (1), slot (311) have been seted up towards the one end of dismantling piece (32) in fixed block (31), dismantle and be equipped with inserted block (321) in piece (32) and fixed block (31) one side relative, inserted block (321) are corresponding with slot (311), still be equipped with locating lever (312) in fixed block (31), slot (311) setting is passed at the middle part of locating lever (312), just the length direction of locating lever (312) and the length direction parallel arrangement of slot (311), set up locating hole (322) along its length direction setting in inserted block (321), gim peg (313) are installed to the both ends tip of locating lever (312).

3. The non-invasive arterial blood pressure oximetry device of claim 2, characterized in that: the one end that fixed block (31) was kept away from in dismantlement piece (32) is inside to have seted up and to accomodate chamber (324), the opening part of accomodating chamber (324) is equipped with ties up knot (323), the inside of accomodating chamber (324) is equipped with automatic winding mechanism (326), the winding is equipped with bandage (325) on automatic winding mechanism (326).

4. The non-invasive arterial blood pressure and blood oxygen monitoring device according to claim 3, wherein: automatic winding mechanism (326) include rolling axle (3261), the both ends of rolling axle (3261) are passed through installation bearing (3262) and are rotated and install in accomodating chamber (324), just the both ends of rolling axle (3261) still are connected with the inner wall of accomodating chamber (324) through torsional spring (3263), bandage (325) winding sets up on rolling axle (3261), install sleeve (3264) is still installed to the inside of dismantlement piece (32), install sleeve (3264) and locate rolling axle (3261) directly over the central point, the internally mounted of installation sleeve (3264) has rotation type telescopic shaft (3265), the bottom tip of rotation type telescopic shaft (3265) is located in accomodating chamber (324), the bottom tip fixed mounting of rotation type telescopic shaft (3265) has clamp plate (3266), clamp plate (3266) sets up along the length direction of rolling axle (3261), the top tip fixed mounting of rotation type telescopic shaft (3265) has knob (3267).

5. The non-invasive arterial blood pressure and blood oxygen monitoring device according to claim 1, wherein: receive and release subassembly (5) including the reciprocal telescopic link of push type (51), inside disk body (1) was located to the reciprocal telescopic link of push type (51), the one end of the reciprocal telescopic link of push type (51) is located and is accomodate groove (101), and the other end is worn out disk body (1) inside and is installed button (52), the reciprocal telescopic link of push type (51) is located and accomodates the one end tip in groove (101) and is connected with the top of sensing detector (4) in the twinkling of an eye through coupling assembling (53), it sets up two sets ofly to receive and release subassembly (5) and set up two sets of receive and release subassembly (5) symmetry.

6. The non-invasive arterial blood pressure and blood oxygen monitoring device according to claim 5, wherein: coupling assembling (53) including installing installation plectane (531) at the reciprocal telescopic link of push type (51) tip and installing strip shaped plate (533) on sensing detector (4) momentarily, install first articulated seat (532) on installation plectane (531), the symmetry is installed articulated seat of second (534), two on strip shaped plate (533) the articulated seat of second (535) is connected through gangbar (535) between, gangbar (535) are "Contraband" font setting, the one end middle part that second articulated seat (534) was kept away from in gangbar (535) is connected with first articulated seat (532) through connecting rod (536).

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