CN113786193B

CN113786193B - Oximeter with protective structure

Info

Publication number: CN113786193B
Application number: CN202111104229.6A
Authority: CN
Inventors: 翁璇丽; 巫伟弟
Original assignee: Huizhou Anbochen Technology Co ltd
Current assignee: Huizhou Anbochen Technology Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2023-06-16
Anticipated expiration: 2041-09-22
Also published as: CN113786193A

Abstract

The invention discloses an oximeter with a protective structure, which relates to the technical field of blood oxygen detection and comprises a protective shell with supporting and protective functions, an arm clamping jaw for clamping an arm and a finger positioner for clamping fingers. The oximeter protects the measuring instrument and the fingers of the arm of a person in operation in the device, and can measure not only blood oxygen but also blood pressure.

Description

Oximeter with protective structure

Technical Field

The invention relates to the technical field of blood oxygen detection, in particular to an oximeter with a protection structure.

Background

Pulse Oximetry (PO) is considered the most critical health indicator in the fifth place, in addition to heart rate, blood pressure, respiratory rate and temperature. Hemoglobin (Hb) is an important component of blood cells, which is responsible for the transport of oxygen from the lungs to other tissues of the body. The amount of oxygen contained by hemoglobin at any one time is referred to as oxygen saturation. Oxygen saturation is expressed as a percentage, which is the ratio of the oxygen content of hemoglobin to the oxygen carrying capacity of hemoglobin. Pulse oximeter is a device for noninvasively detecting the blood oxygen content; in the existing pulse oximeter, when the instrument clamps fingers, the edges of the instrument can cause the fingers to be greatly pressed, so that the instrument is uncomfortable to use, when the instrument is used, a certain impact force exists between the upper shell and the lower shell, the integrity of the shells can be damaged after long-time use, the service life is short, meanwhile, in the existing pulse oximeter, the instrument does not prevent falling articles, if the instrument falls on the ground, the instrument is very easy to break, and certain limitation exists when the instrument is used. Patent application number CN202021516857.6 discloses a noninvasive pulse oximeter with a protective structure, which does solve the problem of lack of protection of the existing oximeter to a certain extent, but cannot protect the arm of the user and measure the blood pressure.

Disclosure of Invention

In order to solve the technical problems, the invention adopts the following technical scheme: oximeter with protective structure, including the protective housing, its characterized in that: an external support is slidably mounted on the protective shell, an external motor is fixedly mounted on the external support, an external moving guide rail is mounted on the protective shell, a roller mounted on an output shaft of the external motor is in contact with the external moving guide rail, a wedge block is fixedly mounted on the external support, an arm clamping jaw is mounted on the protective shell, an extension spring is mounted on the arm clamping jaw, and the other end of the extension spring is mounted on the protective shell; an inner support is slidably arranged on the outer support, an inner motor is fixedly arranged on the inner support, an inner moving guide rail is arranged on the outer support, and a roller arranged on an output shaft of the inner motor is in contact with the inner moving guide rail; the inner support is slidably provided with a transverse support, the transverse support is fixedly provided with a transverse motor, an output shaft of the transverse motor is fixedly provided with a cylindrical roller, the cylindrical roller is in contact with the surface of the inner support, and the transverse support is fixedly provided with a vertical guide rail; the transverse bracket is provided with a finger positioner in a sliding manner, the finger positioner is fixedly provided with a lifting motor, a roller arranged on an output shaft of the lifting motor is contacted with the vertical guide rail, and the finger positioner is provided with a blood oxygen sensor.

Further, an inflatable air bag is arranged on the protective shell, an inflatable module is further arranged on the protective shell, the inflatable air bag is connected with the inflatable module through an air pipe, a one-way valve is arranged on the air pipe connected with the inflatable module, and a gas release valve is further arranged on the inflatable air bag.

Further, the protective shell is also provided with a linear motor, the linear motor comprises a binding post, a coil, a magnet and a sheet spring, the binding post is fixedly arranged on the coil, the coil is wound on the magnet, and the sheet spring is fixedly arranged on the magnet.

Further, a blood pressure sensor is fixedly arranged on the protective shell.

Further, the arm clamping jaw includes: the clamping jaw wedge block and the arm clamping elastic plate are connected through a compression spring.

Further, the finger locator includes: locator punch holder, locator lower plate, locator motor, slider, belt subassembly, locator punch holder slidable mounting is on the horizontal support, locator lower plate slidable mounting is on the horizontal support, locator motor fixed mounting is on the locator punch holder, install belt subassembly on the locator punch holder, the gyro wheel that is connected on the output shaft of locator punch holder is connected on belt subassembly, slidable mounting has the slider on the locator punch holder, slider and belt subassembly fixed connection, the last rotation of locator lower plate is connected with the connecting rod, the other end and the slider rotation of connecting rod are connected.

Further, the blood oxygen sensor is fixedly arranged on the upper clamping plate of the locator.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the oximeter with the protection structure, the arm of a user can be clamped through the movement of the arm clamping jaw; (2) According to the oximeter with the protective structure, the external support, the internal support and the transverse support are arranged, so that the finger positioner can automatically adjust the positions to align different fingers; (3) The oximeter with the protection structure can measure blood pressure while measuring blood oxygen content.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of an arm clamping jaw according to the present invention.

FIG. 3 is a schematic view of the internal stent structure of the present invention.

Fig. 4 is a schematic view of the transverse bracket structure of the invention.

FIG. 5 is a schematic view of a finger locator installation of the present invention.

FIG. 6 is a schematic view showing the installation of the blood oxygen sensor of the present invention.

FIG. 7 is a schematic view of the structure of the inflatable bag of the present invention.

Fig. 8 is a schematic view of the linear motor installation of the present invention.

Fig. 9 is a schematic view of the internal structure of the linear motor of the present invention.

FIG. 10 is a schematic view of the internal structure of the finger locator according to the invention.

Reference numerals: 1-a protective housing; 2-an external stent; 3-an external motor; 4-wedge blocks; 5-arm clamping jaw; 6-an internal motor; 7-an internal stent; 8-lifting motor; 9-finger locator; 10-connecting rods; 11-vertical guide rails; 12-an inflation assembly; 13-a one-way valve; 14-inflating the air bag; 15-an air release valve; a 16-linear motor; 17-binding posts; 18-coil; 19-a magnet; 20-leaf springs; 21-a transverse motor; 22-transverse brackets; 23-blood pressure sensor; 24-blood oxygen sensor; 101-an external moving rail; 201-an internal moving rail; 501-clamping jaw wedge blocks; 502-arm clamping elastic plate; 901-retainer upper clamp plate; 902-a locator lower plate; 903-positioner motor; 904-a slider; 905-belt assembly.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: the oximeter with the protection structure shown in fig. 1 and 2 comprises a protection shell 1, wherein an external support 2 is slidably installed on the protection shell 1, an external motor 3 is fixedly installed on the external support 2, an external moving guide rail 101 is installed on the protection shell 1, rollers installed on an output shaft of the external motor 3 are in contact with the external moving guide rail 101, a wedge block 4 is fixedly installed on the external support 2, an arm clamping jaw 5 is installed on the protection shell 1, an extension spring is installed on the arm clamping jaw 5, and the other end of the extension spring is installed on the protection shell 1. The external motor 3 is started to drive the external bracket 2, the external motor 3 and the wedge block 4 to slide on the protective shell 1 together, the wedge block 4 slides to drive the arm clamping jaw 5 to move up and down, and the tension spring on the arm clamping jaw 5 is used for resetting the device, so that the arm is clamped when the arm clamping jaw 5 moves up.

An oximeter with a protective structure as shown in fig. 2 to 4, wherein an inner support 7 is slidably mounted on an outer support 2, an inner motor 6 is fixedly mounted on the inner support 7, an inner moving rail 201 is mounted on the outer support 2, and a roller mounted on an output shaft of the inner motor 6 is in contact with the inner moving rail 201; the inner support 7 is provided with a transverse support 22 in a sliding manner, the transverse support 22 is fixedly provided with a transverse motor 21, an output shaft of the transverse motor 21 is fixedly provided with a cylindrical roller, the cylindrical roller is in contact with the surface of the inner support 7, and the transverse support 22 is fixedly provided with a vertical guide rail 11. The internal motor 6 is started to drive the internal support 7 to slide on the external support 2, the transverse motor 21 is started to drive the transverse support 22 to slide on the internal support 7 through the connection of the cylindrical roller and the internal support 7, the internal support 7 slides on the external support 2 to change the front and back positions, and the transverse support 22 slides on the internal support 7 to change the left and right positions.

An oximeter with a protective structure as shown in fig. 3, 5 and 6, wherein a finger positioner 9 is slidably mounted on a transverse bracket 22, a lifting motor 8 is fixedly mounted on the finger positioner 9, a roller mounted on an output shaft of the lifting motor 8 is in contact with a vertical guide rail 11, and a blood oxygen sensor 24 is mounted on the finger positioner 9. The lifting motor 8 is started to drive the upper roller of the lifting motor 8 to rotate and drive the finger locator 9 to slide on the vertical guide rail 11, so that the upper and lower positions of the finger locator 9 are changed.

An oximeter with a protective structure as shown in fig. 1 and 7, wherein an inflatable bag 14 is installed on a protective housing 1, an inflatable module 12 is also installed on the protective housing 1, the inflatable bag 14 is connected with the inflatable module 12 through an air pipe, a one-way valve 13 is installed on the air pipe connected with the inflatable module 12 and the inflatable bag 14, and an air release valve 15 is also installed on the inflatable bag 14. After the inflation module 12 is started, the inflation bag 14 is inflated through the one-way valve 13, and the air release valve 15 is used for protecting air pressure from overpressure and releasing air in order to prevent air from flowing reversely through the one-way valve 13.

As shown in fig. 8 and 9, the oximeter with a protective structure is provided, wherein the protective housing 1 is further provided with a linear motor 16, the linear motor 16 comprises a binding post 17, a coil 18, a magnet 19 and a sheet spring 20, the binding post 17 is fixedly arranged on the coil 18, the coil 18 is wound on the magnet 19, and the sheet spring 20 is fixedly arranged on the magnet 19. After the terminal 17 is connected with a power supply, the magnet 19 is driven to reciprocate due to electromagnetic induction between the coil 18 and the magnet 19, and vibration is transmitted to the outside through the sheet spring 20.

An oximeter with a protective structure as shown in fig. 1, wherein a blood pressure sensor 23 is fixedly mounted on a protective housing 1. The blood pressure sensor 23 may measure the blood pressure, pulse and heart rate.

An oximeter with a protective structure as shown in fig. 1 and 2, the arm clamping jaw 5 comprises: the clamping jaw wedge block 501 and the arm clamping elastic plate 502 are connected through compression springs, and the wedge surface of the clamping jaw wedge block 501 is contacted with the wedge surface of the wedge block 4, and the clamping jaw wedge block 501 is connected with the arm clamping elastic plate 502 through compression springs. The clamping force is provided while the clamping arm is more comfortable by the compression spring.

An oximeter with a protective structure as shown in fig. 5 and 10, wherein the finger locator 9 comprises: the device comprises a locator upper clamping plate 901, a locator lower clamping plate 902, a locator motor 903, a sliding block 904 and a belt assembly 905, wherein the locator upper clamping plate 901 is slidably mounted on a transverse support 22, the locator lower clamping plate 902 is slidably mounted on the transverse support 22, the locator motor 903 is fixedly mounted on the locator upper clamping plate 901, the belt assembly 905 is mounted on the locator upper clamping plate 901, rollers connected to an output shaft of the locator upper clamping plate 901 are connected to the belt assembly 905, the sliding block 904 is slidably mounted on the locator upper clamping plate 901, the sliding block 904 is fixedly connected with the belt assembly 905, a connecting rod 10 is rotatably connected to the locator lower clamping plate 902, and the other end of the connecting rod 10 is rotatably connected with the sliding block 904. The positioner motor 903 is started to drive the belt assembly 905 to operate, the belt assembly 905 operates to drive the sliding block 904 to slide on the upper positioner clamping plate 901, the sliding block 904 slides to drive the connecting rod 10 to move, the connecting rod 10 moves to drive the lower positioner clamping plate 902 to move up and down, and the distance between the upper positioner clamping plate 901 and the lower positioner clamping plate 902 is changed, so that fingers are clamped or loosened.

An oximeter with a protective structure as shown in fig. 6, in which an oxygen sensor 24 is fixedly mounted to a locator upper plate 901. The blood oxygen sensor 24 measures the blood oxygen level of the clamped finger in correspondence with the position of the finger tip.

Claims

1. Oximeter with protective structure, including protective housing (1), its characterized in that: an external support (2) is slidably mounted on the protective shell (1), an external motor (3) is fixedly mounted on the external support (2), an external moving guide rail (101) is mounted on the protective shell (1), rollers mounted on an output shaft of the external motor (3) are in contact with the external moving guide rail (101), a wedge block (4) is fixedly mounted on the external support (2), an arm clamping jaw (5) is mounted on the protective shell (1), an extension spring is mounted on the arm clamping jaw (5), and the other end of the extension spring is mounted on the protective shell (1); an inner support (7) is slidably arranged on the outer support (2), an inner motor (6) is fixedly arranged on the inner support (7), an inner moving guide rail (201) is arranged on the outer support (2), and a roller arranged on an output shaft of the inner motor (6) is in contact with the inner moving guide rail (201); a transverse bracket (22) is slidably arranged on the inner bracket (7), a transverse motor (21) is fixedly arranged on the transverse bracket (22), a cylindrical roller is fixedly arranged on an output shaft of the transverse motor (21), the cylindrical roller is in contact with the surface of the inner bracket (7), and a vertical guide rail (11) is fixedly arranged on the transverse bracket (22); a finger positioner (9) is slidably arranged on the transverse bracket (22), a lifting motor (8) is fixedly arranged on the finger positioner (9), a roller arranged on an output shaft of the lifting motor (8) is contacted with a vertical guide rail (11), and a blood oxygen sensor (24) is arranged on the finger positioner (9);

an inflatable air bag (14) is arranged on the protective shell (1), an inflatable module (12) is also arranged on the protective shell (1), the inflatable air bag (14) is connected with the inflatable module (12) through an air pipe, a one-way valve (13) is arranged on the air pipe connected with the inflatable module (12) and the inflatable air bag (14), and an air release valve (15) is also arranged on the inflatable air bag (14);

the protective shell (1) is also provided with a linear motor (16), the linear motor (16) comprises a binding post (17), a coil (18), a magnet (19) and a sheet spring (20), the binding post (17) is fixedly arranged on the coil (18), the coil (18) is wound on the magnet (19), and the sheet spring (20) is fixedly arranged on the magnet (19);

finger locator (9) include locator punch holder (901), locator punch holder (902), locator motor (903), slider (904), belt module (905), locator punch holder (901) slidable mounting is on horizontal support (22), locator punch holder (902) slidable mounting is on horizontal support (22), locator motor (903) fixed mounting is on locator punch holder (901), install belt module (905) on locator punch holder (901), gyro wheel connection on the output shaft of locator punch holder (901) is on belt module (905), slidable mounting has slider (904) on locator punch holder (901), slider (904) and belt module (905) fixed connection, rotate on locator punch holder (902) and be connected with connecting rod (10), the other end and the slider (904) of connecting rod (10) rotate to be connected.

2. An oximeter with protective structure according to claim 1, wherein: the protective shell (1) is fixedly provided with a blood pressure sensor (23).

3. An oximeter with protective structure according to claim 1, wherein: the arm clamping jaw (5) comprises a clamping jaw wedge block (501) and an arm clamping elastic plate (502), wherein the wedge surface of the clamping jaw wedge block (501) is contacted with the wedge surface of the wedge block (4), and the clamping jaw wedge block (501) is connected with the arm clamping elastic plate (502) through a compression spring.

4. An oximeter with protective structure according to claim 1, wherein: the blood oxygen sensor (24) is fixedly arranged on the upper clamping plate (901) of the locator.