CN211094141U - Brain blood oxygen saturation monitor - Google Patents

Abstract

The utility model discloses a brain oxyhemoglobin saturation monitor, which belongs to the field of oxyhemoglobin saturation monitors and comprises two connecting sleeves, wherein a movable plate is sleeved in the two connecting sleeves, the bottom of the movable plate is fixedly connected with a sponge pad, the end part of the movable plate is in transmission connection with the inner wall of the connecting sleeve through a movable spring, the inner side of one connecting sleeve is fixedly connected with a light wave emission probe, and the inner side of the other connecting sleeve is fixedly connected with a light wave induction probe; this brain blood oxygen saturation monitor through setting up three optical wave transmitting probe and the optical wave inductive probe that correspond each other of group, can be convenient for detect the blood oxygen saturation of patient's brain, and understanding patient's health that can be clear accurate also can carry out local detection to the tissue of each position of patient's brain simultaneously to the effect of brain oxygen saturation monitoring has been improved.

Description

Brain blood oxygen saturation monitor

Technical Field

The utility model belongs to the technical field of oxyhemoglobin saturation monitor, concretely relates to brain oxyhemoglobin saturation monitor.

Background

The oxyhemoglobin saturation monitor is an instrument for monitoring oxyhemoglobin saturation, which refers to the degree of combination of hemoglobin and oxygen under a certain partial pressure of oxygen, namely the percentage of oxygen content and oxygen capacity, and generally adopts the oxyhemoglobin saturation of arteries, for some critical patients, the brain is the nerve center of people, and plays a guiding role in guiding various functions of the body, however, most of the existing oxyhemoglobin saturation monitors detect the oxyhemoglobin saturation through local tissues contacting with the fingers or arms of the patients, so that the physical condition of the patients cannot be clearly and accurately known, and therefore, the oxyhemoglobin saturation monitor for the brain is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a brain blood oxygen saturation monitor to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a brain blood oxygen saturation monitor comprises connecting sleeves, the number of the connecting sleeves is two, movable plates are movably sleeved in the two connecting sleeves, sponge cushions are fixedly connected to the bottoms of the movable plates, the end portions of the movable plates are in transmission connection with the inner walls of the connecting sleeves through movable springs, a light wave transmitting probe is fixedly connected to the inner side of one connecting sleeve, a light wave sensing probe is fixedly connected to the inner side of the other connecting sleeve, a first lead is fixedly connected to the bottom of the light wave transmitting probe, an information processor is fixedly connected to one end of the first lead, the bottom of the light wave sensing probe is in telecommunication connection with the top of one side of the information processor through a second lead, a power line is fixedly connected to the bottom of one side of the information processor, the information processor comprises a signal receiving module, and the input end of the signal receiving module is in telecommunication connection with the output end of the, and the output end of the signal receiving module is in telecommunication connection with the input end of the signal processing module, and the output end of the signal processing module is in telecommunication connection with the input end of the data display module.

Adopt above-mentioned scheme, when taking place the infrared ray ripples through light wave transmitting probe, the light wave can pierce through the brain tissue from one side of patient's brain, make the light wave received by the corresponding light wave inductive probe of patient's brain opposite side, and light wave inductive probe can transmit the information of receiving for information processor's signal reception module with the mode of signal, and signal reception module transmits the signal for signal processing module, signal processing module can amplify the analysis processing and gather the signal this moment, and signal processing module can transmit the information after handling for data display module, and data display module can convey the positive display screen of information processor with the data result and demonstrate.

In the above scheme, it should be noted that: the optical wave induction probe is suitable for an optical wave sensor of a brain blood oxygen saturation monitor with the model of MC-2030C.

As a preferred embodiment, the shape of the spongy cushion is circular arc, and the top of the spongy cushion is fixedly bonded with the bottom of the movable plate through an adhesive.

Adopt above-mentioned scheme, through the foam-rubber cushion, two adapter sleeves of taking when both hands to wear two adapter sleeves in the both sides of patient's head, make the fly leaf be located patient's top of the head department, the foam-rubber cushion contacts with the top of the head this moment, and utilize its self elasticity effect to cushion the decompression, thereby it is more comfortable when making the patient wear.

As a preferred embodiment, the number of the movable springs is two, the two movable springs are respectively located inside the two connecting sleeves, one end of each of the two movable springs is respectively fixedly connected with two ends of the movable plate, and the other end of each of the two movable springs is respectively fixedly connected with the inner walls of the two connecting sleeves.

Adopt above-mentioned scheme, through the activity spring, when placing two adapter sleeves in patient's head both sides, downwards or to outside pulling two adapter sleeves for the fly leaf takes place to remove under two activity spring 4's elasticity effect, can adjust the wearing space between fly leaf and two adapter sleeves according to patient's head size, thereby has improved this oxyhemoglobin saturation monitor's practicality.

In a preferred embodiment, the number of the light wave emission probes is three, and three light wave emission probes are in telecommunication connection through connecting wires, and the three light wave emission probes respectively correspond to the three light wave induction probes.

Adopt above-mentioned scheme, through light wave emission probe, when light wave emission probe takes place the infrared ray ripples, the light wave can pierce through the brain tissue from one side of patient's brain for the light wave is received by the corresponding light wave inductive probe of patient's brain opposite side, and mutually supports through three light wave emission probes of group and light wave inductive probe, can carry out local detection to the oxygen saturation of each position tissue of patient's brain, thereby has improved the effect of brain monitoring.

As a preferred embodiment, the front surface of the information processor is fixedly provided with a display screen, an indicator light and a key, and the interior of the information processor is fixedly provided with a circuit board.

By adopting the scheme, through the information processor, when the key on the front side of the information processor is pressed, the indicator lamp is lightened to indicate that the information processor is in a working state, and the detected data can be displayed in a numerical value or image proportion mode on the display screen on the front side of the information processor after being processed, so that people can watch the information conveniently.

In a preferred embodiment, the signal processing module is fixedly welded on the front surface of the circuit board, and the signal processing module is electrically and signal connected with the signal receiving module and the data display module through a circuit on the circuit board.

By adopting the scheme, the signals transmitted by the signal receiving module can be amplified, analyzed and processed and summarized through the signal processing module, the processed information can be transmitted to the data display module by the signal processing module, and the data result can be transmitted to the display screen on the front side of the information processor by the data display module.

Compared with the prior art, the beneficial effects of the utility model are that:

the cerebral blood oxygen saturation monitor is convenient to detect the blood oxygen saturation of the brain of a patient by arranging three groups of light wave emission probes and light wave induction probes which correspond to each other, can clearly and accurately know the physical condition of the patient, and can detect the tissues of all parts of the brain of the patient locally, so that the effect of monitoring the brain oxygen saturation is improved;

this brain oxyhemoglobin saturation monitor through setting up adapter sleeve, fly leaf and foam-rubber cushion, can be at the in-process that patient's brain oxyhemoglobin saturation detected, is convenient for wear to test probe, and can make the patient more comfortable when wearing, simultaneously through setting up the activity spring, can adjust wearing the space according to patient's head size for this oxyhemoglobin saturation monitor can be applicable to different crowds, thereby has improved this oxyhemoglobin saturation monitor's practicality.

Drawings

FIG. 1 is a schematic front view of the structure of the present invention;

FIG. 2 is a partial cross-sectional view of an information processor according to the present invention;

fig. 3 is a schematic diagram of the telecommunication connection of the information processor of the present invention.

In the figure: 1. connecting sleeves; 2. a movable plate; 3. a sponge cushion; 4. a movable spring; 5. a light wave emission probe; 6. a light wave sensing probe; 7. a first conductive line; 8. an information processor; 81. a signal receiving module; 82. A signal processing module; 83. a data display module; 9. a second lead; 10. a power line.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention. The condition in the embodiment can be further adjusted according to concrete condition the utility model discloses a it is right under the design prerequisite the utility model discloses a simple improvement of method all belongs to the utility model discloses the scope of claiming.

Please refer to fig. 1-3, the utility model provides a brain blood oxygen saturation monitor, including adapter sleeve 1, the quantity of adapter sleeve 1 is two, and fly leaf 2 has been cup jointed in the inside activity of two adapter sleeve 1, the bottom fixedly connected with foam-rubber cushion 3 of fly leaf 2, the shape of foam-rubber cushion 3 is convex, and the top of foam-rubber cushion 3 passes through the fixed bonding of gluing agent and the bottom of fly leaf 2 (see fig. 1), two adapter sleeve 1 are taken to the both hands, and wear two adapter sleeve 1 in the both sides of patient's head, make fly leaf 2 be located patient's top of the head department, foam-rubber cushion 3 contacts with the top of the head this moment, and utilize its self elasticity effect to cushion the decompression, thereby it is more comfortable when making the patient wear.

The tip of fly leaf 2 is connected with the inner wall transmission of adapter sleeve 1 through activity spring 4, the quantity of activity spring 4 is two, and two activity springs 4 are located the inside of two adapter sleeves 1 respectively, the one end of two activity springs 4 respectively with the both ends fixed connection of fly leaf 2, and the other end of two activity springs 4 respectively with the inner wall fixed connection of two adapter sleeves 1 (see figure 1), when placing two adapter sleeves 1 in patient's head both sides, downwards or outside pulling two adapter sleeves 1, make fly leaf 2 take place to remove under the elastic force effect of two activity springs 4, can adjust the wearing space between fly leaf 2 and two adapter sleeves 1 according to patient's head size, thereby the practicality of this oxyhemoglobin saturation monitor has been improved.

The inner side of one connecting sleeve 1 is fixedly connected with a light wave transmitting probe 5, the inner side of the other connecting sleeve 1 is fixedly connected with a light wave sensing probe 6, the number of the light wave transmitting probes 5 is three, the three light wave emission probes 5 are connected with each other through connecting wires in a telecommunication way, the three light wave emission probes 5 are respectively corresponding to the three light wave induction probes 6, the first conducting wire 7 (shown in figure 1 and figure 3) is fixedly connected at the bottom of the light wave emission probes 5, when the light wave transmitting probe 5 generates infrared light waves, the light waves can penetrate through brain tissue from one side of the brain of the patient, so that the light waves are received by the corresponding light wave sensing probe 6 on the other side of the brain of the patient, and through the mutual cooperation of three sets of light wave emission probes 5 and light wave inductive probe 6, can carry out local detection to the oxygen saturation of each position tissue of patient's brain to the effect of brain monitoring has been improved.

One end fixedly connected with information processor 8 of wire 7, information processor 8's front fixed mounting has the display screen, pilot lamp and button, and information processor 8's inside fixed mounting has the circuit board (see fig. 1 and fig. 2), when pressing information processor 8 front button, make the pilot lamp shine, show that this information processor 8 is being in the state of work, and the data that detect handles the back, can show with numerical value or image proportion's form on information processor 8 front display screen, thereby be convenient for people to watch.

The bottom of the light wave induction probe 6 is connected with the top of one side of the information processor 8 through a second conducting wire 9 in a telecommunication way, the bottom of one side of the information processor 8 is fixedly connected with a power line 10, the information processor 8 comprises a signal receiving module 81, the input end of the signal receiving module 81 is connected with the output end of the light wave induction probe 6 in a telecommunication way, the output end of the signal receiving module 81 is connected with the input end of a signal processing module 82 in a telecommunication way, the output end of the signal processing module 82 is connected with the input end of a data display module 83 in a telecommunication way, the signal processing module 82 is fixedly welded on the front surface of the circuit board, and the signal processing module 82 is electrically connected and signal-connected with the signal receiving module 81 and the data display module 83 through a circuit on the circuit board (see figures 1, 2 and 3), when the light wave emission probe 5 generates infrared light, the light waves are received by the corresponding light wave sensing probe 6 on the other side of the brain of the patient, the received information is transmitted to the signal receiving module 81 of the information processor 8 in a signal mode by the light wave sensing probe 6, the signal receiving module 81 transmits the signals to the signal processing module 82, the signals are amplified, analyzed, processed and summarized by the signal processing module 82 at the moment, the processed information is transmitted to the data display module 83 by the signal processing module 82, and the data result is transmitted to the display screen on the front side of the information processor 8 by the data display module 83 to be displayed.

The utility model discloses a theory of operation and use flow: at first two adapter sleeve 1 of both hands take, and wear two adapter sleeve 1 in the both sides of patient's head, make fly leaf 2 be located patient's top of the head department, foam-rubber cushion 3 contacts with the top of the head this moment, and utilize its self elasticity effect to cushion the decompression, thereby it is more comfortable when making the patient wear, after that, downwards or outside pulling two adapter sleeve 1, make fly leaf 2 take place to remove under the elasticity effect of two activity springs 4, can adjust the wearing space between fly leaf 2 and two adapter sleeve 1 according to patient's head size, thereby the practicality of this oxyhemoglobin saturation monitor has been improved, finally when light emission probe 5 took place the infrared light wave, the light wave can pierce through cerebral tissue from one side of patient's brain, make the light wave received by the corresponding light wave inductive probe 6 of patient's brain opposite side, and light inductive probe 6 can transmit the information that receives for information processor 8 signal receiving module 81 with the mode of signal And signal reception module 81 transmits the signal for signal processing module 82, signal processing module 82 can amplify the analysis processing and gather the signal this moment, and signal processing module 82 can transmit the information after handling for data display module 83, and data display module 83 can show with numerical value or image scale's form on transmitting the data result to the positive display screen of information processor 8, thereby be convenient for people to watch, and through mutually supporting of three groups of light wave emission probe 5 and light wave inductive probe 6, can carry out local detection to the oxygen saturation of each position tissue of patient's brain, thereby the effect of brain monitoring has been improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a brain blood oxygen saturation monitor, includes adapter sleeve (1), its characterized in that: the number of the connecting sleeves (1) is two, the movable plates (2) are movably sleeved in the two connecting sleeves (1), the bottom of each movable plate (2) is fixedly connected with a sponge cushion (3), the end parts of the movable plates (2) are in transmission connection with the inner wall of each connecting sleeve (1) through movable springs (4), one inner side of each connecting sleeve (1) is fixedly connected with a light wave emission probe (5), the other inner side of each connecting sleeve (1) is fixedly connected with a light wave induction probe (6), the bottom of each light wave emission probe (5) is fixedly connected with a first lead (7), one end of each first lead (7) is fixedly connected with an information processor (8), the bottom of each light wave induction probe (6) is in telecommunication connection with the top of one side of the information processor (8) through a second lead (9), and the bottom of one side of the information processor (8) is fixedly connected with a power line (10), and the information processor (8) comprises a signal receiving module (81), the input end of the signal receiving module (81) is in telecommunication connection with the output end of the light wave induction probe (6), the output end of the signal receiving module (81) is in telecommunication connection with the input end of the signal processing module (82), and the output end of the signal processing module (82) is in telecommunication connection with the input end of the data display module (83).

2. The cerebral blood oxygen saturation monitor according to claim 1, characterized in that: the sponge cushion (3) is arc-shaped, and the top of the sponge cushion (3) is fixedly bonded with the bottom of the movable plate (2) through adhesive.

3. The cerebral blood oxygen saturation monitor according to claim 1, characterized in that: the number of the movable springs (4) is two, the two movable springs (4) are respectively located in the two connecting sleeves (1), one ends of the movable springs (4) are respectively fixedly connected with the two ends of the movable plate (2), and the other ends of the two movable springs (4) are respectively fixedly connected with the inner walls of the two connecting sleeves (1).

4. The cerebral blood oxygen saturation monitor according to claim 1, characterized in that: the number of the light wave emission probes (5) is three, the three light wave emission probes (5) are in telecommunication connection through connecting lines, and the three light wave emission probes (5) correspond to the three light wave induction probes (6) respectively.

5. The cerebral blood oxygen saturation monitor according to claim 1, characterized in that: the front surface of the information processor (8) is fixedly provided with a display screen, an indicator light and a key, and the inside of the information processor (8) is fixedly provided with a circuit board.

6. The cerebral blood oxygen saturation monitor according to claim 1, characterized in that: the signal processing module (82) is fixedly welded on the front surface of the circuit board, and the signal processing module (82), the signal receiving module (81) and the data display module (83) are electrically and signal connected through a circuit on the circuit board.

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