CN211409136U - Novel high-precision electronic stethoscope - Google Patents

Abstract

The utility model belongs to the technical field of medical auscultation, and discloses a novel high-precision electronic stethoscope, wherein auscultation earplugs are positioned at the upper end of the electronic stethoscope and provided with a left ear auscultation earplug and a right ear auscultation earplug; the stethoscope display is positioned in the middle of the electronic stethoscope and is shaped like a flat rectangle; a display screen is embedded on the display screen of the stethoscope, a stethoscope control button is embedded at the lower end of the display screen, and a tray is fixed at the back of the display screen of the stethoscope through bolts; the lower end of the electronic stethoscope is provided with an auscultation shell, and a vibration sensor is fixed inside the auscultation shell through a bolt. The utility model can realize the listening and watching of the detected data, improve the diagnostic accuracy and avoid the influence of noise on the detection result; the tray is fixed on the back of the display screen of the stethoscope, so that the stethoscope is convenient to use; by arranging the stethoscope control button, the time for measuring the heart rate can be adjusted.

Description

Novel high-precision electronic stethoscope

Technical Field

The utility model belongs to the technical field of the medical auscultation, especially, relate to a novel high accuracy electron stethoscope.

Background

At present, heart sound and respiratory sound signals are important clinical medical signals, are important bases for distinguishing heart diseases and respiratory diseases, and are important information for doctors to analyze etiology and focus. Nowadays, auscultation is still the main means for doctors to perform examination in the diagnosis of heart diseases and respiratory diseases, and has the advantages of no trauma, convenience, economy and the like in vitro examination, so that auscultation is widely applied and cannot be replaced. However, the existing electronic stethoscope is easy to reduce the accuracy of auscultation due to the interference of noise under the condition of noise. Meanwhile, the ear plugs in the existing electronic stethoscope are inserted into the ears for a long time, and sweat can appear in the ears of medical staff.

In summary, the technical problems in the prior art are as follows:

(1) the existing electronic stethoscope is easy to reduce the accuracy of auscultation due to the interference of noise under the condition of noise.

(2) The ear plugs in the existing electronic stethoscope are inserted into the ears for a long time, and sweat can appear in the ears of medical staff.

SUMMERY OF THE UTILITY MODEL

To the problem that prior art exists, the utility model provides a novel high accuracy electron stethoscope.

The utility model is realized in such a way that a novel high-precision electronic stethoscope is provided with auscultation earplugs which are positioned at the upper end of the electronic stethoscope and are provided with a left ear auscultation earplug and a right ear auscultation earplug;

the stethoscope display is positioned in the middle of the electronic stethoscope and is shaped like a flat rectangle; a display screen is embedded on the display screen of the stethoscope, a stethoscope control button is embedded at the lower end of the display screen, and a tray is fixed at the back of the display screen of the stethoscope through bolts;

the lower end of the electronic stethoscope is provided with an auscultation shell, and a vibration sensor is fixed in the auscultation shell through a bolt; the stethoscope display is respectively connected with the auscultation earplugs and the auscultation shell through a hose, and a data cable is arranged inside the hose;

the stethoscope display is respectively connected with the vibration sensor and the auscultation ear plugs, so that the detected data can be listened and watched, the diagnosis accuracy is improved, and the detection result is prevented from being influenced by noise; the tray is fixed on the back of the display screen of the stethoscope, so that the stethoscope is convenient to use; by arranging the stethoscope control button, the time for measuring the heart rate can be adjusted.

Further, the sound output cylinder is provided with a sound output cylinder shell, the sound output cylinder shell is connected with the rubber sleeve through threads, and the outer side of the rubber sleeve is adhered with a sponge bulge;

the shell of the sound output cylinder is connected with the rubber sleeve through threads, so that the earplugs are prevented from falling off after being used for a long time; and meanwhile, the sponge bulge is arranged, so that the comfort and the air permeability of medical personnel are improved in the wearing process.

Further, an arched iron sheet is fixed inside the auscultation earplug, and a coil and a magnet are sleeved inside the arched iron sheet; the upper ends of the arched iron sheets are fixed with coils and magnets, and the upper ends of the coils and the magnets are embedded with diaphragm plates.

Through being provided with coil, magnetite and bow-shaped iron sheet, realize the output of sound, improve the definition of sound.

Furthermore, the upper end of the auscultation shell is embedded with a friction rubber bulge, and the lower end of the auscultation shell is adhered with a spongy cushion.

The friction rubber bulge is arranged, so that the slipping phenomenon is prevented in the auscultation process; and the lower end of the auscultation shell is provided with the spongy cushion, so that the comfort of a detector is improved.

Drawings

Fig. 1 is a schematic view of the overall structure provided by the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an electronic display of a stethoscope according to an embodiment of the present invention.

Fig. 3 is a schematic view of the auscultation shell structure provided by the embodiment of the present invention.

Fig. 4 is a schematic structural view of a friction rubber bump and a sponge pad provided by an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of an auscultation earplug according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a sound output tube according to an embodiment of the present invention.

In the figure: 1. auscultation earplugs; 2. a stethoscope display; 3. a vibration sensor; 4. an auscultation housing; 5. a stethoscope control button; 6. a hose; 7. rubbing the rubber bumps; 8. a sponge cushion; 9. a coil; 10. a drive rod; 11. a diaphragm plate; 12. a sound output cylinder; 13. a magnet; 14. iron sheets; 15. a rubber sleeve; 16. a sound output cartridge housing.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

In order to solve the above technical problem, the technical solution of the present invention is described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

Auscultation earplug 1 is located the electron stethoscope upper end, and auscultation earplug 1 is provided with left ear auscultation earplug and right ear auscultation earplug.

The stethoscope display 2 is positioned in the middle of the electronic stethoscope and is shaped like a flat rectangle; the display screen is embedded on the display screen 2 of the stethoscope, the control button 5 of the stethoscope is embedded at the lower end of the display screen, and the tray is fixed at the back of the display screen 2 of the stethoscope through bolts.

The lower end of the electronic stethoscope is provided with an auscultation shell 4, and a vibration sensor is fixed inside the auscultation shell 4 through a bolt; the stethoscope display 2 is respectively connected with the auscultation ear plugs 1 and the auscultation shell 4 through the flexible pipes 6, and the flexible pipes 6 are internally provided with data lines.

The stethoscope display 2, the vibration sensor 3 and the auscultation ear plugs 1 are respectively used for realizing the purpose of listening to detected data, improving the diagnostic accuracy and avoiding the influence on the detection result due to noise; the back of the display screen 2 of the stethoscope is fixed with the tray, so that the stethoscope is convenient to use; by providing the stethoscope control button 5, the length of time to measure the heart rate can be adjusted.

Example 2

The sound output tube 12 is provided with a sound output tube shell 16, the sound output tube shell 16 is connected with a rubber sleeve 15 through threads, and a sponge bulge is adhered to the outer side of the rubber sleeve 15.

The sound output tube shell 16 is connected with the rubber sleeve 15 through threads, so that the earplugs are prevented from falling off after being used for a long time; and meanwhile, the sponge bulge is arranged, so that the comfort and the air permeability of medical personnel are improved in the wearing process.

Example 3

An arch-shaped iron sheet 14 is fixed inside the auscultation earplug 1, and a coil 9 and a magnet 13 are sleeved inside the arch-shaped iron sheet 14; the upper ends of the arched iron sheets 14 are fixed with the coils 9 and the magnets 13, and the diaphragm plates 11 are embedded at the upper ends of the coils 9 and the magnets 13.

By providing the coil 9, the magnet 13, and the arcuate iron piece 14, the output of sound is realized, and the clarity of sound is improved.

Example 4

The upper end of the auscultation shell 4 is embedded with a friction rubber bulge 7, and the lower end of the auscultation shell 4 is adhered with a spongy cushion 8.

The friction rubber bulge 7 is arranged, so that the slipping phenomenon is prevented in the auscultation process; and the lower end of the auscultation shell 4 is provided with a spongy cushion 8, so that the comfort of a detector is improved.

The utility model discloses a theory of operation does:

the auscultation earplug 1 is inserted on the ear, one hand is used for supporting the display 2 of the stethoscope by a tray, and the other hand is used for holding the auscultation shell 4; the vibration sensor 3 is used for detecting corresponding vibration information, the vibration information is transmitted to the stethoscope display 2, and the display screen is used for displaying the vibration information; the stethoscope display 2 transmits data to the auscultating ear plugs 1, and outputs the vibrating sound.

Wherein, the back of the display screen 2 of the stethoscope is fixed with the tray, which is convenient for the stethoscope to use; by providing the stethoscope control button 5, the length of time to measure the heart rate can be adjusted. The friction rubber bulge 7 is arranged, so that the slipping phenomenon is prevented in the auscultation process; and the lower end of the auscultation shell 4 is provided with a spongy cushion 8, so that the comfort of a detector is improved.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all the modifications and equivalents of the technical spirit of the present invention to any simple modifications of the above embodiments are within the scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a novel high accuracy electronic stethoscope, its characterized in that, novel high accuracy electronic stethoscope is provided with:

auscultation earplugs;

the auscultation ear plugs are positioned at the upper ends of the electronic stethoscopes and are provided with left ear auscultation ear plugs and right ear auscultation ear plugs;

the display of the stethoscope is positioned in the middle of the electronic stethoscope, the display screen of the stethoscope is embedded with the display screen, and the lower end of the display screen is embedded with the control button of the stethoscope;

the lower end of the electronic stethoscope is provided with an auscultation shell, and a vibration sensor is fixed in the auscultation shell through a bolt; the stethoscope display is respectively connected with the auscultation earplugs and the auscultation shell through a hose, and a data cable is arranged inside the hose;

the sound output cylinder is provided with a sound output cylinder shell, the sound output cylinder shell is connected with the rubber sleeve through threads, and the sponge bulge is pasted on the outer side of the rubber sleeve.

2. The novel high-precision electronic stethoscope according to claim 1, wherein an arched iron sheet is fixed inside the auscultation ear plug, and a coil and a magnet are sleeved inside the arched iron sheet; the upper ends of the arched iron sheets are fixed with coils and magnets, and the upper ends of the coils and the magnets are embedded with diaphragm plates.

3. The new high precision electronic stethoscope according to claim 1, wherein said stethoscope shell has friction rubber protrusions embedded in its upper end and a sponge pad adhered to its lower end.

4. The new high precision electronic stethoscope according to claim 1, wherein said stethoscope display is shaped as a flat rectangular shape.

5. The novel high-precision electronic stethoscope according to claim 1, wherein a tray is fixed to the back of the display screen of said stethoscope by bolts.

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