CN214208346U - Tweezers type wireless blood oxygen detector - Google Patents

Abstract

The utility model discloses a forceps-type wireless blood oxygen detector, which comprises a main body and a terminal, wherein the main body is of a hollow structure and is integrally in a forceps shape, and comprises two heads and two rod parts; an infrared detection module is arranged in one head part and comprises an infrared light emitting component and a light sensing receiving component; a data processing module is arranged in the middle of the rod part connected with the head part where the infrared detection module is located; the data processing module is in wireless connection with the terminal, and the terminal comprises a display screen. The utility model provides a wireless blood oxygen detector of tweezers type wholly is tweezers form, and the pointed end is the arc, can stretch into the incision and carry out the non-invasive oxyhemoglobin saturation detection to the blood vessel in the vein ligation art, distinguishes this blood vessel and be vein blood vessel or artery blood vessel, and the accurate and detection method of testing result is simple and convenient.

Description

Tweezers type wireless blood oxygen detector

Technical Field

The utility model relates to a wireless blood oxygen check out test set field especially relates to a wireless blood oxygen detector of tweezers type.

Background

In the existing treatment of varicocele diseases, conservative treatment or surgical treatment is generally selected according to clinical symptoms of patients and the influence on testicular function; conservative treatment is generally adopted for patients with early pathological changes, for example, the conditions of avoiding the activity of increasing the abdominal pressure, avoiding long-time standing and the like are avoided, and then medicine treatment is carried out; varicose ligation is needed for patients with marked scrotum swelling and discomfort symptoms or affecting testicular spermatogenic function and semen quality. In the vein ligation, the varicose veins and arteries are often closely accompanied in spermatic cord, so that an operator needs to distinguish whether each blood vessel is a varicose vein or an artery, ligate and disconnect the varicose vein, and reserve the varicose vein or the artery.

In the prior art, when a patient with varicocele is subjected to vein ligation, most of the methods for distinguishing venous arteries are traditional methods, the method with the help of instruments is ultrasonic Doppler probe detection, and distinguishing is carried out according to different pulse frequencies of veins and arteries, but if partial pulsation of blood vessels is not obvious, the detection accuracy is questioned, and other distinguishing methods have the condition of inaccurate distinguishing in different aspects. The biggest difference between the artery and the vein is the difference of the blood oxygen saturation, and a doctor can achieve the purpose of distinguishing the vein from the artery according to the different blood oxygen saturation of the artery and the vein.

Therefore, there is a need for a wireless oximeter of forceps type that can detect the blood oxygen saturation in blood vessels and distinguish between arteries and veins.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's defect, provide a wireless blood oxygen detector of tweezers type of detectable intravascular oxyhemoglobin saturation.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme:

the utility model provides a forceps type wireless blood oxygen detector, the main body is a hollow structure and is in the shape of forceps as a whole, and the main body comprises two heads and two rod parts;

an infrared detection module is arranged in one head part and comprises an infrared light emitting component and a light sensing receiving component;

a data processing module is arranged in the middle of a rod part connected with the head part where the infrared detection module is located;

the data processing module is in wireless connection with the terminal, and the terminal comprises a display screen.

Furthermore, the data processing module comprises a power supply which is used for supplying power to the infrared detection module and the data processing module.

Furthermore, a switch is arranged on the data processing module and used for controlling the power supply.

Further, the data processing module comprises a data processing part and a Bluetooth; the data processing module is connected with the terminal through Bluetooth.

Further, the infrared light emitting component is two light emitting diodes for emitting infrared light of different wavelengths.

Furthermore, the tip of the head part, which is far away from the rod part, is arc-shaped, and the thickness of the tip is 1-5 mm.

Further, the included angle formed by the head part and the rod part is 120-160 degrees.

Furthermore, the outer sides of the two rod parts are provided with anti-skid stripes.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

the utility model provides a tweezers-type wireless blood oxygen detector, which is in the shape of tweezers, and the tip is arc-shaped, so that the wireless blood oxygen detector can be inserted into the incision during operation to separate blood vessels for detection without damaging the blood vessels and other tissues; set up infrared detection module through the head at wireless blood oxygen detector, set up data processing module in pole portion, can carry out the detection of noninvasive blood oxygen saturation to the blood vessel, accurately distinguish the blood vessel accurately and be vein or artery, and detection effect is accurate, and the testing process is simple and convenient.

Drawings

Fig. 1 is a schematic structural view of a forceps-type wireless blood oxygen detector provided by the present invention;

fig. 2 is another angle structure diagram of the forceps-type wireless blood oxygen detector provided by the present invention;

FIG. 3 is a block diagram of the connection between the main body and the terminal of the forceps-type wireless blood oxygen measuring device of the present invention;

wherein: 1-rod part, 2-head part, 3-infrared detection module, 4-data processing module, 5-terminal, 11-anti-skid stripe, 31-infrared light emitting part, 32-light sensing receiving part, 41-power supply, 42-Bluetooth, 43-data processing part, 44-switch and 51-display screen.

Detailed Description

The utility model provides a tweezers type wireless blood oxygen detector.

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings so as to better understand the present invention, but not limit the scope of the present invention.

As shown in fig. 1-2, the utility model provides a forceps-type wireless blood oxygen detector, which comprises a main body and a terminal 5, wherein the main body is a hollow structure and is integrally in the shape of forceps, and the main body comprises two heads 2 and two rods 1;

an infrared detection module 3 is arranged in one head part 2, the infrared detection module 3 comprises an infrared light emitting part 31 and a light sensing receiving part 32, and the head part 2 is made of a material which can enable light emitted by the infrared light emitting part 31 and the light sensing receiving part 32 to penetrate through the head part 2 to work; the infrared light emitting part 31 is two light emitting diodes for emitting red light and infrared light of different wavelengths; the wavelengths of the red light and the infrared light are 660nm and 940nm or 650nm and 910nm, respectively, and the light sensing receiving part 32 is responsible for sensing the strength change of the red light and the infrared light after passing through the blood vessel and converting the strength change into an electric signal.

A data processing module 4 is arranged in the middle of the rod part 1 connected with the head part 2 where the infrared detection module 3 is arranged; the data processing module 4 is wirelessly connected with the terminal 5, and the terminal 5 comprises a display screen 51. The terminal may be a computer or the like.

As shown in fig. 3, the data processing module 4 includes a power supply 41 for supplying power to the infrared detection module 3 and the data processing module 4; the data processing module 4 is provided with a switch 44 for controlling the power supply 41; the data processing module 4 comprises a data processing part 43 and a Bluetooth 42; the data processing module 4 is connected to the terminal 5 via bluetooth 42. The light sensation receiving part 32 is connected with the data processing part 43, the data processing part 43 calculates and converts the electric signal of the light sensation receiving part 32 into blood oxygen saturation data and sends the blood oxygen saturation data to the terminal 5 through Bluetooth, and the terminal 5 displays the blood oxygen saturation data on the display screen 51 for reference and judgment of a doctor.

The tip end of the head part 2, which is far away from the rod part 1, is arc-shaped, and the thickness is 1-5 mm; the radian is small, so that the head 2 can enter an incision and separate and clamp a blood vessel in the vein ligation operation; the curved tip ensures that the head 2 does not damage blood vessels and other tissue.

The included angle formed by the head part 2 and the rod part 1 is 120-160 degrees; the outer sides of the rod parts 1 are provided with anti-skid stripes 11; the head part 2 and the rod part 1 form a certain included angle, and the rod part 1 is provided with anti-slip stripes for convenient use and holding.

The utility model provides a tweezers type wireless blood oxygen detector's application method does: firstly, dissociating a blood vessel plexus after incision, and carefully separating each blood vessel; then, the forceps type wireless blood oxygen detector is inserted into the incision, each blood vessel is respectively clamped between the two head parts 2, the infrared detection module 3 is utilized to detect the blood oxygen saturation of each blood vessel, the detected blood oxygen saturation data is displayed on the display screen 51, and a doctor distinguishes the blood vessel as a vein or an artery according to the blood oxygen saturation; finally, the varicose veins are ligated and the arteries are left untreated.

The utility model provides a wireless blood oxygen detector of tweezers type prepares into the tweezers type in the wireless blood oxygen detector in with the conventional art, sets up detection module and processing module in head and pole portion respectively, makes its use in adaptation art, can carry out oxyhemoglobin saturation to intraoral blood vessel and detect, and detection method is simple, and the testing result credibility is higher, provides very big facility for the vein ligation art.

The present invention has been described in detail with reference to the specific embodiments, but the present invention is only by way of example and is not limited to the specific embodiments described above. Any equivalent modifications and substitutions to those skilled in the art are intended to be within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (8)

1. A forceps-type wireless blood oxygen detector is characterized by comprising a main body and a terminal (5), wherein the main body is of a hollow structure and is integrally in a forceps shape, and comprises two heads (2) and two rod parts (1);

an infrared detection module (3) is arranged in one head part (2), and the infrared detection module (3) comprises an infrared light emitting part (31) and a light sensing receiving part (32);

a data processing module (4) is arranged in the middle of the rod part (1) connected with the head part (2) where the infrared detection module (3) is located;

the data processing module (4) is in wireless connection with the terminal (5), and the terminal (5) comprises a display screen (51).

2. The forceps-type wireless oximeter according to claim 1, wherein the data processing module (4) comprises a power supply (41) for supplying power to the infrared detection module (3) and the data processing module (4).

3. The forceps-type wireless oximeter according to claim 2, wherein the data processing module (4) is provided with a switch (44) for controlling the power supply (41).

4. The forceps-type wireless oximeter according to claim 1, wherein the data processing module (4) comprises a data processing unit (43) and a bluetooth (42); the data processing module (4) is connected with the terminal (5) through the Bluetooth (42).

5. The forceps-type wireless blood oxygen detector according to claim 1, wherein the infrared light emitting unit (31) is two light emitting diodes for emitting infrared light of different wavelengths.

6. The forceps-type wireless blood oxygen detector according to claim 1, wherein the tip of the head (2) away from the shaft (1) is arc-shaped and has a thickness of 1-5 mm.

7. The forceps-type wireless blood oxygen detector according to claim 1, wherein the included angle formed by the head part (2) and the rod part (1) is 120-160 °.

8. The forceps-type wireless blood oxygen detector according to claim 1, wherein anti-slip stripes (11) are arranged on the outer sides of the two rod parts (1).

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