KR101115966B1 - Hemorrhoid artery measuring device - Google Patents

Abstract

The present invention relates to a hemorrhoidal artery measuring device, the hemorrhoidal artery measuring device is composed of the main body 10, the hemorrhoidal artery measuring rod 20, the power lead wire 30, which will be described in detail, using an ultrasonic doppler When the ultrasonic wave delivered from the probe site into the human body hits the red blood cells flowing in the blood vessel and returns, the frequency of the received ultrasonic wave is measured as a difference between the original frequency and the frequency of the ultrasound wave. The ultrasonic wave is generated to measure the probe area. Connect the main body 10, the hemorrhoidal artery measuring rod 20 for measuring the arterial pulsation of the probe site by the ultrasonic waves generated from the main body, and connect the hemorrhoidal artery measuring rod 20 and the main body 10 to transmit ultrasonic waves It relates to a hemorrhoidal artery measuring device, characterized in that consisting of a power lead wire 30 to be.

Description

Hemorrhoid artery measuring device

The present invention relates to a device for measuring hemorrhoidal arteries, which will be described in detail, when ultrasonic waves delivered into the human body from the hemorrhoids, which are the probe sites using ultrasonic doppler, are returned to the red blood cells flowing through the blood vessel, the frequency of the received ultrasonic waves is originally transmitted. It is measured by the difference of the frequency that is different from the frequency of the main body 10 for generating an ultrasonic wave so as to measure the hemorrhoids as the probe site, and the hemorrhoids for measuring the arterial foil of the probe site by the ultrasonic waves generated from the main body. It relates to a hemorrhoidal artery measuring device, characterized in that the artery measuring rod 20, the hemorrhoidal artery measuring rod 20 and the main body 10 is connected to the power lead wire 30 to transmit ultrasonic waves.

In general, Doppler ultrasound has been used to measure blood flow rate for many years and has been used to determine the blood flow characteristics of patients using ultrasonic Doppler. The Doppler effect is the phenomenon that the frequency of sound waves returned when there is movement between the sound source and the reflector is changed. In this case, the frequency shift of sound waves is Doppler displacement. By applying this to vascular ultrasound, when the ultrasound transmitted from the transducer into the human body hits the red blood cells flowing in the blood vessel, the frequency of the received ultrasound is different from the original frequency delivered, this difference is used in the image. Doppler ultrasound is a test that calculates this frequency displacement and simultaneously shows Doppler and ultrasound that can know blood flow in blood vessels, and can evaluate the degree of narrowing by identifying the deposition state of blood waste (curing plaque) or blood flow rate. . Higher resolutions than computed tomography (CT) or magnetic resonance imaging (MRI) allow the detection of microscopic sclerotic plaques in blood vessels, as well as real-time evaluation of blood flow in all blood vessels in areas that can be evaluated by ultrasound.

Hemorrhoids are cushions in the anal canal called submucosal muscles that combine blood vessels and connective tissue for shock relief against bowel movements, which help to prevent fecal incontinence, mainly located in the right anterior lateral, posterior lateral and left lateral. do. Abdominal pressure and stool lump caused by repeated bowel movements and urges to see stools are caused to squeeze the submucosa and congestion. Perianal tissue degeneration reduces the elasticity of the tissues around the anal canal. To achieve. When looking at the stools, these lumps of wounds cause bleeding, and as they descend downward, they become larger and show signs of anus falling out.

Internal hemorrhoids are first-degree hemorrhoids that initially protrude into the anal canal, sometimes accompanied by bleeding, and second-degree hemorrhoids that spontaneously descend to the anal opening and then return to their original position with discontinuation of bowel movements. It must be pushed out or pushed back into 3rd hemorrhoids, and 4th hemorrhoids, which do not enter, cause necrosis and pain.

Only when the thrombus (blood rice cake) is formed necrosis is pain, there may be bleeding, itching, discharge.

In order to diagnose such internal hemorrhoids, bowel angiography may be performed to discriminate from rectal prolapse or obstructive bowel disorder, or S (S) colonoscopy or colonoscopy may be performed to differentiate from malignant tumor or inflammatory bowel disease.

However, in the case of a general measuring device, there is usually a difficulty in finding the right direction at the wrong depth or the wrong direction, and in the case of the measuring equipment using Doppler ultrasound, most of them are expensive equipment. It is not enough to use easily in the hospital, and many of the measuring equipment is bulky and has a lot of problems such as a lot of space constraints.

In order to solve the above problems, in the present invention, the main body 10 for generating ultrasonic waves so as to measure the hemorrhoids as the probe site, and the hemorrhoidal artery measuring rod for measuring the arterial foil of the probe site by the ultrasonic waves generated from the main body. By using the hemorrhoidal artery measuring device composed of a power lead wire 30 for connecting the hemorrhoidal artery measuring rod 20 and the main body 10 to transmit ultrasonic waves, the arterial foil is measured from the hemorrhoid which is the probe site. To provide a hemorrhoidal artery measuring device that can be easily and easily carried by measuring the search part by carrying out an elastic ligation by tying the retrieved hemorrhoid with annular (ring-shaped) rubber. .

According to the present invention as described above through the hemorrhoidal artery measuring device to remove the hemorrhoids around the hemorrhoids in order to remove the hemorrhoids in the large intestine of the subject with hemorrhoids, through this to block the artery connected to the hemorrhoids to remove unnecessary hemorrhoids As an operation to perform, there is an effect that the operation and management of the disease can be easily performed as compared to the previous surgical techniques, and thus it is expected to reduce the time and economical costs.

1 is an overall configuration of the hemorrhoidal artery measuring device
2 is an exploded view of the main body of the hemorrhoidal artery measuring device

The device for measuring hemorrhoidal artery according to the present invention uses an ultrasonic doppler to measure the frequency of the received ultrasound when the ultrasound transmitted from the probe into the human body hits the red blood cells flowing in the blood vessel and returns from the original frequency. In that,

1 is a diagram showing the overall configuration of the hemorrhoidal artery measuring apparatus, which will be described in detail. The hemorrhoidal artery measuring apparatus includes a main body 10, a hemorrhoidal artery measuring rod 20, and a power lead wire 30. In detail, the main body 10 for generating ultrasonic waves so that the probe site can be measured, the hemorrhoid artery measuring rod 20 for measuring the arterial pulsation of the probe site by the ultrasonic waves generated from the main body, and the hemorrhoidal artery measurement It consists of a power lead wire 30 to connect the rod 20 and the main body 10 to transmit the ultrasonic waves.

Figure 2 shows the main body exploded view of the hemorrhoidal artery measuring device described in detail,

First, the main body 10 converts the reception frequency of the ultrasonic Doppler measuring the arterial pulse from the hemorrhoid which is the probe site by the ultrasonic Doppler generator 11 and the ultrasonic protrusion 22 configured to transmit and receive the ultrasonic Doppler therein. The control unit 12 to adjust so as to adjust, the sound controller 13 to adjust the intensity of the ultrasonic sound received from the probe site, the sound control graph LCD window 14 so that the sound of the ultrasonic Doppler received from the probe site can be observed from outside the main body. ), A main body 10 including a speaker 15 for amplifying the sound of the ultrasonic Doppler received from the probe site so that the user can hear the battery, and a battery storage box 16 for supplying power by mounting a battery in the rear of the main body. (See FIG. 1).

And, the sound controller 13 is configured to be derived on one side of the outside of the main body to have on / off power and the size control function of the sound, the other side of the handle portion of the hemorrhoidal artery measuring rod 20 ( The handle binding portion 17 (not shown) is configured so that 21 is attached to the main body 10.

Hemorrhoidal artery measuring rod 20 for measuring the arterial pulsation of the probe site by the ultrasonic wave generated from the main body 10 is a rod-shaped handle portion 21 for gripping, and 'b' in one region Hemorrhoidal artery measurement unit 23 is formed with an ultrasonic projection 22 bent in a shape,

The ultrasonic projection 22 is to measure the arterial pulsation from the hemorrhoids, which are the probe sites, and to perform an annular rubber ligation by tying the retrieved hemorrhoids with an annular (ring-shaped) rubber.

The power lead wire 30 is connected to the handle portion 21 of the hemorrhoidal artery measurement rod 20 so that ultrasonic waves from the ultrasonic generator 11 of the main body 10 are transmitted to the hemorrhoidal artery measurement rod 20. ) Is configured to connect to

Both ends of the power lead wire 30 are coupled to and detachable from the handle portion 21 and the main body 10, so that the power lead wire 30 can be individually disinfected.

The device for measuring hemorrhoidal arteries as described above may perform an annular rubber ligation by measuring the arterial foil from the hemorrhoid which is the probe site by using an ultrasonic doppler, and binding the detected hemorrhoids with a ring of rubber. It is a hemorrhoidal artery measuring device configured to measure the search part by carrying it very simply and easily.

10: main body 11: ultrasonic doppler generator
12: control unit 13: sound controller
14: LCD window 15: speaker
16: battery storage box 17: handle binding portion
20: hemorrhoidal artery measuring rod 21: handle
22: ultrasonic projection 23: hemorrhoidal artery measurement unit
30: power lead wire

Claims (1)

In the hemorrhoidal artery measuring device using ultrasonic Doppler,
The main body 10 has an ultrasonic doppler generator 11 and an ultrasonic projection 22 therein, and a control unit 12 for adjusting the reception frequency of the ultrasonic doppler measuring the arterial pulsation from the hemorrhoid that is the probe site, the probe site. Acoustic controller 13 for adjusting the intensity of the ultrasonic sound received from the sound control graph LCD window 14, so that the sound of the ultrasonic Doppler received from the probe site can be observed from outside the main body,
A main body 10 including a speaker 15 for amplifying the sound of the ultrasonic Doppler received from the probe site so that the operator can hear the battery, a battery storage box 16 for supplying power by mounting a battery in the rear of the main body,

Hemorrhoidal artery measuring rod 20 for measuring the arterial pulsation of the probe site by the ultrasonic wave generated from the main body 10 is a rod-shaped handle portion 21 for gripping, and 'b' (reverse) in one region Hemorrhoidal artery measurement rod 20 having a hemorrhoidal artery measurement unit 23 formed with an ultrasonic protrusion 22 curved in a shape, and

Both ends of the power lead wire 30 connected to the main body 10 and the handle portion 21 of the hemorrhoid artery measurement rod 20 connect the handle portion 21 and the main body 10 of the hemorrhoid artery measurement rod 20. Hemorrhoidal artery measuring device, characterized in that it is configured to be coupled and detachable

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