KR100987173B1 - Shock wave generator of extracorporeal shock wave lithotripsy - Google Patents

Abstract

PURPOSE: A shock wave generator of an extracorporeal shock wave lithotripsy machine is provided to improve a stone-free rate by improving the performance of a shock wave through an electron oscillation method. CONSTITUTION: A base ring(20) is made of insulating materials. The base ring has a space and a coil winding surface. A cap ring(30) is combined with the lower side of the base ring. A coil cylinder(60) surrounds the outer surface of the coil. One pair of plug screws(50) are inserted into the upper side of the base ring. A screw cap(80) surrounds the outer surface of the plug screw.

Description

Shock Wave Generator of Extracorporeal Shock Wave Crusher {Shock Wave Generator of Extracorporeal Shock Wave Lithotripsy}

The present invention relates to a shock wave generator of an extracorporeal shock wave crusher, and more particularly, to improve the performance of the shock wave generation by the electromagnetic field (electromagnetic vibration) method to focus the pressure wave generated by vibrating the metal film with an electromagnet to generate a shock wave It is designed to increase the crushed stone rate more than the spark gap type, which greatly improves the quality and reliability of the product, so that the patient can be a good image.

As is well known, extracorporeal shock wave lithotripsy is the most innovative and non-invasive advanced treatment for urolithiasis, and has recently become the primary choice for urolithiasis. It uses the principle that shows the strong impact effect generated when the high-energy shock wave generated by special electronic devices is concentrated in one place, and the shock wave generated outside the body focuses on the stones in the body and fires the kidney and urinary stones less than 2mm. It is a device that allows natural discharge through urine after crushing into small powders. In particular, the shock wave passes through the human tissues that contain a lot of water and water, and thus does not damage the kidneys or surrounding tissues.

Urinary tract stones are formed by complex factors, such as malformations of the urinary tract, infections, degenerative diseases, endocrine and metabolic disorders, and are difficult to prevent or medically treat.

Surgical treatments have been mainly performed by incision surgery to open the kidneys or ureters under the skin incision and remove the stones directly, and percutaneous lithotripsy which removes the stones by inserting an endoscope through the passage from the flank skin to the kidneys.

However, these methods may be accompanied by complications such as severe pain, bleeding, and renal injury, and require general anesthesia and hospitalization for a certain period of time.

While a new method to reduce the physical and economic burden has been studied, the stone pulverization method using an extracorporeal shock wave has been developed. It is a state-of-the-art treatment that can easily and safely treat more than 90% of urinary stones, and its effectiveness and safety have been recognized, and more than 1 million patients have been treated with crushers worldwide for the last decade.

The extracorporeal shock wave crusher is composed of three parts: a shock wave generator, a shock wave carrier, and a stone locator. The shock wave generator is the most important part of the crusher, and generates a shock wave that breaks stones. The shock wave generator is classified into a first generation and a second generation according to a technology for generating a shock wave. The first generation crusher collects the shock wave generated by the explosive action at the local point by using the elliptical reflection structure and explodes by using the laser beam and the crusher which uses the explosive action by the local heat through the powerful current through the electrode. There is a crusher to produce. Second-generation crushers are shock-waves generated by surface vibrations, not by explosive action, which include crushers that vibrate due to changes in the magnetic field between two metal plates and piezoelectric crushers by vibrations of a series of magnetic crystal surfaces listed in a circular plate. . Shock wave transmission medium uses water. Early crushers were inconvenient for patients to enter large water tanks, but recently developed crushers use water bags and do not need to exchange water. There are two types of stone location measuring devices: X-ray image amplification device and ultrasonic scanner.

In view of the above-described extracorporeal crushing lithotripsy,

First, the kidneys, ureters, bladder stones and gallbladder stones are treated without skin incisions or anesthesia, and there is no pain or damage to surrounding tissues such as kidneys, bones, and skin.

Second, as long as the absence is too large or there is no severe allergic disease, no hospitalization is necessary and normal life is possible after about 30 to 40 minutes of procedure.

Third, the stones grow and recur frequently, while other procedures are difficult to repeat, while shock fractures can be repeated.

Fourth, physical and economic burden is less because hospitalization, anesthesia, and medication are not necessary compared to other incisions.

Fifth, after complications, there are very few complications and sequelae, and it is a treatment method that has advantages such as safe operation for the elderly or metabolic disease.

As a prior art, a patent registration No. 0884568 (Application No. 2008-0082029) (name of the invention: a vibrating bulb of a shock wave generating device and a manufacturing method thereof) has been registered. That is, the conventional technique described above is shown in FIG. 1 (a) (b) (c) when the vibrating sphere of the shock wave generating apparatus and the vibrating sphere manufactured by the manufacturing method thereof are mounted on the electromagnetic shock wave generating apparatus 10. As described above, the coil 12 supported by the bobbin 11 made of an insulator applies an impulse current to the coil 12 through the coil connection terminal 13, and the magnetic field induced by the coil 12 is a vibrating hole. The shock wave is converted into vibration by 14, and propagates the shock wave in the direction perpendicular to the horizontal line at the outer circumference of the vibrating hole 14. The shock wave is reflected in the propagation direction of the shock wave through the reflecting plate 15 disposed outside the vibrator 14 at the same angle and is concentrated at an arbitrary focal point to focus on the affected part of the human body. The effect can be obtained. As a result, the vibrator 14 of the present invention allows the shock wave to be evenly transmitted to the reflector plate 15 as the machining degree (roundness, straightness, concentricity) of the outer circumference is precisely processed, thereby generating a shock wave generated in the impact generating device. Its important function is to make it possible to focus shock waves more effectively at any one focus while reducing losses. However, the above-described prior art also has many problems as follows. That is, the conventional technology has a big problem that the crushing rate is not high because the generation of shock waves is small. In addition, the prior art has a problem that the pain is so severe that the patient can not move during the procedure because the shock wave is generated less. In addition, the prior art has a big problem that can not be crushed by the ultrasonic wave of the invisible kidney or upper ureter stones because the generation of shock waves are small. In addition, the prior art has a big problem that the shock wave is refracted because the vibrating sphere is not precise, the sealing role and the coil is not protected. In particular, the above-described prior art has various problems such as poor sealing and poor fastening force with the reflector.

The present invention has been made to solve the above problems of the prior art, and improves the performance of shock wave generation by the electromagnetic (electromagnetic vibration) method of generating a shock wave by focusing the pressure wave generated by vibrating the metal film with an electromagnet The first object is to provide a shock wave generator to increase the crushed stone rate, the second object of the present invention according to the above technical configuration is to generate a shock wave by focusing the pressure wave generated by vibrating the metal film with an electromagnet By improving the performance of shock wave generation by the electromagnetic (electromagnetic vibration) method, it is possible to increase the crushed stone rate than the spark gap type, and the third purpose is to improve the performance of the shock wave generation so that the patient can sleep. It is painful enough to have painless advantage, and the fourth purpose is not visible because of the improved performance of shock wave generation. It is possible to crush the kidney or ureter stones which are not in the form of ultrasound. The sixth objective is to precisely configure the cylinder coil to serve as a tight seal and to protect the coil completely so that the shock wave is not refracted. In particular, the seventh purpose of the present invention is that the parts of the present invention have good sealing property and good fastening force with the reflector. Shock wave generators for extracorporeal shock wave crushers are provided for planting images.

In order to achieve the above object, the present invention is provided between a controller for adjusting the intensity and number of shock waves and a reflector for transmitting shock waves to a patient, and an electromagnetic field for generating shock waves by focusing pressure waves generated by vibrating a metal film with an electromagnet. It provides a shock wave generator of the extracorporeal shock wave crusher, characterized in that it is provided; by the (electromagnetic vibration) system to improve the performance of the shock wave generation to increase the crushing rate.

As described in detail above, the present invention improves the performance of shock wave generation by an electromagnetic field (electromagnetic vibration) method of focusing pressure waves generated by vibrating a metal film with an electromagnet to generate shock waves, thereby increasing the crushed stone rate. Will be provided.

The second object of the present invention by the above technical configuration is to improve the performance of the shock wave generation by the electromagnetic (electromagnetic vibration) method of generating a shock wave by focusing the pressure wave generated by vibrating the metal film with an electromagnet spark gap (Spark gap) This is to increase the crushed stone rate than the) type.

And the present invention has the advantage of close to painless pain to the extent that the patient can sleep by improving the performance of the shock wave.

In addition, the present invention improves the performance of the shock wave generation is to be able to crush stones invisible kidney or ureter stones by using ultrasonic waves.

In addition, the present invention is to use the shock wave focusing method divided into the acoustic lens method (the method of focusing the pressure wave from the cylinder to the lens) and the water surface method (the method of focusing the pressure wave from the side of the cylinder to focus). .

In addition, the present invention is a cylinder coil is precisely configured to serve as a tight sealing, as well as to completely protect the coil so that the shock wave is not refracted.

In particular, the parts of the present invention have the advantage of good sealing performance and good fastening force with the reflector.

The present invention is a very useful invention that can significantly improve the quality and reliability of the product due to the above-described effect to give a good image to the patient as a consumer.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this effect are as follows.

Figure 1 (a) (b) (c) is a partial incision showing the vacuum port of the conventional shock wave generator
Cross section showing the direction and direction of the shock wave propagation.
Figure 2 is a perspective view of the shock wave generator of the external shock wave crusher applied to the present invention.
Figure 3 is a front view of the shock wave generator of the extracorporeal shock wave crusher applied to the present invention.
4 is a plan view of the shock wave generator of the external shock wave crusher applied to the present invention.
5 is a cross-sectional view taken along the line AA of FIG. 4.
Figure 6 (a) is a perspective view of a ring base applied to the present invention,
(b) is a plan view of a ring base applied to the present invention,
(c) is a front sectional view of a ring base applied to the present invention,
(d) is sectional drawing along the BB line | wire of FIG. 6 (b),
(e) is a front view of a ring base applied to the present invention,
(f) is sectional drawing along the line DD of FIG.
Figure 7 is a cross-sectional view of the ring cap applied to the present invention.
8 is a cross-sectional view of the ring fixture applied to the present invention.
9 is a perspective view of a screw plug applied to the present invention.
10 is a perspective view of a cylinder coil applied to the present invention.
11 is a perspective view of a screw washer applied to the present invention.
12 is a perspective view of a cap screw applied to the present invention.

The shock wave generator of the extracorporeal shock wave crusher applied to the present invention is configured as shown in Figs.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, and may be changed according to the intention or custom of the producer, and the definitions thereof should be made based on the contents throughout the present specification.

First, the present invention is provided between the controller 3 for adjusting the intensity and frequency of the shock wave and the reflector 2 for transmitting the shock wave to the patient, as shown in FIGS. The shock wave generator 1 which concentrates the generated pressure wave and improves the performance of shock wave generation by the electromagnetic field (electromagnetic vibration) system which produces a shock wave, and can raise a crushed stone rate is provided.

In this case, the technical configuration of the shock wave generator 1 is as follows.

That is, as shown in FIG. 5, a space 21 is formed inside, and the outer coil winding surface 22 is provided with a base ring 20 made of a material of an insulator in which the coil 61 is wound.

The cap ring 30 is fastened to the lower end of the base ring 20.

In addition, a cylindrical coil cylinder 60 is precisely processed to cover the outer circumferential surface of the coil 61 to serve as a seal between the coil and the insulating paper.

In addition, it is fitted to the upper end of the base ring 20, a pair of plug screw 50 is provided with a locking jaw 51 is formed to protrude on the outer peripheral surface.

In addition, the screw cap (80) is installed on the outer circumferential surface of the plug screw (50), the shock wave generator of the external shock wave crusher is provided.

Referring to the technical configuration of the present invention configured as described above in more detail.

That is, as shown in the enlarged view of FIG. 7, when the coil cylinder 60 is fitted to the cap ring 30, the fitting groove 32 is formed to maintain airtightness.

In addition, the cap ring 30 is formed with at least one groove 31 into which the packing 33 is fitted in order to ensure airtightness when the base ring 20 is coupled with each other.

In the present invention, as shown in Figure 8, the outer ring of the base ring 20, the fixing ring 40 is assembled to be installed so as to closely fix the reflector (2).

In addition, at least one fixed o-ring 41 is assembled to maintain the airtightness between the base ring 20 and the reflector 2 applied to the present invention.

And the present invention, as shown in Figure 11 is fastened to the plug screw 50 is formed in the center through the fastening hole 71 is formed, the outer peripheral surface is fastened to the inner peripheral surface of the screw cap 80 is cut so as not to rotate ( The washer screw 70 formed with 72 is assembled.

In addition, the present invention, as shown in Figure 12, the screw cap 80 is a rotation preventing projection 81 is formed on one side, the top of the base ring 20, as shown in Figure 6 (a) the screw The screw cap insertion hole 27 and the anti-rotation protrusion insertion hole 28 are formed to fit the cap 80.

And the upper end of the base ring 20 applied to the present invention as shown in Figure 6 (a) (c) (d) (e) (f) withdraws the tip coil 61 connected to the plug screw 50 The first and second coil through holes 25a and 25b are formed horizontally and vertically, respectively, and a fourth coil through hole 26b through which the coil 61 passes is formed. A third coil passage hole 26a is formed in the longitudinal direction in the base ring 20 so as to be in communication with each other (26a).

In addition, the outer circumferential surface of the coil 61 and the outer circumferential surface of the coil cylinder 60 applied to the present invention are provided with insulating paper 62 as shown in the enlarged view of FIG. 5.

And at the upper end of the base ring 20, the main packing 90 is assembled and installed to maintain the airtight when combined with the control unit 3, and at least the guide O-ring 91 is fitted to the upper periphery of the base ring 20 One or more grooves 24 are formed to provide the shock wave generator of the extracorporeal shock wave crusher.

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Referring to the effects of the shock wave generator of the present invention shock wave crusher configured as described above are as follows.

First, the present invention improves the performance of shock wave generation by the electromagnetic (electromagnetic vibration) method of focusing pressure waves generated by vibrating a metal film with an electromagnet to generate shock waves, thereby increasing the crushed stone rate more than the spark gap type. I would have to.

To this end, the present invention first inserts two plug screws 50 of FIG. 9 into the base ring 20 through the screw cap insertion holes 27 and 27a shown in FIG. As shown in the cross-sectional view of the engaging jaw 51 is caught.

At this time, the coil 61 is connected to the lower end of each plug screw 50, of course.

In the above state, the washer screw 70 as shown in FIG. 11 is inserted into the screw cap 80 and then inserted into the plug screw 50. Then, a part of the upper end of the plug screw 50 protrudes outward through the upper through hole 82 of the screw cap 80. This is for connecting with an external terminal.

In this case, the washers 70 prevent the self-rotation because the cutting surfaces 72 are formed on both sides of the outer circumferential surface, and the anti-rotation protrusions 81 are inserted into the anti-rotation protrusion insertion holes 28 and 28a, respectively, to prevent the self-rotation. Done.

Thereafter, the one end of the coil 61 is taken out through the first and second coil through holes 25a and 25b and then wound on the coil winding surface 22, and the coil 61 at the other end is The coil winding surface 22 is wound around the third and fourth coil through holes 26a and 26b.

As described above, an insulating paper 62 which protects the coil 61 and prevents the coil 61 from being unwound is closely wound on the outer circumferential surface of the coil 61 wound thereon.

A precisely processed coil cylinder 60 is fitted to the outer circumferential surface of the insulating paper 62, and the insulating paper 62 is tightly wound again on the outer circumferential surface of the coil cylinder 60.

In this case, the coil cylinder 60 provides a cylindrical effect of precisely lathe machining with a tolerance of ± 3/100, so that the shock wave is radiated without refraction.

In addition, the present invention is that the cap ring 30 shown in Figure 7 is assembled to the lower end of the base ring 20, the body 31 is fitted in the groove 31 to maintain the airtight, fitting groove 32 ) Is coupled to the coil cylinder 60 to maintain airtightness.

And the present invention is installed on the reflector 2 is assembled to the base ring 20, the reflector 2 is fitted to the fixing ring 40 as shown in Figure 8 to the outer peripheral surface of the base ring 20 is firmly installed do.

At this time, between the fixing ring 40 and the base ring 20, the fixed o-ring 41 is in close contact with each other, thereby maintaining airtightness.

On the other hand, the present invention, as shown in FIG. 5, the main packing 90 is covered on the upper end of the base ring 20 to maintain mutual airtightness when assembling with the controller 3, and also shown in Figure 6 (c) As shown in the groove 24, the guide o-ring 91 is fitted to maintain close airtight contact with the may packing 90.

According to the technical operation of the present invention, the coil 61 wound on the outer circumferential surface of the base ring 20 made of an insulator causes an impulse current to be applied to the coil 61 through the plug screw 50, and the coil 61. The magnetic field induced at is converted into vibration by the coil cylinder 60 to propagate a shock wave in a direction perpendicular to the horizontal direction at the outer circumference of the coil cylinder 60.

At this time, the shock wave is reflected at the same angle by the propagation direction of the shock wave through the reflecting mirror 2 disposed outside the coil cylinder 60 and is concentrated at an arbitrary focal point to focus on the affected part of the human body. A great effect can be obtained.

Therefore, the coil cylinder 60 of the present invention allows the shock wave to be evenly transmitted to the reflector 2 as the machining degree (roundness, straightness, concentricity) of the outer periphery is precisely processed, thereby generating the shock wave generated in the shock generating device. It provides the effect of more effectively focusing shock waves at any one focus while reducing losses.

The technical idea of the shock wave generator of the external shock wave crusher of the present invention is actually capable of repeating the same result, and in particular, by implementing the present invention, it is possible to promote the technological development and contribute to the industrial development, which is worth protecting.

<Explanation of symbols for the main parts of the drawings>
1: shock wave generator 2: reflector
3: controller 20: bass ring
30: cap ring 40: retaining ring
50: plug screw 60: coil cylinder
70: washer screw 80: screw cap

Claims (11)

delete An electric field (electromagnetic vibration) provided between the controller 3 for adjusting the intensity and the number of shock waves and the reflector 2 for transmitting shock waves to a patient, focusing pressure waves generated by vibrating a metal film with an electromagnet (electromagnetic vibration). In the shock wave generator of an external shock wave crusher equipped with a shock wave generator (1) to improve the performance of the shock wave generation by the method to increase the crushing rate,
The shock wave generator 1,
A space portion 21 is formed inside, and the outer coil winding surface 22 includes a base ring 20 made of a material of an insulator in which the coil 61 is wound;
Cap ring 30 is fastened to the bottom of the base ring;
A cylindrical coil cylinder 60 covered with an outer circumferential surface of the coil and precisely processed to serve as a seal between the coil and insulating paper;
A pair of plug screws 50 fitted to an upper end of the base ring and having a locking jaw 51 formed to protrude on an outer circumferential surface thereof; And
Shock wave generator of the external shock wave crusher, characterized in that the screw cap (80) is installed on the outer circumferential surface of the plug screw.
The method of claim 2,
When the coil cylinder 60 is inserted into the cap ring 30, the fitting groove 32 is further formed to maintain the airtight shock wave generator of the external shock wave crusher.
The method of claim 2,
Shock cap generator of the extracorporeal shock wave crusher, characterized in that the cap ring 30 is further formed with at least one groove (31) in which the packing (33) is fitted in order to ensure airtightness when the base ring 20 and the base ring (20).
The method of claim 2,
Shock wave generator of the extracorporeal shock wave crusher, characterized in that the fixing ring 40 is further assembled and installed on the outer circumferential surface of the base ring 20 to closely install the reflector (2).
The method according to claim 5,
Shock wave generator of the extracorporeal shock wave crusher, characterized in that at least one or more fixed o-ring (41) is further assembled and installed between the base ring (20) and the reflector (2) to maintain the airtightness.
The method of claim 2,
The washer screw 70 is formed in the center to be fastened to the plug screw 50, the washer screw 70 is formed on the outer circumferential surface has a cut surface 72 is fastened to the inner circumferential surface of the screw cap 80 to prevent rotation; Shock wave generator of extracorporeal shock wave crusher, characterized in that the assembly is further installed.
The method of claim 2,
The screw cap 80 is formed with a rotation preventing projection 81 on one side, the upper end of the base ring 20, a pair of screw cap insertion holes 27, 27a and the rotation preventing projection so that the screw cap is fitted Shock wave generator of the extracorporeal shock wave crusher, characterized in that the insertion opening (28) (28a) is formed.
The method of claim 2,
First and second coil through-holes 25a and 25b for drawing out the tip coil 61 connected to the plug screw are respectively formed in the upper portion of the base ring 20, and the fourth coil through-holes through which the coil passes. And 26b, wherein a third coil through hole 26a is formed inside the base ring so as to communicate with the fourth coil through hole.
The method of claim 2,
Shock wave generator of the external shock wave crusher, characterized in that the outer peripheral surface of the coil 61 and the outer circumferential surface of the coil cylinder (60) is respectively covered with insulating paper (62).
The method of claim 2,
At least one main packing 90 is assembled and installed at the upper end of the base ring 20 to maintain airtightness when coupled with the control unit 3, and a guide o-ring 91 is fitted at the upper periphery of the base ring 20. Shock wave generator of the extracorporeal shock wave crusher, characterized in that the groove 24 is further formed.

Images