KR102006349B1 - Biopsy device - Google Patents

Abstract

The biological tissue specimen device according to the present invention includes a case forming a bar-shaped body having a length in the front and rear directions, and an inner needle having an accommodating space for accommodating a biopsy at the front end, And a first holder held by the coil spring, and an outer needle closing the receiving space while cutting the biopsy positioned in the receiving space with the front end portion while moving along the inner needle while receiving the inner needle. A loading block for pulling the first holder and the second holder connected to the second holder which is supported by the second coil spring in the inner space and disposed in front of the first holder, and connected to a plurality of connecting shafts in the inner space of the case. And a hinge shaft formed at a rear side of the case and connected to a loading block moving along an inner space of the case, thereby rotating the hinge shaft about an axis. And a loading lever for retracting the loading block along a space, and an opening lever for retracting the second holder while slidingly moving from the front to the rear of the case to open the receiving space of the first needle. To provide.

Description

Biological tissue sample device

According to the present invention, when the needle exposed from the case is penetrated into the biological part to be collected and the firing button is operated, the inner needle of the needle is momentarily advanced to the biological tissue to be collected to receive a part of the biological tissue in the receiving space, and time difference is obtained. The present invention relates to a biological tissue specimen device for sequentially collecting an outer needle along a inner needle to a biological tissue to be collected and cutting the biological tissue contained in the inner needle while closing the receiving space of the inner needle to collect the biological tissue.

In general, tissue biopsy is a test for identifying the tissue pathology of the organs of the human body (kidney, lung, liver, kidney, spleen, pancreas, etc.). The tissue biopsy is obtained in the most obvious way to determine the pathologic state of the organs in the human body is subjected to tissue biopsy through a microscope.

The tissue biopsy may be performed using an ultrasound guided fine needle biopsy under ultrasound or radiation instrument guidance, whereby an assisting practitioner may hold and assist with an ultrasound probe, or the operator may hold an ultrasound probe with one hand and with the other hand. The procedure is performed by holding a syringe or biopsy specimen.

In the Republic of Korea Patent Publication No. 10-2010-0024571, the invention is to extract the biological tissue by pushing the piston inside the cylinder forward or pulled backward for the biopsy and treatment of the living body with an aspiration Biopsy apparatus.

The global trend currently recommends against aspiration biopsy and recommends that tissue samples be obtained through core biopsy because aspiration biopsy has low sample accuracy and low sample acquisition rates.

In addition, the Republic of Korea Patent Publication No. 10-1998-0701687 is an invention to form a spring therein to collect the tissue by the elasticity of the spring, when a number of tests are carried out, there is a feature that the fatigue of the hand accumulates and the stability is lowered.

In addition, the conventional total biopsy sampler is large in size, and when collecting the tissue for cell examination, the hand holding the ultrasonic probe is released and the biopsy tissue sampler is operated with both hands, or one hand each. The ultrasonic probe must be held in place and the biopsy specimen can be operated with the other hand.

In this case, when operating the biopsy test harvester with both hands, it is difficult to confirm whether the test is being performed at the correct site, and thus requires an assistant operator.

On the other hand, when operating the biopsy test harvester with one hand there was a problem that may cause a medical accident by shaking.

The present invention is easy to hold in the hand, smaller cross-sectional area than the conventional small lung cancer can be aimed vertically, the dependence of the assistant is reduced, by selectively retracting only the outer needle, disassemble the device, or collected through the needle without damage It is an object of the present invention to provide a biological tissue sample device that is easy to collect tissue.

The biological tissue sample device according to the present invention has a space formed therein, and is provided with a case having a bar shape and being movable along an inner space of the case, and selectively operated by a user. A biopsy receptacle for advancing along the space and accommodating the biological tissue is provided to be movable along the inner space of the case. A biopsy cutting unit, a loading block connected to the biopsy receiving unit and the biopsy cutting unit with a plurality of connecting shafts in the inner space of the case, to pull the biopsy receiving unit and the biopsy cutting unit to the rear during the retreat movement, coupled to the rear outer side of the case And a loading block connected to a loading block moving along an inner space to retreat the loading block. A lever, and an open lever provided on the front side of the case and retracting the biopsy cutting part while selectively sliding backwards by the user's operation to open the biopsy receiving part.

At this time, the biopsy receiving portion according to the present invention is disposed in the inner needle and the inner space of the case is formed in the accommodating space for accommodating the biopsy in the front end, the rear end of the inner needle is coupled to the front surface, the first side on the upper side A first holder having a locking jaw, a first coil spring disposed behind the first holder in the inner space of the case, and disposed above the inner space of the case, And a first hook member for supporting a first catching jaw of the first holder retracting along the inner space of the case to maintain the compressed state of the first coil spring carrying the first holder.

And the biopsy cutting portion according to the present invention is a tubular having a hollow, advancing along the inner needle while receiving the inner needle through the hollow to close the receiving space while cutting the biopsy located in the receiving space of the inner needle A second holder disposed in an outer needle and an inner space of the case, the rear end of the outer needle being coupled to a front surface, and having a second catching jaw on the front upper side; and the second holder in the inner space of the case. A second coil spring disposed behind the second holder and holding the second holder on the front side of the case in which the second holder is disposed, and retreating along the inner space of the case; And a second hook member for supporting a second catching jaw of the second hook spring so as to maintain a compressed state of the second coil spring holding the second holder.

In addition, it is formed on the upper side of the case according to the present invention, and includes a firing button to operate the first hook member to release the first holder.

In addition, the firing button according to the present invention is disposed on the outside of the case, the pressing plate, the user's finger is placed, the shaft extending downward from the bottom of the pressing plate, and the fixed plate formed of a diameter larger than the diameter of the shaft at the bottom of the shaft And a launch preventing jaw extending in one radial direction from the bottom of the pressing plate, and a click protrusion formed at a lower portion of the fixing plate to form a vertical line with the launch preventing jaw.

The connecting shaft according to the present invention is spaced apart from each other, and a pair of first connecting shafts connecting the front surface of the first holder and the rear surface of the second holder through the second coil spring and spaced apart from each other. And a pair of second connecting shafts connecting the rear surface of the first holder and the front surface of the loading block through the first coil spring.

At this time, the biological tissue sample device according to the present invention forms a release piece for operating the second hook member on the front end of one of the pair of first connecting shafts.

In addition, the loading lever according to the present invention is coupled to the hinge shaft formed on the rear side of the case, and the handle piece is folded and rotated by the hinge axis to the shaft, respectively formed extending from the left and right of the handle piece, A coupling piece for interviewing the rear left and right sides, and a coupling hole formed in the coupling piece, the hinge hole is coupled to the hinge axis of the case and the loading hole is connected to the loading block.

In addition, it is provided on the front side of the case according to the present invention, and includes an open lever for retracting the biopsy cutting portion while selectively sliding back to move by the user operation, to open the biopsy receiving portion.

Here, the open lever according to the present invention is formed so as to be coupled to the lower portion of the front side of the case, the body forming a 'U' cross-section, extending upward from the inside of the body, to interview the front side of the second holder Include recession.

The biological tissue sample device according to the embodiment of the present invention has the following effects.

First, as the overall cross-sectional width of the specimen device is easier to grip in the hand, as the smaller than the conventional small lung cancer can be aimed vertically, it has the effect of increasing the accuracy of the specimen.

Second, since the inner and outer needles are loaded at the same time as the loading lever provided at the rear of the case is loaded at the same time, the dependency on the assistant is reduced, and a pair of connecting shafts are provided in the coil spring to minimize the eccentric stretching effect. .

Third, the front of the case is provided with an open lever for selectively retracting only the outer needle, there is an effect that the collection of biological tissue collected through the needle without disassembling or damaging the device.

1 is an exploded perspective view showing the decomposition of the components of the biological tissue sample device according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a cross-sectional view of the biological tissue sample device according to an embodiment of the present invention.
Figure 3 is an exemplary view showing a cross-sectional view of the operating state of the loading lever of the biological tissue specimen device according to an embodiment of the present invention.
4 is an exemplary view showing a state in which the inner needle of the biological tissue sample device according to an embodiment of the present invention is advanced in cross section.
5 is an exemplary view showing a state in which the outer needle of the biological tissue sample device according to an embodiment of the present invention is advanced in cross section.
Figure 6 is an exemplary view showing a cross-sectional view of operating the open lever of the biological tissue specimen device according to an embodiment of the present invention.
Figure 7 is an exemplary view showing another embodiment of the inner needle in accordance with the present invention.
Figure 8 is an exemplary view showing another embodiment of the inner needle in accordance with the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, these are equivalent to replaceable at the time of the present application It should be understood that there may be one variation.

In the present invention, when the needle exposed from the case penetrates the biological part to be collected and operates the firing button, the inner needle of the needle is momentarily advanced to the biological tissue to be collected to receive a part of the biological tissue in the receiving space, The present invention relates to a biological tissue specimen device for collecting biological tissue by closing the receiving space of the inner needle while cutting the biological tissue accommodated in the inner needle by sequentially moving the outer needle along the inner needle to the biological tissue to be collected. Looking in more detail with reference to the following.

1 to 6, the biological tissue sample device according to an embodiment of the present invention forms a bar-shaped body having a length in the front, rear direction, and the case 100 to form a space in the longitudinal direction therein and The biopsy receiving unit (unsigned) is provided to move along the inner space of the case 100 and selectively moves along the inner space of the case 100 by a user's operation to receive the biological tissue. A biopsy cutting part (not shown) is provided to move along an inner space of the case 100 and sequentially moves along the inner space of the case 100 as the biopsy receiving portion (unsigned) moves forward. It includes.

First, the case 100 will be described in more detail. As shown in FIGS. 1 and 2, the case 100 is cut in the longitudinal direction before and after, and is detachable to the left and right sides, and the case 100. The front end of the through-hole 101 is formed to penetrate, the rear of the hinge shaft 102 to the left and right outwards to form a protrusion.

At this time, the through-hole 101 through which the needle penetrates is formed in the case 100, and the closing cap 110 made of a metal material is screwed to the protrusion, and the needle is closed while closing the front end of the case 100. Guide to secure the straightness of the needle.

In addition, a guide long hole 103 is formed in the longitudinal direction at the rear of the case 100 in which the hinge shaft 102 is formed, and a coupling hole 500 is coupled to the upper surface of the middle part of the case 100. 104 is formed.

In addition, the inside of the case 100 is formed with a cylindrical space in the longitudinal direction before, after, a pair of diaphragm member 120 is provided in the space of the case 100, a cylindrical space It is divided into three spaces.

Here, the pair of diaphragm member 120 that partitions the space is preferably formed in a ring-shaped perforated center, a pair of fixing grooves 105 formed spaced apart on the inner circumferential surface of the case 100 The diaphragm member 120 is fixed to each.

Therefore, the diaphragm member 120 is seated and fixed to the pair of fixing grooves 105 formed on the inner circumferential surface of the case 100 so as to partition the space of the case 100 into three spaces.

The first holder 210, the biopsy cutting second holder 220, and the loading block 230 are respectively disposed in the three spaces partitioned by the diaphragm members 120, respectively. The holder 210 is disposed in the center space among the three spaces partitioned inside the case 100, and the second holder 210 is disposed in the front side space with respect to the center space, and is rearward with respect to the center space. The loading block 230 is disposed in the side space, and the second holder 220 of the biopsy cutting part, the first holder 210 of the biopsy receiving part, and the loading block 230 are arranged in series in the space of the case 100. do.

Here, the biopsy receiving portion according to an embodiment of the present invention includes an inner needle 10, the first holder 210, the first coil spring 310, the first hook member 410, Figures 2 to 5 As shown in FIG. 1, the first holder 210 disposed in the center space forms a cylindrical body so as to correspond to the space, and is supported by the first coil spring 310 to move forward of the space by the elastic repulsive force. When the first holder 210 moves backward along the space, the first holder in the first hook member 410 provided in the case 100 in the compressed state of the first coil spring 310 210 is caught to maintain the first coil spring 310 in a compressed state.

In this case, it is preferable that the first catching jaw 211 corresponding to the first hook member 410 is formed to protrude from the upper side of the first holder 210, and the inner needle at the front end of the first holder 210. The rear end of the 10 is connected, the inner needle 10 is formed in the front receiving space 11 for receiving a biopsy. The biopsy is taken through the receiving space 11 by advancing forward by the first holder 210 advancing by the elastic repulsive force of the first coil spring 310.

Here, the receiving space 11 of the inner needle 10 is formed in a plurality as shown in Figure 2 to increase the acquisition rate of the biopsy, wherein the plurality of receiving space 11 is the outer periphery of the inner needle Is preferably formed accordingly.

Therefore, when the first holder 210 is moved to the rear in which the first coil spring 310 is compressed while being held by the first coil spring 310 in the center space of the case 100, the first hook The first catching jaw 211 of the first holder 210 is caught by the member 410, and the first holder 210 is intermittently moved forward to intercept the first coil in the center space of the case 100. The spring 310 is kept compressed. When the first hook member 410 is operated to release the first holder 210, the first holder 210 moves forward by the elastic repulsive force of the first coil spring 310. The needle 10 also moves forward and the inner needle 10 collects a biopsy through the receiving space 11.

The first hook member 410 is spaced in the case 100 so that the first hook member 410 may correspond to the first catching jaw 211 formed on the upper side of the first holder 210 in the case 100. It is coupled to the first fixed shaft 106 formed on the upper side.

In this case, the first hook member 410 has one side 411 having a hook corresponding to the first catching jaw 211 of the first holder 210 and the other side 412 in contact with the firing button 500. It includes, one side 411 and the other side 412 of the first hook member 410 to seesaw the first fixed shaft 106 to the axis, the other side 412 of the first hook member 410 ) Is located at the coupling hole 104 side of the case 100 to correspond to the firing button 500.

In addition, the first hook member 410 is coupled to the first fixed shaft 106 in a state of being held by a torsion spring (not shown), the elasticity of the torsion spring of the first holder 210 One side 411 of the first hook member 410 on which the first catching jaw 211 is held is inclined to be positioned below the other side 412 of the first hook member 410.

The first hooking jaw 211 of the first holder 210 retracted along the space of the case 100 is caught by one side 411 of the first hook member 410 in the above state.

In addition, the other side 412 of the first hook member 410 is also located above one side 411 of the first hook member 410 and tortures the launch button 500 while contacting the bottom of the launch button 500. Supported by the elastic force of the spring, the firing button 500 is provided in the coupling hole 104 of the case 100, the other side of the first hook member 410 in contact with the operation of the selective user ( 412 is pushed downward to raise one side 411 of the first hook member 410 to release the first holder 210.

Looking at the firing button 500 in more detail, it is located on the outside of the case 100, and includes a pressing plate 510, the user's finger is placed, the shaft formed extending downward from the bottom of the pressing plate 510 ( And a fixing plate 530 formed at a diameter larger than the diameter of the shaft 520 at the lower end of the shaft 520.

Therefore, the shaft 520 of the firing button 500 is preferably disposed in the coupling hole 104 of the case 100, and the pressing plate 510 located above the shaft 520 is the case ( The fixing plate 530 which is exposed to the outside of the 100 and positioned below the shaft 520 is positioned inside the case 100, so that the firing button 500 is coupled to the case 100. It is possible to move up and down along the 104, and the firing button 500 is coupled by the fixing plate 530 having a diameter larger than the shaft 520 without falling out of the coupling hole 104 of the case 100 Maintain state.

In addition, the bottom of the pressing plate 510 is formed to extend the launch prevention jaw 511 in any one radial direction, the launch prevention jaw 511 is located between the pressing plate 510 and the case 100, the pressing plate ( The lowering of the 510 is interrupted to interrupt the operation of the first hook member 410.

The coupling hole 104 of the case 100 extends a communication hole corresponding to the anti-shooting jaw 511 so that the anti-firing jaw 511 is selectively communicated with the coupling hole 104 by a user's manipulation. If the ball is located corresponding to the pressing plate 510 to be lowered.

Accordingly, the user may change the position of the launch prevention jaw 530 by rotating the pressing plate 510 of the launch button 500, and as the position of the launch prevention jaw 511 is changed, A lock that lifts and lowers the lift and an unlock that allows the lift of the firing button 500 may be selected.

In addition, a click protrusion 531 is formed on the bottom of the fixing plate 530 of the firing button 500 on the same vertical line as the anti-shooting jaw 511, and the click protrusion is formed on the other side of the first hook member 410. Forming a groove (unsigned) to which the 531 is seated, and when the user selects an unlock (unlock) to allow the lift button 500 to move up by rotating the pressing plate 510, the launch prevention jaw 511 is selected. The click protrusion 531 positioned on the vertical line as shown in FIG. 2 may be felt by a finger, which is seated in a seating groove (unsigned) formed on an upper surface of the other side 412 of the first hook member 410. Through the sense of knowing the firing (unlock) or lock (lock) state of the firing button 500.

Of course, it is preferable to form a mark corresponding to the locking (lock) and the unlock (unlock) of the firing button 500 in the pressing plate 510, and the lifting and lowering of the firing button 500 to the click projection 531 is intermittent. It can also be formed in a position where the lock (lock) to be known.

In addition, the biopsy cutting unit according to an embodiment of the present invention includes an outer needle 20, the second holder 220, the second coil spring 320, the second hook member 420, Figures 2 and 3 And, referring to Figure 5 based on the center space in which the first holder 210 is disposed of the three spaces partitioned inside the case 100, is disposed in the front side space of the case 100, The second holder 220 of the biopsy cutting part located in front of the first holder 210 also forms a cylindrical body so as to correspond to the space, and is supported by the second coil spring 320 to be elastically repulsive. 1 holder 210 is moved forward with a time difference. When the second holder 220 moves backward along the space, the second coil spring 320 is compressed and the second holder 220 is provided on the second hook member 420 provided inside the case 100. ) And the second coil spring 320 is compressed.

Preferably, a second catching jaw 221 corresponding to the second hook member 420 is formed to protrude from the upper side of the second holder 220. The front end of the second holder 220 is connected to the rear end of the outer needle 20, the outer needle 20 is formed in the form of a tube having a hollow along the longitudinal direction so that the inner needle 10 is received therein As the second holder 220 is advanced by the elastic repulsive force of the second coil spring 320, the biopsy positioned in the accommodation space 11 is moved forward along the inner needle 10 to be formed at the front end. The receiving space 11 is closed while cutting with the cutter blade.

Therefore, the second holder 220 is provided in the front space on the basis of the space in which the first holder 210 is disposed among the partitioned spaces of the case 100 while being held by the second coil spring 320. When the second coil spring 320 is moved to the rear of the space so as to be compressed, the second hooking jaw 221 of the second holder 220 is caught by the second hook member 420, and the second coil is caught. In the state in which the spring 320 is compressed, the second holder 220 is intermittently moved forward. At this time, when the first hook member 410 and the second hook member 420 are sequentially operated to release the hook of the second hook member 420, the second holder 220 is connected to the second coil spring. The outer needle 20 advances forward along the inner needle 10 to close the receiving space 11 while cutting the biopsy positioned in the receiving space 11 as it moves forward by the elastic repulsive force of 320. .

The first holder 210 and the second holder 220 are connected to each other by a pair of first connecting shafts 240, wherein the pair of first connecting shafts 240 are each up and down on a vertical line. Spaced apart from each other, a rear end of the pair of first connecting shafts 240 is connected to the first holder 210, and a front end of the pair of first connecting shafts 240 is inside the second coil spring 320. It is connected to the second holder 220 through.

Here, the rear ends of the first connecting shafts 240 have a flange that protrudes radially outward from the rear of the first holder 210 after passing through the inside of the first holder 210, and The front end of the first connection shafts 240 has a flange which passes through the inside of the second holder 220 and protrudes in a radial direction so that the front end does not fall out, so that the second holder 220 is connected to the first connection shaft. Sliding along 240. At this time, when the first connecting shaft 240 is retracted to the first holder 210, the second holder 220 is pulled back by the front end of the first connecting shaft 240 by the flange.

In addition, the second coil spring 320 when the outward side surfaces of the spaced first coupling shaft 240 contact the inner circumferential surface of the second coil spring 320 to compress and relax the second coil spring 320. Guided to operate in a straight line, the inner needle 10 is advanced evenly in a straight line.

The inner needle 10 fixed to the front of the first holder 210 is located between the pair of first connection shafts 240 fixed to be spaced apart from the center of the second holder 220 to the case It leads to the outside through the through hole 101 of (100).

In addition, a release release piece 241 is formed at a front end of the first connection shaft 240 positioned above the pair of first connection shafts 240, and the release piece 241 is formed in the second holder. The second hook member 420 for controlling the advancement of the 220 is operated to release the engagement of the second holder 220.

At this time, the upper surface of the second holder 220 forms a guide groove 222 into which the unlocking piece 241 can enter in the longitudinal direction.

Therefore, when the user manipulates the firing button 500, the first hook member 410 is operated to release the first holder 210 from the first holder 210. Advance in the internal space of the), the first connecting shaft 240 fixedly coupled to the first holder 210 is advanced. In this case, the inner needle 10 coupled to the first holder 210 is advanced to collect tissue.

Here, the release piece 241 formed at the front end of the first connecting shaft 240 also moves along the guide groove 222 of the second holder 220 while moving the second hook member 420. By activating, the second holder 220 is released at a time difference from the first holder 210 to allow the second holder 220 to move forward into the space so that the outer needle 20 has an inner needle ( Operate according to 10).

As can be seen in the above configuration, after the advance of the first holder 210, the inner needle 10 is advanced to the biological site to take the biopsy, and then the outer needle with the advance of the second holder 220 with a time difference While the 20 advances along the inner needle 10 to the site where the biopsy is to be taken, the biopsy is cut and the biopsy is received in the inner needle to collect the biopsy.

The loading block 230 is disposed in the rear side space of the case 100 based on the center space in which the first holder 210 is disposed among the three spaces formed in the case 100, and thus, the first holder. It is arrange | positioned behind 210.

Looking at the loading block 230, a pair of loading protrusions 231 protrude outwards on the left and right sides of the loading block 230, respectively, the pair of loading protrusions 231 is the case 100 Coupled to the guide hole 103 of the, the loading block 230 is moved along the guide hole 103 by a pair of loading projections (231).

At this time, the pair of loading protrusions 231 coupled to the guide long hole 103 is also coupled to the loading long hole 601 of the loading lever 600 coupled to the rear of the case 100, the loading lever 600 ), The loading block 230 is retracted by moving backward along the guide slot 103 of the case 100 by receiving a force backward by the loading slot 601 of the loading lever 600.

1 and 2, the loading lever 600 rotates the hinge shaft 102 to the axis by the user's operation at the lower portion of the case 100, so that the loading lever 600 can be flipped backward. On the basis of the handle piece parallel to the 100, the engaging piece in contact with the rear left and right sides of the case 100 is extended to the left and right, and combined as if the rear of the case 100, the coupling piece The hinge hole 601 is formed to be coupled to the hinge shaft 102 of the case 100, and the loading hole 602 is formed below the hinge hole 601.

The loading block 230 is connected to the first holder 210 by a second connecting shaft 250. When the loading lever 600 is rotated by a user, the loading block 230 is When the first holder 210 is retracted by pulling the first holder 210 through the second connecting shaft 250 while retreating by the loading lever 600, and the first holder 210 is retracted, The second holder 220 connected to the first connecting shaft 240 also retreats to engage the first holder 210 and the second holder 220.

A rear end of the pair of second connecting shafts 250 is fixedly spaced apart from each other on the loading block 230 at an interval, and a front end of the second connecting shaft 250 is the first coil spring 310. Through the inside and fixed to the rear of the first holder 210.

Therefore, according to the above configuration, the first holder 210 and the loading block 230 are integrally formed by the pair of second connection shafts 250, so that the loading block 230 is the loading lever 600. When the retracted by the rotation of the first holder 210 is also retracted by the traction of the second connection shaft 250, the first holder 210 is released and the elasticity of the first coil spring 310 When the first holder 210 advances by the repulsive force, the loading block 230 also advances by the traction of the second connecting shaft 250.

Here, the pair of second connection shafts 250 are provided so that the outward side of each other abuts the inner circumferential surface of the first coil spring 310, when the compression and relaxation of the first coil spring 310, The first coil spring 310 is guided to operate in a straight line.

In addition, the front of the case 100 is provided with an open lever 700 as shown in Figs. 1 and 5, the open lever 700 is preferably provided in the front lower portion of the case 100, And, so as to surround the front lower portion of the case 100, having a body having a cross-section 'U' shape, the inside of the body is received in the front of the case 100 while the second holder 220 Protruding form the retreat piece 701 to be interviewed with the front surface.

At this time, it is preferable to form a guide groove (unsigned) in the longitudinal direction on the front lower surface of the case 100 so that the receding piece 701 can move.

When the case 100 is gripped with one hand and the rear lever is grasped by the other hand and moved to the rear, the open lever 700 slides backward from the front of the case 100 to move backward. 701 retracts only the second holder 420.

At this time, as only the second holder 420 is retracted backward by the retreating piece 701, the outer needle 20 also retreats backward along the inner needle 10 to accommodate the space of the inner needle 10 ( 11) is opened, it is possible to easily learn the biological tissue accommodated in the receiving space (11).

In addition, the arrangement of the receiving space formed at the front end of the inner needle 10 is not limited to that shown in Figure 2, it can be adapted according to the range and position of the biopsy, for example as shown in Figure 7 Dog receiving spaces 11 are arranged in a zigzag along the longitudinal direction of the inner needle 10, or as shown in Figure 8 a plurality of receiving spaces 11 to any one side of the inner needle (10) It may be formed by concentration.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: inner needle 11: accommodating space 20: outer needle
100: case 101: through hole 102: hinge axis
103: guide hole 104: coupling hole 105: fixing groove
110: closing cap 120 plate member 210: the first holder
211: first locking jaw 220: second holder 221: second locking jaw
222: guide groove 230: loading block 231: loading projection
240: first connection shaft 241: release latch 250: second connection shaft
310: first coil spring 320: second coil spring 410: first hook member
411: one side of the first hook member 412: the other side of the first hook member 420: the second hook member
500: firing button 510: pressing plate 511: launch prevention jaw
520: axis of the launch button 530: fixed plate 531: click projection
600: loading lever 601: hinge ball 602: loading mechanic
700: open lever 701: retreat

Claims (10)

A space formed inside and formed of a bar shape;
A biopsy receiving unit which is provided to be movable along the inner space of the case and selectively moves along the inner space of the case to accommodate the biological tissue by a user's manipulation;
A biopsy cutting part which is provided to be movable along the inner space of the case, and advances along the inner space of the case in order after the biopsy receptacle is advanced;
A loading block connected to the biopsy receptacle and the biopsy cutting part with a plurality of connecting shafts in the inner space of the case and towing the biopsy receptacle and the biopsy cutting part backward when the retreat moves;
A loading lever coupled to a rear outer side of the case and connected to a loading block moving along an inner space to retreat the loading block; And
And an open lever provided on the front side of the case and retracting the biopsy cutting part while being selectively moved to the rear by a user's manipulation to open the biopsy receiving part. The method according to claim 1,
The biopsy receiving portion
An inner needle having a receiving space for receiving a biopsy at the front end;
A first holder disposed in an inner space of the case and having a rear end coupled to a front surface thereof, and having a first locking jaw at an upper side thereof;
A first coil spring disposed behind the first holder in an inner space of the case and supporting the first holder;
Disposed above the inner space of the case to support the first catching jaw of the first holder retreating along the inner space of the case so that the first coil spring holding the first holder is compressed; A biological tissue specimen device comprising a first hook member. The method according to claim 2,
The biopsy cutting unit
An outer needle that is closed in a tubular shape having a hollow, while advancing along the inner needle while receiving the inner needle through the hollow and cutting the biopsy positioned in the receiving space of the inner needle;
A second holder disposed in an inner space of the case, the rear end of the outer needle being coupled to a front surface, and having a second locking jaw at the front upper side;
A second coil spring disposed behind the second holder in the inner space of the case and supporting the second holder;
A second coil provided above the space on the front side of the case in which the second holder is disposed and supporting a second catching jaw of the second holder retracting along the inner space of the case to support the second holder; A biological tissue specimen device comprising a second hook member to keep the spring compressed. The method according to claim 2,
Is formed on the upper side of the case, biological tissue specimen device including a firing button for operating the first hook member to release the latch of the first holder. The method according to claim 4,
The launch button is
A pressing plate disposed outside the case to hold a user's finger;
An axis extending downward from the bottom of the pressing plate;
A fixed plate formed at a lower end of the shaft to a diameter larger than the diameter of the shaft;
An anti-shooting jaw extending in one radial direction from the bottom of the pressing plate;
The biological tissue specimen device is formed on the bottom of the fixing plate, including a click projection forming a vertical line with the launch prevention jaw. The method according to claim 3,
The connecting shaft
A pair of first connecting shafts spaced apart from each other and connecting the front surface of the first holder and the rear surface of the second holder through the second coil spring;
Spaced apart from each other, biological tissue specimen device consisting of a pair of second connecting shafts connecting the rear of the first holder and the front of the loading block through the inside of the first coil spring. The method of claim 6,
And a release piece for activating the second hook member at a front end of one of the pair of first connecting shafts. The method according to claim 1,
The loading lever is
A handle piece coupled to a hinge shaft formed at a rear side of the case, the handle piece being rolled up by rotating the hinge shaft in an axis;
A coupling piece extending from the left and right sides of the handle piece and interviewing the rear left and right sides of the case;
And a loading hole formed in the coupling piece, the hinge hole coupled to the hinge shaft of the case, and the loading hole connected to the loading block. delete The method according to claim 3,
The open lever is
A body having a 'U' cross section so as to be coupled to the front lower portion of the case;
A biological tissue specimen apparatus extending upward from the inside of the body and including a receding piece interviewing the front side of the second holder.

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