KR20180088119A - One-time usable core biopsy device - Google Patents

Abstract

The present invention is to provide a technology of loading a biopsy instrument in order to carry out one time sampling and multiple sampling at once without changes in the gripping shape only by using one hand that grips the biopsy instrument; and a technology of easily collecting sampled tissues. According to an embodiment of the present invention, a disposable biopsy instrument for cutting comprises: a housing which is extended in the direction parallel to one axis, and has a hollow unit therein; a needle set which includes an inner needle inserted and fixed to the inside of the housing through an end hole in a first direction of the housing, and having a tissue sampling groove, a blade formed at the fore-end in order to cut the tissue stored in the tissue sampling groove, and an outer needle reciprocating from the inner needle by having a needle tube in which the inner needle is included; a master block which is connected with the end side of the outer needle in a second direction, that is, the opposite direction to the first direction with respect to one side thereof, of which the length in the direction parallel to one axis is longer than that in the direction at right angles to the one axis, and which is placed to reciprocate in the direction parallel to the one axis inside the hollow unit; a driving unit which is connected to the master block, and includes a first spring connected to the hollow unit by being consecutively placed in a row, a hub block having a needle set penetrating unit, and a second spring; and a loading unit which includes a loading connector installed to change the position where the hub block is hung, and a loading handle connected to the loading connector and applying force to the loading connector in the second direction.

Description

One-time usable core biopsy device

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a specimen mechanism of a living body tissue, and more particularly, to a specimen mechanism of a living body tissue, The present invention relates to a living body tissue analyzing apparatus for receiving a sample of a living tissue, sealing the received sample with the raw living body, sealing the tissue sampling groove of the spinal cord, and collecting the living tissue.

Generally, in order to examine a living tissue, a method of injecting a device capable of sampling a living tissue in the living tissue and collecting a tissue to be a target in the living tissue is used. In this type, there is an aspiration biopsy and a cut biopsy.

In the case of an aspiration biopsy, a general type of needle is inserted into the tissue, and the cells in the lesion are aspirated to collect the cell tissue. The needle is divided into fine needle aspiration biopsy and large needle aspiration biopsy according to the diameter of the needle. The large needle aspiration biopsy method is capable of extracting a large amount of cells, while the diameter of the needle is large, resulting in a high incidence of side effects such as tissue destruction and patient fear. On the other hand, fine needle aspiration biopsy has the advantages of easy insertion and convenience to the patient, but the accuracy of the diagnosis is not high because of the limited size of the tissue to be collected.

Recently, a cutting biopsy has been used to obtain the tissue in a state in which the tissue is cut by the shape of the needle and maintains the histological shape in a complete state, and the accuracy of diagnosis is increased. In the case of a cut biopsy, minimization of the diameter of the needle inserted into the affected part, minimization of repeated invasive actuation, and precise procedure for a small specimen are possible, which is widely used in recent years as compared with the suction biopsy.

Korean Patent No. 10-1463867 and 10-1551311 disclose a specimen tool of a cutting biopsy system which is provided so as to be capable of forward movement to a spinal cord in the form of a spinal cord having a tissue sampling groove and a spiral wound around it, And a set of needles having an appearance that cuts the tissue. The spermatozoon is first forward fired and then the forehead is fired forward again. The spermatozoon enters the sample to include the sample, and the sample is cut through the outer blade Has been used.

In addition, the above-described specimen mechanism employs an operation mode in which a user applies a specific operation a plurality of times to reverse the spiral and the appearance through a plurality of loading to reach a loading state.

However, in the case of the conventional cutting biopsy apparatus described above, in the cutting mechanism, the spine is fired first and the appearance is fired so that the very thin spindle can not penetrate or bend through the dense coating tissue or the hard calcified tissue during the forward movement , Which may cause the nodule to be pushed backward, or the spine may not reach the tissue area of the target tissue to be collected, which makes the procedure very difficult.

On the other hand, techniques for improving accuracy, such as using ultrasonic guide equipment, have been developed to accurately reach the needle set to the above-described tissue to be harvested. However, in the case of the conventional technique described above, the practitioner generally changes the shape of holding the biopsy device or the biopsy device is loaded with both hands. Therefore, there is a possibility that the targeting of the ultrasound guide may be disturbed, especially when repeated sampling is required.

Accordingly, in order to grasp and operate the ultrasonic waveguide with one hand while the ultrasonic waveguide is grasped by the other hand, the ultrasonic wave can be collected once and multiple times without changing the shape of the grasper with only one hand holding the biopsy mechanism There has been an increasing need for techniques for loading a biopsy device to be performed at one time and for easily recovering the collected tissue.

Accordingly, the present invention minimizes the change of the gripping form by only one hand holding the biopsy device, so that it is possible to easily carry out loading once or plural times and to easily change the loading form for collecting a small amount or a large amount, The present invention provides a biopsy device having a structure having a structure.

In addition, the present invention proposes a new relationship between the spiral and the firing of the appearance, so that it can not penetrate or bend into dense tissue or rigid calcified tissue due to forward firing of the spinal cord, Or the spine may not reach the tissue area to be accurately sampled, thereby solving the problem that the procedure becomes very difficult.

Another object of the present invention is to provide a technique capable of easily recovering tissue collected by a biopsy device.

According to an aspect of the present invention, there is provided a disposable cutting biopsy device comprising: a housing extending in a direction parallel to a shaft and having a hollow portion formed therein; A spiral in which a tissue sampling groove is formed and fixed to the inside of the housing through a first side short side hole of the housing, a blade is formed at the tip to cut tissue contained in the tissue sampling groove, A needle set including an appearance that a needle tube is formed and reciprocating with respect to a spinal cord; And a length of a direction parallel to the one axis is longer than a length of a direction perpendicular to the one axis, A master block disposed in the hollow portion so as to reciprocate in a direction parallel to the one axis; A driving unit connected to the master block and including a first spring connected in series to the hollow portion in sequence, a hub block having the needle set through portion, and a second spring; And a loading unit connected to the loading connector and having a loading handle for applying a force in the second direction to the loading connector, do.

According to the embodiments of the present invention described above, the user manipulates the charging unit in such a manner as to apply a grabbing force in a gripped state, and pushes backward through the charging unit. In such a state that the restoring force is applied to the first spring and the second spring, And the outer surface of the body, and then the recipient is moved backward from the spinal cord to have a reciprocating motion structure. Thus, only one hand holding the biopsy device can minimize the change of the gripping form and perform one loading or multiple loading There is an effect of providing a biopsy device having a loading and launching structure which can be easily carried out and which can easily change a loading form for collecting a small amount or a large amount of the biopsy device, They may not penetrate or bend, causing the nodules to be pushed backward There is sokchim the station can not be reached, you can solve the problem that the procedure is very difficult.

On the other hand, when the ultrasonic guide is used, the user can perform loading and launching with only one hand while grasping the ultrasonic guide, so that the target is accurately maintained and the accuracy of the operation is increased.

On the other hand, by moving the outer connecting bar after the tissue collection by the coupling structure of the outer connecting bar of the master block in which the outer surface is fixed, the tissue present in the tissue sampling groove can be easily recovered without any other operation, There is an effect that a sample can be recovered easily.

On the other hand, an additional function can be further realized by lengthening the length of the traveling direction of the master block and increasing the length of the master block so as to be closely contacted with the hollow portion of the housing, thereby achieving a precise procedure by a stable sliding operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an engaging cross-sectional view of a disposable cutting biopsy device in accordance with an embodiment of the present invention. FIG.
2 is a view for explaining an example of engagement of a drive unit according to an embodiment of the present invention;
FIGS. 3 and 10 are views for explaining the coupling state of the outer appearance, the master block, and the drive unit according to the embodiment of the present invention. FIG.
4 is a schematic diagram for illustrating examples of arrangements of drive units for implementation of an embodiment of the present invention;
5 illustrates a structure of a housing according to an embodiment of the present invention.
6 illustrates a structure of a needle set according to an embodiment of the present invention;
7 is a view of an embodiment of a master block according to an embodiment of the present invention.
8 is an exploded view for explaining a structure of a housing and a launching unit according to an embodiment of the present invention;
9 is an exploded view of a master and a block in accordance with an implementation of an embodiment of the present invention in accordance with an implementation of an embodiment of the present invention.
11 is a perspective view of a loading unit in accordance with an implementation of an embodiment of the present invention.
Figure 12 is an assembled state view of a disposable cutting biopsy instrument in accordance with an embodiment of the present invention.
FIG. 13 is a view for explaining an engaging state excluding a housing of a disposable cutting biopsy instrument according to an embodiment of the present invention; FIG.
14 is a view for explaining an operation state of a disposable cutting biopsy device according to an embodiment of the present invention;
15 is a view for explaining the operation of the disposable cutting biopsy instrument according to the embodiment of the present invention.
16 is a view for explaining the operation of the disposable cutting biopsy instrument according to the embodiment of the present invention.
17 is a view for explaining examples of loading units for implementation of an embodiment of the present invention.
18 is a view for explaining an example of the structure of the first launch unit.

In the following, various embodiments and / or aspects are now described with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more aspects. However, it will also be appreciated by those of ordinary skill in the art that such aspect (s) may be practiced without these specific details. The following description and the annexed drawings set forth in detail certain illustrative aspects of one or more aspects. It is to be understood, however, that such aspects are illustrative and that some of the various ways of practicing various aspects of the principles of various aspects may be utilized, and that the description set forth is intended to include all such aspects and their equivalents.

In addition, various aspects and features will be presented by a system that may include multiple devices, components and / or modules, and so forth. It should be understood that the various systems may include additional devices, components and / or modules, etc., and / or may not include all of the devices, components, modules, etc. discussed in connection with the drawings Must be understood and understood.

As used herein, the terms "an embodiment," "an embodiment," " an embodiment, "" an embodiment ", etc. are intended to indicate that any aspect or design described is better or worse than other aspects or designs. . It is also to be understood that the term " comprises "and / or" comprising " means that the feature and / or component is present, but does not exclude the presence or addition of one or more other features, components and / It should be understood that it does not.

Also, terms including ordinal numbers such as first, second, etc. may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Furthermore, in the embodiments of the present invention, all terms used herein, including technical or scientific terms, unless otherwise defined, are intended to be inclusive in a manner that is generally understood by those of ordinary skill in the art to which this invention belongs. Have the same meaning. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and, unless explicitly defined in the embodiments of the present invention, are intended to mean ideal or overly formal .

In the following description, the components in the drawings are omitted or partially enlarged or reduced in order to explain the functions of the components of the present invention. However, the technical features and the rights It will be understood that the invention is not limited in scope.

Also, in the following description, a number of drawings will be referred to and described concurrently to describe one technical characteristic or constituent elements of the invention.

Referring to FIGS. 1, 3, 5, 6, and 9, the disposable cutting biopsy device according to one embodiment of the present invention includes a hollow portion extending in a direction parallel to one axis D, And a housing 10 on which the housing 11 is formed.

The disposable cutting biopsy device has one end 201 inserted into the housing 10 through a short side hole 12 in the first direction D1 of the housing 10, And a needle tube (not shown) is formed in the distal end 212 to cut the tissue contained in the tissue sampling groove 202 and includes the spine 20 therein, (21) that reciprocates in a direction perpendicular to the direction of travel of the needle.

The disposable cutting biopsy device is connected to the first side D1 and the end side 213 of the second side D2 in the opposite direction with respect to the first side D, A master block (not shown) which is formed so as to be longer than a length in a direction orthogonal to one axis D and which is arranged to reciprocate in a direction parallel to one axis D in the hollow portion 11 30).

The disposable cutting biopsy device is connected to the master block 30 and includes a first spring 50 connected in series to the hollow portion 11 in sequence and a hub block 40 having a needle set penetrating portion 41 formed therein, 2 spring 60. The spring 60 includes a spring (not shown).

The disposable cutting biopsy device is connected to the loading connector 52 and the loading connector 52 that are installed so as to be capable of changing the position where the hub block 40 is hooked to the loading block 52 so that the force in the second direction D2 And a loading unit 51 including a loading handle 51 to which the loading unit 51 is attached.

Referring to FIGS. 1, 6, and 9, a through hole 211 extending from the needle tube is formed on the end 211 of the outer surface 21, and the through hole 211 is formed as shown in FIG. 9 (No identification number) located in the upper portion of the short side hole 12 in the first direction D1 of the master block 30 to form a space of the space generated by the hollow portion 11 and the master block 30 It is possible to perform a function of forming a negative pressure according to the backward movement of the master block 30, that is, the movement in the second direction D2, when firing into the needle tube and the tissue sampling groove 202 due to the volume change.

14, one end 201 of the spiral 20 is fixed to the housing 10, and the top 21 of the spiral 20 is fixed to the master block 30 in the manner described above The outer surface 21 of the outer shell 20 enters the state in which the tissue sampling groove 202 of the spindle 20 is contained therein and then the outer surface of the master block 30 and the motion of the driving unit The tissue 21 is cut back in the second direction D2 and then advances in the first direction D1 to accommodate the tissue in the tissue sampling groove 202. [

As a result, it is impossible to penetrate or bend the dense coating tissue or the hard calcified tissue due to the forward firing of the spinal cord 20, which may cause the nodule to be pushed backward or the spindle may not reach the target tissue area Therefore, it is possible to solve the problem that the procedure becomes very difficult.

Referring to FIGS. 2 and 4 together, in one embodiment of the present invention, the drive unit may be implemented as the following example.

2 and 4 (a)), the first spring 50 is installed as a tension spring to connect the master block 30 and the hub block 40, and the second spring 60, May be provided as a compression spring so as to connect the hub block (40) and the hollow portion (11) in a second direction (D2).

Only the hub block 40 is moved in the second direction D2 and then fixed by the operation of the launching unit to be described later so that the inside of the hollow portion 11 of the master block 30 When the lock is released, as the master block 30 moves in the second direction D2 by the restoring force of the first spring 50, the outer surface is retracted as described above.

Thereafter, when the master block 30 releases the movement of the hub block 40, the master block 30 and the hub block 40 are simultaneously moved in the first direction D2 by the restoring force of the second spring 60 As it moves, the appearance 21 advances again as described above.

4 (b), the first spring 51 is installed as a compression spring so as to connect the end of the hollow portion 11 in the first direction D1 with the master block 30 The second spring 61 is provided as a compression spring having a restoring force larger than that of the first spring 51 so as to connect and couple the end of the hub block 40 and the hollow portion 11 in the second direction D2, (30) and the hub block (40) are installed so that they can be separated from each other.

Only the hub block 40 is moved in the second direction D2 and then fixed by the operation of the launching unit to be described later so that the inside of the hollow portion 11 of the master block 30 When the lock is released, as the master block 30 moves in the second direction D2 by the restoring force of the first spring 51, the outer surface is retracted as described above.

When the master block 30 moves toward the hub block 40 and then releases the movement of the hub block 40 by applying a force to the hub block 40, As the master block 30 and the hub block 40 simultaneously move in the first direction D2 by the restoring force larger than the stroke 51, the outer surface 21 advances again as described above.

Referring to FIG. 5, a specific structure of the housing 10 can be seen. Referring to FIG. 5, the housing 10 is formed on one side of the hollow portion 11 and includes a first latching portion 13 for fixing the master block 30 when loaded.

On the other hand, the housing 10 is formed on the other surface of the hollow portion 11, and a second latching portion 14 for fixing the hub block 40 at the time of loading can be formed. On the other hand, the housing-side second spring engaging portion 15 for fixing the second spring 60 described above may be recessed.

Referring to FIGS. 7 and 9, a detailed structure example of the master block 30 can be confirmed. A default state, which is a state at the time of loading and at the time of completion of the firing, is provided in the area corresponding to the above-mentioned first latching part 13 of the master block 30 in which the outer face 21 is fixed at the above- So that the master block 30 is prevented from moving in the second direction D2 while the relative position with respect to the housing 10 is fixed and the outer periphery of the hollow portion 11 outside the housing 10 When the firing unit (not shown) installed so as to be insertable and movable is pressed and moved in the direction to be inserted into the hollow part 11, the state in which the first latching part 13 is hooked is released, Is moved in the second direction (D2) by the resilient restoring force of the first spring (50), and after returning to the default state after the completion of the firing, the firing unit is moved toward the outside of the housing (10) 1 locking portion 13 so that the master block 30 Second direction comprises an elastic body of a master block engaging portion 31 such that the state of fixing the relative position of the housing 10 while inhibited from moving into (D2).

7 and 9 so as to have an elastic force in a direction perpendicular to the above-described one axis D, and in the default state, that is, in the restored state, The retaining force toward the upper surface is maintained and the first engaging portion 13 is engaged. Accordingly, the master block 30 is fixed in a state of being not moved by the hollow portion 11 despite the restoring force of the first spring 50.

However, when a pressing force is applied to the master block locking portion 31, the state in which the first locking portion 13 is engaged is released through the downward movement of the master block locking portion 31. At this time, 1 spring 50 in the second direction D2.

The master block 30 is moved in the first direction D1 together with the hub block 40 by the restoring force of the second spring 60. At this time, When the restoring force of the second spring 60 is set, the master block latching portion 31 is moved toward the first latching portion 13 while being depressed by the shape thereof, and the state in which the master block latching portion 31 is pushed is released The first spring 50 is elastically moved to the upper portion and is again engaged with the first engagement portion 13, and the ready state immediately before the first spring 50 is maintained.

In order to perform the function of the master block latching portion 31 described above, the master block latching portion 31 includes a first latching point 311, which is an area caught by the first latching portion 13 in the above- The first hooking point 311 is engaged with the first hooking portion 13 by transmitting the pressing force when the button is pressed and moved in the direction of being inserted into the hollow portion 11, And first depression points 312 and 313 for moving and releasing the master block latching portion 31 corresponding to the master block latching portion 31 downward.

On the other hand, as shown in Figs. 7 and 9, there are two first pressing points 312 and 313 in both directions due to the inclined structure of the master block engaging portion 31. [ In the present invention, the first pushing points 312 and 313 are configured according to the type and operation of the launching unit.

Referring to FIG. 8, in one embodiment of the present invention, there are two launch units 181 and 191 as a first launch unit 181 and a second launch unit 191. The first launch unit 181 is installed to be reciprocally movable through a first launch unit insertion guide hole 18 formed in a direction to be inserted into the hollow portion 11 from the upper surface of the housing 10.

8, the first launch unit insertion guide hole 18 is formed in a letter " a " shape. Referring to FIG. 18, the first launch unit 181 Is composed of a first launching unit head 1810, a connecting elastic body 1812 and a first launching unit body 1813.

The connecting elastic body 1812 is configured to move along the first launching unit insertion guide hole 18 so that the first and second launching unit insertion guide holes 18 are formed in a wide space in the first direction D1, And is provided with an elastic force so that it can be moved laterally along the unit insertion guide hole 18 and pressed.

The first firing unit head 1810 is configured to protrude and apply a pressing force to the operator through a finger or the like. The first firing unit body 1813 performs a function of pressing the first pressing point 312 .

Referring again to FIG. 8, the second launching unit 191 is configured to apply a pressing force to the first pressing point 313 described above. As shown in FIGS. 8, 14, and 16, Is inserted into the hollow portion 11 along a guide line (not shown) in the direction of one axis D formed in the hollow portion 11 at the end of the first direction D2 And the like. For the above-described structure, the second launching unit insertion guide hole 19 may be formed through the housing 10 so as to be connected to the hollow portion 11.

The second launching unit 191 can perform the same function as the first launching unit 181 by depressing the first pushing point 313 as described above. That is, when the operator grasps the housing 10 for the operation, the first launching unit 181 and the second launching unit 191 can perform the retreat forward of the appearing while minimizing the change of the grasping form regardless of the type of grasping of the practitioner Means a configuration for achieving the effect of performing firing so as to be able to start.

Referring to FIG. 13 together with FIG. 7, the master block 30 is formed in a wing bar shape in the second direction D2 from the main body area of the master block 30, A hub block releasing unit 32 formed in a bar shape is formed so as to release the state in which the hub block 40 is fixed to the second engaging portion 14. [

2, 10 and 13, the hub block 40 is provided with a hub block engaging portion 42 (to be described later), as will be described later, similarly to the above-described engagement state of the master block engaging portion 31 and the first engaging portion 13 Is formed. The hub block engaging portion 42 is engaged with the second engaging portion 14 like the above-described engaged state of the master block engaging portion 31 and the first engaging portion 13 so that when the hub block 40 is retracted The hub block 40 is slid in the second engaging portion 14 by the elastic force of the hub block engaging portion 42 and is engaged with the second engaging portion 14 in the loaded state, So that the relative position is fixed in relation to the hollow portion 11.

At this time, when the master block 30 is retreated in the second direction D2 by the above-described process at the time of firing by the restoring force of the first spring 50, the hub block locking releasing unit 32, A pressing force is applied to the portion 42 to move the hub block engaging portion 42 to release the engagement with the second engaging portion 14. [ As a result, the hub block 40 moves in the first direction D1 while pushing the master block 30 in the first direction D1. As a result, the outer block 21 moves again in the first direction D1 So that the tissues are cut and accommodated in the tissue sampling grooves 202 of the herbicide 20.

2 and 10, the hub block 40 is arranged so that the loaded state is engaged with the second latching portion 14 so that the hub block 40 is moved in the first direction D1 As the hub block releasing unit 32 moves in the second direction D2, the pushing force applied by the hub block releasing unit 32 causes the second engaging portion And the hub block 40 is elastically moved in the first direction D1 by the resilient restoring force of the second spring 60. [

Referring to FIG. 2, the hub block engaging portion 42 has a pressing force applied by the second engaging point 421 and the hub block engaging / disengaging unit 32, which is an area caught by the second engaging portion 14 in the loaded state, And a second pushing point 422 for releasing the second hooking point 421 from engagement with the second hooking portion 14. [ At this time, the second hooking point 421 and the second pressing point 422 form an inclined portion with the most protruded point, and as shown in FIG. 2, the second hooking point 422, The second engaging point 421 may be engaged with the second engaging portion 14 in a space on the first direction D1 side of the point 421. [

The hub block releasing unit 32 can be provided with a pressing force while being moved along the inclined portion of the second pressing point 422 by the formation structure of the inclined portion as described above so that the hub block engaging portion 42 is pressed, The engagement with the engaging portion 14 can be released.

10, in order to connect the first spring 50 and the second spring 60 to the master block 30 and the hub block 40, the master block 30 and the hub block 40 The spring receiving portions 341 and 45 for receiving the adjacent first spring 50 or the second spring 60 are respectively recessed.

The master block 30 and the hub block 40 can be brought into contact with each other and the master block 30 and the hub block 40 are fixed to the inner surface of the hollow portion 11 in the housing 10, And an impact absorbing plate may be formed on at least one end side of the master block 30 and the hub block 40 in the direction of one axis (D).

2, 10, and 13, a configuration for guiding the hub block 40 to retract in the second direction D2 by the loading unit may be included. The hub block 40 includes a first direction side inclined portion 4412 which is engaged with the loading connector 52 and a second direction side inclined portion 4412 4411, respectively, of the hub block jaw teeth 441, 442. As described above, the hub block engaging teeth 441 and 442 are formed in the present invention in order to control the size of the harvesting tissue, This will be described later. In addition, although the hub block engaging teeth 441 and 442 refer to concave teeth as shown in the above-mentioned drawings, any form can be used as long as it is for carrying out the function of the corresponding configuration of the present invention.

On the other hand, as can be seen from the drawings, the first direction side inclined portion 4412 has an inclination close to almost right angle and the second direction side inclined portion 4411 has a gentle inclination. As described above, the hub block 40 transmits the force applied in accordance with the movement of the loading connector 52 in the second direction D2 to the hub block 40 so that the hub block 40 can move the first spring 50 and the second spring D2, (60).

The second direction side inclined portion 4411 slides while contacting the loading connector 52 with the second direction side inclined portion 4411 at the time of a plurality of times of recharging. In order to avoid the restriction of the movement of the loading connector 52, .

Referring to Figs. 5, 11, 12, 13 and 17, one end 511 of the loading handle 51, which is a component of the loading unit, is attached to the hinge 17 of the housing 10 The other end 512 is not opened but is not fixed and a portion hinged to the housing 10, that is, the one end 511 is provided with the loading handle 51 at the other end of the loading handle 512) are spaced apart from the housing 10. The first elastic body (not shown)

As a result, the loading handle 51 pivots around the one end 511 to be spaced from the housing 10, so that the other end 512 Is kept at a maximum spacing from the housing 10. On the other hand, the hinge connection part connected to the housing 10 at one end 511 of the loading handle 51 is additionally provided with a locking member (for example, a tooth) so that the loading knob 51 can be inserted into the housing 10 so that the end side of the loading connector can be accurately engaged with the hub block engaging teeth 441, 442 as described later.

On the other hand, the loading connector 52, which is another constituent of the loading unit, has one end 521 hinged to one area between both ends of the loading handle 51, and the other end 522 is fixed to the hub block Like the above-described loading handle 51 in the restored state, in a portion where the loading handle 51 is hingedly secured to the loading handle 51, And a second elastic body (not shown) which provides a bracing force so that the other end side of the loading connector 52 is spaced from the loading handle 51 and engaged with the hub block latching teeth 441 and 442.

The loading connector 52 is spaced apart from the loading handle 51 around the one end 521 and the other end 522 is moved away from the loading handle 51 by the toggle lock device 16, And is held at a maximum spacing from the loading handle 51. On the other hand, in the hinge connection portion with the one end side 521 of the loading connector 52, that is, with the loading handle 51, as in the case of the hinge connecting portion on the side of the one end 511 of the loading knob 51, So that the loading connector 52 can be prevented from being widened from the loading handle 51 so that the end 522 of the loading connector 52 can be prevented from clogging with the hub block catching teeth 441, 442, respectively.

1, 12, 13, and 15, a loading connector holding jaw 101 is formed in the housing. The loading connector locking jaw 101 is formed to connect the outside of the housing 10 and the hollow portion 11 and is provided with a loading portion for guiding a region where the hub block engaging teeth 441 and 442 and the loading connector 52 are hooked As a protruding portion formed at one end of the unit guide portion 102, the loading connector 52 is moved in the second direction D2 by the hinge movement of the mechanism described above by the pressing force applied to the loading handle 51 The loading connector 52 is spaced apart from the hub block engaging teeth 441 and 442. In this case,

At this time, the loading connector locking jaw 101 is configured to be caught by the loading connector blade 523. The other end 522 of the loading connector 52 provides a force to move the hub block 40 in the second direction D2. At this time, on the positions of the hub block engaging teeth 441 and 442 formed on the hub block 40, the second engaging point 421 of the hub block engaging portion 42 is strongly hooked to the second engaging portion 14 At this time, the loading connector wing 523 starts to come into contact with the loading connector locking jaw 101 and the loading connector 52 is separated from the hub block jaws 441 and 442 Direction. At this time, when the loading handle 51 is pressed to the maximum, the other end side 522 of the loading connector 52 is separated from the hub block engaging teeth 441 and 442, and the engagement is lost.

In this state, the hub block 40 is slightly moved forward in the first direction D1 again to be reliably engaged with the second engaging portion 14. [

Referring to FIGS. 5, 11, 12, 13, and 15, as the pressing force is applied to the loading handle 51, the other end 512 of the loading handle 51 contacts the housing 10 A toggle lock device 16, 512 for controlling the engagement of the loading handle 51 with the housing 10 may be provided so that the locked and unlocked states are toggled according to the applied pressing force.

That is, the toggle lock devices 16 and 512 have a structure in which the device 512 on the side of the loading grip 51 and the device 16 on the side of the housing 10 are coupled as described above, When the pressing force is removed, it is toggle-locked in a state in which a slight gap is opened. When the pressing force is removed, the pressing force is applied again, and the toggle is released when the pressing force is removed.

The loading connector receiving groove 514 is formed in the loading handle 51 for movement of the loading connector 52 as the loading connector 52 is lifted by the loading connector locking jaw 101 according to the above- . As the loading connector 52 is received in the loading connector receiving groove 514 while being received by the loading connector holding jaw 101, the loading connector 52 is moved to the hub block catching teeth 441, 442 Can be prevented from being caught.

On the other hand, referring to Fig. 17, the loading handle and the loading connector can be configured in various ways. 17A, the loading handle 51 is hinged to the housing 10 at one end 511, and the loading connector 52 is connected at one end 521 Is hinged to the loading handle 51 and the other end 522 is in contact with the hub block engaging teeth 44 of the hub block 40. [ Thus, loading is performed to drive the master block 30, the first spring 50, the hub block 40, and the second spring 60.

17 (b), unlike FIG. 17 (a), one end 531 of the loading handle 53 in the second direction D2 is hinged to the housing 10, One end 541 of the connector 54 is hinged to the loading handle 53 and the other end 542 of the connector 54 is in contact with the hub block engaging teeth 44 of the hub block 40. Accordingly, loading is performed through a force opposite to that of FIG. 17 (a) to drive the master block 30, the first spring 50, the hub block 40, and the second spring 60.

17 (c), one end 551 of the loading handle 55 in the second direction D2 is different from that of FIG. 17 (a) and FIG. 17 Connector 56 is hinged to the housing 10, but the charging connector 56 is composed of a first sub-connector 561 and a second sub-connector 562. The first side D1 of the first sub connector 561 is hinged to the housing 10 while the other side 564 of the first sub connector 561 is connected to the second sub connector 562, The other end 565 of the second sub connector 562 is in hinged contact with the hub block engaging teeth 44 of the hub block 40. Of course, as in Fig. 17 (b), long power is given.

Referring to FIGS. 15 and 16, it can be seen that at least two or more hub block engaging teeth 441 and 442 and second engaging portion 14 are formed to have the same width.

15, when a first pushing force is applied to the rechargeable handle 51 at a time of one-time loading in the default state (S7) as a pressing force is applied to the rechargeable handle 51, The other end side of the hub block 52 applies a force in the second direction D2 to the first tooth 441 in the second direction D2 in this order so that the hub block 40 is moved, When the force is released at steps S8 and S9 in which the knob 51 is gripped to the maximum extent and the toggle lock device 16 and 513 releases the force, the first second latching part 14 in the first direction D1).

16, when the loading knob 51 is held at the maximum position in the state S10 and then the pushing force is removed, the other end side of the loading connector 52 is moved in the second direction D2 side slope portion and engages with the inclined portion in the first direction D1 of the second tooth 442 in the second direction D2 in order of pressing force on the loading handle 51, ≪ / RTI > and < RTI ID = 0.0 > S13 < / RTI > The other end of the loading connector 52 applies a force in the second direction D2 to the second tooth 442 in the second direction D2 in order, (S14) in which it is engaged with the second securing portion 14 (the second direction D2 side engaging portion)

As described above, according to the present invention, the retracting distance of the outer surface 21 is easily controlled by one hand through repetitive pressing of the loading handle 51 by the above-described structure, so that a small amount and a large amount of sampling can be easily controlled.

5 and 15, an opened loading state confirmation window 122 is formed in one area of the housing 10, and the position of the hub block in the one-time loading and once-unloaded state on the outer surface of the hub block 40 The loading state marking section 43 is marked on an area corresponding to the loading state confirmation window 122 and is capable of confirming the number of loading.

In particular, referring to FIG. 15, as loading is repeated by performing the above-described functions, 0, 1, 2, and so on are exposed through the loading status confirmation window 122 so that the operator can check the loading status have.

Referring to FIGS. 5, 9, 10 and 13, it can be seen that the master block 30 includes an outer connecting bar 33 to which the outer surface 21 is fixed. The outer connecting bar 33 is a space formed in the master block 30 so that the outer connecting bar 33 is moved in the first or second direction D1 or D2 along the sliding space 333, And is moved together with the appearance 21.

The outer connecting bar 33 is provided with an outer connecting bar guide portion 121 extending from the outer connecting bar 33 and guiding the outer connecting bar 33 to open in one area of the housing 10 for the above- An outer connecting bar manipulating portion 331 protruding from the housing 10 through the connecting bar 33 to apply a moving force to the outer connecting bar 33 is formed.

Further, an outer connecting bar locking device 332 is formed between the outer connecting bar operating portion 331 and the outer connecting bar 33. Specifically, as shown in FIG. 9, in the default state, the narrower opening 334 of the opening portion opened to the side of the outer side of the sliding space 333 is connected to the outer connecting bar 33 And the outer connecting bar 331 is pressed by the outer connecting bar 331 through the narrowest opening 334 as the outer connecting bar locking device is matched to the narrowest opening 334 by depressing the outer connecting bar manipulating part 331, Can be moved in the second direction D2 or the first direction D1. Thereby, the meter reading connection bar 33 is controlled to be moved relative to the master block 30 in accordance with the operation of the apparent connecting bar operating portion 331. When it is pulled while pushing the outer connecting bar manipulating part 331, the lock is pulled out while being locked. When pushing the outer connecting bar manipulating part 331 again, the front connecting bar manipulating part 331 is moved forward and is locked by the opening part 334 by its own elasticity. To this end, at least one of the outer connecting bar 33 and the outer connecting bar operating portion 331 and the outer connecting bar locking device 332 may be made of a material having an elastic force in the pressing direction.

Referring to Fig. 14, there is shown an operation flow of a disposable cutting biopsy instrument according to an embodiment of the present invention having the above-described structure.

The loading connector 51 is ready to be spaced apart from the housing and the loading connector 52 is caught by the hub block catching teeth 441 and 442. In this state, A pressing force is applied to the loading handle 51 in accordance with the hinge moving mechanism and the loading connector 52 applies force to the hub block engaging teeth 441 and 442 in the second direction D2 The hub block 40 is moved in the second direction D2 by the predetermined distance a, and the loading block 40 is completed. At this time, since the movement of the master block 30 is suppressed by the launching unit, the restoring force is applied to the first spring 50 while the distance between the master block 30 and the hub block 40 is the predetermined distance a .

Then, when the pushing forces P1 and P2 are applied to the launching units 181 and 191, the first launching stage S4 proceeds. That is, when the pushing forces P1 and P2 are applied to the launching units 181 and 191, a pressing force is applied to the master block latching portion 31 to release the engagement with the first latching portion 13 by the above-described mechanism. The master block 30 is moved in the second direction D2 by the predetermined distance b by the restoring force of the first spring 50. [

When the step S4 is completed, the second launch stage S5 proceeds. That is, as the master block 30 moves in the second direction D2, the hub block releasing unit 32 applies a pressing force to the hub block engaging portion 42 to move the hub block engaging portion 42 Thereby releasing the engagement with the second latching portion 14. [ As a result, the hub block 40 moves in the first direction D1 by a predetermined distance c while pushing the master block 30 in the first direction D1. As a result, The tissue is cut in one direction D1 so as to be encapsulated in the tissue sampling groove 202 of the herbicide 20.

Although it is preferable that the predetermined distances a, b, and c described above are the same in the present invention, it can be understood that a, b, and c may be set to be different from each other due to a slight error in performing the functions of the present invention have.

Thereafter, the above-described tissue collection stage S6 proceeds. The outer connecting bar 33 is moved on the master block 30 without the movement of the master block 30 and the hub block 40 by the above-described operating mechanism and the outer appearance 21 is moved backward, ) Tissue collection grooves 202 are exposed and tissue can be recovered. Thereafter, the process returns to step S1 to allow repeated sampling.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

10: Housing
20: Sphinx
21: Appearance
30: Master block
40: Hub block
50: first spring
60: second spring

Claims (19)

A housing extending in a direction parallel to the one axis and having a hollow portion therein;
A spiral in which a tissue sampling groove is formed and fixed to the inside of the housing through a first side short side hole of the housing, a blade is formed at the tip to cut tissue contained in the tissue sampling groove, A needle set including an appearance that a needle tube is formed and reciprocating with respect to a spinal cord;
And a length of a direction parallel to the one axis is longer than a length of a direction perpendicular to the one axis, A master block disposed in the hollow portion so as to reciprocate in a direction parallel to the one axis;
A driving unit connected to the master block and including a first spring connected in series to the hollow portion in sequence, a hub block having the needle set through portion, and a second spring; And
And a loading unit that is connected to the loading connector and includes a loading handle that applies a force in the second direction to the loading connector, Disposable cutting biopsy instrument. The method according to claim 1,
The first spring is installed as a tension spring to connect and disconnect the master block and the hub block, and the second spring is installed as a compression spring so as to connect the hub block and the second directional end side of the hollow portion Features disposable cutting biopsy instrument. The method according to claim 1,
Wherein the first spring is installed as a compression spring to connect the first end side of the hollow portion with the master block and the second spring is a compression spring having a greater restoring force than the first spring, And wherein the master block and the hub block are installed to be separated from each other. The method according to claim 1,
The housing includes:
A first engaging portion formed on one side of the hollow portion and fixing the master block when loaded; And
And a second fastening portion formed on the other surface of the hollow portion and adapted to fasten the hub block when loaded. 5. The method of claim 4,
The master block includes:
Wherein the master block is disposed in an area corresponding to the first latching part of the master block, and a default state, which is a state at the time of loading and at the time of completion of firing, is arranged to be caught by the first latching part, And when the launching unit installed outside the housing to be inserted and moved into the hollow portion is pressed and moved in the direction of being inserted into the hollow portion, the hooked state of the first engaging portion is released, A master block fastening part that is an elastic body that moves the firing unit toward the outside of the housing while returning to the default state after completion of firing after the fingers are moved in the second direction by the elastic restoring force of the first spring;
And a hub block releasing unit formed in a bar shape so as to release a state in which the hub block is fixed to the second engaging portion, the hub block releasing unit being formed in the second direction short side region of the master block, Cutting biopsy instrument. 6. The method of claim 5,
The launching unit includes:
A first launching unit installed to be reciprocally movable in a direction to be inserted into the hollow portion on an upper surface of the housing; And
And a second launching unit inserted into the hollow portion along a guide line formed in the hollow portion at the second directional end side of the housing to be reciprocally movable in the uniaxial direction, . 6. The method of claim 5,
The master-
A first latching point which is an area caught by the first latching portion in the default state; And
And a first pushing point for transmitting a pressing force when the firing unit is pushed and moved in the direction of insertion into the hollow portion to release the first engagement point between the first engagement portion and the first engagement portion. Cutting biopsy instrument. 6. The method of claim 5,
The hub block includes:
A state in which a loading state is restrained by the second latching portion to inhibit the hub block from moving in the first direction, and as the hub block latching unit moves in the second direction, the hub block latching And a hub block engaging portion that is an elastic body that allows the hub block to be moved in the first direction by the resilient restoring force of the second spring by releasing the engagement state of the second engaging portion by a pressing force applied by the unit Features disposable cutting biopsy instrument. 9. The method of claim 8,
Wherein the hub block-
A second latching point which is an area to be caught by the second latching portion in the loaded state; And
And a second pushing point for transmitting a pressing force applied by the hub block releasing unit to release the second hooking point with the second hooking portion. The method according to claim 1,
Wherein the master block and the hub block are each recessed with a spring receiving portion for receiving the first spring or the second spring connected to the master block and the hub block. The method according to claim 1,
Wherein an impact absorbing plate is formed on at least one end side of the master block and the hub block in the one axial direction. The method according to claim 1,
The hub block includes:
And a tooth-shaped hub block engaging tooth having a first direction side slope portion engaged with the loading connector and a second direction side slope portion facing the first direction side slope portion. . 13. The method of claim 12,
Wherein the loading handle comprises:
A first end of the loading handle is hinged to the housing and the other end of the first end of the loading handle is hinged to the housing and a second end of the loading handle is spaced apart from the housing, An elastic body,
Wherein the loading connector comprises:
Wherein one end side is hinged to one area between both end sides of the loading handle and the other end side is open in a direction to be hooked to the hub block hanging teeth and a loading connector is restored to the hinge- And a second elastic body provided on the other side of the loading connector so as to be spaced apart from the loading handle and to engage with the hub block engaging teeth. 14. The method of claim 13,
The housing includes:
A protruding portion formed at one end of a loading unit guide portion formed to connect the outside of the housing and the hollow portion and guiding a region where the hub block latching teeth and the loading connector are hooked, And a loading connector latching jaw for moving the loading connector so as to be spaced apart from the hub block latching teeth when the loading connector moves in the second direction due to a hinge movement by a pressing force applied to the handle, Cutting biopsy instrument. The method according to claim 4 or claim 14,
At least two or more of the hub block engaging teeth and the second engaging portion are formed so as to have the same width,
The other end of the loading connector applies a force in the second direction to the first tooth in the second direction upon one loading as the pressing force is applied to the loading handle, And the other end side of the loading connector slides on the second direction side slope part while the pressing force is removed from the loading knob by the restoring state, And the other end of the loading connector is engaged with the second tooth in the second direction in the second direction in the second direction when the pressing force is applied to the loading handle, So that the hub block is engaged and fixed to the second securing portion in the second direction in the order of the second direction, Cutting biopsy instrument. The method according to claim 1,
Wherein an open loading status confirmation window is formed in one area of the housing and an area corresponding to the loading status confirmation window is marked on the outer surface of the hub block at the position of the hub block in the ready state and the loaded state, And a loading status marking unit capable of confirming loading status information through a status check window. 14. The method of claim 13,
When the other end of the loading handle is brought into contact with the housing as a pressing force is applied to the loading handle, the locking and unlocking states are toggled in accordance with a pressing force applied to control the engagement of the loading handle and the housing Further comprising: a toggle lock mechanism. The method according to claim 1,
The master block includes:
An apparent connecting bar to which said surface is fixed; And
And a sliding space in which the outer connecting bar is slid while being guided in a moving direction,
The apparent connecting bar may protrude out of the housing through a seeming connecting bar guide portion extending from the apparent connecting bar to open in one region of the housing and guide the movement of the apparent connecting bar, An outer connecting bar manipulating portion formed on the outer connecting portion,
And an apparent bar bar lock device is formed between the apparent bar bar operating part and the apparent bar bar so that the meter bar bar is relatively moved with respect to the master block in accordance with the operation of the apparent bar bar lock device Disposable cutting biopsy instrument. The method according to claim 1,
The master block includes:
And is moved in close contact with the hollow portion of the housing.

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