KR20150021634A - Dual cylinder type biopsy device - Google Patents

Abstract

The present invention relates to a dual cylinder-type biopsy device including a housing, a first cylinder where an inner needle having a tissue sampling groove is fixed, the first cylinder being disposed to be linearly movable in the housing, a second cylinder where a cannula coupled with an outer circumference of the inner needle is fixed, the second cylinder being disposed to be linearly movable between the housing and the first cylinder, first and second locking portions that restrict the respective movements of the first and second cylinders when the first and second cylinders retract in the housing, a compression spring that is disposed between the first cylinder and a rear end of the housing and launches the first cylinder when the locking of the first locking portion is released, and a tensile spring that is disposed between a front end of the housing and the second cylinder and launches the second cylinder when the locking of the second locking portion is released. According to the present invention, a biopsy device can be obtained that is compact in configuration and has a simple mechanism using the tensile spring, the compression spring, and the dual cylinders.

Description

A DUAL CYLINDER TYPE BIOPSY DEVICE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a biopsy device used for collecting tissues during biopsy, and more particularly, to a dual-cylinder biopsy device in which a double cylinder is operated by the elastic force of a spring.

A biopsy is performed to collect the tissue of the patient for the diagnosis and treatment of the disease. A needle-shaped biopsy device is used for such biopsy.

1 to 3 are views showing a general type of biopsy device used for biopsy. Fig. 1 is a side view of the biopsy device, and Figs. 2 and 3 are operational states showing the operation state of the biopsy device shown in Fig. 1. Fig.

Referring to Figures 1 to 3, the biopsy device has a configuration including a cannula (11,12) penetrating tissue and a firing mechanism (20) for firing the cannula (12).

A tip end tip 13 is formed at the tip of the needle 11 and a tissue sampling groove 14 is formed at a position spaced apart from the tip tip 13 by a predetermined distance.

The cannula 12 is configured to be linearly movable on the outer periphery of the incision 11 and has a hollow therein so that the incision 11 can be inserted. A cutting edge for cutting tissue is formed at the tip of the cannula 12 and the cannula 12 is configured to be fired in the longitudinal direction of the tip tip 13 by the action of the firing mechanism 20.

The operation of the biopsy device will be described with reference to FIGS. 2 and 3. First, the biopsy device 20 is operated so that the biopsy device 11 is first fired. As a result, the needle 11 is inserted into the tissue through the tissue. In this state, the firing mechanism 20 is operated again so that the cannula 12 advances to cover the tissue sampling groove 14, and the cutting edge at the tip of the cannula 12 cuts the tissue. This allows the severed tissue to be harvested between the tissue retrieval groove 14 and the outer cannula 12 and retract the biopsy device from the tissue to remove the cannula 12 and the cannula 12 from the tissue, And retracted to retract the tissue from the tissue sampling groove 14.

The configuration of the launch mechanism 20 can be implemented in various forms, and Japanese Patent Application Laid-Open Nos. 6-28663 and 2003-111762 exemplify configurations of launch mechanisms using a spring. According to these prior art documents, the length of the biopsy device is required to be longer than a certain length because the launch mechanism has a structure in which springs having a predetermined length are arranged in series. Thus, it is difficult to realize a biopsy device with a compact configuration.

Japanese Patent Publication No. Hei 6-28663 Japanese Patent Application Laid-Open No. 2003-111762

SUMMARY OF THE INVENTION It is an object of the present invention to provide a biopsy device having a compact structure by realizing a double-sperm sampling device.

In order to achieve the above-described object, the present invention provides a medical instrument, comprising: a housing; a first cylinder fixed to a needle-like recess formed with a tissue sampling groove and installed in the housing so as to be linearly movable; a cannula coupled to an outer periphery of the needle; A first cylinder and a second cylinder disposed between the first and second cylinders so as to be linearly movable between the first and second cylinders; first and second cylinders respectively restricting movement of the first and second cylinders when the first and second cylinders retract in the housing; A compression spring installed between the first cylinder and the rear end of the housing for firing the first cylinder when the first locking portion is unlocked, and a compression spring installed between the front end of the housing and the second cylinder, And a tension spring that fires the second cylinder when the second locking portion is unlocked.

The first locking portion may be formed in the form of a hook protruding from the outer circumferential surface of the first cylinder and hooked to the rear surface of the second cylinder. In this case, the housing may be provided with a pushing portion for pushing the hooking hook by a pressing operation to release the hooking hook.

The second locking portion includes a projection protruding from an outer circumferential surface of the second cylinder and moving in a forward slot formed in the housing in a forward and backward direction, and a second locking portion movably installed in the housing, And a restricting operation portion.

The housing may further include a rotation slot formed along the outer circumferential direction of the housing from the front end of the advance slot and a retreat slot formed along the rear of the housing from the end of the rotation slot. Here, the second cylinder may be formed with a mobile slot through which the hook is movable when the protrusion moves on the retracted slot.

The compression spring may be inserted into the first cylinder, and the tension spring may be installed on the outer circumference of the second cylinder. And a flange supporting the tension spring may be formed at a rear end of the second cylinder.

The housing may include a housing main body for receiving the first and second cylinders and supporting the front end of the tension spring, and a cover coupled to a rear end of the main body and supporting a front end of the compression spring .

According to the present invention, a biopsy device having a simple structure using a tension spring, a compression spring, and a double cylinder can be realized.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a general type of biopsy device.
4 is an exploded perspective view of a dual-cylinder biopsy device according to an embodiment of the present invention.
5 is a top plan view of the exploded view shown in Fig. 4;
6 is a cross-sectional view of the double cylinder type biopsy device shown in Figs.
7 is a view showing a loading state of a dual-cylinder biopsy device.
8 is a view showing a state in which a needle of a double-cylinder biopsy device is fired.
9 is a view showing a cannula of a double-cylinder biopsy device being fired.
10 is a view showing a cannula of a double-cylinder biopsy device retracted;

Hereinafter, a dual-cylinder biopsy device according to the present invention will be described in detail with reference to the drawings.

FIG. 4 is an exploded perspective view of a dual-cylinder biopsy device according to an embodiment of the present invention, and FIG. 5 is a plan view of FIG. And Fig. 6 is a cross-sectional view of the double cylinder type biopsy device shown in Figs. 5, the compression spring and the tension spring are not shown.

4 to 6, a dual cylinder biopsy device includes a housing 110, a first cylinder 120, a second cylinder 130, a first locking portion 140, a second locking portion 150, A spring 161, and a tension spring 162.

The housing 110 forms the appearance of a dual-cylinder biopsy device and may have a configuration including a housing body 111 and a cover 112 coupled thereto. The housing main body 111 receives the first cylinder 120 and the second cylinder 130 and supports the front end of the tension spring 162. The cover 112 is coupled to the rear end of the housing main body 111 and supports the rear end of the compression spring 161.

The first cylinder 120 is installed in the housing 110 so as to be linearly movable, and may have a cylindrical structure in which the front end is closed and the rear end is opened. The first cylinder 120 is fixed with a needle 121 for infiltrating the tissue and collecting the tissue. The rear end of the bottom 121 is fixed to the front end of the first cylinder 120 and the tip 122 having a sharp tip is formed at the front end of the bottom 121. [ A tissue sampling groove 123 is formed at a position spaced apart from the tip 122 by a predetermined distance.

The second cylinder 130 is installed between the housing 110 and the first cylinder 120 so as to be linearly movable. The second cylinder 130 may have a cylindrical structure in which the front end is closed and the rear end is opened. The second cylinder 130 has a larger diameter than the first cylinder 120 to accommodate the first cylinder 120. A cannula 131 is fixed to the second cylinder 130 and the cannula 131 is coupled to the outer periphery of the needle 121 so as to linearly move on the outer periphery of the needle 121. A hollow is formed in the cannula 131 so that the needle 121 can be inserted therein. A cutting edge for tissue cutting is formed at the front end of the cannula 131. The rear end of the cannula 131 is fixed to the front end of the second cylinder 130 and the front end of the cannula 131 is installed through the through hole 113 formed in the housing body 111.

The first locking part 140 and the second locking part 150 are located in the first cylinder 120 and the second cylinder 130 when the first cylinder 120 and the second cylinder 130 are retracted in the housing 110. [ 130, respectively. The detailed structure will be described later in detail.

The compression spring 161 is installed between the first cylinder 120 and the rear end of the housing 110 and is connected to the first cylinder 120 so that the first cylinder 120 is fired when the first locking part 140 is unlocked. As shown in FIG. The compression spring 161 is inserted into the first cylinder 120 and the front end of the compression spring 161 is supported by the front end wall of the first cylinder 120. The rear end of the compression spring 161 is supported by the cover 112 and the insertion portion 115 inserted into the compression spring 161 may protrude from the cover 112. [

The tension spring 162 is installed between the front end of the housing 110 and the second cylinder 130 and is connected to the second cylinder 130 so that the second cylinder 130 is fired when the second locking portion 150 is unlocked. As shown in FIG. The tension spring 162 is installed on the outer circumference of the second cylinder 130 and the front end of the tension spring 162 is supported by the front end wall of the housing main body 111. A flange 133 for supporting the rear end of the tension spring 162 may be formed at the rear end of the second cylinder 130.

Hereinafter, the structure of the first locking part 140 and the second locking part 150 will be described in detail.

The first locking portion 140 may have the form of a locking hook. A first locking part 140 in the form of a hook is protruded from the outer circumferential surface of the first cylinder 130 and is formed to be caught on the rear surface of the second cylinder 130. The housing 110 may be formed with a pushing part 117 for releasing the engagement of the first locking part 140 by pushing the first locking part 140 (hooking hook) by a pressing operation. The second cylinder 130 is provided on the outer circumferential surface of the second cylinder 130 in such a manner that the first locking portion 140 can be easily pushed into the outer circumferential surface of the second cylinder 130. In this embodiment, A cut-out portion 141 may be formed.

The second locking portion 150 may have a configuration including a protrusion 151 formed on the second cylinder 130 and an operation portion 152 provided on the housing 110.

The protrusion 151 protrudes from the outer circumferential surface of the second cylinder 130 and is configured to move the advancing slot 171 formed along the forward and backward direction to the housing 110. The protruding portion 151 functions as a handle that the user grips and retracts when the biopsy device is loaded.

The operating portion 152 is operably installed in the housing 110 and configured to move by the operation to restrain movement of the projecting portion 151 or to release the restraint. The present embodiment illustrates a configuration in which the operating portion 152 slides on the housing 110 to restrain movement of the projecting portion 151 or release the restraint. A portion indicated by a solid line indicates a state before movement, and a portion indicated with a dotted line indicates a state after movement. The configuration of the operation unit 152 is not limited to the configuration exemplified in this embodiment, and can be implemented in various forms such as restricting the movement of the projection 151 by rotating the operation unit 152.

The configuration of the first locking part 140 and the second locking part 150 described above is only an example and the forward movement of the first cylinder 120 and the second cylinder 130 in the loaded state The present invention is not limited thereto.

Meanwhile, a rotation slot 172 and a retraction slot 173 may be additionally formed in the housing 110, specifically, the housing main body 111, and a movement slot 174 may be formed in the second cylinder 130 .

The rotation slot 172 is formed along the outer circumferential direction of the housing 110 from the distal end of the advance slot 171. The rotation slot 172 is a structure for relatively rotating the second cylinder 130 relative to the first cylinder 120 so that the projection 151 is moved on the rotation slot 172 to rotate the second cylinder 130 do. It is preferable that a guide structure for limiting the rotation of the first cylinder 120 is formed on the inner wall of the housing main body 111 when the second cylinder 130 rotates.

The retraction slot 173 is formed along the rear of the housing 110 from the end of the rotation slot 172. The withdrawal slot 173 has a structure for retracting only the second cylinder 130 and moves the projection 151 on the retreat slot 173 to cause the second cylinder 130 to retract. The withdrawal slot 173 is formed to have a shorter length than the advance slot 171 and the length of the withdrawal slot 173 corresponds to the retraction length for tissue harvesting after the cannula 131 is fired.

The movable slot 174 provides a space through which the first locking portion 140 moves as the protrusion 151 moves on the retreat slot 173. That is, the second cylinder 130 functions to prevent the first cylinder 120 from retracting together with the second cylinder 130 when the second cylinder 130 is retracted. The mobile slot 174 is formed on the opposite side of the direction in which the retraction slot 173 is formed with respect to the advancing slot 171.

Hereinafter, the operation state of the double-cylinder biopsy device having the above-described configuration will be described. FIGS. 7 to 10 are sectional views sequentially showing the operating states of a dual-cylinder biopsy device according to an embodiment of the present invention.

Fig. 7 shows the loading state of the double-cylinder biopsy device. 6, when the user retreats the protrusion 151 of the second cylinder 130 by hand, the second cylinder 130 is retracted. Since the first cylinder 120 is locked to the second cylinder 130 by the first locking portion 140, the first cylinder 120 is retracted together with the second cylinder 130. The second cylinder 130 is locked to the housing 110 when the operation unit 152 is operated to be retracted to the rear end of the housing 110 of the second cylinder 130 and then to the protrusion 151. [ At this time, the tension spring 162 is stretched to generate an elastic restoring force in the compression direction, and the compression spring 161 is compressed to generate elastic restoring force in the tension direction.

Next, when the pressing portion 117 of the cover 112 is pressed, the pressing portion 117 pushes the first locking portion 140 to release the engagement of the first locking portion 140. Accordingly, the first cylinder 120 is released from restraint, so that the first cylinder 120 moves forward due to the elastic restoring force of the compression spring 161 as shown in FIG. 8 shows a state in which the first cylinder 120 moves forward and the needle 121 fixed to the first cylinder 120 is fired so that the needle 121 enters the tissue to be biopsied .

9, the elastic restoring force of the tension spring 162 is applied to the second cylinder 130 because the restricting of the second cylinder 130 is released by releasing the engagement of the projection 151 by operating the operating part 152. [ As shown in Fig. 9 shows a state where the second cylinder 130 moves forward and the cannula 131 fixed to the second cylinder 130 is fired so that the cannula 131 passes over the outer periphery of the fall 121 So that the tissue is cut. As a result, the tissue inside the tissue sampling groove 123 of the needle 121 is separated from the adjacent tissue.

The dual-cylinder biopsy device is then retracted from the tissue and separated from the tissue. That is, the needle 121 and the cannula 131 located inside the tissue are taken out from the tissue.

Next, as shown in FIG. 10, the cannula 131 is retracted with respect to the needle 121 to extract the tissue from the tissue sampling groove 123. 10 shows a state in which the cannula 131 is retracted on the incision 121 and the tissue collecting groove 123 of the incision 121 is exposed. To this end, the protrusion 151 located at the end of the advance slot 171 is rotated through the rotation slot 172 to rotate the second cylinder 130 relative to the first cylinder 120. The first locking portion 140 of the first cylinder 120 is positioned on the moving slot 174 of the second cylinder 130 as the second cylinder 130 rotates.

The first locking part 140 of the first cylinder 120 moves in the direction of the moving slot 174 of the second cylinder 130 when the second cylinder 130 moves backward by moving the projection 151 on the retreat slot 173, So that the first cylinder 120 is not retreated but only the second cylinder 130 is retreated. As a result, only the cannula 131 is retracted in a state where the needle 121 is fixed, so that the tissue sampling groove 123 of the needle 121 is exposed to the outside, and tissue can be extracted.

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, Various modifications can be made.

Claims (9)

housing;
A first cylinder fixedly mounted on the recess formed with the tissue sampling groove and installed in the housing so as to be linearly movable;
A second cylinder fixed to a cannula coupled to the outer periphery of the needle and being installed between the housing and the first cylinder so as to be linearly movable;
First and second locking portions respectively restricting movement of the first and second cylinders when the first and second cylinders retract in the housing;
A compression spring installed between the first cylinder and the rear end of the housing and firing the first cylinder when the first locking portion is unlocked; And
And a tension spring which is provided between the front end of the housing and the second cylinder and fires the second cylinder when the second locking portion is unlocked. The apparatus of claim 1, wherein the first locking portion comprises:
And a locking hook protruding from an outer circumferential surface of the first cylinder and hooked to a rear surface of the second cylinder. 3. The method of claim 2,
Wherein the housing is formed with a pushing portion for pushing the latching hook by a pressing operation to release the latching hook. 3. The apparatus of claim 2, wherein the second locking portion comprises:
A projection protruding from an outer circumferential surface of the second cylinder and moving in a forward slot formed in the front and rear direction of the housing; And
And an operating portion that is operably provided in the housing and moves by operation to restrain the movement of the projecting portion. 5. The connector according to claim 4,
A rotation slot formed along a circumferential direction of the housing from a front end of the advancing slot; And
Further comprising a withdrawal slot formed along the rear of the housing from an end of the rotatable slot. 6. The method of claim 5,
Wherein the second cylinder is formed with a mobile slot through which the hook is movable when the protrusion moves on the retracting slot. The method according to claim 1,
Wherein the compression spring is inserted into the first cylinder,
And the tension spring is installed on an outer circumference of the second cylinder. 8. The method of claim 7,
And a flange for supporting a rear end of the tension spring is formed in the second cylinder. The connector according to claim 1,
A housing body which receives the first and second cylinders and supports a front end of the tension spring; And
And a cover coupled to a rear end of the main body and supporting a rear end of the compression spring.

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