KR20110001856A - Lancing device for blood-gathering - Google Patents

Abstract

PURPOSE: A lancing device for blood-gathering is provided to prevent a lancet from being reused by mounting a plurality of lancets into a lancet holder. CONSTITUTION: A blood collection hole(31) is formed in the front side of a housing. A lancet mounting unit is movably arranged inside the housing. A trigger unit inserts a lancet needle(2) to the blood collection hole. A penetration depth control unit controls the penetration depth of the lancet passed through the blood collection hole. The penetration depth control unit comprises a cramp unit and a shutter area(150). The cramp unit cramps the skin of biological sites. The shutter area changes the length of the lancet needle which is protruded to the outside of the housing.

Description

Blood collection device {Lancing device for blood-gathering}

The present invention relates to a blood collection device, and more particularly, to a blood collection device that can adjust the depth of penetration of the lancet needle penetrated into the skin according to the skin thickness of the living body to collect blood.

In general, patients with chronic diabetes should have their own blood glucose test daily at home to measure blood glucose levels and manage disease to maintain a constant blood sugar level. In order to perform the blood glucose test, blood is collected. Usually, a small amount of capillary blood is collected by penetrating the skin with a disposable lancet, and then buried in a strip, and the blood glucose test system in which the strip is mounted. Blood glucose levels are measured using.

As described above, as a device for collecting blood, a lancing device has been mainly used. The blood collection device described above includes a lancet holder equipped with a disposable lancet, an end cap having a lancet and an end cap having a protruded attachment of the needle for skin penetration, and a spring and percussion mechanism providing skin penetration. It consists of. The blood collection device first separates the end cap from the blood collection device, and then attaches the lancet to the lancet holder while covering the end cap under the spring compression and closes the capillary, such as a finger, and presses the trigger switch to press the trigger switch. Trigger and penetrate the skin. At this time, by pressing the periphery of the skin around the blood enough to obtain capillary blood on the strip of the blood glucose meter to measure the blood sugar level.

However, in the conventional blood collection device, the skin penetration depth of the lancet needle is uniformly fixed. It is necessary to adjust the depth of penetration of the needle because the skin thickness of each person and the part to be collected may be different.

The present invention has been made to improve the above problems, and an object of the present invention is to provide a blood collection device that can adjust the depth of penetration of the lancet needle according to the skin thickness of the living body to collect blood.

The blood collection device of the present invention for achieving the above object is formed with a blood collection hole on the front; A lancet mounting unit which is installed to be movable back and forth within the housing and to which a needle-shaped lancet is mounted; A triggering unit for advancing the lancet mounting unit toward the blood collection hole and passing the needle of the lancet to the blood collection hole; Penetration depth adjusting means for controlling the penetration depth of the needle penetrating the blood collection hole through the blood collection hole according to the skin thickness of the biological portion; And a loading unit for retracting the lancet mounting unit.

The penetration depth adjusting means is installed at the front end of the housing and the forceps to pick up the skin of the living body during the forward movement of the lancet mounting unit by the percussion unit and the blood collection direction according to the thickness of the skin picked up from the forceps It characterized in that it comprises a shutter for varying the protruding length of the needle protruding to the outside of the housing by preventing the movement of the lancet to move forward.

The tongs part is provided on the front of the housing so as to face up and down the fixing jaw formed to protrude in front of the housing and the fixing jaw with the blood collection hole therebetween moving jaw moving up and down in conjunction with the percussion unit It is characterized by including.

The shutter unit is rotatably supported on the inner surface of the front end of the housing and is gradually changed in thickness along the rotational direction, and includes a rotating plate having a slit corresponding to the blood collection hole, and a pinion formed at the center of rotation of the rotating plate. It characterized in that it comprises a rack for rotating the rotating plate while moving up and down in conjunction with.

The shutter unit may move up and down in association with the triggering unit at the front inner side of the housing, and may be provided as a lifting plate having a slit corresponding to the blood collection hole, the thickness of which is gradually changed along the moving direction.

The lancet mounting unit includes a lancet holder in which a plurality of lancets are continuously mounted, a slider for accommodating the lancet holder therein, the lancet includes a first portion of a quadrangle having the needle formed on the front surface thereof, and a first portion of the lancet mounting unit. And a second portion formed on the rear surface and having a smaller cross-sectional area than the first portion, and a third portion formed on the rear surface of the second portion and having a needle insertion hole formed therein, into which a needle of an adjacent lancet is inserted. .

As described above, according to the present invention, the penetration depth of the lancet needle may be adjusted according to the skin thickness of the subject during blood collection.

In addition, since the needle penetrates the skin while pinching the skin during blood collection, pain can be reduced when the needle penetrates, and the hemostasis is quick.

In addition, since a plurality of lancets are mounted and used in a lancet holder, it is possible to avoid the hassle of removing and mounting the lancets used every time as in the conventional case, and it is safe to prevent reuse of the used lancets.

1 is an exploded perspective view of a blood collector according to an embodiment of the present invention,
2 is a plan view of the blood collector of FIG.
3 is a cross-sectional view of AA of FIG. 2,
4 is a front view of the slider applied to FIG. 1,
5 is a cross-sectional view of BB of FIG. 4,
6 is a side view of FIG. 4,
7 is a front view of the lancet holder applied to FIG.
8 is a cross-sectional view of the CC of FIG.
9 is a side view of FIG. 7,
10 is a perspective view of a lancet applied to FIG. 1,
11 is a front view of FIG. 10,
12 is a side view of the second cover applied to FIG. 1,
13 is a perspective view showing a main portion of a trigger unit applied to a blood collector according to another embodiment of the present invention;
14 is a cross-sectional view of the main portion of the blood collection device to which FIG. 13 is applied;
15 is a perspective view illustrating an operation unit applied to another embodiment of the present invention;
16 is a cross-sectional view of FIG. 15.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the blood collector according to an embodiment of the present invention.

1 is an exploded perspective view of a blood collector according to an embodiment of the present invention, FIG. 2 is a plan view of the blood collector of FIG. 1, FIG. 3 is a sectional view of AA of FIG. 2, and FIG. 4 is a front view of the slider applied to FIG. 1. 5 is a cross-sectional view of BB of FIG. 4, FIG. 6 is a side view of FIG. 4, FIG. 7 is a front view of the lancet holder applied to FIG. 1, FIG. 8 is a cross-sectional view of CC of FIG. 7, and FIG. 9 is FIG. 7. 10 is a perspective view of the lancet applied to FIG. 1, FIG. 11 is a front view of FIG. 10, and FIG. 12 is a side view of the second cover applied to FIG. 1.

1 to 12, the blood collection device according to an embodiment of the present invention is largely provided with a penetration depth adjusting means for adjusting the penetration depth of the housing, the lancet mounting unit, the percussion unit, the loading unit, and the lancet needle Equipped.

The housing forms the appearance of the present invention. The housing is provided with various elements constituting the lancet mounting unit, the cocking unit, and the loading unit.

In the illustrated example, the housing includes a first cover 10, a second cover 20 that is detachably coupled to an upper portion of the first cover 10, a first cover 10, and a second cover 20. The front cover 30 is coupled to the front of the, and the end cap 40 is coupled to the rear of the first cover 10 and the second cover 20.

Both side surfaces of the second cover 20 are provided with conventional coupling members 21 having protrusions at the lower ends thereof. The coupling members 21 are respectively coupled to the coupling grooves 11 formed in the first cover 10. Both front edges of the front cover 30 are inserted into and coupled to the mounting portion 13 formed on the front surface of the first cover 10. The upper portion of the front cover 30 is supported by the second cover 20 coupled to the first cover 10. The front of the front cover 30 is provided with a fixing jaw 130 of the tongs to be described later. The front cover 30 is provided with a blood collection hole 31 formed through the front and rear directions. The blood collection hole 31 is formed above the fixed jaw 110. The collection hole 31 is formed larger than the outer diameter of the needle 2 so that the needle 2 of the lancet can be inserted into the collection hole 31.

The end cap 40 is coupled to the rear surface of the first cover 10 and the second cover 20 in a state where the first cover 10 and the second cover 20 are coupled to each other. A rectangular guide pipe 45 is formed inside the end cap 40 to protrude a predetermined length forward. Coupling members 41 are respectively formed on the upper and lower ends of the end cap 40 so that they can be detachably attached to the coupling grooves 12 and 22 formed on the rear surfaces of the first cover 10 and the second cover 20, respectively. Combined.

The lancet mounting unit is installed to be movable back and forth within the housing. The lancet 1 is mounted to the lancet mounting unit. The lancet 1 may be mounted one or multiple. In the illustrated example, a lancet mounting unit is provided with a lancet holder 50 and a slider 70, and a plurality of lancets 1 are continuously mounted to the lancet holder 50.

As shown in FIGS. 10 and 11, the lancet 1 has a rectangular first portion 3 having a needle 2 formed at a front end thereof, and is formed at a rear end of the first portion 3 and has a first portion 3. A second portion 5 having a smaller cross-sectional area, and a rectangular third portion 7 formed at the rear end of the second portion 5 and having a needle insertion hole 8 into which a needle of an adjacent lancet is inserted. Is done. The side surface of the third part is provided with a locking groove 9 formed to be drawn inward. Preferably, the edge 3a where the front surface of the first portion 3 meets four sides of the top, bottom, left and right sides is formed in a round arc shape, and the edge 3b where the four sides of the first portion 3 meet the top, bottom, left, and right sides meet. Is formed in a square to form a right angle. Like the first part 3, the second part 7 is also formed in an arc shape, and the rear edge 7b is formed in a rectangular shape.

The lancet holder 50 is formed by extending from the front end of the base portion 51, the front and rear surfaces and the rectangular sliding hole 52 formed therein, and the front end of the base portion 51, the loading space is loaded therein It is provided with the holding part which has.

The sliding hole 52 formed in the base 51 has a square cross section so as to correspond to the outer shape of the lancet 1. The guide pipe 45 of the end cap is inserted into the sliding hole 52. The cross-sectional area of the sliding hole 52 is formed larger than the cross-sectional area of the guide pipe 45. In the forward and backward movement of the lancet holder 50, the guide pipe 45 serves to guide the forward and backward movement of the lancet holder 50.

The gripping portion is composed of four extension pieces 55 in the form of a plate, which are formed to extend forward from four sides of the base 51, respectively. Extension pieces 55 is a structure that is separated from each other. That is, the four cutting edges 57 are formed at four corners of the gripping portion. The extension pieces 55 have a structure that can be opened in the outward direction of the base portion.

At each end of each of the extension pieces 55, a first locking jaw 59 protruding inward is formed. The first catching jaw 59 is formed at a right angle with respect to the extension piece 55, but the rear surface of the first catching jaw 59 is formed as a curved surface. The distance between the two first engaging jaws 59 facing each other is formed to be smaller than the upper and lower or left and right widths of the first (3) portion and the third portion (7) of the lancet (1).

The first guide protrusions 56 are formed in the two extension pieces extending from the upper and lower surfaces of the base part 51 among the four extension pieces 55 along the longitudinal direction of the grip part. In addition, a plurality of cutout holes are formed in each of the two extension pieces extending from the left and right sides of the base part 51 among the four extension pieces 55, and a tangy piece 60 is formed in each cutout hole. The finger piece 60 is formed by one side is connected to the extension piece (55). The second catching jaw 61 is formed at the other side of the finger piece 60 which is not connected to the extension piece 55. The second catching jaw 61 is formed at a right angle with respect to the tangerine piece 60, but the rear surface of the second catching jaw 61 is formed to be inclined. The distance between the two opposing second engaging jaws 61 is formed smaller than the upper, lower, left, or right widths of the first portion 3 and the third portion 7 of the lancet 1. The interval between the second catching jaws 61 formed on one extension piece 55 is formed to be equal to the length of one lancet 1. Here, the length of one lancet means the length from the front end of the lancet 1 part 3 to the rear end of the third part 7 excluding the length of the needle. The same applies to the following.

The lancet 1 is inserted one by one through the sliding hole 52 of the base portion 510 so as to face the needle 2 to the lancet holder 50 having the above configuration, and pushes it toward the grip portion. In the lancet holder 50, six lancets (1) are sequentially mounted in. Of course, unlike the illustrated, the number of lancets mounted on the lancet holder 50 can be variously changed. Are all inserted into the needle insertion hole 8 of the lancet located in front of it.

A plurality of lancets 1 are mounted such that the first portion 3 of the lancet located in front of the lancet is located between the first locking jaw 59 and the second locking jaw 61. The second catching jaw 61 is disposed between the first portion 3 and the third portion 7 of each of the lancets 1 with the lancet 1 mounted on both of the lancet holders. The shape of the second locking jaw 61 allows the lancets 1 to move forward in the mounted position of the lancet holder 50 but not to move backward. When five second catching jaws 61 are formed in one extension piece 55 as in the illustrated example, the last lancet is not caught by the second catching jaw 61 when the lancets 1 are mounted. Moving forward one by one by the loading unit to be described later is caught by the second catching jaw 61 to the last lancet.

The lancet holder 50 is inserted into the slider 70 while the plurality of lancets 1 are mounted therein.

The slider 70 is installed in the housing so as to be slidable back and forth within the housing. As an example of the slider 70, a rectangular accommodating space 71 for accommodating the lancet holder 50 is formed therein, and incision holes are formed at predetermined intervals at four corners. In addition, the cutting holes are formed in the left and right sides of the slider 70, and the fixing pieces 73 are formed at the front end of the slider, respectively. In the illustrated example, the fixing piece 73 is disposed up and down on both sides of the slider 70. The vertical separation distance of the upper and lower fixing pieces 73 is equal to the interval between the upper and lower cutouts 57 formed in the gripping portion of the lancet holder. One side of each fixing piece 73 is coupled to the slider 70. And the other side of the fixing piece 73 that is not coupled to the slider 70 is formed with a fixing jaw 75 protruding in the inner direction of the slider 70. The fixing jaw 75 is formed at a right angle with respect to the fixing piece 73, but the rear surface of the fixing jaw 75 is formed to be inclined. Since only one side of the fixing piece 73 is fixed to the slider 70, the fixing piece 73 may be easily opened in the outward direction of the slider 70. The gap between the fixing jaw 73 is formed equal to the length of one lancet.

The fixed jaw 73 allows forward movement of the lancet 1 but does not permit backward movement. When the lancet holder 50 is mounted on the slider 70, the fixing jaw 75 is positioned between the first portion 3 and the third portion 7 of the lancet 1.

Second guide protrusions 77 are formed on the left and right sides of the slider 70, and guide ribs 79 protrude from the bottom surface of the slider 70. The second guide protrusion 77 and the guide rib 979 are respectively coupled to the guide grooves (not shown) formed in the first cover 10 and the second cover 20 to move the slider 70 back and forth within the housing. It serves to guide the movement of people.

The lancet holder 50 having the plurality of lancets 1 mounted therein is pushed inward through the rear end of the slider 70 to couple the lancet holder 50 to the slider 70. As shown in FIG. 3, the lancet positioned in front of the plurality of lancets 1 is snapped by the loading unit to the first fixing jaw 75 of the slider to be triggered.

The trigger unit moves the slider 70 on which the lancet holder 50 is mounted by an elastic force so that the needle 3 of the lancet positioned in front of the lancets 1 mounted on the lancet holder 50 is collected by the blood collector 31. ) To pierce the skin of the living area to collect blood. In the illustrated embodiment of the present invention, the lancet holder 50 also moves forward when the slider 70 moves forward by the triggering unit.

As an example of the triggering unit, an elastic member for applying an elastic force to the slider 70 in the direction of the blood collection hole 31, a clamp 90 provided inside the housing to prevent the slider 70 from moving forward, and a clamp 90 It is provided with the operation part 100 which isolate | separates from 70 and moves forward the slider 70 to the blood collection hole 31 by the elastic force of an elastic member.

As the elastic member, a spring 110 is used. The spring 110 is disposed between the slider 70 and the end cap 40. The front end of the spring 110 is in contact with the rear end of the slider 70 and the rear end of the spring 110 is supported inside the end cap 40.

The fastener 90 is formed with a boss insertion hole 91 so as to be coupled to the boss 15 formed inside the first cover 10, and a loading protrusion 95 capable of catching the front end of the slider 70 on one side thereof. ) Is formed. The boss 15 is mounted with a spring 97 to apply an elastic force to the clamp 90 in a direction in which the clamp 90 is raised.

The operation unit 100 is supported to be liftable on the second cover 20. The operation unit 100 includes a base panel 101, a trigger button 103 formed on an upper portion of the base panel 101, a lower portion of the base panel 101, and presses the trigger button 103 to press the clamp 90. Spring mounting to which the pressing plate 105 to press downward from the top and the spring 108, one end of which is formed in the lower portion of the base panel 101 and supported by the protrusion 14 formed inside the first cover 10, is coupled. A guide piece 109 coupled to the rod 107 and the elevating guide part 23 formed at the front end of the second cover 20 to guide the vertical movement of the base panel 101 is provided. After installing the operation unit 100 to the second cover 20, the button cover 115 is coupled to the second cover 20.

When the trigger button 103 of the operation unit 100 is pressed, the lower end of the pressing plate 105 presses the clamp 90, and thus, the loading protrusion 95 formed on the clamp 90 is separated from the slider 70 and is elastic. The slider 70 moves forward in the shear direction of the housing by the elastic force of the member. At this time, when the slider 70 moves forward, the lancet holder 50 also moves forward, and the needle 2 of the lancet mounted in front of the lancet holder 50 passes through the blood collection hole 31 to penetrate the skin of the living body. Done.

Another embodiment of the operation unit is shown in FIGS. 15 and 16. The illustrated operation portion is formed in the base panel 201, the lower portion of the base panel 201 and the cylindrical accommodating portion 210 having an empty interior, and the accommodating portion 210, and the upper portion thereof is above the base panel 201. And a trigger button 203 protruding from each other, a spring mounting rod 207 formed below the base panel 201, and a guide piece 109 for guiding the vertical movement of the base panel 201.

Trigger button 203 is formed in the head portion 204, the lower portion of the head portion 204 and the stopper 205 having a diameter larger than the diameter of the head portion 204, and the lower portion of the stopper 205 And a push rod 206 having a diameter smaller than that of the stopper 205. The upper portion of the accommodating portion 210 for accommodating the trigger button 203 is formed with a through hole through which the head portion 204 penetrates. Is formed. Therefore, the trigger button 203 is installed in the receiving portion 210 to be able to move up and down. And inside the receiving portion 210 is installed a spring for pressing the trigger button 203 upwards. Preferably the elastic modulus of the spring 209 installed in the receiving portion 210 is larger than the elastic modulus of the spring (not shown) coupled to the spring mounting rod 207. Therefore, when the trigger button 203 is pressed while the operation unit 200 is installed in the housing, the entire operation unit 200 is lowered. And when the lower end of the spring mounting rod 207 is in contact with the upper end of the projection 14 shown in Figure 1 stop the lowering of the operation unit 200, the trigger button 203 is lowered in the receiving portion (210). In this case, the pressing bar 206 of the trigger button is pressed downward from the receiving portion 210 to press the clamp.

The loading unit retracts the triggered slider 50 to return to the triggered state. In particular, the present invention discharges the front lancet (1) used for blood collection by the loading section 50 to the outside of the housing and the lancets (1) remaining in the lancet holder 50 in the lancet holder (50) It has a configuration to move forward one space at a time. A discharge hole 17 through which the lancet 1 is discharged is formed in the first cover 10.

The loading button 120 for retracting the slider 70 to the loading portion and protruded on both sides of the base portion 51 of the lancet holder 50 to limit the retraction distance of the slider 70 when the slider 70 is retracted. The stopper 125 is provided.

The loading button 120 is formed on the upper portion of the slider 70, and is mounted in the loading button mounting hole 25 formed long on the upper portion of the second body 20. The loading button mounting hole 25 is elongated back and forth by the displacement of the slider 70 moving back and forth within the housing.

When the loading button 120 is retracted after the slider 70 is triggered, the slider 70 is retracted. At this time, the lancet holder 50 accommodated in the slider 70 together with the slider 70 also retreats together. When the rear end of the lancet holder 50 having a longer length than the slider 70 is caught inside the end cap 40, the lancet holder 50 is stopped, and the loading protrusion 95 is the elastic force of the spring 97. It rises by and contacts the front end of the lancet holder 50. As shown in FIG. In the state where the retraction of the lancet holder 50 is stopped, the lancets 1 are fixed to the first and second fixing jaws 59 and 61 even when the slider 70 continues to retreat. Therefore, when the slider 70 is retracted while the lancet holder 50 is stopped, the fixing pieces 73 of the slider 70 open outwardly so that the fixing jaws 75 pass over each lancet 1. do. When the slider 70 is retracted to the maximum, the front lancet 1 is separated from the first fixing jaw 75 of the slider 70 and falls downward. The lancet 1 falling downward is discharged to the outside of the housing through the discharge hole 17.

In the state where the lancet holder 50 is stopped, the slider 70 may further retreat until the rear end of the slider 70 contacts the stopper 125 formed in the lancet holder 50. The distance to retreat more than the lancet holder 50 is equal to the length of one of the lancet (1).

When the slider 70 is retracted until it comes in contact with the stopper 125, the fixing jaws 75 formed on the slider 70 are formed in the first portion 3 and the third portion of each lancet 1 located in the lancet holder. It is caught between the parts (7). When the user releases the loading button 120 in this state, the slider 70 moves forward by the length of one lancet 1 until it is caught by the loading protrusion 95. In this case, since the lancet holder 50 is caught in the loading protrusion, the lancet holder 50 maintains the stopped state. When the slider 70 moves forward with the lancet holder 50 stopped, the lancets 1 caught by the fixing jaw 75 are also moved together. At this time, the first and second catching jaws 59 and 61 formed in the lancet holder 50 only prevent the reverse of the lancet 1 but allow forward movement. Since the slider 70 may move by the length of one lancet while the lancet holder 50 is stopped, the lancets mounted on the lancet holder 50 are stopped when the slider 70 is stopped by the loading protrusion 95. 1) moves forward one space at the initial state. Among the remaining lancets, the lancet located in front of the slider becomes biteable by being bitten by the first fixing jaw 75 of the slider.

When the trigger button 103 is pressed again in this state, the loading protrusion 95 which fixes the slider 70 and the lancet holder 50 at the same time is lowered, and the slider 70 and the lancet holder 50 are thereby lowered. Simultaneously advancing, the needle (2) of the front lancet is passed through the blood collection hole (31). And when the push button 120 is pushed backward, the lancet (1) used for blood collection is discharged to the outside of the housing through the discharge hole (17).

Thus, in the present invention, a plurality of lancets 1 are sequentially mounted on the lancet holder 50 and are sequentially triggered one by one, and the lancet 1 used for loading after the trigger is sequentially discharged one by one.

When the lancet 1 is triggered, the needle 2 of the lancet that has passed through the blood collection hole 31 penetrates through the skin of the living body to be collected. The skin thickness may vary from subject to subject, and the present invention includes a penetration depth adjusting means for controlling the penetration depth of the lancet needle 2 penetrating into the living body part to the skin thickness of the living body part.

As an example of the penetration depth adjusting means, it is installed at the front end of the housing, and the forceps unit picks up the skin of the living body during the movement of the lancet 1 by the percussion unit, and in the direction of the blood collection hole 31 according to the thickness of the skin picked up from the forceps. It is provided with a shutter unit 150 for preventing the movement of the lancet to move forward to change the protruding length of the needle protruding out of the housing.

The tongs part is installed at the front of the housing so as to face up and down with the fixing jaw 130 and the blood collection hole 31 interposed with the fixing jaw 130 protruding from the front end of the housing, and interlocked with the trigger button 103 to move up and down. It has a moving jaw 135 to move to.

Fixing jaw 130 is formed in front of the front cover 30 in the illustrated example. And the moving jaw 135 is formed on the front surface of the guide piece 109 of the operation portion. Therefore, when the movement jaw 135 presses the trigger button 103, the jaw descends in conjunction with the trigger button 103, and the distance between the fixed jaw 130 and the movement jaw 135 is narrowed accordingly.

In the illustrated example, the shutter unit 150 is rotatably supported on the inner surface of the front end of the housing and is engaged with the pinion 155 formed at the center of rotation of the rotating plate 151 having the slit 153 corresponding to the blood collection hole. It is provided with a rack 157 for rotating the rotating plate 151 while moving up and down in conjunction with the moving jaw (135).

A pin (not shown) formed on the front surface of the rotating plate 151 is installed to be rotatable by being coupled to the support hole 27 formed in the second cover 20. The pin which becomes the rotation center of the rotating plate 151 is formed at a position spaced apart from the blood collection hole 31. The pinion 155 is formed on the rear surface of the rotating plate 151 at a position corresponding to the pin. The distance between the center of rotation of the rotary plate 151 and the blood collection hole 31 is smaller than the radius of the rotary plate 151. An arc-shaped slit 53 is formed on the rotating plate 151 so as to correspond to the arc-shaped trajectory drawn by the blood collection hole 31 when the rotating plate 151 rotates. The distance between the rotation center of the rotating plate 151 and the slit 53 is equal to the distance between the rotation center of the rotating plate 151 and the blood collection hole 31. And the slit 53 is formed in the range of the rotation angle of the rotating plate 151 within 100 to 120 degrees.

The rack 157 meshing with the pinion 155 is vertically installed below the base panel 101 of the cocking unit. Therefore, when the trigger button 103 is operated, the moving jaw 135 and the rack 157 are lowered together. When the rack 157 is lowered, the rotating plate 151 rotates clockwise.

The rotating rotating plate 151 is configured to vary in thickness along the rotational direction. In the illustrated example, the rotating plate 151 is formed to gradually increase in thickness as the rack 157 descends. When the trigger button 103 is lowered, the moving jaw 135 and the rack 157 are also lowered together. When the rack 157 is lowered, the rotating plate 151 rotates clockwise, and as the clockwise rotation rotates, the thickness of the rotating plate 151 at the position corresponding to the blood collection hole 31 becomes thicker. In the lancet 1 moving forward in the direction of the blood collection hole 31 by the manipulation of the trigger button 103, the needle 2 passes through the slit 53 and the blood collection hole 31. At this time, since the first portion of the lancet 1 is in contact with the rotating plate 151, the forward movement of the lancet 1 is hindered by the thickness of the rotating plate 151. Therefore, the protruding length of the needle of the lancet 1 protruding out of the housing through the blood collection hole 31 is also shortened by that much.

When the trigger button 103 is pressed in a state in which a finger to collect blood is brought into close contact with the front end of the housing, the movable jaw 135 is also lowered. The moving jaw 135 descends to narrow the gap with the fixing jaw 130 while the moving jaw 135 picks up the skin of the finger together with the fixing jaw 130. At this time, when the skin of the finger is thin, the distance between the movable jaw 135 and the fixed jaw 130 is narrowed. The rack 157 is also lowered at the same time as the movable jaw 135 is lowered. As the lowering width of the moving jaw 135 increases, that is, the thinner the skin of the finger to be pinned, the lowering width of the rack 157 increases. As the rack 157 descends, the rotating plate 151 rotates. The thickness of the rotating plate 151 at the position corresponding to the blood collection hole 31 becomes thicker in proportion to the descending distance of the rack 157. As the thickness of the rotating plate 151 becomes thicker, the rotating plate 151 prevents the forward movement of the lancet 1, so that the length of the protrusion that the lancet needle 2 passes through the blood collection hole 31 and protrudes out of the housing is shortened. . Since the length of the protruding needle 2 becomes short, the depth to penetrate the finger becomes shallow.

On the contrary, when the skin of the finger is thick, the falling width of the moving jaw 135 becomes relatively small, thereby increasing the distance between the moving jaw 135 and the fixed jaw 130. Therefore, the falling width of the rack 157 is also reduced, and the thickness of the rotary plate 151 corresponding to the blood collection hole 31 becomes thinner by that amount. As the thickness of the rotating plate 151 becomes thinner, the lancet 1 can be further advanced forward, so that the protruding length of the lancet needle 2 protruding out of the housing becomes longer. As the length of the protruding needle 2 becomes longer, the depth penetrating into the finger becomes deeper.

Another example of the shutter unit applied to the penetration depth adjusting means is shown in FIGS. 13 and 14.

13 and 14, the shutter unit is provided with a lifting plate 170 which is movable up and down in association with the triggering unit and gradually changes in thickness along the moving direction.

The elevating plate 170 is vertically formed under the base panel 101 of the operation unit. The lifting plate 170 is configured to vary in thickness along the moving direction. As shown in the illustrated example, when the lifting plate 170 moves up and down, the lifting plate 170 is gradually thinned from the top to the bottom direction. That is, the upper portion of the lifting plate 170 is formed thicker than the lower portion.

The lifting plate 170 is formed with a slit 175 corresponding to the blood collection hole 31. The slit 175 is formed long in the lifting plate 170 vertically. The elevating plate 170 is raised and lowered in association with the trigger button 103 by the manipulation of the trigger button 103.

According to the present invention, when the trigger button 103 is pressed in a state in which a finger to collect blood is brought into close contact with the front end of the housing, the moving jaw 109 is lowered and the moving jaw 109 is fixed while narrowing the interval with the fixing jaw 130. The jaw 130 is pinched together with the skin of the finger. At this time, when the skin of the finger is thin, the distance between the moving jaw 109 and the fixed jaw 130 is narrowed. The lifting plate 170 is also lowered at the same time as the moving jaw 109 is lowered. As the lowering width of the moving jaw 109 increases, that is, the thinner the skin of the finger to be pinned, the lowering width of the lifting plate 170 also increases. Therefore, the thickness of the lifting plate 170 corresponding to the blood collection hole 31 is increased by the lowering of the lifting plate 170. As the lifting plate 170 becomes thicker, the lifting plate 170 suppresses the forward movement of the lancet 1, so that the lancet needle 2 passes through the blood collection hole 31 to protrude out of the housing. Shorten. Since the length of the protruding needle 2 becomes short, the depth to penetrate the finger becomes shallow.

On the contrary, when the skin of the finger is thick, the falling width of the moving jaw 109 becomes relatively small, thereby increasing the distance between the moving jaw 109 and the fixed jaw 130. Therefore, the lowering width of the elevating plate 170 is also reduced, and the thickness of the elevating plate 170 corresponding to the blood collection hole 31 becomes thinner by that amount. As the thickness of the elevating plate 170 becomes thinner, the lancet 1 can be further advanced forward, so that the protruding length of the lancet needle 2 protruding to the outside of the housing becomes longer. Since the length of the protruding needle 2 becomes long, the depth penetrating into the finger becomes deep.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1: lancet 2: needle
10: first cover 20: second cover
30: front cover 31: blood collection
40: end cap 50: lancet holder
70: slider 90: clamp
100: operation unit 103: trigger button
110: spring 130: jaw
135: movable jaw 150: shutter unit

Claims (6)

A housing in which blood collection holes are formed on a front surface thereof;
A lancet mounting unit which is installed to be movable back and forth within the housing and to which a needle-shaped lancet is mounted;
A triggering unit for advancing the lancet mounting unit toward the blood collection hole and passing the needle of the lancet to the blood collection hole;
Penetration depth adjusting means for controlling the penetration depth of the needle penetrating the blood collection hole through the blood collection hole according to the skin thickness of the biological portion;
And a loading section for retracting the lancet mounting unit. According to claim 1, The penetration depth adjusting means is installed at the front end of the housing and the nipper portion for picking up the skin of the living body during the forward movement of the lancet mounting unit by the percussion unit, the thickness of the skin to be picked up from the tong portion And a shutter unit for preventing the movement of the lancet moving forward in the blood collection hole direction and varying the protruding length of the needle projecting out of the housing. According to claim 2, wherein the tongs are provided on the front of the housing so as to face up and down the fixing jaw and protruding jaw formed in the front end of the housing, the blood collection hole between the upper and lower in conjunction with the cocking unit Blood collection device comprising a moving jaw moving to. According to claim 3, The shutter unit is rotatably supported on the inner surface of the front end of the housing and the thickness gradually changes in the rotational direction and the slit corresponding to the blood collection hole, the pinion formed in the center of rotation of the rotating plate and And a rack for engaging and rotating the rotary plate while moving up and down in association with the cocking unit. According to claim 3, wherein the shutter unit is provided with a lifting plate which is movable up and down in conjunction with the triggering unit in the front inner surface of the housing, the thickness is gradually changed in the moving direction and the slit corresponding to the blood collection hole is formed Characterized in that the blood collector. The lancet mounting unit of claim 1, wherein the lancet mounting unit includes a lancet holder in which a plurality of lancets are continuously mounted, and a slider for accommodating the lancet holder therein.
The lancet has a rectangular first portion having the needle formed on the front surface thereof, a second portion formed on the rear surface of the first portion and having a smaller cross-sectional area than the first portion, and a needle of an adjacent lancet formed on the rear surface of the second portion. A blood collection device comprising a third portion of a quadrangle formed with the needle insertion hole to be inserted.

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