JP3113291B2 - Infusion pump - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of an infusion pump.

[0002]

2. Description of the Related Art Conventionally, there is a pump for infusion as shown in FIGS. FIG. 5B is a plan view and FIG.
6 is a partial side view, and FIG. 6 is a cross-sectional view taken along the line CC in FIG. 5B. 5 and 6, reference numeral 1 denotes a housing,
2 is a bearing, 3 is a shaft, 4 is a cam, 5 is a finger,
6 is a holding plate, 7 is an infusion tube. The infusion pump operates as follows to perform infusion via the infusion tube 7. That is, when the shaft 3 is rotated by a motor (not shown), a plurality of cams 4, 4,... Attached to the shaft 3 rotate. Each cam 4 is provided has a circular shape, the shaft holes maximum radius is the minimum radius a ₁ eccentrically such that a _2. In this example, eight cams 4 as described above are attached to the shaft 3 in a superposed manner. In this case, the mounting angle of each cam 4 with respect to the shaft 3 is 45 degrees (360 degrees).
It is staggered by 8 degrees. As a result, the radius of the cam 4 measured in the direction of the holding plate 6 is, for example, the maximum value.
from the minimum value further minimum a ₂ toward a ₂ from a ₁ to sequentially changed toward the maximum value a _1, it is of the cams 4, 4, ... are arranged. Therefore, when the shaft 3 is rotated, each of the cams 4, 4,... Is also rotated, and the outer periphery of each of the cams 4, 4,.

[0003] The cam 4 is rotatably fitted to the finger 5. When the cam 4 is rotated by rotating the shaft 3, the tip 5 a of the finger 5 changes in one direction of the radius of the cam 4. Synchronously, the shaft 3 slides in the vertical direction. Therefore, if the directions of the tips 5a, 5a,... Of the eight fingers 5, 5, into which the eight cams 4, 4,. With the rotation of the cams 4, 4,..., The tips 5a, 5a,... Of the fingers 5, 5,. In other words, the tips 5a, 5a,... Of the fingers 5, 5,.
Is peristaltic with the rotation of the shaft 3. Here, an infusion tube 7 is arranged between the tips 5a, 5a,... Of the fingers 5, 5,. When the tips 5a, 5a,... Of the fingers 5, 5,... Are located closest to the infusion tube 7 (hereinafter, referred to as the most tips), the tips 5a of the fingers 5 press the infusion tube 7. It is supposed to. Then, when the shaft 3 is rotated, the tips 5a, 5a,... Of the fingers 5, 5,... Peristally move, so that the tips 5a, 5a,. The infusion tube 7 is closed, and the drug solution in the infusion tube 7 is pushed downward to perform the infusion.

[0004]

As described above, the infusion by the infusion pump is performed by peristalizing the tips 5a, 5a,... Of the finger rows 5, 5,. The infusion is performed by closing the infusion tube 7. By the way, due to the dimensional variation that occurs when the above-described components are created, a difference between the infusion pumps occurs in the interval between the tip 5a of the finger 5 located at the tip and the holding plate 6. In other words, the amount by which the finger 5 presses the infusion tube 7 in each infusion pump differs, and a difference in the flow rate of the medical solution or the like occurs between the infusion pumps. This may mean, for example, that there is a difference between the infusion volume designated by a doctor or nurse and the actual infusion volume, or the balance of the flow rate between each infusion pump when using multiple infusion pumps. And the balance may differ from the balance specified by the nurse.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an infusion pump having a high flow rate accuracy irrespective of dimensional variations between components.

[0006]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention relates to a method in which a phase of a maximum radius is sequentially shifted, and the length of a radius in one direction perpendicular to the axis is periodically increased. A cam row composed of a plurality of cams that fluctuate, and a plurality of cams whose tip positions in the one direction periodically fluctuate in synchronization with fluctuations in the length of the radius of the cams constituting the cam row in the one direction. It has a finger row composed of fingers, and a holding plate arranged opposite to a tip of each finger constituting the finger row, and is arranged between the tip of each finger constituting the finger row and the holding plate. In the infusion pump for infusing the medicinal solution in the infusion tube by sequentially pressing the infused tube with the tips of the fingers most advanced in one direction in the finger row, the how
In the direction
The two sides extending in the direction opposite to each other and orthogonal to the one direction
A square hole having two sides extending in the other direction;
While holding it rotatably, and extending
Two opposing sides that are in sliding contact with the two existing sides
Two inclinations in the opposite direction to the other direction
Side and slidably fit in the hole in the one direction.
Shaft holding member, and one inclined side of the shaft holding member
It extends in the other direction of the hole facing the side that is in sliding contact with this side.
One side that is in sliding contact with the hole
In the space formed between one side of the holding member and the other direction
A first adjusting plate that slides on the other, and the other inclination of the shaft holding member
The side in sliding contact with the side and the other direction of the hole facing the side
The side that slides on the other side that extends
In the space formed between the shaft holding member and the other side,
A second adjustment plate that slides in the direction, the first adjustment plate and the second adjustment plate.
Adjustment to move the board and the other direction in the opposite direction to each other
A plate moving means is provided.

[0007]

[Function] To increase the flow rate of the infusion pump, use the adjustment plate
The first adjusting plate and the second adjusting plate are moved in the other direction by the moving means.
(Direction perpendicular to the direction of finger movement)
To adjust the position of the adjustment plate on the opposite side of the holding plate.
Sliding pressure on the inclined side of the shaft holding member by the inclined side of the adjustment plate
Then, the shaft holding member is moved to the pressing plate side in one direction (the direction in which the finger moves) . Then, the shaft is moved to the holding plate side with the movement of the shaft holding member. And a finger array in which the tip positions in the one direction periodically fluctuate in synchronization with the fluctuation in the length of the radius in the one direction of the plurality of cams attached to the shaft with the phase of the maximum radius sequentially shifted. Is also moved to the holding plate side. As a result, the distance between the tip of the finger most advanced in one direction in the finger row and the pressing plate becomes narrower, and the amount of the infusion tube pressed by the tip of the finger increases. That is, the flow rate of the infusion pump increases. On the other hand, when decreasing the flow rate of the infusion pump , the first adjusting plate and the second adjusting plate are moved by the adjusting plate moving means.
Move the laying plate in the opposite direction to the above, and move it to the holding plate side.
The inclined side of the shaft holding member is
The sliding pressure is applied to move the shaft holding member toward the counter-pressing plate in the one direction. Then, the shaft is moved to the opposite holding plate side with the movement of the shaft holding member. And
The finger row is also moved to the opposite holding plate side. As a result, the distance between the tip of the finger most advanced in the one direction in the finger row and the holding plate is widened, and the amount of the infusion tube pressed by the tip of the finger is reduced. That is, the flow rate of the infusion pump is reduced. Thus, by appropriately changing the flow rate of the infusion pump, an infusion pump having the same flow rate can be obtained even if there are variations in the dimensions of the components constituting each infusion pump.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments. 1 and 2 show an infusion pump according to the present invention. FIG. 1 (b) is a plan view, and FIG. 1 (a) is an A in FIG. 1 (b).
FIG. 2 is a cross-sectional view taken along the arrow BB in FIG. 1 (b). 1 and 2, 11 is a housing, 12 is a bearing, 13 is a shaft, 14 is a cam, 15
Is a finger, 16 is a holding plate, and 17 is an infusion tube. The housing 1, bearing 2, shaft 3, cam 4, finger 5, and finger 5 in the infusion pump shown in FIGS.
It has the same structure as the holding plate 6 and the infusion tube 7 and operates in the same manner. In the present invention, by moving the shaft 13 in a direction perpendicular to the surface of the holding plate 16, the distance between the tip 15a of the finger 15 and the holding plate 16 is adjusted, and the flow rate can be adjusted. Hereinafter, a method of moving the shaft 13 will be described in detail.

In FIGS. 1 and 2, a rectangular hole 2 is formed in a portion of the housing 11 through which the shaft 13 passes.
1 is provided. At this time, the direction of the long sides 21a and 21b of the hole 21 is set to the direction in which the shaft 13 is moved (that is, the direction perpendicular to the holding plate 16). A trapezoidal shaft holding plate 22 is fitted into the center of the hole 21 so that two parallel sides 22a and 22b thereof slide along the long sides 21a and 21b of the hole 21. A bearing 1 for mounting the shaft 13 is provided at the center of the shaft holding plate 22.
2 is fitted. Further, two oblique sides 22c and 22d of the shaft holding plate 22 which are substantially V-shaped and opposed to each other are provided with protrusions 25 and 26 along the sides. Adjusting plates 23 and 24 are fitted into spaces existing between the oblique sides 22c and 22d of the shaft holding plate 22 slidably fitted in the holes 21 and the short sides 21c and 21d of the holes 21. The shape of the adjustment plate 23 is as follows. That is, the adjustment plate 23 forms a quadrangle in which only one side is inclined, and the side 23c facing the oblique side 23d.
Is slid on the short side 21c of the hole 21 when the other oblique side 2
3d is slidably in contact with the oblique side 22c of the shaft holding plate 22. That is, the oblique side 22c of the shaft holding plate 22
And the oblique side 23d of the adjustment plate 23 have the same inclination angle. Here, the oblique side 23d of the adjusting plate 23 is provided with a groove in which the convex portion 25 provided on the oblique side 22c of the shaft holding plate 22 fits. Further, a distance l ′ between two opposing parallel sides 23a and 23b of the adjusting plate 23 is smaller than a distance l between two opposing sides 21a and 21b of the hole 21. This allows the adjustment plate 23 to slide in the hole 21 without coming off the shaft holding plate 22.

Since the adjusting plate 24 has the same structure as the adjusting plate 23, the description of the shape and operation of the adjusting plate 24 will be omitted. However, regardless of the positional relationship between the shaft holding plate 22, the adjusting plate 23, and the adjusting plate 24, a line parallel to the long side 21a (21b) of the rectangular hole 21 passing through the center of the shaft 13 is formed. Shaft holding plate 2 along
2. The total length of the adjusting plates 23 and 24 is
It is important that the length is the same as the length of one long side 21a (21b). Otherwise, the shaft holding plate 22, the adjusting plate 2
Depending on the positional relationship between the adjustment plate 3 and the adjustment plate 24, play may occur between the shaft holding plate 22, the adjustment plate 23, and the adjustment plate 24, and the shaft 13 may vibrate.

At a position passing through the adjusting plates 23 and 24 in a direction perpendicular to the sliding direction of the shaft holding plate 22 of the housing 11 in which the hole 21 is provided, a position parallel to the short sides 21c and 21d of the hole 21 is provided. Holes 27, 28, 29, 30 for penetrating the adjusting screws 31, 32 are provided. Further, the adjusting plates 23 and 24 also have holes 33 and 34 parallel to the sides 23c and 24d.
Are provided, and the female screws into which the adjusting screws 31 and 32 are screwed are bored. The hole 28 on the housing 11 side
After being screwed into the hole 33 on the adjustment plate 23 side, it is further inserted into the hole 27 on the housing 11 side. Similarly, after the adjustment screw 32 penetrating the hole 30 on the housing 11 side is screwed into the hole 34 on the adjustment plate 24 side,
Furthermore, it is inserted into the hole 29 on the housing 11 side. By doing so, the rotation of the adjusting screw 31 or the adjusting screw 32 enables the adjusting plate 23 or the adjusting plate 24 to move in the hole 21 in a direction corresponding to the rotation direction of the adjusting screw 31 or the adjusting screw 32. When the optimum position of the adjustment plate 23 or the adjustment plate 24 is determined in this way, the nut 35 or the nut 36 is tightened to fix the position of the adjustment plate 23 or the adjustment plate 24.

The infusion pump of the above construction moves the position of the shaft 13 and changes the flow rate through the infusion tube 17 as follows. First, FIG. 1, FIG. 2 and FIG.
It will be described according to. 1 and 2, the shaft holding plate 22 is located at the center of the hole 21 and the shaft 13 is located at the center of the hole 21.
At the center of In this state, the adjusting screw 31 is turned in a predetermined direction to slide the adjusting plate 23 in the direction of the arrow (A), and at the same time, the adjusting screw 32 is turned in the predetermined direction to turn the adjusting plate 24 in the direction of the arrow (B) ( That is, the slider is slid in the direction opposite to the arrow (a). In this case, the inclined sides 22c and 22d of the shaft holding plate 22 are V-shaped.
Therefore, as described above, the adjustment plate 23 is slid in the direction of the arrow (a), and at the same time, the adjustment plate 24 is slid in the direction of the arrow (b). You can move. As a result, the position of the shaft 13 shifts to the holding plate 16 side, and accordingly, the cams 14, 14,.
The fingers 15, 15,...
Off to the side. That is, the finger 15 located at the most distal end
The gap between the tip 15a and the holding plate 16 becomes small, and the amount of the fingers 15, 15,... Pressing the infusion tube 17 increases, and the flow rate increases.

On the other hand, when decreasing the flow rate through the infusion tube 17, as shown in FIGS. 1, 2 and 4, the adjusting plate 23 is slid to the arrow (b) side by the adjusting screw 31, and The adjustment plate 24 is pointed by an arrow with the adjustment screw 32.
Slide to the (a) side. By doing so, the shaft holding plate 22 can be moved toward the counter holding plate 16 side.
As a result, the fingers 15, 15,. That is, the gap between the distal end 15a of the finger 15 located at the most distal end and the holding plate 16 increases, and the amount of the fingers 15, 15,... Pressing the infusion tube 17 decreases, and the flow rate decreases. In this case, the amount of increase in the flow rate or the amount of decrease in the flow rate is determined by the change amount L of the center position of the shaft 13 (that is, the adjustment plate 23 or the adjustment plate 24).
Sliding amount). The increasing rate of the flow rate or the decreasing rate of the flow rate is determined by oblique sides 22c and 22d of the shaft holding plate 22.
The angle of inclination can be determined.

As described above, by moving the shaft holding plate 22 toward the holding plate 16 and reducing the gap between the tip 15a of the finger 15 located at the most tip and the holding plate 16, the fingers 15, 15, and Increase the amount by which the infusion tube 17 is pressed to increase the flow rate. On the other hand, by moving the shaft holding plate 22 toward the non-pressing plate 16 to increase the gap, the fingers 15,
15, decrease the amount of pressing the infusion tube 17 to reduce the flow rate. However, in the range of the gap between the distal end 15a of the finger 15 located at the most distal end and the holding plate 16, there is a range in which reducing the above gap acts to reduce the degree of flow through the infusion tube 17 instead. . Conversely, there is a range in which increasing the gap acts to increase the degree of flow through the infusion tube 17. In the most extreme case where the interval becomes narrow, the infusion tube 17 is connected to each finger 15,
.. Are completely closed by the respective tips 15a, 15a,. The flow through the infusion tube 17 does not occur. In the most extreme case where the interval is widened, the distal end 15 a of the finger 15 does not contact the infusion tube 17. At this time, the thickness of the infusion tube 17 is not constrained by the fingers 15, 15,..., And the flow in the infusion tube 17 depends on the height of the drug source for supplying the drug solution into the infusion tube 17 and the infusion tube 1
The flow becomes a free flow whose flow rate is determined by the diameter and the like of 7. The range of the interval indicating such an operation is determined by the rotation speed of the shaft 13 (that is, the speed of the peristaltic motion of the fingers 15, 15,...), The position of the chemical solution source, the thickness of the infusion tube 17, and the like. Therefore, when a doctor or a nurse sets an infusion amount for a patient, it is necessary to consider this point as well.

As described above, in this embodiment, the trapezoidal shaft holding plate 2 having the substantially V-shaped oblique sides 22c and 22d is used.
2, the shaft 13 is rotatably held, and the shaft holding plate 22 is fitted into the rectangular hole 21 provided in the housing 11 so as to be in sliding contact with the long sides 21a, 21b. In the space on the side of the oblique side 22c of the shaft holding plate 22 in the hole 21 provided in the housing 11, an adjusting plate 23 having an oblique side 23d having the same inclination as the inclination of the oblique side 22c of the shaft holding plate 22 is provided. To slide in the hole 21 in a direction perpendicular to the sliding direction of the shaft holding plate 22. On the other hand, the adjustment plate 24 is similarly fitted into the space on the oblique side 22d side of the shaft holding plate 22.
Then, as shown in FIG. 3, the adjusting plate 23 is slid in the direction of the arrow (a) with the adjusting screw 31 while the adjusting plate 24 is slid in the direction of the arrow (b) with the adjusting screw 32 to hold the shaft. Board 22
Is moved to the holding plate 16 side. By doing so,
The tip 15a of the most advanced finger 15 and the holding plate 16
Are narrowed, and the amount by which the fingers 15, 15,... Press the infusion tube 17 increases, and the flow rate increases. On the other hand, as shown in FIG.
, The adjusting plate 24 is slid in the direction of the arrow (a) with the adjusting screw 32, and the shaft holding plate 22 is moved to the opposite holding plate 16 side. By doing so, the gap between the tip 15a of the finger 15 most advanced and the holding plate 16 is widened, and the amount of the fingers 15, 15,... Pressing the infusion tube 17 is reduced, and the flow rate is reduced.

As described above, according to the present embodiment, the flow rate of the infusion pump can be easily adjusted by the rotation of the adjusting screws 31 and 32. The flow rate between the pumps can be made the same, and an infusion pump with high flow rate accuracy can be obtained. Therefore, if the infusion pump of the present embodiment is used to set the infusion amount in consideration of the rotation speed of the shaft 13, the position of the drug solution source, the thickness of the infusion tube 17, and the like as described above, a doctor or a nurse can use the infusion pump. It does not occur that the specified infusion volume is different from the actual infusion volume or that the flow balance among the plurality of infusion pumps does not become as set. In the above embodiment, the inclination angles of the oblique sides 22c and 22d of the shaft holding plate 22 are the same. However, there is no problem if the two inclination angles are different. However, adjustment plate 2
Since there is a limit to the amount of movement of the adjustment plate 3 and the adjustment plate 24, the amount of movement of the shaft 13 is limited by the amount of movement of the adjustment plate having a small inclination angle. Therefore, it is preferable that there is no difference between the two inclination angles. In the above embodiment, by pressing the oblique side of the shaft holding plate 22 with the oblique side provided on the adjusting plate 23 or the adjusting plate 24, the position of the shaft 13 rotatably held by the shaft holding plate 22 is moved. I have to. However, the present invention is not limited to this. The point is that it only needs to be composed of a shaft holding member that rotatably holds the shaft and is slidably fitted to the housing 11 and a moving member that moves the shaft holding member in one direction. is there.

[0017]

As apparent from above, according to the present invention, an infusion pump of the present invention, one shaft holding member for rotatably holding a shaft
A table with an inclined side that intersects the direction (the direction in which the finger moves)
Shape and inside the square hole provided in the housing
Slidably fit in the one direction, and the side of the hole and the shaft
The hole and the shaft holding member slidingly contacting the inclined side of the holding member.
Slides in the other direction perpendicular to the above direction
First and second adjustment plates are provided, and these two adjustment plates are transferred to the adjustment plates.
Moving in opposite directions to each other by the moving means
So that both adjustments can be made by the adjustment plate moving means.
Move the plate, and adjust the inclined side of the adjustment plate
When sliding the inclined side of the shaft holding member to move the shaft holding member toward the holding plate in the one direction, the tip of the finger when the finger attached to the shaft moves forward most. The space between the holding plates is reduced, and the flow rate of the infusion pump is increased. on the other hand,
By means of the adjusting plate moving means, the two adjusting plates are
When the shaft holding member is moved to the opposite holding plate side in the one direction by moving the shaft holding member in the opposite direction, the distance between the tip of the finger and the holding plate when the finger attached to the shaft moves forward most. The interval is widened and the flow rate of the infusion pump decreases. Therefore, the flow rate of the infusion pump can be adjusted to eliminate the flow rate difference between the infusion pumps, and a high-precision infusion pump can be obtained irrespective of the dimensional variation between the components constituting each infusion pump. be able to.

[Brief description of the drawings]

FIG. 1 is a plan view and a partial cross-sectional view of one embodiment of an infusion pump according to the present invention.

FIG. 2 is a partial cross-sectional view of FIG. 1 (b), which is different from FIG. 1 (a).

FIG. 3 is an explanatory diagram in a case where a flow rate is increased by the infusion pump shown in FIG. 1;

FIG. 4 is an explanatory diagram when the flow rate is reduced by the infusion pump shown in FIG. 1;

FIG. 5 is a plan view and a partial cross-sectional view of a conventional infusion pump.

FIG. 6 is a partial cross-sectional view of FIG. 5 (b), which is different from FIG. 5 (a).

[Explanation of symbols]

11: Housing, 13: Shaft, 14: Cam, 15: Finger, 16: Pressing plate, 17: Infusion tube, 21: Hole, 22: Shaft holding plate, 23, 24: Adjusting plate, 31, 32: Adjusting screw.

──────────────────────────────────────────────────続 き Continued on the front page (72) Nobuaki Goi 22-22, Nagaike-cho, Abeno-ku, Osaka-shi, Osaka Inside Sharp Corporation (72) Inventor Charles Tseng US 60044 Lake Bluff, Illinois, Rockland Avenue No. 501 (72) Inventor Roberta Schola United States 60172 Roselle, Illinois, Red Maple Lane No. 760 (72) Inventor Eric Maillen United States 60010 Burlington, Illinois, Crestview County No. 177 (72) Invention Dan Hamilton Rebecca Drive, No. 1375, Hoffman Estates, Illinois, United States 60194, U.S.A. Apartment 417 (56) References JP-A-3-275988 (JP, A) JP-A-4-81584 (JP, A) US Patent 4,954,046 (US, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) A61M 5/142

Claims (1)

(57) [Claims] 1. A cam array comprising a plurality of cams which are attached to a shaft with the phase of the maximum radius being sequentially shifted and whose length in one direction perpendicular to the shaft periodically varies. A finger array comprising a plurality of fingers whose tip positions in the one direction periodically fluctuate in synchronism with variations in the length of the radius of the cams in the one direction, and fingers forming the finger array A pressing plate disposed opposite to the tip of the finger row, and the infusion tube disposed between the distal end of each finger constituting the finger row and the pressing plate in the one direction of the finger row most. An infusion pump for infusing the medicinal solution in the infusion tube by sequentially pressing the tips of the advanced fingers, the infusion pump being provided in the housing and facing the first infusion.
The two sides extending in the direction are opposed to each other and orthogonal to the one direction.
A square hole having two sides extending in the other direction, and the shaft is rotatably held, and the one of the holes is
Two sides that are in sliding contact with the two sides extending in
Two facing each other and inclined in the opposite direction to the other direction
Slidable in the hole in the one direction.
A shaft holding member fitted to the shaft holding member, a side slidingly contacting one inclined side of the shaft holding member, and
Sliding contact with one side of the hole facing opposite and extending in the other direction
Between the hole and one side of the shaft holding member.
First adjusting plate that slides in the other direction in the space formed in the first adjusting plate
And the side that is in sliding contact with the other inclined side of the shaft holding member and this side
Sliding contact with the other side of the hole facing the other side extending in the other direction
Between the hole and the other side of the shaft holding member.
Second adjusting plate that slides in the other direction in the space formed in the second adjusting plate
And the first adjustment plate and the second adjustment plate are opposed to each other in the other direction.
An infusion pump comprising: an adjusting plate moving means for moving in an opposite direction .