JP2015019795A - Infusion pump - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an infusion pump that can reliably detect wrong installation, even if an infusion tube is mistakenly installed in any position.SOLUTION: An infusion pump includes: a backing plate 34 having a central projected stripe part 341 fitted in a tube groove; a first biasing member 35 for biasing the backing plate in the direction spaced apart from a cover body; a second biasing member 37 separating the backing plate from a hinge 2 side, and biasing it in the direction along the installation surface; and a guide member 12 mounted at the second end side of a tube mounting surface in a pump body, and pressing the second end side of the backing plate to a first end side when the cover body closes the tube mounting surface. When the cover body closes the tube mounting surface normally, the backing plate moves from a first position, which is an initial position, to the second end side by the guide member, and is pressed by the tube mounting surface. Accordingly, the backing plate is moved so as to approach the installation surface of the cover, and thereby it is configured to be displaced to a second position where the center projected stripe part is fitted in the tube groove.

Description

  The present invention relates to an infusion pump.

  Conventionally, infusion pumps have been proposed in which infusion fluid is delivered by sequentially pressing the outer peripheral surface of an infusion tube with a plurality of fingers. In such an infusion pump, when the infusion tube is attached at the correct position, the infusion tube can be properly pressed by the finger to deliver liquid, but when the infusion tube is not attached at the correct position, the finger Since the infusion tube cannot be pressed correctly, there is a problem that the liquid cannot be delivered. Therefore, for example, Patent Document 1 discloses a technique for detecting an infusion tube when it is not correctly attached.

  The infusion pump of Patent Document 1 includes a pump body having a tube attachment surface to which a plurality of fingers are attached and an infusion tube is attached, and a cover body that covers the tube attachment surface of the pump body. The pump body is swingably supported by a hinge. And in the cover body, the receiving plate which presses an infusion tube is mounted | worn with the mounting surface facing a tube attachment surface. This receiving plate is urged by a spring from the cover body to the tube mounting surface side of the pump body, and when the cover body is closed, it presses the infusion tube against the elastic force of the spring. Yes. A stopper is attached to the back side of the receiving plate, and this stopper is urged by a spring so as to be movable in the left-right direction perpendicular to the infusion tube. Moreover, this stopper is exposed from the edge part of a receiving plate in the initial state, and can be pressed by the protrusion member provided in the tube attachment surface of the pump main body.

  The infusion pump configured as described above operates as follows. First, when the tube is normally attached and the cover body is closed, the protruding member extending from the tube mounting surface presses the stopper exposed from the end of the receiving plate, and the protruding member is placed on the back side of the receiving plate. Push it. And a cover body is closed so that the tube attachment surface of a pump main body may be covered.

  On the other hand, when the infusion tube is not normally attached, for example, when the infusion tube is displaced in the left-right direction, before the projecting member presses the stopper, the displaced infusion tube is moved between the receiving plate and the tube mounting surface. The receiving plate is pressed by the infusion tube. Thereby, a receiving plate presses the stopper in the back, and a stopper cannot move to the left-right direction. That is, the stopper is sandwiched between the receiving plate and the cover body while being exposed from the end portion of the receiving plate, thereby preventing the cover body from being closed. As a result, the user can recognize that the infusion tube is not placed at the correct position.

Japanese Patent No. 40552926

  However, the infusion pump as described above has a problem that a stopper is required in addition to the receiving plate in order to detect erroneous attachment of the infusion tube, and the apparatus configuration is complicated. Also, when the infusion tube is sandwiched between the backing plate and the tube mounting surface at the end where the stopper is exposed, the backing plate presses the stopper so that the stopper does not move. However, if the infusion tube is sandwiched on the receiving plate opposite to the side where the stopper is exposed, the stopper cannot be pressed correctly, so the cover body is closed with the infusion tube still sandwiched. There is a possibility that. As a result, there is a possibility that erroneous mounting of the infusion tube cannot be detected.

  The present invention has been made in order to solve the above problems, and provides an infusion pump having a simple structure and capable of reliably detecting an infusion tube which is erroneously attached at any position. The purpose is to do.

  The present invention relates to an infusion pump that presses the outer peripheral surface of an infusion tube to deliver liquid, and has a tube mounting surface in which a tube groove for arranging the infusion tube is formed, and in the tube mounting surface, the tube A pump body having a first end and a second end in a first direction orthogonal to the groove, a hinge provided at the first end of the pump body, and a tube mounting surface of the pump body, A swingable attachment to the pump body via the hinge, a first end on the hinge side in a first direction perpendicular to the tube groove, on an installation surface facing the tube attachment surface; and A cover body having a second end opposite to the cover body, a receiving member having a central protrusion that is attached to the installation surface and fits in the tube groove, and the cover member is attached to the cover. A first urging member for urging in a direction away from the body, a second urging member for urging the receiving member in the first direction along the installation surface, and a tube mounting surface of the pump body And a guide member that presses the receiving member in the first direction when the cover body closes the tube attachment surface, and the cover body comprises: When the tube mounting surface is normally closed, the receiving member is pressed in the first direction against the second urging member by the guide member from the first position which is the initial position. And a second position where the central protrusion is fitted into the tube groove by being pressed against the first biasing member by the tube mounting surface so as to be close to the installation surface of the cover body. Configured to displace to .

  According to this configuration, the receiving member moves in the first direction while being pressed by the guide member from the first position, which is the initial position, and finally the central protrusion of the receiving member fits into the tube groove. The cover body is configured to be displaced to the second position and closed. Therefore, when the infusion tube is arranged away from the tube groove, the infusion tube is sandwiched between the receiving member and the tube mounting surface, and thereby the receiving plate is subjected to friction between the sandwiched infusion tube. The force cannot move in the first direction. As a result, since the receiving plate cannot be displaced to the second position, the cover body cannot be closed. Thereby, the user can recognize that the infusion tube is not arrange | positioned in the correct position.

  Thus, in the infusion pump according to the present invention, since the receiving member itself can be moved in the first direction without using the stopper, the number of parts can be reduced. When the infusion tube is sandwiched between the receiving member and the tube mounting surface, the receiving member cannot move in the first direction due to the frictional force between the sandwiched infusion tube. Therefore, regardless of the position of the infusion tube, as long as the infusion tube is sandwiched between the receiving member and the tube mounting surface, the receiving member cannot be moved, so that erroneous mounting can be reliably detected.

  In the infusion pump, at least one first protrusion projecting toward the cover body is formed on the installation surface of the cover body, and the receiving member is provided on the back surface of the receiving member facing the installation surface. A first recess into which the first protrusion fits when in the second position, and a first recess into which the first protrusion fits while the receiving member is displaced from the first position to the second position. 2 recesses can be formed.

  According to this configuration, when the receiving member moves from the first position to the second position, if the infusion tube is erroneously attached, the receiving plate is pressed by the infusion tube. , Before it fits in the first recess, it fits in the second recess, and the receiving member cannot move in the first direction. As a result, the cover body cannot be closed properly, and erroneous mounting can be detected. Therefore, by providing the first protrusion and the second recess, it is possible to reliably limit the movement of the receiving member when the infusion tube is erroneously attached. As a result, erroneous mounting of the infusion tube can be reliably detected.

  Here, the formation positions of the first protrusions, the first recesses, and the second recesses are not particularly limited. For example, the first biasing member is positioned at the receiving member corresponding to the central protrusion. The first protrusion, the first recess, and the second recess can be disposed between the first biasing member and the hinge.

  Furthermore, on the installation surface of the cover body, at least one second protrusion protruding toward the receiving member is formed between the first biasing member and the first end, and the receiving plate A third recess into which the second protrusion fits when the receiving member is in the second position on the back surface facing the installation surface, and the receiving member is displaced from the first position to the second position. During the process, a fourth recess into which the second protrusion is fitted can be formed.

  With this configuration, even if the receiving member is pressed by the infusion tube at any position on the first end side or the second end side across the first biasing member, protrusions and recesses are formed on both sides. Therefore, erroneous mounting can be detected more reliably.

  In the infusion pump, at least one side ridge extending along the tube groove may be provided on the tube mounting surface, and a groove in which the side ridge is fitted may be formed on the backing plate. When such a side protrusion is formed, it becomes a guide when the infusion tube is attached to the tube groove, and thus it is easy to attach the infusion tube. In addition, since the infusion tube is disposed on the misplaced place foot and the side protrusion, the infusion tube can be easily sandwiched between the receiving plate, and thereby, the erroneous attachment can be easily detected.

  In the infusion pump, an elongated hole extending in the first direction is formed on the back surface of the receiving plate, and the first urging member is fitted into the elongated hole, and the first direction is within the elongated hole. It can be configured to be movable.

  According to the infusion pump according to the present invention, it is possible to reliably detect the infusion tube with a simple structure, even if the infusion tube is erroneously attached to any position.

It is a perspective view of the infusion pump concerning one embodiment of the present invention. FIG. 2 is a perspective view showing a state where a cover pair is opened in the infusion pump of FIG. 1. It is sectional drawing of a pump mechanism. They are a perspective view (a) of a closing finger, and a line sectional view (b). It is a perspective view of a support plate. It is the perspective view which looked at the receiving plate from the back side. It is sectional drawing which shows a mode that a cover body is closed normally. It is sectional drawing which shows a mode that a cover body is closed normally. It is sectional drawing which shows a mode that a cover body is closed normally. It is sectional drawing which shows a mode that a cover body is closed when an infusion tube is mismounted. It is sectional drawing of the other example which shows a mode that a cover body is closed when an infusion tube is mismounted. It is sectional drawing of the other example which shows a mode that a cover body is closed normally.

  Hereinafter, an embodiment of an infusion pump according to the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of an infusion pump. This infusion pump includes a rectangular parallelepiped pump body 1 and a cover body 3 that is swingably attached to the pump body 1 by a hinge 2. In this infusion pump, the infusion tube 4 is sandwiched between the pump main body 1 and the cover body 3, and a peristaltic motion is performed on the infusion tube 4 by a plurality of fingers to be described later. Is delivered at a predetermined flow rate. An infusion bag (not shown) containing the infusion solution is attached upstream of the infusion tube 4, and the infusion solution is sent from the infusion bag to the infusion tube 4. On the other hand, a puncture needle (not shown) or the like to be inserted into a patient's vein or the like is attached downstream of the infusion tube 4, and a desired amount of infusion flowing through the infusion tube is supplied to the patient by an infusion pump. Hereinafter, the infusion pump will be described in detail.

<1. Pump body>
FIG. 2 is a perspective view showing a state in which the cover body 3 is opened in the infusion pump. As shown in FIG. 2, in the pump main body 1, a surface facing the cover body 3, that is, a surface closed by the cover body 3 constitutes a tube mounting surface 11 for mounting the infusion tube. A pump mechanism 5 is mounted on the tube mounting surface 11 above the center in the vertical direction, and a tube groove 6 into which the infusion tube 4 is fitted in the vertical direction is formed with the pump mechanism 5 interposed therebetween. Here, the upper tube groove of the pump mechanism 5 is referred to as an upper tube groove 61, the lower tube groove of the pump mechanism 5 is referred to as a lower tube groove 62, and the tube groove formed in the pump mechanism 5 is referred to as a central tube groove 63. It shall be called. The upper tube groove and the lower tube groove are provided with clamps for sandwiching the tube.

  The pump mechanism 5 includes a pair of substrates 51 disposed on both sides of the central tube groove 63. That is, the gap between the substrates 51 forms the central tube groove 63. Here, the board | substrate arrange | positioned at the hinge 2 side (1st edge part side) is called the 1st board | substrate 51a, and was arrange | positioned on the opposite side (right side of FIG. 2: 2nd edge part side) of the hinge 2. The substrate will be referred to as a second substrate 51b. Each of the substrates 51a and 51b is formed in a rectangular shape, and side protrusions 511a and 511b extending along the groove are formed at the end on the central tube groove 63 side. Further, restricting plates 512a and 512b are formed at both ends in the vertical direction, and a receiving plate 34 of the cover body 3 described later is arranged between the restricting plates 512a and 512b. A guide member 12 is provided on the right side of the second substrate 51b. The guide member 12 is formed in a plate shape that protrudes from the tube mounting surface 11 toward the cover body 3 and extends in the vertical direction. Further, in the guide member 12, an inclined surface 121 is formed on the surface on the second substrate 51b side so as to descend from the tip toward the substrate 51b side. As will be described later, the guide member 12 is a member that engages with the receiving plate 34 of the cover body 3.

  Next, a structure for causing the infusion tube 4 to perform a peristaltic motion in the pump mechanism 5 will be described with reference to FIG. FIG. 3 is a sectional view of the pump mechanism. A plurality of fingers 521 to 525 arranged in the vertical direction along the central tube groove 63 and a drive unit 53 for moving these fingers 521 to 525 forward and backward with respect to the infusion tube 4 are disposed on the back surfaces of the substrates 51a and 51b. ing. In the present embodiment, a total of five fingers are used, but the one arranged at the uppermost part and the lowermost part crushes the infusion tube 4 so that the inner space of the infusion tube 4 is closed. Here, the uppermost finger is referred to as a first closing finger 521, and the lowermost finger is referred to as a second closing finger 525. Between the two closing fingers 521 and 525, three liquid feeding fingers for pressing the infusion tube 4 so as not to be crushed and causing peristaltic movement are arranged. Here, the three liquid feeding fingers are referred to as the first, second, and third liquid feeding fingers 522 to 524 from the top. These five fingers 521 to 525 are arranged in a rod shape such that the tip end faces the outside from between the substrates 51 a and 51 b and the rear end extends to the back side of the pump body 1. .

  First, the closing fingers 521 and 525 will be described with reference to FIG. FIG. 4 is a perspective view (a) and a sectional view (b) of the closing finger. Since both closing fingers have the same configuration, only the first closing finger 521 will be described here. As shown in the figure, the closing finger 521 includes a cylindrical main body 541 and a movable member 542 inserted into the main body 541. In the main body 541, a cylindrical recess 543 is formed on the distal end side, and the above-described movable member 542 is inserted into the recess 543. In addition, a pair of elongated holes 544 extending in the axial direction are formed on the outer peripheral surface of the main body portion 541, and these are opposed to each other with the axis X of the main body portion 541 interposed therebetween. Further, a roller 545 is rotatably attached to the rear end portion of the main body 541, and the roller 545 constitutes a cam follower that abuts on a cam of the drive unit 53 described later.

  The movable member 542 includes a cylindrical base portion 546 that is inserted into the concave portion 543 of the main body portion 541, and a pressing portion 547 that is attached to the distal end of the base portion 546 and presses the infusion tube 4. A spring 548 is fitted into the rear end of the base portion 546 and is inserted into the recess 543 of the main body portion 541 in this state. Therefore, the movable member 542 is urged in a direction protruding from the recess 543 by the spring 548. In addition, a through hole 5461 is formed in the side surface of the base portion 546 in the radial direction. When the base portion 546 is inserted into the concave portion 543 of the main body portion 541, the elongated hole 544 and the through hole 5461 of the main body portion 541 The shaft member 549 is fitted. Therefore, the shaft member 549 is retained, and the movable member 542 is prevented from falling off from the main body portion 541 and is movable in the axial direction by the length of the long hole 544.

  The pressing portion 547 is formed in a pentagonal hollow cylindrical shape whose axial center extends in parallel with the central tube groove 63, and a protrusion 5471 is formed at the tip. The protrusion 5471 extends so as to be orthogonal to the central tube groove 63, and the infusion tube 4 is crushed by the protrusion 5471. In the hollow portion, a portion corresponding to the ridge 5471 is provided with a reinforcing plate 5472 for reinforcing the ridge 5471, and is disposed parallel to the ridge 5471 so as to close the hollow portion.

  Next, the liquid feeding finger will be described. Since the three liquid feeding fingers 522 to 524 have the same configuration, only the first liquid feeding finger 522 will be described here. As shown in FIG. 3, the liquid feeding finger 522 includes a rod-like main body portion 551 and a pressing portion 552 provided at the tip of the main body portion 551. Similar to the closing finger, a roller 553 is rotatably attached to the rear end portion of the main body portion 551 to constitute a cam follower. Similar to the pressing portion 547 of the closing finger, the pressing portion 552 is formed in a pentagonal hollow cylindrical shape whose axial center extends in parallel with the central tube groove 63. However, no protrusion is provided, and the orientation is adjusted so that the surface that presses the infusion tube 4 is flat.

  Next, the drive unit 53 that drives these fingers 521 to 525 will be described. As shown in FIG. 3, the drive unit 53 includes a shaft member 531 that is disposed on the back side of the fingers 521 to 525 and extends in parallel with the central tube groove 63. The shaft member 531 is rotatably supported in the pump body 1 and is configured to rotate around the shaft by a motor (not shown). Further, five cams 561 to 565 are fixed to the outer peripheral surface of the shaft member 531, and each cam 561 to 565 is configured to abut on the cam followers 545 and 553 of the five fingers 521 to 525. Has been. These cams 561 to 565 are configured such that the shaft member 531 rotates and the five fingers 521 to 525 are advanced and retracted with respect to the central tube groove 63 side in a set order to repeatedly press the infusion tube. Has been. Thereby, the infusion tube 4 operates so as to perform a peristaltic motion.

  Note that the rotation speed of the shaft member 531 is controlled by a controller (not shown). Moreover, the shapes of the cams 561 to 565 can be changed as appropriate.

<2. Cover body>
Next, the cover body 3 will be described. As shown in FIG. 1, an operation panel is provided on the surface 31 of the cover body 3. Although illustration regarding the details of the operation panel is omitted, a liquid crystal display and various switches are arranged on the operation panel. As the switch, for example, a power switch, a flow rate adjustment switch for adjusting the flow rate of the infusion, a fast-forward switch, a borer switch, and the like are arranged. The fast-forward switch is a switch that feeds liquid by fast-forwarding while pressing it for the purpose of removing bubbles, etc. The bolus switch is a rapid switch that can be set by pressing and holding for the purpose of one-shot injection. The switch to administer. The liquid crystal display also displays, for example, the time, the set flow rate, the integrated amount of infusion.

  Then, the structure of the installation surface 32 which is the back surface of the cover body 3 is demonstrated. A rectangular installation recess 321 is formed in the installation surface 32 of the cover body 3, and a rectangular support plate 33 is disposed in the installation recess 321. And the receiving plate 34 mentioned above is arrange | positioned so that this support plate 33 may be covered.

  FIG. 5 is a perspective view of the support plate. As shown in FIG. 5, screw holes 331 for fixing the support plate 33 to the installation recesses 321 are formed at the four corners of the support plate 33. Also, holding screw portions 332 for holding the receiving plate 34 are attached to the inner sides of the screw holes 331 in the left-right direction (first direction), respectively, and these screw portions 332 have female screws. It is formed in a cylindrical shape. Three holding holes 333 arranged in the vertical direction are formed at the center in the width direction of the support plate 33, and protrusions 3331 are formed in the holding holes 333, respectively. The first springs 35 are fitted into the protrusions 3331 as will be described later. Further, a protruding plate 334 extending in the vertical direction is provided between the right pair of holding screw portions 332. Further, a guide groove 335 into which a slide member 36 described below is fitted is formed on the right side of the protruding plate 334. The support plate 33 is a separate member from the cover body 3, but may be formed integrally with the installation surface 32 of the cover body 3.

  The slide member 36 is formed in a rectangular parallelepiped shape, and can slide in the left-right direction along the guide groove 335. A pressing plate 361 that protrudes toward the receiving plate 34 is attached to the end of the sliding member 36 on the protruding plate 334 side (left side). The pressing plate 361 presses the right end of the receiving plate 34. It has become. On the other hand, a spring hole 362 into which the second spring 37 is fitted is formed at the right end (hinge side: first end side) of the slide member 36. The spring hole 362 extends in the left-right direction, and the second spring 37 is also disposed so as to extend in the left-right direction along the spring hole 362. The end of the second spring 37 is fixed inside the end edge of the installation recess 321, whereby the slide member 36 is urged to the left by the second spring 37, and the receiving plate 34 is also It is urged to the left side.

  Next, as shown in FIG. 2, with respect to the receiving plate 34, the surface of the receiving plate 34, that is, the surface facing the pump body 1 (hereinafter referred to as the surface), 341 is formed. The central protrusion 341 extends in the vertical direction and is fitted in the central tube groove 63 in the gap between the substrates 51 a and 51 b of the pump mechanism 5. That is, the width of the central protrusion 341 is substantially the same as the width of the central tube groove 63. A pair of grooves 342a and 342b into which the side protrusions 511a and 511b provided on the substrates 51a and 51b of the pump mechanism 5 are fitted are formed on both sides of the central protrusion 341. Further, two notches 343 extending in the left-right direction are formed on both sides of the receiving plate 34, and flanges 3431 are formed on the inner wall surface of each notch 343. The notch portions 343 are inserted with the holding screw portions 332 of the support plate 33 described above and screwed through the washers 43. At this time, the washer 43 is disposed so as to cover the flange 3431 of each notch 343, so that the receiving plate 34 is prevented from being detached from the support plate 33 by the washer 43. Each holding screw portion 332 is relatively movable in the left-right direction (first direction) in the cutout portion 343.

  Next, the surface of the receiving plate 34 facing the support plate 33 (hereinafter referred to as the back surface) will be described with reference to FIG. FIG. 6 is a perspective view of the receiving plate as seen from the back side. As shown in the figure, three elongated holes 345 into which the first springs 35 fixed to the support plate 33 are fitted are formed on the back surface of the receiving plate 34. Each elongated hole 345 extends in the left-right direction, and the first spring 35 is movable in the left-right direction in each elongated hole 345. That is, each first spring 35 is fitted and fixed to the protrusion 3331 on the support plate 33 side, but is not fixed on the receiving plate 34 side, but only fits into the elongated hole 345. The inside of the hole 345 can be moved in the left-right direction. At this time, a slide member (not shown) having a flat surface can be attached to the end of the first spring 35 so that the first spring 35 can move smoothly in the elongated hole 345. If the flat surface of the slide member is arranged so as to slide in the elongated hole 345, the end of the first spring 35 can smoothly move in the left-right direction in the elongated hole 345.

  A fixing recess 346 extending in the vertical direction is formed on the right side of the elongated hole 345, and a checking recess 347 extending in the vertical direction is formed on the right side of the fixing recess 346. These two concave portions 346 and 347 are arranged in parallel, and both are formed to have a size to fit the protruding plate 334 of the support plate 33.

  With the above-described configuration, the receiving plate 34 is pressed by the first spring 35 in a direction away from the back surface 32 of the cover body 3. However, since the washer 43 engages with the flange 3431 of the notch 343, this prevents the washer 43 from coming off from the support plate 33. Further, since the holding screw portion 332 formed on the support plate 33 is inserted into the four cutout portions 343 of the receiving plate 34, the receiving plate 34 is guided by the holding screw portion 332 and left and right. It is possible to move in the direction (first direction).

  In addition, on the installation surface 32 of the cover body 3, a projection 39 for pressing the infusion tube 4 mounted in the upper and lower tube grooves 61 and 62 is provided above and below the receiving plate 34. . Therefore, the infusion tube 4 is pressed not only by the receiving plate 34 but also by such protrusions 39.

<3. Operation of infusion pump>
Next, the usage method and operation | movement of a pump apparatus comprised as mentioned above are demonstrated. 7-9 is sectional drawing which shows a mode that a cover body is normally closed. Hereinafter, the operation until the cover body is closed will be described first, and then the operation of feeding the infusion using the infusion tube will be described.

<3.1 Infusion tube installation and cover body installation>
First, the cover body 3 is opened, and the infusion tube 4 is attached to the tube grooves 61 to 63. At this time, an infusion bag is attached to the upstream side of the infusion tube 4 and a puncture needle is attached to the downstream side.

  When the infusion tube 4 is attached, the cover body 3 is closed from the initial position (first position). When the cover body 3 is closed, as shown in FIG. 7, first, the guide member 12 of the pump body 1 comes into contact with the left end (second end side) of the receiving plate 34. In this state, when the cover body 3 is further closed, the inclined surface 121 of the guide member 12 presses the left end of the receiving plate 34, whereby the receiving plate 34 resists the elastic force of the second spring 37. It moves to the hinge 2 side. Then, when the cover body 3 is closed until the end of the receiving plate 34 passes through the inclined surface 121 of the guide member 12, the receiving plate 34 further moves to the hinge 2 side, and as shown in FIG. The protruding plate 334 is disposed at a position facing the fixing recess 346. Further, the central protrusion 341 of the receiving plate 34 is disposed at a position facing the central tube groove 63. In this state, when the cover body 3 is further pushed in to close, the receiving plate 34 is pressed from the substrates 51 a and 51 b of the pump body 1. As a result, the receiving plate 34 is pressed against the support plate 33 against the first spring member. In this way, as shown in FIG. 9, the cover body 3 is completely closed (second position) in a state where the receiving plate 34 is sandwiched between the support plate 33 and the substrates 51a and 51b. At this time, the central protrusion 341 of the receiving plate 34 fits in the central tube groove 63 and firmly fixes the infusion tube. Further, the side protrusions 511a and 511b of the substrates 51a and 51b are fitted into the grooves of the receiving plate 34, respectively.

  The operation of closing the cover body 3 as described above is an operation when the cover body 3 is normally closed. However, the infusion tube 4 is not properly fitted in the central tube groove 63, and even a part of the operation is performed in the center. When it protrudes from the tube groove 63, for example, when it arrange | positions on the side protrusion part 511a, 511b of board | substrate 51a, 51b, it operate | moves as follows.

  FIG. 10 shows an example in which the infusion tube 4 is mistakenly disposed on the side protrusions 511a and 511b of the substrates 51a and 51b when the infusion tube is disposed. In this example, when the cover body 3 is closed, the guide member 12 comes into contact with the end portion of the receiving plate 34 and the end portion of the receiving plate 34 is pressed against the inclined surface 121 of the guide member 12 as in FIG. It moves to the hinge 2 side. In this process, the infusion tube 4 that protrudes from the side protrusions 511a and 511b of the substrates 51a and 51b has a surface of the receiving plate 34 or the central protruding portion 341 before the receiving plate 34 is completely pushed into the hinge 2 side. Abut. When the cover body 3 is further closed in this state, as shown in FIG. 10, before the projecting plate 334 of the support plate 33 is disposed at a position facing the fixing recess 346, the receiving plate 34 is on the support plate 33 side. The protrusion plate 334 of the support plate 33 enters the check recess 347. Thereby, the movement of the receiving plate 34 to the hinge 2 side is restricted, and the receiving plate 34 cannot move further in the left-right direction. As a result, the cover body 3 cannot be closed, and the user can recognize that the infusion tube 4 is not normally disposed in the central tube groove 63.

  In the above description, when the protruding plate 334 is fitted into the check recess 347, the receiving plate 34 cannot move, but the infusion tube 4 is sandwiched between the receiving plate 34 and the substrates 51a and 51b. The receiving plate 34 cannot move in the left-right direction due to the frictional force with the infusion tube 4. Therefore, if the protruding plate 334 and the check recess 347 are provided, the receiving plate 34 can be reliably prevented from moving, but by that time, the receiving plate 34 has already been unable to move due to friction with the infusion tube 4. .

<3.2 Liquid transfer operation>
Next, the flow rate of the infusion is determined by operating the operation panel. Thereby, the shaft member rotates at a predetermined speed, and each finger moves forward and backward. The operation of each finger can be variously set. For example, the operation can be performed as follows. First, the second closing finger 525 moves forward to crush the infusion tube 4 and close the infusion tube 4. Subsequently, the first closing finger 521, the first, second, and third liquid feeding fingers 522 to 524 are retracted in this order, and the infusion solution is accumulated in the infusion tube 4 above the second closing finger 525. . Subsequently, the first closing finger, the first, second, and third liquid feeding fingers 522 to 524 move forward in this order, so that the infusion tube 4 performs a peristaltic motion, and the lower part of the infusion The flow to is encouraged. Then, after the third liquid feeding finger 524 moves forward, the second closing finger 525 moves backward to release the closing of the infusion tube 4 and open downward. As a result, the infusion directed downward by the peristaltic motion flows out downward of the second closing finger 525. By repeating the above operation, the infusion is delivered at a set flow rate.

<4. Features>
As described above, according to the present embodiment, unlike the conventional example, the receiving plate 34 itself is configured to move in the left-right direction without using a stopper, so that the number of parts can be reduced. Further, when the infusion tube 4 is sandwiched between the receiving plate 34 and the substrates 51a and 51b, the receiving plate 34 cannot move in the left-right direction due to the frictional force between the sandwiched infusion tube 4 and the substrate. Therefore, regardless of the position of the infusion tube 4, as long as the infusion tube 4 is sandwiched between the receiving plate 34 and the substrates 51a and 51b, the receiving plate 34 cannot move, and erroneous mounting is reliably detected. can do.

<5. Modification>
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various change is possible unless it deviates from the meaning.

  For example, as described above, if the protruding plate 334 and the check recess 347 are provided, the receiving plate 34 cannot be reliably moved, but these may not be provided. That is, since the receiving plate 34 cannot move due to friction with the infusion tube 4, it is not always necessary to provide the protruding plate 334 and the check recess 347. However, when the cover body 3 is forced to be pushed in and closed, it is preferable to provide a protruding plate 334, a check recess 347, and a fixing recess 346 in order to check for erroneous mounting.

  In the above embodiment, the protruding plate 334, the check recess 347, and the fixing recess 346 are provided on the right side of the first spring. However, as shown in FIGS. 11 and 12, the same configuration, that is, the second protruding plate 330 is provided. The second check recess 350 and the second fixing recess 360 may be provided on the left side of the first spring 35. FIG. 11 is a cross-sectional view showing a state where the tube is sandwiched between infusions, and FIG. 12 is a cross-sectional view showing a state where the cover body is normally closed. Then, as shown in FIG. 11, when the infusion tube is sandwiched between the side protrusion 511b and the central protrusion 341, the left side of the receiving plate is inclined toward the support plate, and the second protrusion 330 is a second check. It fits into the concave portion 360 for use. As a result, the receiving plate 34 does not move in the left-right direction. As shown in FIG. 12, when the cover body 3 is normally closed, the second projecting plate 330 is fitted into the second fixing recess 350. If it does in this way, even if it will be pressed by the infusion tube 4 and the receiving plate 34 will incline at what angle, the movement of the receiving plate 34 in the left-right direction can be restrict | limited reliably.

  In the above embodiment, the receiving plate 34 is movable in the left-right direction on the installation surface 32 of the cover body 3, and the cover body 3 is closed by moving from the left side to the right side in FIG. However, it can be moved in the opposite direction. That is, the second spring 37 is attached to the left side of the cover body 3, the receiving plate 34 is urged from left to right, and the guide member 12 of the pump body 1 is attached to the hinge 2 side. The member which concerns on is attached opposite to the said embodiment. The effect mentioned above can be acquired also by this.

DESCRIPTION OF SYMBOLS 1 Pump main body 11 Tube mounting surface 12 Guide member 2 Hinge 3 Cover body 32 Installation surface 34 Receiving plate (receiving member)
334 Veneer (projection)
346 Recess for fixing (first recess)
347 Check recess (second recess)
35 First spring (first biasing member)
37 Second spring (second biasing member)
4 Infusion tube 63 Central tube groove

Claims (6)

An infusion pump for feeding liquid by pressing the outer peripheral surface of the infusion tube,
A pump body having a tube mounting surface in which a tube groove for arranging the infusion tube is formed, and having a first end and a second end in a first direction orthogonal to the tube groove on the tube mounting surface,
A hinge provided at a first end of the pump body;
A first direction that is swingably attached to the pump main body via the hinge so as to close the tube mounting surface of the pump main body, and that is orthogonal to the tube groove on an installation surface facing the tube mounting surface. A cover body having a first end on the hinge side and a second end opposite to the first end,
In the cover body, a receiving member attached to the installation surface and having a central protrusion that fits into the tube groove;
A first biasing member that biases the receiving member in a direction away from the cover body;
A second urging member that urges the receiving member in the first direction along the installation surface;
A guide member that is attached to the first or second end of the tube attachment surface of the pump body, and that presses the receiving member in the first direction when the cover body closes the tube attachment surface;
With
When the cover body normally closes the tube mounting surface, the receiving member is moved from the first position, which is the initial position, against the second urging member by the guide member. And the central mounting portion is fitted into the tube groove by being pressed by the tube mounting surface so as to be close to the installation surface of the cover body against the first urging member. An infusion pump configured to be displaced to a full second position. At least one first protrusion protruding toward the cover body is formed on the installation surface of the cover body,
In the receiving member, on a back surface facing the installation surface, a first recess into which the first protrusion is fitted when the receiving member is in the second position, and the receiving member is second from the first position. The infusion pump according to claim 1, wherein a second recess into which the first protrusion is fitted is formed in the middle of displacement to the position. The first urging member is provided at a position corresponding to the central protrusion in the receiving member,
The infusion pump according to claim 1 or 2, wherein the first protrusion, the first recess, and the second recess are disposed between the first biasing member and the hinge. On the installation surface of the cover body, at least one second protrusion that protrudes toward the receiving member is formed between the first biasing member and the first end,
In the receiving member, on the back surface facing the installation surface, a third recess into which the second protrusion is fitted when the receiving member is in the second position, and the receiving member is second from the first position. The infusion pump according to claim 3, wherein a fourth recess into which the second protrusion is fitted is formed in the middle of the displacement to the position. The tube mounting surface is provided with at least one side ridge extending along the tube groove,
The infusion pump according to any one of claims 1 to 4, wherein a groove portion into which the side protrusion is fitted is formed in the receiving member. An elongated hole extending in the first direction is formed on the back surface of the receiving member,
6. The infusion pump according to claim 1, wherein the first urging member is fitted into the elongated hole and configured to be movable in the first direction in the elongated hole.