JP2008178551A - Gauze counter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gauze counter, having high counting accuracy and achieving power saving. <P>SOLUTION: This gauze counter includes: a compression tube 21 provided in a throw-in port 21b to which gauze is thrown to store the gauze; a compression part 22 for compressing the gauze in the compression tube 21; and a linear encoder 23 for measuring the thickness of the compressed gauze. Accordingly, the gauze is compressed in the compression tube 21 to measure the thickness, whereby the number of gauze sheets thrown therein can be counted without throwing the gauze sheet by sheet into the compression tube 21, so that the accuracy for counting the sheets can be improved, and power saving in counting can be achieved. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a gauze counting device that counts the number of gauze after surgery, for example.

  Surgical gauze used for surgery in a hospital operating room or the like is coagulated and contracted by blood, and the gauze is in an adhesive state, which makes it difficult to handle. The gauze appears to be assimilated with the color of the body due to blood adhering to it, but if the operator or caregiver cannot completely remove it from the patient and accidentally leave it in the body, it will lead to a medical accident. Management of is important. In addition, grasping the amount of bleeding adhering to the gauze is an important management item in the progress of the operation, but is currently managed manually.

Generally, in the operation of confirming the number of used gauze used in the operation, the gauze is manually counted one by one during or after the operation with a tool such as a manual hook table or egg pack. However, counting the used gauze one by one manually is problematic in that there is a high possibility that a counting error will occur.
Here, a method of counting the number of gauze using an accommodating member having a flap-shaped lid portion that can be opened and closed and provided with a plurality of accommodating spaces where contents can be visually recognized from the outside has been proposed (for example, , See Patent Document 1). Here, by having a movable lid, the gauze is reliably accommodated in the accommodation space to prevent the occurrence of loss or the like.
In addition, there has been proposed a method of counting the number of gauze by attaching an IC chip tag to the gauze and wirelessly acquiring information from the IC chip tag (see, for example, Patent Document 2). Here, the number of sheets is counted using an IC chip tag without touching the gauze, thereby saving the counting.
Japanese Patent Laid-Open No. 2003-61978 JP 2005-52288 A

  However, the following problems remain in the conventional method of counting the number of gauze sheets. That is, the former counting method has a problem that it is not possible to save the counting because it is necessary to unpack and store the gauze one by one in each accommodation space. In addition, the latter counting method is expensive because it is necessary to attach an IC chip tag to each gauze, and there is a problem that the counting is performed using radio waves (electromagnetic waves), which may affect medical devices.

  The present invention has been made in view of the above-described conventional problems, and an object thereof is to provide a gauze count device that has high counting accuracy and can save labor.

  The present invention employs the following configuration in order to solve the above problems. That is, the gauze counting device according to the present invention is provided with a cylinder part that is provided with an insertion port for introducing gauze and accommodates the gauze, a compression part that compresses the gauze in the cylinder part, and a thickness of the compressed gauze And a measuring unit for measuring the thickness.

In this invention, by compressing the gauze in the cylinder part and measuring the thickness thereof, the number of gauze charged without counting the gauze one by one can be counted in the cylinder part. Labor saving can be achieved. That is, when the gauze is compressed, the volume of the gauze after compression changes according to the number of gauze charged. For this reason, by measuring the thickness of the gauze after compression, the number of gauze thrown in can be calculated from the thickness. Therefore, it is not necessary to throw the gauze into the cylinder portion while unpacking them one by one. In addition, blood or the like adhering to the cylindrical portion can be easily washed away.
As described above, the counting accuracy of the number of gauze sheets can be improved, and the burden on the operator and the assistant can be reduced.

In the gauze counting device according to the present invention, it is preferable that an opening is provided at the tip of the cylindrical portion, and a lid that opens and closes the opening is provided.
In this invention, the gauze compressed in the cylinder part can be discharged | emitted from an opening part outside by compressing by a compression part with an opening part opened. Thereby, the used gauze which is infectious waste can be easily discarded without touching it by hand.

Further, in the gauze counting device according to the present invention, it is preferable that the cylindrical portion includes an accommodating portion that can discharge the liquid contained in the compressed gauze to the outside and accommodate the liquid.
In the present invention, the amount of liquid such as blood contained in the gauze can be measured.

Moreover, it is preferable that the gauze counting device concerning this invention is provided with the convex part which protrudes toward the compression direction of the said gauze in the front-end | tip part of the said compression part.
In the present invention, even when the gauze is caught in the charging port, the gauze hooked on the charging port by this convex portion can be pushed into the cylindrical portion during compression.

In the gauze counting device according to the present invention, it is preferable that a compression auxiliary liquid for assisting compression of the gauze is introduced into the cylindrical portion.
In this invention, the compression aid liquid reduces the friction of the gauze in the cylindrical portion and facilitates the movement, so that the gauze can be efficiently compressed. In addition, since the gauze is efficiently compressed, the counting accuracy of the number of sheets is improved.

In the gauze counting device according to the present invention, it is preferable that the compression pressure of the gauze by the compression unit is 7 MPa or more.
In the present invention, by compressing the gauze with a pressure of 7 MPa or more, the charged gauze can be reliably compressed, and the counting accuracy of the number of sheets is improved.

Further, in the gauze count device according to the present invention, the compression unit includes a cylinder unit arranged in parallel with the cylinder unit, an expansion / contraction drive unit that performs expansion / contraction drive of the cylinder unit, and a expansion / contraction direction of the cylinder unit A rod part that moves in the cylinder part according to the expansion and contraction movement of the cylinder part, and a connecting part that connects the cylinder part and the rod part, and the rod part is connected to the cylinder from the connecting part. It is preferable to extend toward the shortening direction of the part.
In this invention, since the compression part has a folded structure that compresses the cylindrical part when the cylinder part is shortened, the occupation length of the compression part can be shortened. Therefore, the apparatus can be reduced in size.

  According to the gauze counting device of the present invention, the number of gauze charged can be counted without unloading the gauze one by one in the cylindrical portion, so that the accuracy of counting the number of sheets and labor saving can be achieved.

  Hereinafter, an embodiment of a gauze count device according to the present invention will be described with reference to the drawings. In each drawing used in the following description, the scale is appropriately changed to make each member a recognizable size. Here, FIG. 1 is an external view showing a gauze count device in the present embodiment, FIG. 2 is an exploded perspective view showing a housing, FIG. 3 is a perspective view showing a counter body, and FIG. 4 is a plan view showing the counter body of FIG. 5A is an exploded perspective view showing the piston rod portion, FIG. 5B is a sectional view showing the piston rod portion, FIG. 6 is an exploded perspective view showing a linear scale, and FIG. 7 is an exploded view showing the stopper portion. It is a perspective view. Further, as shown in FIG. 1, the width direction of the gauze counting device is the X-axis direction (left direction is the + X-axis direction), the front-rear direction of the gauze counting device is the Y-axis direction (the front is the + Y-axis direction), The height direction is defined as the Z-axis direction (upward is the + Z-axis direction).

  The gauze counting device 1 in the present embodiment counts the number of used gauze used in surgery, for example. As shown in FIG. 1, the gauze count device 1 includes a housing 2, a counter body 3 disposed in the housing 2, a liquid amount measuring unit 4, and a control unit (not shown). Yes.

The housing 2 has a substantially rectangular parallelepiped box shape. As shown in FIGS. 1 and 2, the frame body 11, a lower frame 12 on which the frame body 11 is placed, a front cover 13, and side surfaces Covers 14 and 15, a back cover 16, a top plate 17, and a display panel 18 that houses the control unit are provided.
As shown in FIGS. 2 to 4, the frame body 11 has a substantially rectangular frame shape in plan view, and is directed to the rear side (−Y axis direction) of the housing 2 on the right side of the front surface. A protruding recess 11A is formed. Note that the frame body 11 is appropriately formed with openings through which the respective members are inserted.

As shown in FIGS. 1 and 2, the lower frame 12 has a frame main body 11 placed and fixed on the upper surface, and a post 62 to be described later is placed at a position corresponding to the recess 11 </ b> A of the frame main body 11. A portion 12A is formed.
The front cover 13 is disposed so as to cover the front (+ Y-axis direction) of the frame body 11 and the lower frame 12.

The side covers 14 and 15 are respectively disposed so as to cover the left and right sides (+ X axis direction and −X axis direction) of the lower frame 12.
The back cover 16 is disposed so as to cover the rear (−Y axis direction) of the lower frame 12.
The top plate 17 is disposed so as to cover the frame body 11.

  The display board 18 is disposed on the lower frame 12. The display panel 18 is configured to display the count result of the number of used gauze counted according to the display information received from the control unit and the blood volume measurement result by the liquid volume measuring unit 4. . The display panel 18 is provided with various switches such as a start button, a stop button, a reset button, and a clear button.

  As shown in FIGS. 3 and 4, the counter body 3 is provided on the frame body 11, and includes a compression tube (cylindrical portion) 21 that houses a used gauze, and a gauze housed in the compression tube 21. The compression part 22 to compress, the linear encoder (measurement part) 23 which measures the thickness of the gauze compressed in the compression tube 21, and the stopper part 24 which switches the open / close state of the compression tube 21 are provided.

The compression tube 21 is made of a resin material such as acrylic, and has a cylindrical shape with a diameter of about 5 cm, for example.
The compression tube 21 is attached and fixed to the frame body 11 so that the axial direction thereof is substantially along the rear side (−Y axis direction) of the housing 2, and the distal end side which is one end side of the compression tube 21 is the frame body. 11 through the opening formed in the recess 11A.

A distal end opening (opening) 21 a whose opening / closing state is variable by a stopper 24 is formed at the distal end of the compression tube 21. In addition, on the base end side, which is the other end side of the compression tube 21, a charging port 21b for charging used gauze is formed.
Further, the compression tube 21 is provided with a charging auxiliary member 25 for facilitating the charging of the gauze and the compression auxiliary liquid into the charging port 21b. The input assisting member 25 has a substantially bowl shape, and an opening communicating with the input port 21b is formed at the bottom.

The compression part 22 includes a cylinder part 31 whose expansion / contraction direction is substantially parallel to the compression tube 21, an electromagnetic valve (extension / reduction drive part) 32 that drives the cylinder part 31 to extend and contract, a piston rod part (rod part) 33, and a cylinder And a connecting plate (connecting portion) 34 for connecting the portion 31 and the piston rod portion 33.
The cylinder part 31 includes a cylinder body 41 and a cylinder rod 42 whose amount of protrusion from the cylinder body 41 is changed by expansion and contraction driving.
The cylinder main body 41 is fixed in the frame main body 11 and is connected to an electromagnetic valve 32.

  The cylinder rod 42 is provided through an opening formed in the rear surface of the frame main body 11, and the expansion / contraction direction thereof is substantially parallel to the front-rear direction (Y-axis direction) of the housing 2. That is, the expansion / contraction direction of the cylinder rod 42 is substantially parallel to the extending direction of the compression tube 21. The cylinder rod 42 is fixed to the connecting plate 34 at a tip that is separated from the cylinder body 41.

  As shown in FIG. 3, the solenoid valve 32 is a valve that switches between open and closed states by an electromagnetic force of an electromagnet (not shown), and is configured to increase or decrease the protruding amount of the cylinder rod 42 by switching between open and close. .

As shown in FIGS. 3 and 4, the piston rod portion 33 has a proximal end connected to the connecting plate 34 and a distal end disposed in the compression tube 21. The piston rod portion 33 includes a rod main body 45, a piston plate 46 provided at the tip of the rod main body 45, and a leading rod (convex portion) 47 protruding from the piston plate 46 into the compression tube 21. .
The rod body 45 has a proximal end fixed to the connecting plate 34. The rod body 45 is provided so as to extend from the connecting plate 34 in the shortening direction (+ Y-axis direction) of the cylinder portion 31. A hollow portion 45 a is formed at the tip of the rod body 45.

The piston plate 46 has an outer diameter substantially equal to the inner diameter of the compression tube 21 and has a disk shape, and is fixed to the tip of the rod body 45. Further, the piston plate 46 is provided so as to be always located in the compression tube 21 when the cylinder rod 42 is expanded and contracted. Here, the compression pressure with respect to the gauze thrown into the compression tube 21 by the piston plate 46 is 14 MPa or more.
The leading rod 47 is disposed in the hollow portion 45 a and penetrates the through hole 46 a formed in the piston plate 46 from the distal end portion of the rod main body 45. Further, the leading rod 47 has a variable amount of protrusion from the rod body 45 because the compression spring 48 disposed in the hollow portion 45a is elastically deformed.

  The connecting plate 34 is a substantially rectangular plate member, and the distal end of the cylinder rod 42 and the proximal end of the rod body 45 are fixed thereto. A guide bar 49 that guides the expansion and contraction movement by the cylinder portion 31 is fixed to the connecting plate 34. The guide bar 49 extends from the connecting plate 34 in the shortening direction (+ Y axis direction) of the cylinder portion 31 and is inserted into the frame body 11 through a through hole formed in the frame body 11. ing. The guide bar 49 is inserted into a bearing 50 that is attached to the frame body 11 and receives a compression reaction force generated by the expansion and contraction of the cylinder portion 31.

  As described above, in the compression part 22, the cylinder rod 42 and the piston rod part 33 extend from the connecting plate 34 in the same direction (+ Y-axis direction), and the piston rod part 33 is compressed by the contraction of the cylinder rod 42. It has a so-called folded structure that moves toward the tip of 21.

The linear encoder 23 includes a scale 51 and a measurement head 52 that measures the amount of movement of the scale 51.
The scale 51 is fixed to a scale mounting plate 53 that is connected and fixed to the connecting plate 34. The scale mounting plate 53 is configured to move the scale 51 along the expansion / contraction direction of the cylinder part 31 as the cylinder part 31 expands and contracts.
The measuring head 52 is attached to the frame body 11 and is configured to measure the amount of movement of the scale 51 that moves as the cylinder portion 31 expands and contracts and outputs the measured amount to the control unit.

The stopper portion 24 includes a stopper plate (lid portion) 55, a guide bar 56 for guiding the opening / closing operation by the stopper plate 55, and a stopper lever 57 for manually changing the opening / closing state by the stopper plate 55.
The stopper plate 55 is slidable in the left-right direction (X-axis direction) of the housing 2 along the front surface of the frame body 11, and the opening / closing state of the distal end opening of the compression tube 21 can be changed by sliding. . In addition, the stopper plate 55 is disposed at a distance enough to prevent the distal end opening 21a of the compression tube 21 and the gauze in the compression tube 21 from being exposed to the outside in the closed state. That is, even when the counter body 3 is closed when the distal end opening 21 a is closed by the stopper portion 24, the blood in the compression tube 21 or the like can be obtained from the gap between the distal end opening 21 a of the compression tube 21 and the stopper plate 55. The liquid can be discharged to the outside.

The guide bar 56 is provided on the front surface of the frame body 11 and guides the sliding of the stopper plate 55 so that the stopper plate 55 slides in the left-right direction (X-axis direction).
The stopper lever 57 rotates around the axis of the height axis (Z axis) of the housing 2 around a rotation pin 58a provided to protrude upward from a lever fixing member 58 attached to the frame body 11. It is possible. The stopper lever 57 is provided with an oblong through hole 57a through which a pin 55a provided on the stopper plate 55 and protruding in the Z-axis direction is inserted. Then, the stopper plate 57 is moved in the X-axis direction together with the pin 55a as the stopper lever 57 is rotated about the axis of the rotation pin 58a.

As shown in FIGS. 1, 3, and 4, the liquid amount measuring unit 4 is a cup (accommodating unit) that accommodates liquid placed on the lower frame body 11 of the housing 2 and discharged from the compression tube 21. 61 and a crack 62 for measuring the weight of the cup 61.
The cup 61 is a paper cup that has been subjected to a surface treatment that prevents liquid from penetrating inside. A plurality of stacked stock cups 61 are accommodated in the lower frame 12.
The peeler 62 is configured to measure the weight of the cup 61 and the contents accommodated in the cup 61 and output the measurement result to the control unit.

  As shown in FIGS. 1 and 2, the control unit is provided in the display panel 18 and controls the driving of the electromagnetic valve 32 according to whether or not various switches provided on the display panel 18 are pressed. The display panel 18 is configured to display various count results and measurement results. That is, the control unit is configured to display the count result of the number of gauze output from the linear encoder 23 or the measurement result by the peeler 62 on the display panel 18 or to reset the count result or the measurement result. A method of counting the number of gauze sheets by the gauze counting device 1 will be described later.

Next, a method for counting the number of used gauze sheets by the gauze counting device 1 having the above configuration will be described. Here, FIG. 8 is a cross-sectional view showing the compression tube in a state where the gauze is compressed.
First, an appropriate number of used gauze of 30 sheets or less is charged into the compression tube 21 from the charging auxiliary member 25. In addition, a predetermined amount of compression auxiliary liquid (for example, water) is put into the compression tube 21. At this time, the protrusion amount of the cylinder rod 42 of the cylinder part 31 is the maximum. In addition, the stopper plate 55 closes the distal end opening 21 a of the compression tube 21.

  Next, the start button is pressed, and the solenoid valve 32 is driven by the control unit to bring the cylinder unit 31 into a compressed state. Thereby, the protrusion amount of the cylinder rod 42 decreases, and the connecting plate 34 connected to the cylinder rod 42 moves toward the front (+ Y-axis direction) of the housing 2. Then, the piston rod portion 33 and the scale 51 connected to the connecting plate 34 move toward the + Y axis direction. At this time, even if the gauze cannot be accommodated in the compression tube 21 and the gauze is caught in the insertion port 21b of the compression tube 21, the leading rod 47 provided at the tip of the piston rod portion 33 is inserted into the insertion port 21b. The gauze hooked on the hook is hooked and pulled into the compression tube 21. Further, the compression reaction force of the cylinder portion 31 is absorbed by the bearing 50.

  As shown in FIG. 8, the gauze G drawn into the compression tube 21 is compressed by the piston plate 46 that moves toward the front of the housing 2 (+ Y-axis direction) as the cylinder rod 42 contracts. Compressed at the tip. The movement of the piston plate 46 is stopped by the gauze G compressed by the stopper plate 55 and the piston plate 46. Here, the compression pressure of the gauze G by the piston plate 46 is 14 MPa or more.

  At this time, liquids such as blood and compression auxiliary liquid contained in the gauze G are squeezed out from the gauze G by being compressed by the stopper plate 55 and the piston plate 46. The squeezed liquid is discharged from the gap between the distal end opening 21 a of the compression tube 21 and the stopper plate 55 and stored in the cup 61. In addition, since the friction between the compression tube 21 and the gauze is reduced by introducing the compression auxiliary liquid into the compression tube 21 and the gauze smoothly moves in the compression tube 21, the compression of the gauze by the piston plate 46 is efficient. Often done.

  Next, the linear encoder 23 measures the amount of movement of the scale 51 that has moved toward the front (+ Y-axis direction) of the housing 2 as the cylinder rod 42 contracts, and outputs the result to the control unit. That is, the linear encoder 23 measures the thickness of a plurality of gauze compressed in the compression tube 21 and outputs the result to the control unit. Further, the peeler 62 measures the amount of liquid stored in the cup 61 and outputs the result to the control unit.

  The control unit calculates the number of gauze charged in the compression tube 21 from the measurement result of the thickness of the gauze in the compression tube 21 output from the linear encoder 23, and displays this on the display panel 18. In addition, the control unit calculates the amount of blood stored in the cup 61 by subtracting the amount of compressed auxiliary fluid added from the measurement result of the amount of liquid output from the peeler 62, and displays this on the display panel 18.

  Subsequently, the liquid accommodated in the cup 61 is discarded and placed on the peeler 62 again. Further, the stopper lever 57 is rotated about the axis of the rotation pin 58a, and the stopper plate 55 is moved along the guide bar 56 together with the pin 55a in the right direction (−X axis direction) of the housing 2. Thereby, the front-end | tip opening part 21a of the compression tube 21 will be in an open state.

  Then, a reset button provided on the display panel 18 is pressed, and the electromagnetic valve 32 is driven by the control unit to shorten the cylinder unit 31. Thereby, the protrusion amount of the cylinder rod 42 decreases, and the connecting plate 34 connected to the cylinder rod 42 moves toward the front (+ Y-axis direction) of the housing 2. Then, the piston rod portion 33 connected to the connecting plate 34 moves in the + Y axis direction. Therefore, the gauze in the compression tube 21 is pushed out from the tip opening 21 a by the piston rod portion 33 and is accommodated in the cup 61.

  Next, the drive state of the electromagnetic valve 32 is reversed by the control unit, and the cylinder unit 31 is in the extended state. Thereby, the protrusion amount of the cylinder rod 42 increases, and the connecting plate 34 connected to the cylinder rod 42 moves toward the rear (−Y axis direction) of the housing 2. Then, the piston rod portion 33 and the scale 51 connected to the connecting plate 34 move toward the rear (−Y axis direction) of the housing 2. Further, the control unit stops driving the solenoid valve 32 when the protrusion amount of the cylinder rod 42 reaches the maximum value.

  Subsequently, the stopper lever 57 is rotated again about the axis of the rotation pin 58a, and the stopper plate 55 is moved along the guide bar 56 together with the pin 55a in the left direction (+ X axis direction) of the housing 2. Thereby, the front-end | tip opening part 21a of the compression tube 21 will be in a closed state. Further, the cup 61 placed on the peel 62 is replaced with another cup 61 for stock.

Thereafter, when the count of the number of gauze is continued, an appropriate number of used gauze of 30 or less is loaded into the compression tube 21 from the loading auxiliary member 25 in the same manner as described above. Count the number of sheets.
When the counted number of gauze or the measured amount of blood is returned to 0, a clear button provided on the display panel 18 is pressed. Moreover, the inside of the compression tube 21 is appropriately washed as necessary.
As described above, the number of used gauze is counted by the gauze counting device 1.

  Here, gauze containing water was put into the compression tube 21 having an inner diameter of 5 cm, and the thickness of the gauze compressed in the compression tube 21 was measured. FIG. 9 shows the relationship between the number of loaded gauze and the thickness of the gauze in the compression tube 21. In addition, in FIG. 9, the maximum value, minimum value, and average value at the time of performing several times (5 times) are shown. The compression pressure of the gauze in the compression tube 21 was 14 MPa.

  As shown in FIG. 9, the thickness range of the gauze in the compression tube 21 did not overlap for each number of gauze charged. Therefore, it was shown that the number of gauze charged in the compression tube 21 can be counted by measuring the thickness of the gauze in the compression tube 21.

  Even when the inner diameter of the compression tube 21 is 3 cm, the gauze thickness range in the compression tube 21 does not overlap with the number of inserted gauze, as in the case where the inner diameter is 5 cm. It was. Moreover, even if the compression pressure in the compression tube 21 is 7 MPa, 21 MPa, and the thickness measurement result varies when it is 7 MPa, the gauze thickness range in the compression tube 21 is similar to the above. The number of gauze thrown in did not overlap.

  Moreover, the gauze which made lard (10g) adhere in the compression tube 21 was thrown in, and the thickness of the gauze compressed in the compression tube 21 was measured similarly to the above-mentioned. FIG. 10 shows the relationship between the number of loaded gauze and the thickness of the gauze in the compression tube 21. In addition, in FIG. 10, the maximum value, minimum value, and average value at the time of performing several times (5 times) are shown. The compression pressure of the gauze in the compression tube 21 was 14 MPa.

  As shown in FIG. 10, the range of the thickness of the gauze in the compression tube 21 did not overlap with the number of gauze thrown in the same manner as described above. Therefore, even when lard is attached to the gauze, the number of gauze charged in the compression tube 21 is counted by measuring the thickness of the gauze in the compression tube 21 as described above. Was shown to be possible.

FIG. 11 shows the relationship between the weight of the adhered foreign matter and the thickness of the gauze in the compressed tube 21 when 15 pieces of gauze with the foreign matter adhered in the compression tube 21 are charged. Here, meat pieces, jelly, and coagulated blood were used as foreign substances. The compression pressure of the gauze in the compression tube 21 was 14 MPa.
As shown in FIG. 11, the thickness of gauze in the compression tube 21 when the change in volume due to compression is 3 g or more for meat pieces, the change in volume due to compression is 4 g or more for coagulated blood, and 5 g or more for jelly. Variations occurred. Note that it is generally difficult to consider dropping gauze from the operative field with 3 g or more of foreign matter attached to the gauze during the operation, so the number of gauze put into the compression tube 21 even when foreign matter is attached. Can be counted.

As described above, according to the gauze counting device 1 of the present embodiment, the number of gauze is calculated from the thickness of the compressed gauze in the compression tube 21, so that it is not necessary to solve the gauze one by one and the counting accuracy is improved. And labor saving.
Further, the opening / closing state of the tip opening 21a is made variable by the stopper plate 55, and the gauze is compressed while it is in the open state, so that it can be easily discarded without touching the gauze by hand.

And even if the tip opening 21a is kept closed, the liquid in the compression tube 21 can be discharged to the outside, so that the amount of liquid such as blood contained in the gauze can be measured.
Further, by using the compression auxiliary liquid, the friction of the gauze in the compression tube 21 can be reduced and the movement in the compression tube 21 can be facilitated, so that the compression can be performed efficiently and the counting accuracy can be improved. . In addition, by setting the compression pressure of the gauze in the compression tube 21 to 14 MPa, the charged gauze can be reliably compressed, and the counting accuracy can be improved.

In addition, since the leading rod 47 is provided in the rod body 45, the gauze can be drawn into the compression tube 21 even when the gauze is caught in the insertion port 21b.
The cylinder rod 42 and the piston rod portion 33 extend in the same direction (+ Y-axis direction) from the connecting plate 34, and the piston rod portion 33 is directed toward the tip of the compression tube 21 by the contraction of the cylinder rod 42. By adopting a so-called folded structure that moves, the occupation length of the compression unit 22 can be shortened, and the gauze count device 1 can be downsized.

  In addition, this invention is not limited to the said embodiment, A various change can be added in the range which does not deviate from the meaning of this invention.

For example, in the above-described embodiment, the compression auxiliary liquid may not be added if the gauze can be efficiently compressed in the compression tube.
Moreover, although the compression pressure of the gauze in the compression tube is set to 14 MPa, if the thickness range of the gauze in the compression tube after compression does not overlap with the number of inserted sheets, it may be 7 MPa or more, and less than 7 MPa. There may be.
And the leading rod which draws the gauze caught in the inlet into the piston rod part is provided, but if the gauze can be accommodated in the compression tube, it is not necessary to provide the leading rod.

Furthermore, although the amount of liquid accommodated in the cup is displayed on the display plate of the housing, a configuration may be used in which the amount of liquid is displayed in sharpness.
In addition, the cylinder rod and the piston rod portion are arranged so as to be directed in the same direction via the connecting plate. If the gauze in the compression tube can be compressed, for example, the configuration in which the gauze in the compression tube is directly compressed by the cylinder rod. Other configurations may be used.
And it is good also as possible to be able to print information on surgery or gauze on the cup. This facilitates surgical record management. Here, the printing of information on the cup may be configured to receive information by infrared communication, for example, and print the received information.

It is a perspective view which shows the gauze count apparatus in one Embodiment. It is a disassembled perspective view which shows the housing | casing of FIG. It is a disassembled perspective view which shows the counter main body of FIG. It is a top view of the counter main body of FIG. The piston rod part of FIG. 3 is shown, (a) is a disassembled perspective view, (b) is sectional drawing. It is a disassembled perspective view which shows the linear scale of FIG. It is a disassembled perspective view which shows the stopper of FIG. It is sectional drawing which shows the compression tube of the state into which the gauze was compressed. It is a graph which shows the relationship between the injection | throwing-in number of gauze, and the thickness of the gauze in a compression tube. It is a graph which shows the relationship between the injection | throwing-in number of gauze when lard was made to adhere, and the thickness of the gauze in a compression tube. It is a graph which shows the relationship between the adhesion amount of a foreign material, and the thickness of the gauze in a compression tube.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Gauze count apparatus, 4 ... Liquid amount measurement part, 21 ... Compression tube (cylinder part), 21a ... Tip opening part (opening part), 21b ... Input port, 22 ... Compression part, 23 ... Linear encoder (measurement part) , 31 ... Cylinder part, 32 ... Solenoid valve (extension / contraction drive part), 33 ... Piston rod part (rod part), 34 ... Connection plate (connection part), 47 ... Lead rod (convex part), 55 ... Stopper plate (lid) Part), 61 ... cup (container), G ... gauze

Claims (4)

  A cylinder part provided with an insertion port for introducing gauze and containing the gauze; a compression part that compresses the gauze in the cylinder part; and a measurement part that measures the thickness of the compressed gauze. Characteristic gauze counting device. An opening is provided at the tip of the cylindrical portion,
The gauze counting device according to claim 1, further comprising a lid portion that opens and closes the opening. The cylinder part can discharge the liquid contained in the compressed gauze to the outside,
The gauze count device according to claim 1, further comprising a storage unit that stores the liquid.   The gauze counting device according to any one of claims 1 to 3, wherein a convex portion that protrudes in a compression direction of the gauze is provided at a distal end portion of the compression portion.

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