JP4694732B2 - Automatic urine measuring device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for automatically measuring urine volume and urine specific gravity of hospitalized patients and the like.
[0002]
[Prior art]
Today, in hospitals, devices that automatically test and measure a specific patient's urine have been installed in a washroom or the like provided in each hospital room.
This automatic urine measuring device automatically measures and records the specific gravity and volume of the urine when the patient urinates, transmits the measurement result to a nurse center, etc., and stores a part of the urine, It is a device that enables separate precision measurement.
[0003]
As an example of this automatic urine measuring apparatus, as shown in FIG. 4, an automatic urine having a liquid crystal panel 17 at the upper front and a plurality of cup insertion doors 21 and a sample container take-out door 71 below. There is what is referred to as a measuring device 10.
In this automatic urine measuring apparatus 10, as shown in FIG. 5, a microcomputer 15 is built in the upper part, an operation guide is displayed on the liquid crystal panel 17, and a urine collection cup 31 from which a predetermined patient's urine is collected is inserted into the cup. When it is attached to the door 21 and inserted into the cup room 25, the microcomputer 15 automatically controls the urine volume and urine specific gravity while controlling a part of the urine to be left in the sample container 75 for each patient. It is what.
[0004]
The internal structure of the automatic urine measuring apparatus 10 has a cup holder 23 for fixing the urine collection cup 31 inside the cup insertion door 21, and the cup insertion door 21 can be opened and closed by using the lower end of the cup insertion door 21 as a hinge structure. Yes.
Then, the upper part of the cup insertion door 21 is pulled out, the cup insertion door 21 is opened substantially horizontally, the urine collection cup 31 is fixed to the cup holder 23 and the cup insertion door 21 is closed, and the urine collection cup 31 falls in the cup room 25. The urine in the urine collection cup 31 can be discharged to the cup room 25 by being inclined.
[0005]
In addition, when the cup insertion door 21 is set to a lateral opening type or a drawer type, the urine collection cup 31 is fixed to the cup holder 23 on the back side of the cup insertion door 21 and the cup insertion door 21 is closed, the cup holder 23 is moved into the cup room 25. Some slide the urine collection cup 31 into the cup room 25, draw the urine collection cup 31 into the cup room 25, and then rotate the urine collection cup 31 to discharge the urine in the urine collection cup 31 to the cup room 25 is there.
[0006]
The cup room 25 has a cup washing nozzle 28 and a room washing nozzle 27 inside thereof, and the bottom wall of the cup room 25 is inclined so that liquid such as urine discharged into the cup room 25 is substantially vertical. It can be made to flow through a proper induction port 35.
The guide port 35 guides the liquid such as urine in the cup room 25 to the measuring container 41, and the measuring container 41 is supported by a container support base 45 having a pressure-sensitive element. A measurement terminal 48 is provided on the inside, and a urination port 42 provided with a valve is provided at the center of the bottom.
[0007]
Further, a substantially vertical flow pipe 61 is provided below the urination port 42, and when the liquid in the measuring container 41 is discharged from the urine port 42 by the valve controller 46, this liquid can be guided to the distribution pipe 63. I am doing so.
The distribution pipe 63 is pivotally supported near the upper end of the distribution pipe 63 so that the lower end position of the distribution pipe 63 can be moved by swinging or rotating, and a motor incorporated in the distribution controller 64 It swings or rotates so as to move the lower end position.
[0008]
In the urine automatic measuring apparatus 10 for measuring the urine of four patients, four samples are placed in the container mounting portion 73 provided below the distribution pipe 63 and inside the sample container take-out door 71. The containers 75 can be stored and fixed side by side, and the lower end of the distribution pipe 63 is located above each sample container 75 fixed to the container mounting portion 73 and a disposal pipe not shown in the drawing which is a disposal position removed from the sample container 75. It is controlled to move to the upper position.
[0009]
And in this urine automatic measuring device 10, when the urine collection cup 31 containing the urine of the patient registered in the microcomputer 15 is attached inside the cup insertion door 21 for a predetermined patient and the cup insertion door 21 is closed, The microcomputer 15 measures the urine weight by a signal from a pressure-sensitive element provided on the container support 45 after a predetermined time, and determines the liquid level height in the measuring container 41, that is, the urine volume by a signal from the liquid level measuring device 47. Measure urine specific gravity from both measured values to calculate urine volume and urine specific gravity.
[0010]
The urine volume and urine specific gravity values are stored together with the measurement time, and the urine volume for one day is combined with the previous urine volume plus the current urine volume, such as the nurse center. It may be sent to the main unit.
Further, the microcomputer 15 controls the distribution controller 64 so that the lower end of the distribution pipe 63 is aligned with the position of the sample container 75 aligned with the opened and closed cup insertion door 21, and controls the valve controller 46 to control the weighing container. Only a part of the urine in 41 is discharged from the urine outlet 42 of the measuring container 41 to the flow down pipe 61.
[0011]
Thereafter, the lower end of the distribution pipe 63 is moved above the waste pipe, the urine remaining in the measurement container 41 is discharged by controlling the valve controller 46 to open the urine outlet 42 of the measurement container 41, and the cup room. The washing liquid is ejected from the 25 cup washing nozzles 28 and the room washing nozzle 27 to wash away urine and the like remaining on the cup room 25, the guide port 35, the measuring container 41, the flow down pipe 61 and the distribution pipe 63.
[0012]
The cleaning liquid is a cleaning liquid in which tap water is mixed in a cleaning liquid tank not shown in the drawing, and the cleaning liquid in the cleaning liquid tank is stored in a cleaning liquid tank not shown in the drawing by using a pump and piping not shown in the drawing. The tap water is sent to the nozzle 27, or the tap water is supplied to the cup cleaning nozzle 28 or the room cleaning nozzle 27 by a pipe having a valve not shown in the drawing using tap water pressure. Is appropriately mixed and ejected from the cup cleaning nozzle 28 or the room cleaning nozzle 27.
[0013]
In addition, the urine remaining in the measuring container 41 and the cleaning liquid flowing from the cup room 25 are placed at the lower end of the distribution pipe 63 above the disposal pipe, which is the disposal position. Many are discharged outside the measuring device 10.
As described above, in this automatic urine measuring apparatus 10, the urine specific gravity and the urine volume are recorded together with the measurement time for each urination of the patient registered in the microcomputer 15, and about 10 milliliters of the sample container 75 is recorded for each measurement. The urine collected for each patient collected in the sample container 75 can be taken out once a day, and precise measurement according to the medical condition can be separately performed once a day.
[0014]
The automatic urine measuring apparatus 10 shown in FIG. 4 has a plurality of cup insertion doors 21 and defines the patient to be used for each cup insertion door 21. The patient is identified by the operation of, or a patient identification barcode is pasted on the urine collection cup 31, and the patient is identified and identified by a barcode reader, and the urine specific gravity and urine volume of each patient are measured, Some urine is divided into patients and left in the sample container 75.
[0015]
[Problems to be solved by the invention]
As described above, in the urine automatic measurement apparatus that automatically measures urine of a plurality of patients and leaves a part in the sample container, urine measurement of different patients may be continuously performed within a short time.
At this time, the downflow pipe and the distribution pipe are arranged as vertically as possible so that no moisture remains inside, but when measuring the urine of another patient following the previous patient's urine measurement, When collecting a part of the patient's urine in the sample container, there may be water droplets of the cleaning liquid remaining inside the flow down pipe or distribution pipe, and the cleaning liquid etc. will be mixed as impurities into the urine to be extracted into the sample container. Since the amount of urine collected in the sample container was small, it could affect the work-up performed separately.
[0016]
Also, taking out urine from a sample container for precision measurement in a separate container can be done in a short time with one automatic urine measuring device, but in hospitals with a large number of patients, it is necessary to collect urine from all patients. It took a lot of time and manpower, making it difficult to collect in the late night or early morning when the patient does not urinate, and if it was collected in the daytime, the patient could feel inconvenience or discomfort.
[0017]
The present invention eliminates such drawbacks and enables accurate and precise measurement while leaving urine samples of a plurality of patients having as low an impurity concentration as possible, and also facilitates the removal of the urine sample to make it easier for patients and nurses and the like. The present invention provides an automatic urine measurement device that can reduce the burden.
[0018]
[Means for Solving the Problems]
  From a first viewpoint, the present invention provides:To measure urine specific gravity and urine volume controlled by microcomputer (15)Automatic urine measuring device (10),Measuring container (41) that temporarily stores urine and temporarily stored in the measuring container (41)UrineA sample container (75) that is stored separately for each patient, a Spitz tube (105) that collects a part of the urine from each sample container (75), and a fixed timeeachAfter transferring a portion of the urine stored in the sample container (75) to each Spitz tube (105), rotate and invert the sample container (75).eachThe sample container (75) is washed.
[0019]
Since the sample container (75) and the Spitz tube (105) are built in this way, the urine for one day is stored in the sample container (75), and the urine stored in the sample container (75) is stored at a certain time. Urine necessary for precision measurement while the time of washing is set to a time when the patient is unlikely to use the automatic urine measuring device (10) because a part of the sample is transferred to the Spitz tube (105) and the sample container (75) is washed. The sample can be left in the Spitz tube (105) and a new daily urine can be stored in the sample container (75).
[0020]
  In the invention according to the first aspect,A container base (81) for fixing the sample container (75) rotatably in the washing drain chamber (91)When,Tumbled downSample container (75)The cleaning liquid is spouted towardA container cleaning nozzle (93);Tumbled downSample container (75)Compressed air towardWith an air nozzle (94),The microcomputer isThe cleaning liquid from the cleaning nozzle (93)LetHas a control function to eject compressed air from the air nozzle (94) after stopping the ejection of cleaning liquidRukoAnd features.
[0021]
As described above, since the container washing nozzle (93) and the air nozzle (94) are provided in accordance with the overturning position of the sample container (75), the sample container (75) is overturned to open the sample container (75). The cleaning liquid can be ejected from the container cleaning nozzle (93) with the portion directed downward.
Therefore, the washing liquid after washing can be surely discharged from the sample container (75), and the air nozzle (94) is provided and the air ejection control can be performed by the control of the microcomputer after the washing liquid ejection is stopped. Therefore, it is possible to prevent water droplets or the like from remaining in the sample container (75) by the ejection of compressed air.
[0022]
  In the invention according to the first aspect, a gas-liquid pump is provided, and the gas-liquid pump supplies urine or cleaning liquid stored in the measuring container (41) through the distribution pipe (63) to the sample container (75). After the cleaning liquid contained in the weighing container (41) is transferred to the sample container (75), air is sucked into the distribution pipe (63) by discharging the sucked air through the distribution pipe. It is configured to remove the remaining moisture.
[0023]
As described above, since the gas-liquid pump is used as the urine collecting pump (65), not only liquid such as urine and washing liquid but also air can be sucked from the measuring container (41). After the cleaning liquid is sucked and the flow path to the lower end of the distribution pipe (63) is cleaned, the inside of the flow path can be dried by sucking air.
Therefore, even when the next urine is collected from the measuring container (41) for a short time, it is possible to eliminate the possibility of mixing impurities in the collected urine and making the urine thin by moisture.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
The embodiment of the automatic urine measurement apparatus according to the present invention has a built-in microcomputer and has a liquid crystal display panel and a plurality of cup insertion doors in the front as in the conventional case.
As shown in FIG. 1, two automatic doors are provided below the front surface of the automatic urine measuring apparatus 10, and a Spitz tube outlet door 101 is further provided below the sample container outlet door 71 as in the prior art. .
[0025]
As shown in FIG. 2, the cup room 25, the guide port 35, the measuring container 41 and the container support base 45 are substantially the same as the conventional one, but the suction port 52 is provided inside the measuring container 41. A suction pipe 51 positioned near 41 urination ports 42 and a urine collection pipe 56 in which the suction pipe and the discharge pipe are combined are provided.
The urine collection tube 56 is a combination of a suction pipe that sucks up the liquid in the measuring container 41 and a discharge pipe that returns the liquid sucked from the suction pipe and passed through the density specific gravity measuring device 55 to the measuring container 41. It is.
[0026]
Therefore, the urine in the measuring container 41 is sucked up from the suction pipe of the urine collection tube 56 by a circulation pump incorporated in the density / specific gravity measuring device 55, and this urine is passed through the measurement flow path in the density / specific gravity measuring device 55 and ultrasonically. The urine can be returned from the discharge pipe of the urine collection tube 56 to the measurement container 41.
In addition, after the urine specific gravity and the amount of urine are measured by the urine collecting tube 56, when the urine in the measuring container 41 is discharged and the cleaning liquid is stored in the measuring container 41, the cleaning liquid is passed from the suction pipe through the density specific gravity measuring device 55. It is also possible to wash the flow path of the density / specific gravity measuring device 55 by circulating through the discharge pipe.
[0027]
The suction pipe 51 is connected to the suction port of the urine collection pump 65, and the discharge port of the urine collection pump 65 is connected to the distribution pipe 63 via the connection pipe 67.
The urine collection pump 65 uses a gas-liquid pump.
Further, the distribution pipe 63 can be swung or rotated so as to change the lower end position by the distribution controller 64 so that the lower end position thereof is positioned at the upper position and the disposal position of the sample container 75 for each patient. It is possible to control the lower end position of the distribution pipe 63 by the microcomputer 15 as in the conventional case.
[0028]
In the urine automatic measurement device 10 according to the present invention, the flow down pipe 61 provided below the urine outlet 42 of the measuring container 41 is opened in the washing drainage chamber 91.
The washing / draining chamber 91 is a space that allows the sample container 75 to be rotated and overturned, the sample container extraction door 71 is positioned in front of the sample container extraction door 71, and the sample container extraction door 71 is located inside the sample container extraction door 71. A container base 81 is provided in a container mounting portion 73 integrated with 71, and the sample container 75 is stored so that the sample container 75 is fixed to the container base 81.
[0029]
In the container table 81, the lower container table 82 is fixed to the container mounting portion 73, the upper container table 83 is rotated around the rotation shaft 85, and the sample container 75 fixed to the upper container table 83 is turned over. The flow path for guiding the urine discharged from the discharge valve port 77 of the sample container 75 shown in FIG. 3 to the guide tube 88 is not shown in FIG. 2, but corresponds to each sample container 75. The container table 81 is formed so as to pass through so as to connect the upper funnel port of each of the guide pipes 88 and the discharge valve port 77 of each sample container 75.
[0030]
Further, inside the container table 81, although not shown in the drawing, a motor and a reduction gear for rotating the upper container table 83, a cam for driving a valve rod provided at the discharge valve port 77 of the sample container 75, and a cam drive A motor and a guide tube swinging motor that moves the lower end of each guide tube 88 to the position of each Spitz tube 105 fixed to the Spitz tube holder 103 or to the position removed from the mouth of the Spitz tube 105 are incorporated.
[0031]
Although not shown in FIG. 2, the guide tube 88 is removed from the mouth of the Spitz tube 105 at a position slightly apart from the mouth of each Spitz tube 105 fixed to the Spitz tube holder 103. At this time, a pipe that opens in accordance with the lower end position of the guide pipe 88 is provided, and this pipe is a cleaning liquid disposal pipe that is inclined downward from the opening at the upper end and opens to the cleaning drainage chamber 91 at the lower end.
[0032]
In this cleaning / drainage chamber 91, an auxiliary cleaning nozzle 92 is provided above each sample container 75 placed on the container mounting portion 73, and the upper container table 83 is rotated to cause the sample container 75 to fall. A container cleaning nozzle 93 and an air nozzle 94 are provided in accordance with the position of the opening of the sample container 75 at that time.
In this automatic urine measuring apparatus 10, the Spitz tube take-out door 101 is opened so that each Spitz tube 105 can be attached to and detached from the Spitz tube holder 103 by being positioned directly below each sample container 75.
[0033]
When the sample container take-out door 71 is opened, the sample container take-out door 71 and the container attaching portion 73 are rotated around the lower end of the sample container take-out door 71 and fixed to the upper surface of the container attaching portion 73. A sample container 75 can be attached and fixed to the upper container base 83 of the container base 81. As shown in FIG. 3, this sample container 75 is a container that opens upward, and has a bottom portion. A valve having a discharge valve port 77 and having a valve rod penetrating the discharge valve port 77 normally prevents the liquid stored in the container from leaking.
[0034]
Therefore, in this automatic urine measuring apparatus 10, the cup insertion door 21 is opened to fix the urine collection cup 31 inside the cup insertion door 21, and when the cup insertion door 21 is closed, the urine collection cup 31 is overturned so that urine is measured. The urine weight can be measured by a pressure-sensitive element attached to the container support 45.
Then, the circulation pump is driven, and the urine in the measuring container 41 is sent to the density / specific gravity measuring device 55 by the urine collection tube 56, and the urine specific gravity can be measured by the density / specific gravity measuring device 55.
[0035]
As described above, in this embodiment, since the urine specific gravity is measured by the density specific gravity measuring device 55 that measures the specific gravity by ultrasonic measurement, the urine specific gravity can be accurately measured, and the urine collected in the measuring container 41 can be measured. Compared to the conventional measurement of urine volume and calculation of urine specific gravity, in which bubbles were generated and it was difficult to accurately determine the liquid level, the urine specific gravity measurement and urine volume from specific gravity and weight were compared Can be calculated and measured.
[0036]
After the measurement of urine volume and specific gravity, the distribution controller 64 is controlled by the microcomputer 15 so that the lower end of the distribution pipe 63 is positioned above a predetermined patient sample container 75, which is a gas-liquid pump. The pump 65 is driven, a predetermined amount of urine such as 10 milliliters is transferred to the sample container 75, the valve controller 46 is driven to open the urine outlet 42 of the measuring container 41, and the urine in the measuring container 41 is removed from the flow down pipe 61. It is made to flow in the washing drain chamber 91 and be discarded.
[0037]
Thereafter, the distribution controller 64 is controlled to move the lower end of the distribution pipe 63 to the disposal position, and the urine outlet 42 of the measuring container 41 is closed, and the washing liquid is ejected from the cup washing nozzle 28 and the room washing nozzle 27 to produce the cup room. 25 and induction port 35 are washed.
Then, the circulation pump is driven to circulate the cleaning liquid in the measuring container 41 from the urine collection tube 56 to the density / specific gravity measuring device 55, to clean the flow path of the density / specific gravity measuring device 55, and to drive the urine collection pump 65 as well, In addition, the liquid flow path in the urine collection pump 65 and the inside of the connection pipe 67 and the distribution pipe 63 are also washed.
[0038]
Since the lower end of the distribution pipe 63 is at the disposal position, the cleaning liquid flowing out from the distribution pipe 63 flows down the waste pipe (not shown) and flows to the bottom of the cleaning drainage chamber 91, and the urine is automatically discharged from the drain outlet 97. It is discharged outside the measuring device 10.
Further, when the urination port 42 of the measuring container 41 is opened, the cleaning liquid dropped from the flow down pipe 61 to the cleaning / drainage chamber 91 is also discharged from the drainage port 97 to the outside.
[0039]
In the automatic urine measuring apparatus 10, the microcomputer 15 is configured so that the urine collection pump 65 is continuously driven for a predetermined time after the urine opening 42 is opened by the valve controller 46 and the cleaning liquid in the measuring container 41 is discharged. Control is in progress.
In this way, by continuing to drive the urine collection pump 65, which is a gas-liquid pump, after the measuring container 41 is emptied, the air in the measuring container 41 is sucked up by the suction pipe 51, the connecting pipe 67, and the distribution pipe 63. Water is drained inside, and the water drops remaining in the suction pipe 51, urine collection pump 65, connection pipe 67 and distribution pipe 63 are discharged, and no moisture remains in the flow path for collecting a small amount of urine and sending it to the sample container 75. The urine can be diluted and impurities can be prevented from being mixed.
[0040]
In the automatic urine measuring apparatus 10, the sample container 75 can be rotated and overturned inside the washing / drainage chamber 91, and a discharge valve port 77 is provided in the sample container 75, and urine flowing down from the discharge valve port 77 is guided to the guide tube. By 88, it is possible to guide to the Spitz tube 105 attached immediately below the sample container 75.
Therefore, at a certain time in the middle of the night or early morning once a day under the control of the microcomputer 15, first, the Spitz in which the lower end of the guide tube 88 is fixed to the Spitz tube holder 103 by driving the guide tube swing motor. The valve rod provided in the discharge valve port 77 of each sample container 75 is pushed up by driving the cam drive motor and rotating the cam by positioning it at the mouth of the tube 105 and spits about 10 ml to 20 ml of urine. It collects in the tube 105.
[0041]
Thereafter, the induction tube swing motor is driven so that the lower end of the induction tube 88 is removed from the mouth of the Spitz tube 105 under the control of the microcomputer 15, and the discharge valve port 77 of the sample vessel 75 is opened again to enter the sample vessel 75. The remaining urine is discarded and the cleaning liquid is ejected from the auxiliary cleaning nozzle 92.
Therefore, the cleaning liquid can flow down from the discharge valve port 77 to the guide pipe 88 to clean the inside of the guide pipe 88. The cleaning liquid flowing down from the guide pipe 88 is supplied to the cleaning drainage chamber via a cleaning liquid waste pipe (not shown). It flows into 91 and is discharged from the drainage port 97 to the outside of the automatic urine measuring apparatus 10.
[0042]
Then, after stopping the ejection of the cleaning liquid from the auxiliary cleaning nozzle 92, the driving of the overturning motor is started, the upper container base 83 is rotated to invert the sample container 75, and the cleaning liquid is ejected from the container cleaning nozzle 93. The inside of the sample container 75 is washed, and after the ejection of the cleaning liquid is stopped, air is ejected from the air nozzle 94 so that water droplets remaining in the sample container 75 are blown off.
[0043]
Thereafter, the overturning motor is reversed to return the sample container 75 together with the upper container table 83 to the original normal position, and the next urine is collected.
The guide tube 88 may be swung using a solenoid instead of the guide tube swing motor, and the guide tube swing motor and solenoid are omitted, and the valve rod provided at the discharge valve port 77 is pushed up. The guide tube 88 may be swung by using a cam mechanism interlocked with the cam.
[0044]
As described above, when the valve rod and the guide pipe 88 are driven by the cam, the cam mechanism is somewhat complicated, but the discharge valve port 77 can be opened and closed with the position of the guide pipe 88 by one cam drive motor. Can be controlled.
Further, after collecting about 10 ml to 20 ml of urine from the sample container 75 into the Spitz tube 105, the induction tube swing motor is arranged so that the lower end of the guide tube 88 is removed from the mouth of the Spitz tube 105 by the control of the microcomputer 15. And the start of the overturning motor are started, the upper container base 83 is rotated, the sample container 75 is overturned, and the urine remaining in the sample container 75 is allowed to flow into the washing drainage chamber 91 to be discarded. In this case, the inversion motor is further reversed to return the sample container 75 together with the upper container table 83 to the original normal position, the cam drive motor is driven again to open the discharge valve port 77, and the auxiliary cleaning nozzle 92 The cleaning liquid is ejected.
[0045]
Accordingly, the cleaning liquid can flow down from the discharge valve port 77 to the guide pipe 88 to clean the inside of the guide pipe 88.
In this case, the inversion motor is driven to invert the sample container 75 again, the cleaning liquid is ejected from the container cleaning nozzle 93 to clean the inside of the sample container 75, and after the ejection of the cleaning liquid is stopped, the air from the air nozzle 94 The water droplets remaining in the sample container 75 are blown off.
[0046]
In this way, the sample container 75 is turned over to spray the cleaning liquid to clean the sample container 75, and further compressed air is blown, so that no water droplets or moisture can remain in the sample container 75. Since the next urine sample is stored by erecting the sample container 75 in which moisture does not remain, it is possible to prevent the urine stored in the sample container 75 from being mixed with other liquids to make the urine thin or contain impurities.
[0047]
The collection of urine into the Spitz tube 105 and the overturning and washing of the sample container 75 are started by the timer function of the microcomputer 15. However, when collecting the urine and washing the sample container 75, the presence or absence of the Spitz tube 105 is checked. The detection is performed in accordance with the number of patients registered in the microcomputer 15 and the number of Spitz tubes 105, and sampling from each sample container 75 and washing of the sample containers 75 are performed simultaneously. If any other abnormality occurs, the abnormality is notified to the central computer, which is the main unit installed in the nurse center, etc., and when the sampling to the Spitz tube 105 and the cleaning of the sample container 75 are started, they are displayed on the liquid crystal panel 17. I am trying to give attention to those who try to use it.
[0048]
As described above, the urine automatic measurement device 10 according to the present embodiment can measure and record the urine specific gravity and the urine volume for each patient every time the patient urinates, and can also apply a small amount of sample to the patient at each measurement. A sample container 75 is provided for storing urine for one day remaining every time. In addition to this sample container 75, a Spitz tube 105 for automatically collecting only a small amount necessary for precise measurement from the sample container 75 is also incorporated. Since it is possible to use the timer function to automatically discard the urine for one day by tumbling the container 75 and wash the sample container 75, the Spitz tube from the sample container 75 in the middle of the night or early morning The necessary amount can be transferred to 105 and the urine for one day stored for the sample can be automatically discarded in the middle of the night or early morning when there are few users, and a new one day can be accumulated.
[0049]
Therefore, the urine sample collected in the Spitz tube 105 can be sequentially collected in the morning or daytime and can be subjected to a close examination according to the medical condition of each patient, less inconvenience to the user, and It is possible to reduce the work load of hospital staff.
As shown in FIG. 2, the automatic urine measuring apparatus 10 is provided with a deodorizing filter 111 inside, and a fan 115 for sending air in the automatic urine measuring apparatus 10 is further attached to the filter in combination with the deodorizing filter 111. The odor in the urine automatic measurement device 10 is adsorbed by the deodorization filter 111 by allowing the air in the urine automatic measurement device 10 to always pass through the deodorization filter 111, so that no odor is generated in and around the device. .
[0050]
【The invention's effect】
The present invention described in claim 1 is an automatic urine measuring device for automatically washing a sample container while leaving a part of urine in a Spitz tube at a certain time, so that a sample can be sampled in the middle of the night or early morning without human intervention. The container can be washed to collect urine for the next day.
Further, since the present invention described in claim 2 is provided with the container cleaning nozzle and the air nozzle in accordance with the overturning position of the sample container, the sample container is overturned for cleaning, and no water droplets remain after the cleaning. The water in the sample container that has been tumbled can be blown off with air, and a urine sample that can be accurately measured can be collected by collecting the urine sample in a sample container in which unnecessary water such as a cleaning liquid does not remain.
[0051]
The invention of claim 3 is a method of collecting urine from a measuring container to a sample container using a gas-liquid pump as a urine collecting pump, and after the urine is collected from the measuring container into the sample container, the cleaning liquid is sucked from the measuring container. This is a method of collecting urine by washing the flow path and then sucking air from the measuring container. After collecting the urine sample, the urine sample is washed and discharged from the flow path by air. In addition, the urine sample can be stored in the sample container without drying the inside of the flow path and mixing impurities such as a washing solution into the urine sample.
[Brief description of the drawings]
FIG. 1 is a front view showing an example of an automatic urine measurement apparatus according to the present invention.
FIG. 2 is a schematic side view of an internal structure showing an example of an automatic urine measurement device according to the present invention.
FIG. 3 is a view showing an example of a sample container used in the automatic urine measurement apparatus according to the present invention.
FIG. 4 is a front view showing an example of a conventional automatic urine measuring apparatus.
FIG. 5 is a schematic side view of an internal structure showing an example of a conventional automatic urine measurement apparatus.
[Explanation of symbols]
10 Urine automatic measuring device
15 Microcomputer 17 Liquid crystal panel
21 Cup insertion door 23 Cup holder
25 coupleome 27 room cleaning nozzle
28 Cup washing nozzle 31 Urine collection cup
35 Induction port 41 Measuring container
42 Urination port 45 Container support
46 Valve controller 47 Liquid level measuring device
48 Measuring terminal 51 Suction pipe
52 Suction port 55 Density specific gravity measuring instrument
56 Urine collection tube 61 Downflow tube
63 distribution pipe 64 distribution controller
65 Urine collection pump 67 Connection pipe
71 Sample container door 73 Container mount
75 Sample container 77 Discharge valve port
81 Container stand 82 Lower container stand
63 Upper container stand 85 Rotating shaft
88 Guide pipe 91 Cleaning drainage chamber
92 Auxiliary cleaning nozzle 93 Container cleaning nozzle
94 Air nozzle 97 Drain port
101 Spitz tube extraction door 103 Spitz tube holder
105 Spitz tube 111 Deodorizing filter
115 fans

Claims (3)

An automatic urine measuring device controlled by a microcomputer to measure urine specific gravity and urine volume ,
A measuring container for temporarily storing urine;
A sample container for storing urine temporarily stored in a weighing container separately for each patient;
Spitz tubes for collecting a part of urine from each sample container,
An automatic urine measurement apparatus, wherein after a part of urine stored in each sample container is transferred to each Spitz tube at a certain time, each sample container is washed by rotating and overturning the sample container. A container table for rotatably securing the sample vessel in the cleaning waste water chamber,
A container cleaning nozzle that ejects cleaning liquid toward the rotating and falling sample container;
An air nozzle that ejects compressed air toward the rotating and falling sample container;
The microcomputer causes the ejected cleaning fluid from container cleaning nozzle, urine automatic measuring apparatus according to claim 1, wherein the benzalkonium that having a control function for ejecting compressed air from the air nozzle after ejection stop of the cleaning liquid. Equipped with a gas-liquid pump,
The gas-liquid pump transports urine or cleaning liquid stored in the measuring container to the sample container via the distribution pipe, and transfers the cleaning liquid stored in the measuring container to the sample container, and then sucks and sucks air. The automatic urine measurement device according to claim 1 or 2, wherein the urine automatic measurement device is configured to remove moisture remaining inside the distribution pipe by discharging air through the distribution pipe.

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