CN212134289U - Urine protein collecting system - Google Patents

Abstract

The utility model provides a urine protein collecting system, which comprises a urine collecting device, a urine processing device and a urine discharging device, wherein, the urine collecting device is connected and communicated with the urine processing device, and the urine processing device is connected and communicated with the urine discharging device; the urine collecting device also comprises a preservative storage chamber and a storage chamber gate, wherein the storage chamber gate is arranged at the outlet of the preservative storage chamber and is used for releasing the preservative in the preservative storage chamber; urine albumen collection system still includes antiseptic accounting device and the urine volume detector that the communication is connected, and antiseptic accounting device sets up in urine collection device or urine processing apparatus, and urine volume detector sets up in urine processing apparatus, and antiseptic accounting device is connected with the storeroom gate electricity for according to opening and shutting of the urine volume control storeroom gate that urine volume detector detected, the utility model discloses can effectively improve the accuracy of urine albumen quantitative analysis result.

Description

Urine protein collecting system

Technical Field

The utility model relates to the field of medical equipment, especially a urine albumen collecting system.

Background

For patients with kidney diseases or urinary system diseases, such as patients with renal syndrome, 24-hour urine protein extraction and analysis are often required to detect urine protein indexes of patients so as to judge the state of illness of the patients. In a broad sense, the 24-hour quantitative analysis of urine protein is to collect and sample 24-hour urine per day of a patient and then perform a relevant detection. Regular human urine routine detection 24 hour urine protein quantification is typically less than 150 mg.

Clinically, since a patient generally collects a 24-hour urine sample by using a simple plastic bucket or other containers, which often results in abnormal results of 24-hour quantitative analysis of urine protein, it is urgently needed to develop a special urine protein collection system to improve the accuracy of the results of 24-hour quantitative analysis of urine protein.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a urine albumen collecting system can effectively improve the accuracy of urine albumen quantitative analysis result.

The urine protein collecting system provided by the utility model comprises a urine collecting device, a urine processing device and a urine discharging device, wherein the urine collecting device is connected and communicated with the urine processing device, and the urine processing device is connected and communicated with the urine discharging device; the urine collecting device also comprises a preservative storage chamber and a storage chamber gate, wherein the storage chamber gate is arranged at an outlet of the preservative storage chamber and used for releasing the preservative in the preservative storage chamber, and when the storage chamber gate is opened, the preservative storage chamber is communicated with the urine processing device; the urine protein collecting system further comprises a preservative calculating device and a urine volume detector which are in communication connection, wherein the preservative calculating device is arranged in the urine collecting device or the urine processing device, the urine volume detector is arranged in the urine processing device, and the preservative calculating device is electrically connected with the storeroom gate and used for controlling the opening and closing of the storeroom gate according to the urine volume detected by the urine volume detector.

Preferably, the urine collecting device comprises a male urine collector and a female urine collector, the male urine collector comprises a first collector and a first ureter, the female urine collector comprises a second collector and a second ureter, and the first ureter and the second ureter are communicated with the urine processing device.

Preferably, the urine disposal device includes a urine storage chamber having an inclined urine introduction wall.

Preferably, the urine processing device further comprises two or more urine pH detectors, a stirring controller and a stirring rod, the urine pH detectors are used for detecting two or more pH values of two or more urine in different sections, the urine pH detectors are in communication connection with the stirring controller, and the stirring controller is electrically connected with the stirring rod and used for determining whether to control the stirring rod to rotate according to the difference of the pH values.

Preferably, the urine pH detector, the stirring controller and the stirring rod are all disposed in the urine storage chamber.

Preferably, the number of the urine pH detectors is 3, and the urine pH detectors are distributed at intervals along the height direction of the urine processing device.

Preferably, the urine treatment device further comprises an electronic display, which is in communication with the urine pH detector for displaying the pH values.

Preferably, the electronic display is disposed in the urine storage chamber, and the detection area of the electronic display faces the outside of the urine storage chamber 202.

Preferably, the agitation controller and/or the preservative calculating means comprises a relay.

Preferably, the urine voiding apparatus includes a drain valve disposed on the eductor for controlling the opening and closing of the eductor and an eductor in communication with the urine storage chamber.

The utility model discloses an utilize urine volume detector to detect the urine volume, and utilize antiseptic computing device basis opening and shutting of urine volume control storeroom gate that urine volume detector detected releases proper amount antiseptic to effectively prevent to lead to the analysis result inaccurate because of the urine corruption, and, in a preferred embodiment, still detect through the pH value to different district section urine, control the stirring rod and stir the urine, make the urine sample even, improve the accuracy of analysis result.

Drawings

FIG. 1 is a schematic side view of a urine protein collection system according to a preferred embodiment of the present invention;

FIG. 2 is a schematic front view of the urine protein collection system of FIG. 1;

FIG. 3 is a schematic diagram of the urine disposal device of the urine protein collection system of FIG. 1;

fig. 4 is a schematic structural view of a urine voiding apparatus of the urine protein collecting system of fig. 1.

Detailed Description

In order to make the contents of the present invention more clear and understandable, the present invention is further described below with reference to the attached drawings of the specification. Of course, the invention is not limited to this specific embodiment, and general alternatives known to those skilled in the art are also covered by the scope of the invention. Secondly, the present invention has been described in detail by using schematic diagrams, but these schematic diagrams are only for convenience of describing the examples of the present invention in detail, and should not be taken as limitations of the present invention.

Through long-term research, the applicant finds that the reason for the abnormal result of 24-hour quantitative analysis of urine protein in the prior art is mainly as follows: 1. the urine sample is not fully stirred uniformly, and the true level of the protein content in the urine cannot be replaced; 2. urine is contaminated; 3. the urine container cannot be sealed, so that the urine evaporates; 4. the urine preservative dose is insufficient; 5. excessive urine preservative amount; 6. the urine of female patients is difficult to collect, and the urine quantity is insufficient; 7 the male patient urinates and the urine quantity is insufficient. For the above reasons, the applicant has devised a urine protein collecting system suitable for both long-term use (e.g., 24 hours) and short-term use (e.g., 2 hours).

Fig. 1 is a side view of a urine protein collection system according to a preferred embodiment of the present invention. The urine protein collecting system comprises a urine collecting device 1, a urine processing device 2 and a urine discharging device 3. Urine collection device 1 is suitable for and is connected and the intercommunication with urine processing apparatus 2 to urine in the urine collection device 1 enters into urine processing apparatus 2, and is discharged by urine eduction gear 3 after urine processing apparatus 2 handles, and urine eduction gear 3 is connected and the intercommunication with urine processing apparatus 2, and sets up in the below of urine processing apparatus 2. The urine collection device 1, the urine disposal device 2, and the urine discharge device 3 will be explained below separately.

Fig. 2 is a schematic front view of the urine protein collection system of fig. 1. As shown in fig. 2, the urine collection device 1 includes a male urine collector and a female urine collector. Wherein the male urine collector comprises a first collector 101 and a first ureter 102, a male patient can transmit a urine sample to the first ureter 102 through the first collector 101, and then the urine sample is conveyed to the urine processing device 2 by the first ureter 102. The female urine collector comprises a second collector 104 and a second ureter 103, and the female patient can transfer a urine sample to the second ureter 103 through the second collector 104 and then transport the urine sample to the urine disposal device 2 through the second ureter 103. Wherein, the first collector 101 and the second collector 104 can be designed according to different habits and different ways of using the toilet, and the first ureter 104 and the second ureter 103 are communicated with the urine processing device 2.

Preferably, the urine collection device 1 further comprises a preservative reservoir 106, the preservative reservoir 106 having a full capacity of 10ml to 30ml, preferably 30ml, for storing a preservative, such as xylene. The preservative reservoir 106 is provided with a preservative calculation device 107 (which may be specifically realized by a relay module) and a reservoir gate 108. After the urine sample enters the urine processing device 2 from the urine collecting device 1, the urine volume detector 203 arranged in the storage chamber of the urine processing device 2 automatically calculates the urine volume and sends the volume detection data to the preservative calculating device 107 of the preservative storage chamber 106, the preservative calculating device 107 stores the putting proportion of the volume detection data and the putting amount of the preservative (for example, 10 milliliters of preservative is put in per liter of urine) and the preservative calculating device 107 calculates the putting amount of the preservative according to the volume detection data and opens or closes the storage chamber gate 108 to accurately put the urine sample. Of course, in other embodiments, the antiseptic calculating device 107 may be disposed in the urine treatment device 2, and the present invention is not limited thereto.

As shown in fig. 3, the urine disposal device 2 has a urine analysis function module for pre-analyzing the urine uniformity and stirring the urine sample. Preferably, the urine handling device 2 comprises a urine storage chamber 202, a urine volume detector 203, a urine pH detector 204, an electronic display 205, a stirring controller 206 and a stirring rod 207.

The urine sample flows into the urine storage chamber 202 along the urine introduction wall 201 of the urine storage chamber 202 through the urine collection device 1, and the urine storage chamber 202 stores the urine sample. Urine inlet wall 201 has a slope to facilitate the flow of urine. Urine volume detector 203, urine pH detector 204 and puddler 207 all set up in urine storeroom 202, and urine volume detector 203 is used for the volumetric detection of urine sample, and it is connected with antiseptic computing device 107 communication to send the testing data to antiseptic computing device 107 in antiseptic storeroom 106, urine pH detector 204 is used for the pH value of urine sample to detect. The electronic display 205 and the stirring controller 206 are connected and disposed in the urine storage chamber 202 in a communication manner, and both have waterproof protection structures, and the detection area of the electronic display 205 faces the outside of the urine storage chamber 202.

Preferably, the urine pH detectors 204 are distributed at intervals along the height direction of the urine processing device 2, and are respectively disposed in the upper pH detection area 2041, the middle pH detection area 2042, and the lower pH detection area 2043, and are configured to sense the pH values of the three sections and send the three data to the electronic display 205 for display, and simultaneously send the three data to the stirring controller 206 (which may be specifically implemented by a relay module), where the pH value of the urine sample of a normal human body is between 5.5 and 7.0, which exhibits weak acidity, and the stirring controller 206 stores a control instruction correspondence table indicating whether the pH value difference of each section and the stirring are in stirring, and is configured to control the automatic control stirring rod 207. For example, when the stirring controller 206 finds that the deviation between the upper pH detection area and the middle pH detection area is greater than 0.2, or the deviation between the pH values of the middle pH detection area and the lower pH detection area is greater than 0.2, it is determined that the urine sample is not sufficiently homogenized, and at this time, the stirring controller 206 controls the stirring rod 207 to further sufficiently homogenize the urine sample until the deviation between the pH values is less than 0.2.

After the completion of the 24-hour urine sample collection, the patient takes a urine sample through the urine voiding apparatus 3.

As shown in fig. 4, the urine voiding apparatus 3 includes a voiding valve 301 and a purger 302, the voiding valve 301 being disposed on the purger 302 for controlling the opening and closing of the purger 302 to facilitate the voiding of urine samples by a patient when required. When the patient finishes the collection work within the specified time limit of the urine sample, the urine sample needs to be taken out and sent to a detection center or a hospital. The patient can control the urine output speed and flow rate by rotating the discharge valve 301. The patient may place a container under the eductor 302 for collection of urine.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A urinary protein collection system, comprising:

a urine collecting device, a urine disposal device and a urine discharge device, wherein,

the urine collecting device is connected and communicated with the urine processing device, and the urine processing device is connected and communicated with the urine discharging device;

the urine collecting device also comprises a preservative storage chamber and a storage chamber gate, wherein the storage chamber gate is arranged at an outlet of the preservative storage chamber and used for releasing the preservative in the preservative storage chamber, and when the storage chamber gate is opened, the preservative storage chamber is communicated with the urine processing device;

the urine protein collecting system further comprises a preservative calculating device and a urine volume detector which are in communication connection, wherein the preservative calculating device is arranged in the urine collecting device or the urine processing device, the urine volume detector is arranged in the urine processing device, and the preservative calculating device is electrically connected with the storeroom gate and used for controlling the opening and closing of the storeroom gate according to the urine volume detected by the urine volume detector.

2. The urine protein collection system according to claim 1, wherein said urine collection device comprises a male urine collector and a female urine collector, said male urine collector comprising a first collector and a first ureter, said female urine collector comprising a second collector and a second ureter, said first ureter and said second ureter being in communication with said urine treatment device.

3. A urine protein collection system according to claim 1, wherein the urine disposal device comprises a urine reservoir having an inclined urine introduction wall.

4. The urine protein collection system according to claim 3, wherein said urine processing device further comprises two or more urine pH detectors for detecting two or more pH values of two or more different sections of urine, a stirring controller and a stirring rod, said urine pH detectors are in communication with said stirring controller, said stirring controller is electrically connected to said stirring rod for determining whether to control rotation of said stirring rod according to a difference between pH values.

5. The urine protein collecting system according to claim 4, wherein a urine pH detector, a stirring controller and a stirring rod are disposed in the urine storage chamber.

6. The urine protein collecting system according to claim 4, wherein the number of the urine pH detectors is 3, and the urine pH detectors are spaced apart from each other in the height direction of the urine treatment device.

7. The urine protein collection system of claim 4, wherein said urine management device further comprises an electronic display, said electronic display being in communication with said urine pH detector for displaying said pH.

8. A urine protein collection system according to claim 7, wherein the electronic display is located in the urine storage compartment with its detection area facing the outside of the urine storage compartment (202).

9. The urinary protein collection system of claim 4, wherein the agitation controller and/or the preservative calculating means comprises a relay.

10. A urine protein collection system according to claim 3, wherein said urine voiding apparatus includes a voiding valve provided on said voiding apparatus for controlling opening and closing of said voiding apparatus, and a voiding apparatus in communication with said urine storage chamber.

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