CN213489836U - Intelligent urine volume monitoring urine pad - Google Patents

Abstract

The utility model discloses an intelligence urine volume monitoring urine pad, it includes urine pad, its characterized in that, urine pad includes the waterproof layer and absorbs water the layer, and the layer that absorbs water is including storing up the structure of trying to get to the right of urine and being used for measuring the urine volume, and it is structural to try to get to the right of the structure setting and storing up urine fixed connection at the structure of trying to the right of the urine. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure. The technical proposal of the utility model is that the urine storage grid and the color development strip are added on the basis of the traditional urine pad, and the quantity of the urine storage grid filled with urine is counted by the color development strip changing, thereby accurately measuring the urine volume; because the urine storage grids filled with urine are marked by the color change strips, the urine volume which can be contained by each urine storage grid is definite, and the problem that the urine of the traditional urine pad is volatilized and cannot be accurately measured is solved; different urine volumes can be accurately measured by different urine volume partitions, and even if the urine volume is small, the urine volume can also be accurately measured, so that the clinical diagnosis and treatment are facilitated.

Description

Intelligent urine volume monitoring urine pad

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to is an intelligence urine volume monitoring urine pad.

Background

Urinary incontinence is a phenomenon in which urine leaks involuntarily through the urethra, thus causing a life-threatening trouble to the patient, and the symptom can be objectively confirmed. Urinary incontinence is not an independent disease, and is a group of syndromes, which are involuntary urine leakage caused by various reasons and common symptoms of urination disorders. Urinary incontinence occurs mainly because during the bladder storage period, the pressure in the bladder exceeds the urethral resistance, and urine is out of control, unlike urogenital fistulas, vesico-vaginal fistulas, which leak urine non-transurethral, which can occur in many diseases and can be found in all ages and sexes.

Urinary incontinence can be classified according to degree: (1) mild: urine overflow occurs only when coughing, sneezing and heavy object picking up; (2) medium: urinary incontinence occurs when walking, standing, and exerting slight effort; (3) and (3) severe degree: urinary incontinence can occur either upright or recumbent.

Methods of treatment of urinary incontinence include non-surgical treatment and surgical treatment. In the case of mild or moderate urinary incontinence, non-surgical treatment may be applied to the patient. Such as pelvic floor rehabilitation therapy, including pelvic floor muscle training, kegel exercises, or physical therapy via a pelvic floor rehabilitation therapy apparatus. In addition, the medicine can also be used for treating diseases, and the medicine needs to be selected according to the etiology of the patient. Such as stress incontinence and urge incontinence, which are totally different drugs used by these two types of patients. For patients with severe urinary incontinence, or patients with mild or moderate urinary incontinence who have failed conservative treatment, surgical treatment may be used.

The 1-hour urine pad test is an examination test for objectively evaluating urinary incontinence, and is a phenomenon in which the weight of a urine pad increases due to leakage of urine occurring after a subject performs certain specific exercises within a certain period of time while subjectively inhibiting urination. The test steps are as follows: 1. during the test, the bladder is full and lasts for 1 hour, and the patient does not urinate from the beginning of the test; 2. pre-placing a weighed urine pad; 3. within 15 minutes of the start of the test: the patient drinks 500 ml of boiled water and is in bed for rest; 4. after 30 minutes, the patient walks up and down 1 floor step; 5. finally, 15 minutes, the patient should sit for 10 times, cough for 10 times with strength, run for 1 minute, pick up 5 objects on the ground, and wash with tap water for 1 minute; 6. at the end of the test, the pad is weighed, and the patient is asked to urinate and the urine volume is measured. And (5) judging a result: the weight gain of the urine pad is more than 1g and is positive; secondly, when the weight of the urine pad is increased by more than 2g, whether weighing error, sweating and vaginal secretion exist or not is noticed; ③ the weight gain of the urine pad is less than 1g, which indicates the basic dryness or the experimental error. The degree of urinary incontinence was graded as: mild urinary incontinence: urine leakage is less than or equal to 1g after 1 hour; moderate urinary incontinence: 1g <1h leak urine <10 g; severe urinary incontinence: l0g is less than or equal to 1 hour, and urine leakage is less than 50 g; extremely severe urinary incontinence: the leakage urine is more than or equal to 50g after 1 hour.

The problems existing in the existing test method are as follows: urine volatilization causes inaccurate urine volume measurement, affects diagnosis results and subsequent treatment, and increases the workload of medical care personnel.

To the above problem, the utility model provides an intelligence urine volume monitoring urine pad.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that provides among the background art, the utility model provides an intelligence urine volume monitoring urine pad.

The utility model provides an intelligence urine volume monitoring urine fills up, its includes the urine pad, its characterized in that, the urine pad includes the waterproof layer and absorbs water the layer, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure.

Further, the urine storage structure is provided with a urine storage grid, and the urine storage grid is arranged on the water absorption layer. When the urine pad is used, the central point of the urine pad is aligned to the urethral orifice of a patient, and urine discharged by the patient is absorbed into the urine storage grid.

Further, the urine storage grid is arranged to be a rectangular strip-shaped urine storage grid. When the urine volume is measured, the urine storage grids are counted to be full of urine, and the urine volume is conveniently measured.

Further, at least 10 rectangular strip-shaped urine storage grids are arranged. The greater the number the more accurate the metering.

Further, 10 rectangular strip-shaped urine storage grids are arranged, and the urine storage amount of each rectangular strip-shaped urine storage grid when the rectangular strip-shaped urine storage grid is filled is 10 g. This arrangement is satisfactory for use in clinical one hour urine monitoring.

Or the urine storage grid is arranged to be a square urine storage grid. And counting the number of the urine volume hours and the number of the square urine storage lattices.

Further, at least 50 square urine storage grids are arranged.

Further, 100 square urine storage cells were provided, and the amount of urine when each square urine storage cell was filled was 1 g.

Further, it sets up to the color development strip to weigh the structure, the color development strip set up in the upper end of storing up urine check and with store up urine check fixed connection, the color development strip then discolours with the urine contact. The urine storage grid can clearly remind medical personnel that the urine storage grid is full of urine or is infinitely close to full of the urine through the arrangement of the color display strip, so that the urine volume of a patient can be conveniently measured.

Further, the display strip is arranged on one side edge of the rectangular strip-shaped urine storage grid. The urine flows out from the urethral orifice of the patient and spreads to the periphery, when the urine reaches the edge of the rectangular strip-shaped urine storage grid, the rectangular strip-shaped urine storage grid is full of the urine or is infinitely close to the full of the urine, the accuracy of measuring the urine volume is realized, and the statistical method is simple.

Further, the square urine storage grid is set to be at least 3 urine volume partitions, and each urine volume partition is provided with the color development strip. The arrangement can accurately measure the number of the filled square urine storage grids through the color development strip when the urine volume of a patient is less, thereby reducing the error of urine volume statistics to the maximum extent.

Further, 3 said urine volume divisions are provided.

Furthermore, the urine volume subregion includes the first grade subregion, second grade subregion and the third grade subregion of subregion step by step around by the center of urine pad, and first grade subregion, second grade subregion and third grade subregion are the subregion of square. The square partitions are convenient to count.

Furthermore, the first-stage subarea takes the central point of the urine pad as the central point, and the side length of the first-stage subarea is 4 square urine storage grids; the second-stage partition takes the central point of the urine pad as the central point, and the side length of the second-stage partition is 8 square urine storage grids; the third stage of partition is a urine storage grid with 10 square side lengths and the central point of the urine point is used as the central point. The first-stage subarea is used for accurately measuring the urine volume when the urine volume is less, the third-stage subarea is used for accurately measuring the urine volume when the urine volume is more, and the second-stage subarea is arranged between the first-stage subarea and the third-stage subarea, so that the accuracy of the urine volume measurement is improved.

Further, the color development strips are arranged on one side edge of the first-stage partition, the second-stage partition and the third-stage partition. The color development is obvious, and when the color development strip changes color, the urine reaches the position of the color development strip, and the square urine storage grid is filled with the urine.

Or the color strips are arranged on the edges of the two sides of the first-stage partition, the second-stage partition and the third-stage partition. When the color strips at the two side edges are colored, the grade urine volume subarea is full.

Furthermore, the urine storage lattice is made of a skin-friendly soft water absorption material. This arrangement provides good comfort.

Compared with the prior art urine pad, the technical scheme of the utility model has following advantage:

1. add on the basis of traditional urine pad and store up urine check and color development strip, change colour through the color development strip and come statistics by the storage urine check quantity of being full of the urine to the accurate measurement urine volume.

2. Because the urine storage grids filled with urine are marked by the color change strip, the urine volume that each urine storage grid can contain is definite, and the problem that the urine of the traditional urine pad is volatilized and cannot be accurately measured is solved.

3. Different urine volumes can be accurately measured by different urine volume partitions, even if the urine volume is small, the urine volume can also be accurately measured, the clinical diagnosis and treatment are facilitated, and the clinical significance is good.

Drawings

FIG. 1 is a schematic structural view of the intelligent urine volume monitoring urine pad of the present invention with a rectangular strip-shaped urine storage grid;

FIG. 2 is a schematic structural view of a rectangular strip-shaped urine storage grid of the intelligent urine volume monitoring urine pad of the present invention, wherein a color strip is arranged at one side edge;

FIG. 3 is a schematic structural view of the intelligent urine volume monitoring urinal pad of the present invention, which is provided with a square urine storage grid and a color strip at one side edge of each stage of urine volume partition;

FIG. 4 is a schematic structural view of the intelligent urine volume monitoring urinal pad of the present invention, which is provided with a square urine storage grid and color strips at two side edges of each stage of urine volume partition;

FIG. 5 is an enlarged schematic view of the color strip of the intelligent urine volume monitoring urine pad with three-level urine volume zones according to the present invention;

in the figure, 1, a urine pad; 11. a waterproof layer; 12. a rectangular strip urine storage grid; 13. a square urine storage grid; 14. a color bar; 2. a first level of partitioning; 3. partitioning at a second level; 4. and (4) third-level partition.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and those skilled in the art can easily understand other advantages and effects of the present invention from the disclosure in the specification. The utility model discloses can also implement or use through other different concrete implementation manners, under the condition of conflict-free, the characteristics in following embodiment and the embodiment can make up each other, based on the embodiment in the utility model, all other embodiments that the ordinary skilled in the art obtained under the prerequisite of not making creative work all belong to the scope of protection of the utility model.

The principle of the color strip is the same as the urine display principle of the prior paper diaper, and the color strip can be easily understood and implemented by the technical personnel in the field, so that the technical scheme has no problem of insufficient disclosure.

Embodiment 1 an intelligent urine volume monitoring urine pad

The utility model provides an intelligence urine volume monitoring urine fills up, its includes urine pad 1, its characterized in that, urine pad 1 includes waterproof layer 11 and the layer that absorbs water, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure.

The urine storage structure is provided with a urine storage grid which is arranged on the water absorption layer. When in use, the central point of the urine pad 1 is aligned with the urethral orifice of a patient, and the urine discharged by the patient is absorbed into the urine storage grid.

The urine storage grid is arranged into a rectangular strip-shaped urine storage grid 12. When the urine volume is measured, the urine storage grids are counted to be full of urine, and the urine volume is conveniently measured.

10 of the rectangular strip-shaped urine storage cells 12 are provided, and the urine storage amount when each rectangular strip-shaped urine storage cell 12 is filled is 10 g. This arrangement is satisfactory for use in clinical one hour urine monitoring.

The weighing structure is provided with a color display strip 14, the color display strip 14 is arranged at the upper end of the urine storage grid and is fixedly connected with the urine storage grid, and the color display strip 14 changes color when contacting urine. The arrangement of the color strip 14 can clearly remind medical staff that the urine storage grid is full or nearly full of urine, thereby being convenient for measuring the urine volume of a patient.

The display strip is arranged on one side edge of the rectangular strip-shaped urine storage grid 12. The urine flows out from the urethral orifice of the patient and spreads around, and when the urine reaches the edge of the rectangular strip-shaped urine storage lattice 12, it means that the rectangular strip-shaped urine storage lattice 12 is filled with the urine or is infinitely close to being filled with the urine, so that the accuracy of measuring the urine volume is achieved, and the statistical method is simple.

The urine storage lattice is made of a skin-friendly soft water-absorbing material. This arrangement provides good comfort.

Embodiment 2 an intelligent urine volume monitoring urine pad

The utility model provides an intelligence urine volume monitoring urine fills up, its includes urine pad 1, its characterized in that, urine pad 1 includes waterproof layer 11 and the layer that absorbs water, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure.

The urine storage structure is provided with a urine storage grid which is arranged on the water absorption layer. When in use, the central point of the urine pad 1 is aligned with the urethral orifice of a patient, and the urine discharged by the patient is absorbed into the urine storage grid.

The urine storage grid is arranged into a rectangular strip-shaped urine storage grid 12. When the urine volume is measured, the urine storage grids are counted to be full of urine, and the urine volume is conveniently measured.

The urine storage grid is arranged into a square urine storage grid 13. And counting the number of urine output hours and the number of the square urine storage lattices 13.

100 of the square urine storage cells 13 are provided, and the amount of urine when each square urine storage cell 13 is filled is 1 g.

The weighing structure is provided with a color display strip 14, the color display strip 14 is arranged at the upper end of the urine storage grid and is fixedly connected with the urine storage grid, and the color display strip 14 changes color when contacting urine. The arrangement of the color strip 14 can clearly remind medical staff that the urine storage grid is full or nearly full of urine, thereby being convenient for measuring the urine volume of a patient.

The display strip is arranged on one side edge of the rectangular strip-shaped urine storage grid 12. The urine flows out from the urethral orifice of the patient and spreads around, and when the urine reaches the edge of the rectangular strip-shaped urine storage lattice 12, it means that the rectangular strip-shaped urine storage lattice 12 is filled with the urine or is infinitely close to being filled with the urine, so that the accuracy of measuring the urine volume is achieved, and the statistical method is simple.

The urine storage lattice is made of a skin-friendly soft water-absorbing material. This arrangement provides good comfort.

Embodiment 3 an intelligent urine volume monitoring urine pad

The utility model provides an intelligence urine volume monitoring urine fills up, its includes urine pad 1, its characterized in that, urine pad 1 includes waterproof layer 11 and the layer that absorbs water, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure.

The urine storage structure is provided with a urine storage grid which is arranged on the water absorption layer. When in use, the central point of the urine pad 1 is aligned with the urethral orifice of a patient, and the urine discharged by the patient is absorbed into the urine storage grid.

The urine storage grid is arranged into a rectangular strip-shaped urine storage grid 12. When the urine volume is measured, the urine storage grids are counted to be full of urine, and the urine volume is conveniently measured.

The urine storage grid is arranged into a square urine storage grid 13. And counting the number of urine output hours and the number of the square urine storage lattices 13.

100 of the square urine storage cells 13 are provided, and the amount of urine when each square urine storage cell 13 is filled is 1 g.

The weighing structure is provided with a color display strip 14, the color display strip 14 is arranged at the upper end of the urine storage grid and is fixedly connected with the urine storage grid, and the color display strip 14 changes color when contacting urine. The arrangement of the color strip 14 can clearly remind medical staff that the urine storage grid is full or nearly full of urine, thereby being convenient for measuring the urine volume of a patient.

The display strip is arranged on one side edge of the rectangular strip-shaped urine storage grid 12. The urine flows out from the urethral orifice of the patient and spreads around, and when the urine reaches the edge of the rectangular strip-shaped urine storage lattice 12, it means that the rectangular strip-shaped urine storage lattice 12 is filled with the urine or is infinitely close to being filled with the urine, so that the accuracy of measuring the urine volume is achieved, and the statistical method is simple.

The square urine storage grid 13 is provided with 3 urine volume partitions, and each urine volume partition is provided with the color development strip 14. This arrangement also enables the number of filled square urine storage compartments 13 to be accurately metered by the coloured strip 14 when the patient has a small urine volume, thereby minimising errors in urine volume statistics.

The color bar 14 is arranged on one side edge of the first level subarea 2, the second level subarea 3 and the third level subarea 4. The arrangement has obvious color development, when the color development strip 14 changes color, the urine reaches the position of the color development strip 14, and the square urine storage grid 13 is filled with the urine.

The urine storage lattice is made of a skin-friendly soft water-absorbing material. This arrangement provides good comfort. Embodiment 4 an intelligent urine volume monitoring urine pad

The utility model provides an intelligence urine volume monitoring urine fills up, its includes urine pad 1, its characterized in that, urine pad 1 includes waterproof layer 11 and the layer that absorbs water, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure.

The urine storage structure is provided with a urine storage grid which is arranged on the water absorption layer. When in use, the central point of the urine pad 1 is aligned with the urethral orifice of a patient, and the urine discharged by the patient is absorbed into the urine storage grid.

The urine storage grid is arranged into a rectangular strip-shaped urine storage grid 12. When the urine volume is measured, the urine storage grids are counted to be full of urine, and the urine volume is conveniently measured.

The urine storage grid is arranged into a square urine storage grid 13. And counting the number of urine output hours and the number of the square urine storage lattices 13.

100 of the square urine storage cells 13 are provided, and the amount of urine when each square urine storage cell 13 is filled is 1 g.

The weighing structure is provided with a color display strip 14, the color display strip 14 is arranged at the upper end of the urine storage grid and is fixedly connected with the urine storage grid, and the color display strip 14 changes color when contacting urine. The arrangement of the color strip 14 can clearly remind medical staff that the urine storage grid is full or nearly full of urine, thereby being convenient for measuring the urine volume of a patient.

The display strip is arranged on one side edge of the rectangular strip-shaped urine storage grid 12. The urine flows out from the urethral orifice of the patient and spreads around, and when the urine reaches the edge of the rectangular strip-shaped urine storage lattice 12, it means that the rectangular strip-shaped urine storage lattice 12 is filled with the urine or is infinitely close to being filled with the urine, so that the accuracy of measuring the urine volume is achieved, and the statistical method is simple.

The square urine storage grid 13 is provided with 3 urine volume partitions, and each urine volume partition is provided with the color development strip 14. This arrangement also enables the number of filled square urine storage compartments 13 to be accurately metered by the coloured strip 14 when the patient has a small urine volume, thereby minimising errors in urine volume statistics.

The urine volume subregion includes the first grade subregion 2, second grade subregion 3 and the third grade subregion 4 of subregion step by step around to the center of urine pad 1, and first grade subregion 2, second grade subregion 3 and third grade subregion 4 are the subregion of square. The square partitions are convenient to count.

The first-stage subarea 2 takes the central point of the urine pad 1 as the central point, and the side length is 4 square urine storage grids 13; the second-stage subarea 3 takes the central point of the urine pad 1 as the central point, and the side length is 8 square urine storage grids 13; the third stage partition 4 uses the central point of the urine point as the central point, and the side length is 10 square urine storage grids 13. The first-stage subarea 2 is used for accurately measuring the urine volume when the urine volume is less, the third-stage subarea 4 is used for accurately measuring the urine volume when the urine volume is more, and the second-stage subarea 3 is arranged between the first-stage subarea 2 and the third-stage subarea 4, so that the accuracy of the urine volume measurement is improved.

The color strips 14 are arranged on the edges of the two sides of the first-stage subarea 2, the second-stage subarea 3 and the third-stage subarea 4. This arrangement indicates that the urine volume fraction is filled when the color bars 14 on both side edges are colored.

The urine storage lattice is made of a skin-friendly soft water-absorbing material. This arrangement provides good comfort. Embodiment 5 an intelligent urine volume monitoring urine pad

The utility model provides an intelligence urine volume monitoring urine fills up, its includes urine pad 1, its characterized in that, urine pad 1 includes waterproof layer 11 and the layer that absorbs water, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection. Urine is stored by the urine storage structure, and then the urine volume of the patient is measured by the measuring structure.

The urine storage structure is provided with a urine storage grid which is arranged on the water absorption layer. When in use, the central point of the urine pad 1 is aligned with the urethral orifice of a patient, and the urine discharged by the patient is absorbed into the urine storage grid.

The urine storage grid is arranged into a rectangular strip-shaped urine storage grid 12. When the urine volume is measured, the urine storage grids are counted to be full of urine, and the urine volume is conveniently measured.

The urine storage grid is arranged into a square urine storage grid 13. And counting the number of urine output hours and the number of the square urine storage lattices 13.

100 of the square urine storage cells 13 are provided, and the amount of urine when each square urine storage cell 13 is filled is 1 g.

The weighing structure is provided with a color display strip 14, the color display strip 14 is arranged at the upper end of the urine storage grid and is fixedly connected with the urine storage grid, and the color display strip 14 changes color when contacting urine. The arrangement of the color strip 14 can clearly remind medical staff that the urine storage grid is full or nearly full of urine, thereby being convenient for measuring the urine volume of a patient.

The display strip is arranged on one side edge of the rectangular strip-shaped urine storage grid 12. The urine flows out from the urethral orifice of the patient and spreads around, and when the urine reaches the edge of the rectangular strip-shaped urine storage lattice 12, it means that the rectangular strip-shaped urine storage lattice 12 is filled with the urine or is infinitely close to being filled with the urine, so that the accuracy of measuring the urine volume is achieved, and the statistical method is simple.

The square urine storage grid 13 is provided with 3 urine volume partitions, and each urine volume partition is provided with the color development strip 14. This arrangement also enables the number of filled square urine storage compartments 13 to be accurately metered by the coloured strip 14 when the patient has a small urine volume, thereby minimising errors in urine volume statistics.

The urine volume subregion includes the first grade subregion 2, second grade subregion 3 and the third grade subregion 4 of subregion step by step around to the center of urine pad 1, and first grade subregion 2, second grade subregion 3 and third grade subregion 4 are the subregion of square. The square partitions are convenient to count.

The first-stage subarea 2 takes the central point of the urine pad 1 as the central point, and the side length is 4 square urine storage grids 13; the second-stage subarea 3 takes the central point of the urine pad 1 as the central point, and the side length is 8 square urine storage grids 13; the third stage partition 4 uses the central point of the urine point as the central point, and the side length is 10 square urine storage grids 13. The first-stage subarea 2 is used for accurately measuring the urine volume when the urine volume is less, the third-stage subarea 4 is used for accurately measuring the urine volume when the urine volume is more, and the second-stage subarea 3 is arranged between the first-stage subarea 2 and the third-stage subarea 4, so that the accuracy of the urine volume measurement is improved.

The color bar 14 is arranged on one side edge of the first level subarea 2, the second level subarea 3 and the third level subarea 4. The arrangement has obvious color development, when the color development strip 14 changes color, the urine reaches the position of the color development strip 14, and the square urine storage grid 13 is filled with the urine.

The urine storage lattice is made of a skin-friendly soft water-absorbing material. This arrangement provides good comfort.

The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall within the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides an intelligence urine volume monitoring urine fills up, its includes the urine pad, its characterized in that, the urine pad includes the waterproof layer and absorbs water the layer, and the layer that absorbs water is including storing up the urine structure and being used for measuring the structure of surging of urine volume, and surging the structure and setting up on storing up the urine structure, surging the structure and storing up urine structure fixed connection.

2. The intelligent urine volume monitoring urine pad of claim 1, wherein the weighing structure is a color strip, the color strip is arranged at the upper end of the urine storage grid and is fixedly connected with the urine storage grid, and the color strip changes color when contacting urine.

3. The intelligent urine volume monitoring urine pad of claim 2 wherein the urine storage structure is configured as a urine storage grid, the urine storage grid being disposed on the water absorbent layer.

4. The intelligent urine volume monitoring urinal pad according to claim 3, wherein the urine storage grid is configured as a rectangular strip-shaped urine storage grid.

5. The intelligent urine volume monitoring urinal pad according to claim 3, wherein the urine storage grid is provided as a square urine storage grid.

6. The intelligent urine volume monitoring urinal pad according to claim 4, wherein the color strip is arranged on one side edge of the rectangular strip-shaped urine storage grid.

7. The intelligent urine volume monitoring urinal pad according to claim 5, wherein the square urine storage grid is provided with at least 3 urine volume zones, each urine volume zone being provided with the color strip.

8. The intelligent urine volume monitoring urine pad of claim 7, wherein the urine volume zones comprise a first stage zone, a second stage zone and a third stage zone which are divided from the center of the urine pad to the periphery in a stepwise manner, and the first stage zone, the second stage zone and the third stage zone are square zones.

9. The intelligent urine volume monitoring urine pad of claim 8 wherein the color strip is disposed on one side edge of the first stage partition, the second stage partition and the third stage partition.

10. The intelligent urine volume monitoring urine pad of claim 8, wherein the color strip is disposed on both side edges of the first stage partition, the second stage partition and the third stage partition.

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