JP2017083239A - Urine collection container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a subject for a urine examination to know that a necessary amount of urine has been collected in a urine collection container even in a dark place.SOLUTION: A urine collection tube 3 is made of a material which presents different colors at a first temperature and at a second temperature, the first temperature being a human body temperature and the second temperature being a temperature lower than the first temperature.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a urine collection container used for urinalysis performed in hospitals, examination centers and the like.

  In general, many urine tests are performed in hospitals and examination centers.

  Conventionally, as disclosed in Patent Document 1, a urine collection container used for this urinalysis is attached to a storage cylinder for storing urine and an opening end of the storage cylinder, and a urine collection port is formed on a side surface. In some cases, a urine tube for collecting urine and a cover tube covering the urine collection port so that the urine collection tube can be inserted.

  The urine collection container is in an assembled state in which the urine collection cylinder is attached to the accommodation cylinder. Then, the examinee grips the storage cylinder with the urine collection cylinder facing downward. When the examinee hangs urine in the urine collection port, the urine is collected in the storage cylinder, and the collection of urine is completed.

  Subsequently, the urine collection cylinder is inserted into the cover cylinder while facing downward. As a result, the urine collection cylinder which is a dirty part is covered. Thereafter, the urine collection container is then transferred to an examination room or the like by inserting the container into a container stand or the like with the storage cylinder turned downward, for example, upside down.

JP 2013-040788 A

  With conventional urine collection containers, for example, when the room where urine is collected is dark, it is not clear whether urine has accumulated in the urine collection tube even if urine is applied to the urine collection port, and the urine collection volume is insufficient or conversely Although a sufficient amount of urine could be collected, there was a risk of urine being applied to the urine collection tube more than necessary.

  The present invention has been made in view of such problems, and the object of the present invention is to ensure that the subject can check whether or not the required amount of urine has been collected in the urine collection container even in a dark environment. It is to be able to recognize.

  In the first invention, one end is closed, the other end is formed at the open end, and an elongated cylindrical storage tube for storing urine, one end is formed at the closed end, and the other end is the opening of the storage tube. An elongated cylindrical urine collection tube for collecting urine with a urine collection port formed on the side surface, and an elongated tube with one end closed and the other end opened. And a urine collection container provided with a cover cylinder for covering the urine collection port, which is formed in a shape and slightly larger in diameter than the urine collection cylinder so that the urine collection cylinder can be freely inserted and removed. It is said.

  At this time, in the urine container, the urine collection tube is formed of a color-changing material that exhibits different colors at a first temperature corresponding to a human body temperature and a second temperature lower than the first temperature. It is a feature.

  In the first invention, when urine is applied to the urine collection tube at the time of urine collection, the urine collection tube is discolored due to the influence of the temperature of the urine (substantially corresponding to body temperature). In the past, it was difficult to tell if urine collection was completed in an environment where the surroundings were dark, etc., but in this invention, the urine collection tube discolored, so that the subject completed the urine collection. Can be recognized.

  A second invention is the material according to the first invention, wherein the urine collection tube is in a non-colored state at a second temperature, and changes from a non-colored state to a colored state when the second temperature is changed to the first temperature at the time of urine collection. It is characterized by being formed by.

  In the second aspect of the invention, when urine is applied to the urine collection tube during urine collection, the urine collection tube changes color from the non-colored state to the colored state due to the influence of the temperature of the urine. In the past, it was difficult to know whether urine collection was completed in a dark environment, etc., but in this invention, the urine collection was completed by the subject by changing the urine collection tube to a colored state. I can recognize that.

  A third invention is the material according to the first invention, wherein the urine collection tube is in a colored state at a second temperature, and changes from a colored state to a non-colored state when the second temperature is changed to the first temperature during urine collection. It is characterized by being formed.

  In the third aspect of the invention, when urine is applied to the urine collection tube at the time of urine collection, the urine collection tube that has been low in temperature changes from a colored state to a non-colored state due to the influence of the urine temperature. Conventionally, it may be difficult to know whether urine collection has been completed in a dark environment or the like, but in the present invention, the urine collection tube changes to a non-colored state, so that the subject can collect urine. Recognize that it has been completed.

  According to the first to third aspects of the present invention, when urine is applied to the urine collection tube at the time of urine collection, the urine collection tube whose temperature has been low until then changes its color due to the influence of the urine temperature (substantially body temperature). Conventionally, it may be difficult to determine whether urine collection has been completed in a dark environment or the like, whereas in the first to third inventions, the color of the urine collection cylinder changes, so that the subject is inspected. Can reliably recognize the completion of urine collection.

FIG. 1 is a front view of a urine collection container showing a first embodiment of the present invention and showing a cover cylinder in phantom lines. FIG. 2 is a longitudinal sectional view of a urine collection container with a cover tube attached. FIG. 3 is a longitudinal sectional view of the housing cylinder. FIG. 4 is a longitudinal sectional view of the urine collection tube. FIG. 5 is a longitudinal sectional view of the cover cylinder. FIG. 6 is an enlarged cross-sectional view of a main part of the urine collection container. FIG. 7 is a plan view of the cover cylinder. FIG. 8 is a front view of the cover cylinder. FIG. 9 is a graph showing a temperature change region of the thermochromic material. FIG. 10 is a front view of a urine collection container showing a second embodiment of the present invention and omitting a cover tube. FIG. 11 is a longitudinal sectional view of a urine collection container to which a cover tube is attached. FIG. 12 is a longitudinal sectional view of the housing cylinder. FIG. 13 is a longitudinal sectional view of the urine collection tube. FIG. 14 is a longitudinal sectional view of the cover cylinder. FIG. 15 is an enlarged cross-sectional view of a main part of the urine collection container. FIG. 16 is a plan view of the cover cylinder. FIG. 17 is a front view of the cover cylinder. FIG. 18 is a partially enlarged view of FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Embodiment 1 of the Invention
A first embodiment of the present invention will be described.

  A urine collection container 1 shown in FIGS. 1 and 2 is a container for collecting urine during a urine test performed in a hospital or the like.

  The urine collection container 1 is composed of a storage cylinder 2 that accommodates collected urine, a urine collection cylinder 3 that collects and measures urine, and a cover cylinder 4 that is detachably attached to the urine collection cylinder 3.

  As shown in FIG. 3, the housing cylinder 2 is formed in an elongated cylindrical body having one end closed and the other end opened. The housing cylinder 2 is made of a transparent material such as synthetic resin. In addition, the material of the said accommodating cylinder 2 is not restricted to a transparent material, Various materials, such as a colored translucent material, may be sufficient.

  The housing cylinder 2 includes a substantially half main body 21 on the lower side in FIG. 3 and a substantially half tapered portion 22 on the upper side in FIG. 3. And the said storage cylinder 2 is comprised by the spitz of the outer diameter and length which can be set to a urine test | inspection apparatus.

  The main body 21 of the housing cylinder 2 is formed in a tapered shape that becomes slightly narrower toward the tapered portion 22, and is held on the outer peripheral surface of the opening end in a state where the housing cylinder 2 is attached to the urine collection cylinder 3. A first circumferential convex portion 23 a and a second circumferential convex portion 23 b are formed as circumferential convex portions 23 constituting the holding mechanism 11. The tapered portion 22 of the receiving cylinder 2 is formed in a tapered shape that is continuous with the main body portion 21 and becomes narrower toward the closed end. The tapered portion 22 of the housing cylinder 2 is formed larger than the taper angle of the main body portion 21.

  A first marked line 2 a and a second marked line 2 a are formed at the tip of the tapered portion 22 of the housing cylinder 2. The first marked line 2a and the second marked line 2a indicate the amount of residual urine for collecting the sample for urine sediment test (15 μl; microliter) by centrifuging the collected urine and discarding the supernatant. It is set to display a storage amount of 0.1 ml (milliliter) and 0.2 ml (milliliter), respectively.

  The storage cylinder 2 is provided with a urine collection scale 2b indicating a urine collection amount. The urine collection scale 2b is attached in the longitudinal direction of the storage cylinder 2, and is configured so that the urine collection amount can be identified.

  The urine collection container 1 includes a cap 25 for the storage cylinder 2. The cap 25 is fitted into the main body 21 of the housing cylinder 2 and is formed so as to completely close the housing cylinder 2.

  As shown in FIG. 4, the urine collection cylinder 3 is formed in an elongated cylindrical body having one end closed and the other end opened. The urine collection cylinder 3 is formed of a thermochromic material of synthetic resin. The thermochromic material is, for example, a material that reversibly changes between a colored (colored) state and a non-colored (decolored) state. The colored state includes light red, red, orange, blue, green, black, and the like, and the non-colored state includes light white.

  The discoloration temperature range of the thermochromic material can be arbitrarily selected, for example, in the range of −5 ° C. to + 55 ° C. In this embodiment, as shown in FIG. 9, the first temperature close to the human body temperature. It is determined that when it approaches (about 35 ° C.), it becomes a non-colored state, and when it approaches a second temperature (around 25 ° C.) lower than the first temperature, it becomes a colored state. In FIG. 9, the symbol ◆ indicates the color change when the temperature increases from 20 ° C. to 40 ° C., and the symbol □ indicates that the temperature decreases from 40 ° C. to 20 ° C. It shows the discoloration.

  As described above, the urine collection tube 3 is in a colored state at room temperature (second temperature), and when the urine temperature is raised from the second temperature to the first temperature according to the temperature of urine, the color-changing material that changes to a non-coloring state. It is formed with. In contrast, the urine collection tube 3 may be formed of a color-changing material that changes from a non-colored state to a colored state when the urine collection is performed in a non-colored state at the second temperature and when the second temperature is changed to the first temperature at the time of urine collection. Good.

  As the thermochromic material, for example, a material obtained by kneading a powder (microcapsule) of thermochromic ink into a transparent synthetic resin can be used. The powder of the thermochromic ink does not contain harmful substances such as heavy metals (arsenic, lead, cadmium, mercury, selenium, antimony, chromium, barium, etc.).

  The urine collection tube 3 includes a main body portion 3a and a large diameter portion 3b formed at the open end. The main body 3a is formed by a substantially half measurement unit 31 on the lower side in FIG. 4 and a substantially half urine collection unit 32 on the upper side in FIG. The measuring unit 31 is configured so that one end is closed and the urine necessary for urinalysis is measured. For example, the measuring part 31 of the urine collection tube 3 is configured with a storage volume of 10 ml (milliliter). The storage volume of the measuring unit 31 may be 15 ml (milliliter) or 20 ml (milliliter). In short, the storage volume of the measuring unit 31 may be 10 ml (milliliter) or more in response to a request for inspection or the like. On the contrary, the storage volume of the measuring unit 31 may be less than 10 ml (milliliter).

  The urine collection section 32 of the urine collection cylinder 3 is formed in a cylindrical body having one end continuous to the measuring section 31 and the other end opened. The urine collection unit 32 is formed with a urine collection port 33 and an auxiliary port 34. The urine collection port 33 is an opening through which the urine is injected when collecting urine, and is formed to penetrate from the outer peripheral surface of the urine collection tube 3 to the inner peripheral surface. The urine collection port 33 is formed by cutting out the majority of the urine collection tube 3 in the circumferential direction.

  One end of the urine collection port 33 on the side of the measuring portion 31 is formed on an orthogonal surface 33a that coincides with the radial direction of the urine collection tube 3, and the other end is formed on an inclined surface 33b that is inclined toward the opening end. The measuring section 31 is formed from the orthogonal surface 33 a of the urine collection port 33 to the closed end of the urine collection cylinder 3.

  The auxiliary port 34 is formed so as to penetrate from the outer peripheral surface of the urine collection cylinder 3 opposite to the urine collection port 33 to the inner peripheral surface. Note that the number of the auxiliary ports 34 may be two or more. The reason why the auxiliary port 34 is formed is to facilitate the urine collection by performing an air venting operation during urine collection and to prevent deformation during molding.

  The large-diameter portion 3b is formed continuously from the opening end of the urine collecting portion 32, is formed to have a larger diameter than the outer diameter of the urine collecting portion 32, and the opening end of the containing cylinder 2 is formed to be freely inserted. Yes.

  As shown in FIG. 6, which is an enlarged cross-sectional view of the main part of the urine collection container 1, a first circumferential projection which is a circumferential projection 23 of the housing cylinder 2 is formed on the inner circumferential surface of the large-diameter portion 3b. A circumferential groove 35 that engages with the portion 23a and the second circumferential convex portion 23b is formed. The circumferential groove 35 includes a first shoulder 35a that comes into contact with and engages with the first circumferential convex portion 23a located on the opening end side of the housing cylinder 2 from the opening end side of the housing cylinder 2, and A second shoulder 35b that contacts and engages with the second circumferential convex portion 23b located closer to the closed end side of the receiving cylinder 2 than the first circumferential convex portion 23a from the closed end side of the receiving cylinder 2; The holding mechanism 11 is configured together with the circumferential convex portion 23. The holding mechanism 11 is formed at a position away from the coupling portion 14 where the urine collection cylinder 3 and the cover cylinder 4 are overlapped and integrated.

  The storage cylinder 2 and the urine collection cylinder 3 are configured to be attachable and detachable by the circumferential convex portion 23 of the storage cylinder 2 and the circumferential groove 35 of the urine collection cylinder 3. The circumferential convex portion 23 of the storage tube 2 and the circumferential groove 35 of the urine collection tube 3 are simply inserted and removed without rotating the storage tube 2 and the urine collection tube 3 relatively, and the storage tube 2 and the urine collection tube 3 can be attached to and detached from each other.

  The end surface of the large diameter portion 3b on the urine collecting portion 32 side is formed on a step surface 3d between the main body portion 3a, and the step surface 3d is formed on an orthogonal surface that matches the radial direction of the urine collection tube 3. . Further, a flange 36 constituting the retaining mechanism 15 is integrally formed at the outer peripheral end of the large diameter portion 3b. The flange 36 is formed so as to be inserted into the end of the cover cylinder 4, and the lower surface of the flange 36 is the stepped surface 3 d.

  A fixing screw 37 for fixing the cover cylinder 4 is formed between a part of the outer peripheral surface of the main body 3 a in the urine collection cylinder 3 and between the open end and the urine collection port 33. The fixing screw 37 is configured such that the cover cylinder 4 is attached in a state where the urine collection cylinder 3 is inserted into the cover cylinder 4.

  As shown in FIG. 5, the cover cylinder 4 is formed in an elongated cylindrical body having one end closed and the other end opened. The cover cylinder 4 is made of a coloring material such as synthetic resin. In addition, the material of the said cover cylinder 4 is not restricted to a coloring material, Other various materials may be sufficient.

  The cover tube 4 is formed to have a slightly larger diameter than the urine collection tube 3 so that the urine collection tube 3 can be inserted and removed.

  The cover cylinder 4 is formed in such a length that the urine collection port 33 is closed and the entire body 3a of the urine collection cylinder 3 is inserted. The cover cylinder 4 is composed of a main body portion 41 whose one end is closed and the other end is opened to close the urine collection port 33, and a large diameter portion 42 formed at the open end portion of the main body portion 41. . The large diameter portion 42 is formed so as to be fitted to the urine collection tube 3 in the coupling portion 14. A fixing screw 43 to be screwed into the fixing screw 37 of the urine collection tube 3 is formed on the inner peripheral surface of the large diameter portion 42.

  Between the urine collection tube 3 and the cover tube 4, the retaining mechanism 15, the end surface sealing means 12 and the side surface sealing means 13 are provided.

  The retaining mechanism 15 is provided on the opening end side of the urine collection tube 3 and the cover tube 4, and the cover tube 4 is detached from the urine collection tube 3 in a state where the urine collection tube 3 is inserted into the cover tube 4 and fitted. Is to prevent. The retaining mechanism 15 includes the collar 36 formed on the entire outer peripheral surface of the urine collection tube 3 and the latch formed on the cover cylinder 4 so that the collar 36 of the urine collection tube 3 is inserted. And a cylindrical portion 44. On the inner peripheral surface of the locking cylinder portion 44, locking protrusions (undercut portions) 45 projecting radially inward so as to be locked with the flange portion 36 are formed at two opposing positions. Further, the inner peripheral surface of the locking projection 45 is formed by an inclined surface 45 a whose protruding amount increases as it moves away from the opening end of the locking cylinder portion 44. Further, a slit 44a is formed in the locking cylinder portion 44 at a position radially outward of the flange portion 36, and the flange portion 36 is positioned in the slit 44a.

  In the retaining mechanism 15, when the cover tube 4 of the phantom line in FIG. 1 is fastened to the urine collection tube 3 with the fixing screws 37, 43, the collar portion 36 moves forward in the locking tube portion 44. In the state of FIG. 6 in which the collar 36 gets over the latching protrusion 45 and the collar 36 and the latching protrusion 45 are latched, even if the cover cylinder 4 is turned in the opposite direction, 4 will not come off.

  The end surface sealing means 12 seals between the opening of the cover tube 4 and the urine collection tube 3, and the end surface 4 a below the slit of the cover tube 4 and the end surface 3 d of the collar 36 of the urine collection tube 3 It is constituted by. That is, as shown in FIG. 6, the end surface sealing means 12 is configured such that when the cover tube 4 is fastened to the urine collection tube 3, the end surface 4 a of the slit in the cover tube 4 is in close contact with the end surface 3 d of the collar portion of the urine collection tube 3. It is configured.

  The side seal means 13 seals the gap between the open end of the cover tube 4 and the open end of the urine collection tube 3 with a side surface. The sliding surface 4b formed on the cover tube 4 and the urine collection tube 3 And the sliding surface 3e formed on the surface. The sliding surface 4b of the cover cylinder 4 is a part of the inner peripheral surface of the main body 41 of the cover cylinder 4 and is formed at the periphery of the open end. The sliding surface 3 e of the urine collection tube 3 is a part of the outer peripheral surface of the main body 3 a of the urine collection tube 3 and is formed between the open end and the fixing screw 37. The sliding surface 4b of the cover tube 4 and the sliding surface 3e of the urine collection tube 3 are configured to be in close contact with each other when the urine collection tube 3 is inserted into the cover tube 4, as shown in FIG. . A portion where the cover tube 4 and the urine collection tube 3 overlap with each other and a portion including the fixing screws 37 and 43 become the coupling portion 14.

  A fixing projection 27 for fixing the cap 25 is formed in the housing cylinder 2. The fixing convex portion 27 is formed in an annular shape on the inner peripheral surface of the opening end portion of the main body portion 21 of the housing cylinder 2. On the other hand, the cap 25 is formed with a fitting portion 2e to be fitted into the main body portion 21 of the housing cylinder 2, and a ring-shaped convex portion 2f is formed on the outer peripheral surface of the fitting portion 2e. The fixing convex portion 27 is configured such that when the cap 25 is fitted into the housing cylinder 2, the convex portion 2 f of the cap 25 gets over and a fitting completion sound such as “click” is emitted.

<Usage of urine collection container>
Next, a method for using the above-described urine collection container 1 will be described.

  First, in an unused state before collecting urine, the container 1 for urine collection is inserted into the opening end of the urine collection tube 3 so that the accommodation tube 2 and the urine collection tube 3 are connected. As shown in phantom lines in FIG. 1, the cover tube 4 is assembled with the urine collection tube 3 being detached from the urine collection tube 3 simply by lightly inserting the urine collection tube 3 into the cover tube 4 and is put in a packaging bag.

  Next, at the time of urine collection, the examinee takes out the urine collection container 1 from the packaging bag and removes the cover tube 4 from the urine collection tube 3. Since the urine collection tube 3 is lightly inserted into the cover tube 4, it is easy to remove the cover tube 4 from the urine collection tube 3. Then, in a state in which the urine collection tube 3 is attached to the storage tube 2, the examinee holds the storage tube 2 with the urine collection tube 3 facing downward. Next, when the subject hangs the urine collection port 33, the urine flows into the urine collection tube 3 from the urine collection port 33 and accumulates in the measuring unit 31, and the collection of urine is completed. At the time of urine collection, if a predetermined amount (for example, 10 ml) of urine is injected into the measuring unit 31, it leaks out of the urine collection tube 3 through the urine collection port 33, so that an amount necessary for urinalysis is reliably collected and surplus No urine is collected. Further, at the time of urine collection, the difference in thickness between the storage tube 2 and the urine collection tube 3 is small and the difference in rigidity is also small, so that the storage tube 2 and the urine collection tube 3 are not easily separated.

  When the collection of urine is completed, the urine collection container 1 is transported to an examination room or the like.

  When carrying, as shown in FIG. 2, the urine collection tube 3 is inserted into the cover tube 4 with the urine collection tube 3 facing downward so that the urine collection tube 3 which is a dirty portion is covered. At that time, when the urine collection tube 3 is inserted into the cover tube 4, the urine collection port 33 is closed by the cover tube 4. Subsequently, when the urine collection tube 3 is rotated with respect to the cover tube 4 and the fixing screws 37 and 43 are tightened, the collar portion 36 gets over the locking projection 45 and the both are locked. At this time, the cover cylinder 4 and the urine collection cylinder 3 are coupled and fixed by the fixing screws 37 and 43, and the fixing screws 37 and 43 are fixed by the flange 36 and the locking projection 45 as shown in FIGS. Is prevented from rotating in the reverse direction, so that the cover tube 4 and the urine collection tube 3 cannot be detached even if the cover tube is rotated in the reverse direction.

  When the cover tube 4 and the urine collection tube 3 are coupled, the opening end surface 4a of the cover tube 4 comes into contact with the stepped surface 3d of the large-diameter portion 3b of the urine collection tube 3 as shown in FIGS. Then, the space between the cover cylinder 4 and the urine collection cylinder 3 is sealed (end surface sealing means 12). Further, when the urine collection tube 3 is inserted into the cover tube 4, the sliding surface 4 b of the cover tube 4 and the sliding surface 3 e of the urine collection tube 3 are brought into close contact with each other, and the space between the cover tube 4 and the urine collection tube 3 is sealed. (Side seal means 13). Therefore, leakage of urine collection is prevented.

  Subsequently, the container 1 for urine collection is turned upside down and is inserted into a container stand or the like with the storage cylinder 2 facing downward and is conveyed to an examination room or the like. At that time, when the urine collection cylinder 3 is turned upside down, the urine collection flows into the storage cylinder 2 and the urine is stored in the storage cylinder 2.

  Thereafter, in the examination room or the like, when the person who conducts the examination folds the housing cylinder 2 into the “<” shape at the joint portion with respect to the integrated urine collection cylinder 3 and the cover cylinder 4, the holding mechanism 11 is detached. This is because, unlike the urine collection, the rigidity of the integrated urine collection cylinder 3 and the cover cylinder 4 is larger than the rigidity of the storage cylinder 2, and the storage cylinder 2 is easily deformed. As a result, the storage cylinder 2 is detached from the urine collection cylinder 3 and the cover cylinder 4. Then, only the storage cylinder 2 in which the urine is stored is set in the inspection apparatus.

  In this embodiment, after the urine collection is completed, the urine collection tube 3 is inserted into the cover tube 4 with the urine collection tube 3 facing downward, and the urine collection port 33 is closed by the cover tube 4 before the urine collection tube. The container 1 is turned upside down to store urine in the storage cylinder 2, and after the storage cylinder 2 is removed from the urine collection cylinder 3 and the cover cylinder 4, a cap 25 is fitted into the opening end of the storage cylinder 2 to It can also be stood and transported to an inspection room or the like and set in an inspection apparatus.

  In the urine test, the storage cylinder 2 is attached to a centrifuge, and after the liquid component and the solid component are separated, decantation is performed and the supernatant liquid component is discarded. And the said storage cylinder 2 is reversed, a liquid component is removed, and the deposit which remained in the storage cylinder is used for a test | inspection.

-Effect of Embodiment 1-
According to this embodiment, when urine is applied to the urine collection tube 3 at the time of urine collection, the urine collection tube 3 that has been cold at normal temperature until then changes its color due to the influence of the urine temperature (substantially body temperature). In the past, it was difficult to know whether urine collection was completed in a dark environment or the like, whereas in this embodiment, the urine collection tube 3 was discolored, so that urine collection was completed by the subject. Can be reliably recognized.

<< Embodiment 2 of the Invention >>
A second embodiment of the present invention shown in FIGS. 10 to 18 will be described.

  The second embodiment of the present invention is different from the first embodiment in the configuration of the retaining mechanism 15.

  In this embodiment, as shown in FIGS. 13 to 15, a first detent ring 38 is formed at the position of the step surface 3 d in the large-diameter portion 3 b of the urine collection tube 3, and the large-diameter portion of the cover tube 4. A second detent ring 46 is formed on 42. The first detent ring 38 and the second detent ring 46 are formed to engage with each other.

  As shown in FIGS. 15 to 18, the first detent ring 38 of the urine collection tube 3 is formed with a first locking projection 38 a on the outer peripheral surface, and the second detent ring 46 of the cover tube 4. A second locking projection 46a is formed on the inner peripheral surface. The first locking projection 38a and the second locking projection 46a are locked with each other in a state where the urine collection tube 3 is screwed to the cover tube 4, and the rotation in the direction of loosening the fixing screws 37, 43 is prohibited. Is configured to do. The first locking projection 38a and the second locking projection 46a constitute the retaining mechanism 15.

  This retaining mechanism 15 is premised on a configuration in which the urine collection tube 3 is screwed and coupled to the cover tube 4, and in this configuration, as shown in FIG. 15, the first locking projection 38 a and the second locking projection 46 a. If they are engaged with each other, the cover tube 4 cannot be removed from the urine collection tube 3 even if the cover tube 4 is rotated in the opposite direction.

  The end face sealing means 12 is constituted by an open end face 4 a of the cover cylinder 4 and a step surface 3 d of the urine collection cylinder 3 so as to seal between the open end of the cover cylinder 4 and the urine collection cylinder 3. The configuration is substantially the same as that of the first embodiment. That is, when the cover cylinder 4 is screwed into the urine collection cylinder 3, the end face sealing means 12 has a large opening end surface 4a of the large diameter portion 42 in the urine collection cylinder 3 as shown in FIG. It is comprised so that it may contact | adhere to the level | step difference surface 3d of the diameter part 3b.

  Other configurations are the same as in the first embodiment, including that the urine collection tube 3 is formed of a color-changing material.

  Also in this embodiment, when urine is applied to the urine collection tube 3 at the time of urine collection, the urine collection tube 3, which has been low in temperature, changes its color due to the influence of the urine temperature (approximately body temperature). In the past, it was difficult to know whether urine collection was completed in a dark environment or the like, but in this embodiment, urine collection was completed for the subject by changing the color of the urine collection tube 3. It can be made to recognize surely.

<< Other Embodiments >>
About the said embodiment, it is good also as the following structures.

  In the above embodiment, the retaining mechanism 15 is provided to prevent the cover tube 4 from coming off while the cover tube 4 is attached to the urine collection tube 3. However, the retaining mechanism 15 is not necessarily employed in the present invention. Good.

  Further, the specific configurations of the storage cylinder 2, the urine collection cylinder 3, and the cover cylinder 4 are not limited to the configuration of the above embodiment, and may be changed as appropriate.

  In short, in the present invention, as long as the urine collection tube is formed of a color-changing material that changes color at the temperature of urine (substantially body temperature), other configurations may be changed as appropriate.

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for urine collection containers for urinalysis.

DESCRIPTION OF SYMBOLS 1 Container for urine collection 2 Storage cylinder 3 Urine collection cylinder 4 Cover cylinder 33 Urine collection port

Claims (3)

One end is closed and the other end is formed at the open end, and an elongated cylindrical storage tube for storing urine,
One end is formed as a closed end, and the other end is formed at an open end where the opening end of the housing cylinder can be freely attached and detached, and a urine collection port is formed on the side surface to collect urine. A tube,
The urine collection tube is formed in a long and narrow shape with one end closed and the other end opened, and is slightly larger in diameter than the urine collection tube so that the urine collection tube can be freely inserted and removed, and covers the urine collection port. A urine collection container with a cover tube for
The urine collection container is formed of a color-changing material that exhibits different colors at a first temperature corresponding to a human body temperature and a second temperature lower than the first temperature. In claim 1,
The urine collection tube is in a non-colored state at a second temperature, and is formed of a material that changes from a non-colored state to a colored state when the second temperature is changed to the first temperature during urine collection. container. In claim 1,
The urine collection tube is in a colored state at a second temperature, and is formed of a material that changes from a colored state to a non-colored state when the second temperature is changed to the first temperature at the time of urine collection. .

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