JP4480214B2 - Thermometer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a thermometer for accurately measuring a temperature in a human ear canal in a short time.
[0002]
[Prior art]
A thermometer for measuring a person's body temperature is measured in the mouth, armpit, or rectum. By the way, in the human body, since the brain circulates a large amount of blood, an accurate body temperature can be obtained by measuring the temperature of the brain. Since the mouth is close to the brain, the temperature in the oral cavity is almost equal to the body temperature, so it is most suitable to measure in the oral cavity.
[0003]
For this reason, measuring a body temperature by inserting a mercury thermometer or an electronic thermometer into the oral cavity is widely performed.
[0004]
However, the mercury thermometer has a drawback that it takes a long time of about 10 minutes to measure. In this respect, the measurement time of the electronic thermometer is relatively short, about 60 in the prediction formula, but both are directly inserted into the oral cavity at the time of measurement, and thus there is a problem of infection such as viruses, which is not preferable for hygiene. In addition, the prediction formula is not an accurate body temperature measurement, and the actual measurement formula takes about 6 minutes, which is a long measurement time.
[0005]
Therefore, a thermometer that can measure by inserting a probe into the ear canal has been proposed. That is, the inside of the ear canal is close to the brain, and its temperature substantially matches the body temperature, which is suitable for measuring body temperature.
[0006]
As this type of thermometer, for example, JP-A-11-83631 is known. This is because the probe for insertion into the ear canal protrudes from a thermometer body that can be grasped by hand, and the tip of the probe is a disk type that closes the tip opening of the light guide tube exposed at the probe tip In the structure provided with the light transmissive window member, when the tip of the probe including the window member becomes dirty, the stain can be wiped off with alcohol or the like.
[0007]
[Problems to be solved by the invention]
However, when trying to measure the infant's body temperature with such an ear canal thermometer, the measurement part (probe part) of the conventional thermometer is too thick and cannot be properly inserted into the infant's ear canal.
[0008]
Therefore, there has been a demand for the development of a thermometer adapted to the shape of the ear canal of an infant and capable of accurately measuring the body temperature and keeping clean in consideration of the use environment of the infant.
[0009]
Furthermore, in Japanese Patent Application Laid-Open No. 11-83631, the window member is configured to be difficult to remove, so if the window member becomes dirty and cannot be wiped off, it becomes unsanitary. There exists a problem that the light transmittance in a window member falls and an exact body temperature measurement cannot be performed.
The present invention has been made to solve such problems, and can be adapted to a small ear hole of an infant and can quickly and accurately measure a body temperature and easily replace a probe cover. Therefore, the purpose is to provide a thermometer that can always be kept clean.
[0010]
[Means and Actions for Solving the Problems]
In order to achieve the above object, in the thermometer according to claim 1, the thermometer has a main body containing the temperature measuring means, and a probe portion attached to an opening provided in the main body,
The probe section guides infrared rays into the thermometer body, a cover member that covers the periphery of the waveguide and is formed so as to be inserted into the ear canal of the infant, and a base around the cover member A cylindrical positioning member having an outer shape larger than that of the cover member so as to be positioned at the end portion, attached to and detached from the main body side, and in contact with the periphery of the ear hole to form a sealed space inside,
The cover member has an opening at a distal end, is in close contact with the periphery of the waveguide, and has a cylindrical probe sub-cover in which a base end portion is disposed in the main body, and the probe sub-cover and the positioning A cap-type probe cover that is detachably interposed between the members and has a translucent function that closes the distal end opening of the probe sub cover, and the outer peripheral surface of the probe sub cover has a diameter on the proximal end side. is formed in a large taper, the a configured thermometer as the cap tubular portion of the probe cover is clamped in the opening inner peripheral surface of the outer peripheral surface and the positioning member of the probe sub cover,
The base end portion of the probe sub cover includes a contact portion that contacts the periphery of the main body opening,
By attaching the positioning member to the main body, the contact portion is brought into contact with the sealing means exposed to the opening of the main body, so that the probe portion and the opening of the main body are sealed. The configuration is as follows.
(Operation) The body is provided with temperature measuring means such as an infrared sensor for detecting the temperature of infrared rays transmitted from the probe unit.
The probe portion includes a long extending waveguide for guiding infrared rays, and the periphery of the waveguide is covered with a cover member. This cover member is formed thin so that it can be inserted into the ear canal of an infant.
Moreover, the positioning member is arrange | positioned at the base end part of a cover member so that attachment or detachment is possible. When the distal end side of the waveguide covered with the cover member is inserted into the infant's ear canal, the positioning member abuts on the periphery of the ear hole based on the outer shape larger than the cover member, and the insertion depth of the waveguide distal end is determined. By positioning the sheath direction and closely adhering to the periphery of the ear canal, the effect of forming a sealed space in the ear canal is exhibited. That is, the positioning member is formed at the base end portion of the cover member in particular, so that the thin cover member that covers the waveguide does not hinder entry into the ear hole.
Also, by attaching and detaching the positioning member, the cover member that touches the body can be completely exposed, and the positioning member can be removed from the main body and cleaned, so that it can be kept clean.
In addition, since an opening is formed at the tip of the probe sub cover, infrared rays can be appropriately guided to the internal waveguide. The probe cover exhibits an effect of blocking the penetration of dust and the like while allowing the transmission of infrared rays based on the light transmission function by closing the tip opening of the probe sub cover. Further, by removing the positioning member, the part touching the body including the probe cover can be removed and replaced or cleaned.
To replace a dirty probe cover with a new probe cover, remove the positioning member from the main body, remove the dirty probe cover from the tip of the probe sub cover, and cover the tip of the probe sub cover with the new probe cover. It is only necessary to mount the positioning member on the main body. That is, since the outer peripheral surface of the probe sub cover is formed in a tapered shape with a larger diameter toward the base end side, when the positioning member is pushed in the axial direction with respect to the probe sub cover, the inner peripheral surface of the opening of the positioning member becomes the probe. It approaches the (tapered) outer peripheral surface of the sub cover, and the cap cylindrical portion of the probe cover is sandwiched between the (tapered) outer peripheral surface of the probe sub cover and the inner peripheral surface of the opening of the positioning member, and is retained.
Further, since the sealing is performed between the probe sub cover and the main body, the sealing function is complete, and sweat, earwax, dust, etc. do not enter the main body.
According to a second aspect of the present invention, in the thermometer according to the first aspect, the probe cover is made of a stretchable resin film.
(Operation) When attaching / detaching the positioning member, the positioning member is moved in the axial direction with respect to the probe sub cover, but the probe cover (the cylindrical portion) interposed between the positioning member and the probe sub cover is thin and has a frictional resistance. And the smooth movement of the positioning member relative to the probe sub-cover is not hindered.
According to a third aspect of the present invention, in the thermometer according to the first or second aspect, the proximal end opening of the probe cover is provided with a flange-like locking portion, and the probe cover is provided on the inner peripheral surface of the opening of the positioning member. A stepped portion that engages with the side locking portion in the axial direction is provided.
(Operation) When mounting the positioning member from the state where the probe sub cover is covered with the probe cover, the step on the inner peripheral surface side of the opening of the positioning member engages with the locking portion on the probe cover side, and the positioning member The cylindrical portion of the probe cover is pulled in the axial direction in conjunction with the pushing operation toward the main body side along the probe sub cover, and this cylindrical portion is connected to the outer peripheral surface of the probe sub cover and the inner periphery of the opening of the positioning member. Since the region covering the probe sub cover opening in the probe cover is held in tension, wrinkles occur in the region facing the opening of the waveguide in the probe cover, and the infrared transmittance decreases. There are no problems.
According to a fourth aspect, in the thermometer according to the third aspect, the probe cover and the main body are mounted by screw fastening.
(Operation) When the probe cover is screwed to the main body, as the probe cover is rotated with respect to the main body and screwing (screw fastening) proceeds, the pressure contact force and the axial tensile force generated in the probe cover cylindrical portion gradually increase. Since it increases, there is no problem that the probe cover is damaged due to a sudden stress.
In Claim 5, The thermometer in any one of Claims 1-4 WHEREIN: The transparent sealing means which is arrange | positioned between the said waveguide and the said probe subcover, and block | closes the front-end | tip opening of the said waveguide. It comprised so that it might be equipped with.
(Action) remove the positioning member, even when opening the probe cover from the probe sub-cover, it is not name that dust or the like entering the waveguide section by the sealing means.
The thermometer according to claim 6 further includes a main body that houses the temperature measuring means, and a probe portion that is attached to an opening provided in the main body and is formed so as to be inserted into the ear canal of the infant. And
The probe unit has a cylindrical probe unit body provided therein with a waveguide for guiding infrared rays into the thermometer body;
Cylindrical shape that is located at the base end around the probe body, is attached to and detached from the body, and has a larger outer shape than the probe body so as to make contact with the periphery of the ear hole and create a sealed space inside A positioning member of
A cap-type probe cover provided with a translucent function that detachably interposes between the probe body and the positioning member and closes the tip opening of the probe body;
The outer peripheral surface of the probe portion main body is formed in a tapered shape having a larger diameter toward the proximal end side, and the cap cylindrical portion of the probe cover is formed by the outer peripheral surface of the probe portion main body and the inner peripheral surface of the opening of the positioning member. A thermometer configured to be clamped ,
The base end portion of the probe sub cover includes a contact portion that contacts the periphery of the main body opening,
By mounting the positioning member on the main body, the contact portion is brought into contact with the sealing means exposed at the opening of the main body, and the probe portion and the opening of the main body are sealed. It was.
(Operation) The body is provided with temperature measuring means such as an infrared sensor for detecting the temperature of infrared rays transmitted from the probe section main body.
The probe main body includes a long extending waveguide for guiding infrared rays, and the probe main body and the positioning member are thinly formed so as to be inserted into the ear hole of the infant.
Further, a positioning member is detachably disposed at the proximal end portion of the probe body. When the distal end side of the probe body is inserted into the infant's ear hole, the positioning member comes into contact with the periphery of the ear hole based on the outer shape larger than that of the probe body, and the insertion depth of the probe body (waveguide) is inserted. By positioning the sheath direction and closely adhering to the periphery of the ear canal, the effect of forming a sealed space in the ear canal is exhibited. That is, since the positioning member is formed at the proximal end portion of the probe main body in particular, it does not prevent the probe main body (waveguide) from entering the ear hole.
Also, by attaching and detaching the positioning member, the probe part main body that touches the body can be completely exposed, and the positioning member can be removed from the main body and cleaned, so that it can be kept clean.
In addition, since an opening is formed at the tip of the probe section main body, infrared rays can be appropriately guided to the internal waveguide. The probe cover closes the tip opening of the probe section main body, thereby exhibiting an action of preventing intrusion of dust and the like while allowing infrared transmission based on the light transmitting function. Further, by removing the positioning member, the part touching the body including the probe cover can be removed and replaced or cleaned.
To replace a dirty probe cover with a new probe cover, remove the positioning member from the main unit, remove the dirty probe cover from the tip of the probe unit body, and cover the tip of the probe unit body with the new probe cover. It is only necessary to mount the positioning member on the main body. In other words, since the outer peripheral surface of the probe main body is formed in a tapered shape with a larger diameter toward the proximal end side, when the positioning member is pushed in the axial direction against the probe main body, the inner peripheral surface of the opening of the positioning member becomes the probe. The cap cylindrical portion of the probe cover is sandwiched between the (tapered) outer peripheral surface of the probe unit main body and the inner peripheral surface of the positioning member opening, and is held out.
Further, since the sealing is performed between the probe sub cover and the main body, the sealing function is complete, and sweat, earwax, dust, etc. do not enter the main body.
Also, in claim 6 , by adopting the limited configuration as shown in claims 2 and 3, the same action as that of the above-described claims 2 and 3 occurs.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings. The embodiments described below are preferable specific examples of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention particularly limits the present invention in the following description. As long as there is no description of the effect, it is not restricted to these aspects.
[0012]
FIG. 1 shows a thermometer according to an embodiment of the present invention, in which (a) is a schematic front view thereof, and (b) is a schematic rear view thereof. 2 is a schematic plan view of the thermometer of FIG. 1, FIG. 3 is a schematic exploded perspective view thereof, FIG. 4 is a schematic cross-sectional view showing a configuration example of a probe portion of the thermometer of FIG. 1, and FIG. FIG. 6 is an enlarged cross-sectional view illustrating a state in which the top region of the probe cover is held in a tensioned state by the positioning cap.
[0013]
In these drawings, the thermometer 10 includes a thermometer main body 11 and a probe portion 12 protruding from the main body 11.
[0014]
As shown in FIG. 3, the main body 11 has a characteristic shape as a whole, and has a predetermined internal space by an upper case 11 a and a lower case 11 b that are divided in half.
[0015]
That is, as shown in FIG. 1, the main body 11 has a substantially symmetrical outer shape, a probe portion 12 protruding upward in the center is located, and an isosceles triangle whose bottom is the side 11 c which is the lower surface of the figure. Side surface portions 11d and 11e formed with the same curved surface so as to correspond to the respective equal sides.
[0016]
As will be described later, the bottom surface portion 11c serves as a contact surface that comes into contact with the palm when the user holds the main body 11. For this reason, Preferably, it is extended in the direction orthogonal to the probe part 12 mentioned later.
[0017]
As will be described later, each of the side surfaces 11d and 11e has a length suitable for the first support surface and the second support surface that can contact the inside of the user's index finger when supporting the main body 11. Is set.
[0018]
Here, if the side surface portions 11d and 11e are formed with curved surfaces that protrude outward, the side portions 11d and 11e are suitable for applying the inner side along the movement of the finger. The side portions 11d and 11e are not necessarily curved surfaces, and may be formed by polygonal surfaces or the like that protrude outward. Further, the side portions 11d and 11e do not have to be formed with the same curved surface as shown in the figure, and only one of the outwardly convex shapes may be provided.
[0019]
Moreover, as shown in FIG.1 (b) and FIG. 2, it has the bulging part 11f in the back surface side. The bulging portion 11f has a shape bulging in the thickness direction of the main body 11, and is formed to have substantially the same curved surface inside the side surface portions 11d and 11e. Thereby, the bulging part 11f is made into the shape and magnitude | size suitable for hitting the inner side of a user's middle finger, when supporting the main body 11, so that it may mention later.
[0020]
As shown in FIG. 1, on the front surface of the main body 11, a display such as a liquid crystal panel is exposed through an opened window 22a slightly to the right of the lower portion thereof, and constitutes display means 34. is doing.
[0021]
Further, an operation switch 35 is provided adjacent to the display means 34 in the lower area of the front surface of the main body 11.
[0022]
In the main body 11, an infrared sensor 14 as temperature measuring means and a circuit board 25 to which the infrared sensor 14 is connected are accommodated. A liquid crystal panel 23 as a display means and a filter 22 as a cover covering the liquid crystal panel 23 are arranged on the upper side of the circuit board 25 in the main body 11 in FIG. Is done. The filter 22 is exposed from the window 22a provided in the upper case 11a, so that the display on the liquid crystal panel 23 can be read from the outside.
[0023]
The upper case 11a is provided with a hole 35a through which the operation switch 35 connected to the circuit board 25 is exposed.
[0024]
In FIG. 3, below the circuit board 25, electrodes 36 and 37 connected to contacts provided on the circuit board 25, holders 26 for these electrodes, and a buzzer case 27 for accommodating a buzzer (not shown). Is housed.
[0025]
Further, a circular button battery 31 serving as a driving power source is accommodated below the electrode holder 26. The battery 31 is accommodated in an exchangeable manner by a detachable lid 33 through an O-ring 32.
[0026]
In this way, the thin button battery 31 is stored so as to overlap with the circuit board 25, so that the shape of the main body 11 does not have a long shape in one direction as in a conventional thermometer. A flat shape close to an isosceles triangle as shown can be obtained. Thereby, it can be set as the magnitude | size and shape which the magnitude | size of the main body 11 fits in a user's hand, and also it can be set as a structure convenient for use so that it may mention later.
[0027]
Here, the bulging portion 11 f shown in FIG. 1B and FIG. 2 in the lower case 11 b described above corresponds to the outer shape of the battery 31 and is formed so as to cover it. As a result, the main body 11 can reduce the overall thickness by reducing the overall thickness by using only the portion containing the battery 31 as the bulging portion 11 f, and forms a middle finger clasp when holding the main body 11. can do.
[0028]
The main body 11 accommodates such an internal structure, for example, by bonding with a packing 28 interposed in a groove 11g formed along the joint between the lower case 11b and the upper case 11a shown in FIG. It is designed to be sealed. The packing 28 has a shape that seals the periphery of the side edge of the main body 11 over the entire circumference except for an opening of the main body 11 described later.
[0029]
Next, the configuration of the probe unit 12 will be described.
[0030]
The probe unit 12 is shown in detail in FIGS. 4 and 5, and will be described with reference to FIG. 3 and these drawings together.
[0031]
As shown in FIG. 4, the probe 12 is fixed to the opening 41 at the upper end along the center of the main body 11.
[0032]
In the drawing, a probe portion 12 includes a thin waveguide 13 extending through a center and extending long, a probe sub-cover 16 as a cover member arranged so as to cover the entire circumference of the waveguide 13, and a cover member. The probe cover 17 is disposed outside the probe sub cover and covers the tip of the probe sub cover. The probe cover 17 is disposed outside the probe cover 17 and is near the base end of the probe sub cover 16 serving as a cover member. It has the positioning cap 18 as a positioning member arrange | positioned.
[0033]
The waveguide 13 is formed of, for example, a material capable of appropriately guiding infrared rays. For example, the waveguide 13 is formed in a straight tube shape using, for example, brass or aluminum, and has an opening 13a at the distal end portion. It has a function of introducing infrared rays based on heat in a measurement target site such as an inner eardrum through the tip opening 13a to the infrared sensor 14 on the main body 11 side.
[0034]
In the present embodiment, in particular, the waveguide 13 is formed so that the outer diameter D1 is about 4.6 mm, for example.
[0035]
The probe sub cover 16 that is in close contact with the periphery of the waveguide 13 is formed of, for example, a soft material such as an elastomer, and has an outer diameter D2 of about 3.5 mm to 6.5 mm, for example, about 6 mm. It is set to become.
[0036]
Here, when the outer diameter D2 of the probe sub-cover 16 is 3.5 mm or less, the light guide of infrared rays is insufficient, resulting in a measurement error, and the tip is sharpened, which is dangerous when used. Moreover, when the outer diameter D2 of the probe sub-cover 16 was larger than 6.5 mm, it was found that the insertion was impossible from the results of various measurements of the infant's ear canal.
[0037]
That is, the distal end side of the probe sub cover 16 is made of a flexible material so that the distal end of the metal waveguide 13 does not damage the inner wall of the ear hole when inserted into the ear hole of the infant. The outer peripheral surface 16c is slightly increased in outer diameter toward the lower side of FIGS. 4 and 6, and is formed by cutting a hard material so as to have a sufficiently thin shape so that it can be inserted into the ear canal. It is formed in a tapered shape.
[0038]
Two flange portions 16 a and 16 b are formed on the outer periphery of the lower end of the probe sub cover 16.
[0039]
And the location 28a where the front-end | tip of the packing 28 which is a sealing means by the side of the main body 11 is exposed to the opening part 41 of a main body enters between the said two flange parts 16a and 16b. When the probe sub cover 16 is formed of a hard material such as a synthetic resin, the main body opening 41 may be sealed by applying silicon grease or an O-ring between the flange portions 16a and 16b.
[0040]
The waveguide 13 and the probe sub-cover 16 are made of, for example, a very thin (10 μm thick) polyester resin film having elasticity between the waveguide 13 and the probe sub-cover 16 at the distal end thereof. The sealing member 15 is fixed.
[0041]
That is, as shown in FIG. 3, the sealing member 15 is disposed so as to wrap the distal end portion of the waveguide 13, and the waveguide 13 covered with the sealing member 15 is press-fitted into the probe sub-cover 16. The probe sub-cover 16 is closely integrated with the outer peripheral surface of the waveguide 13. When the waveguide 13 is press-fitted into the probe sub-cover 16, the region extending along the outer peripheral surface of the waveguide 13 in the sealing member 15 is squeezed by the inner peripheral surface of the probe sub-cover 16 and becomes an axis. Since it is pulled in the direction, the region facing the tip opening 13a of the waveguide 13 in the sealing member 15 is kept in a tension state. Thereby, the tip opening 13 a of the waveguide 13 is sealed by the tension region in the sealing member 15 in a state where infrared rays can be transmitted.
[0042]
Further, a probe cover 17 made of a material that transmits light is disposed so as to cover the tip of the waveguide 13.
[0043]
As shown in FIGS. 3, 4, and 5, the probe cover 17 is formed in a very thin (thickness 10 μm) polyester resin cap type (bottomed cylinder) that is stretchable as a whole. the open end of the cap tubular portion 17 ₂ extending from the top region 17 ₁ into a cylindrical shape, and has a small flange-shaped engaging portion 17a of the thick 0.2mm width. That is, a polyester resin film (thickness: 10 μm) was formed into a bottomed cylindrical shape, and a flange-shaped locking portion 17a was joined and integrated to the opening side of the bottomed cylindrical body to obtain a cap type. Therefore, the resin film as the material is loosely formed from the cap top region 17 ₁ to the cap cylindrical portion 17 ₂ . Further, the inner diameter D ₃ of the locking portion 17 a of the probe cover 17 is formed larger than the outer shape D ₂ of the distal end portion of the probe sub cover 16 and can be smoothly attached to the distal end portion of the probe sub cover 16. . Incidentally, the inner diameter D ₃ of the locking portion 17a is substantially equal to the inner diameter of the positioning cap 18 further position P ₁ (view corresponding to the step portion 18a when mounting the positioning cap 18 (screw fastening completion with respect to the main body 11) 6 The outer diameter of the probe sub cover 16 in FIG.
[0044]
The positioning cap 18 disposed outside the probe cover 17 has a truncated cone shape as a whole. The positioning cap 18 is formed of a soft material such as an elastomer and has a large outer diameter so as to be in contact with the periphery of the ear hole. The lower end portion of the probe cover 17 is provided with a male screw portion 43 on the outer periphery thereof, and is inserted into the opening 41 of the main body 11 so as to be screwed with the female screw portion 43a on the inner periphery of the opening 41. Yes.
[0045]
In this state, the entire length (height in FIG. 4) of the positioning cap 18 is formed short, and the tip of the probe sub cover 16 is exposed in a state of a sufficient length L from the tip. A portion corresponding to the length L is an external auditory canal insertion portion 51 to be inserted into the user's ear canal as will be described later.
[0046]
Here, the length L is set to about 2 mm to 10 mm, for example. If the length L of the ear canal insertion section 51 is shorter than the lower limit value, it does not function as a guide for determining the direction for guiding infrared rays from the eardrum. On the other hand, if the length is longer than the above upper limit value, the contact with the bent portion of the ear canal changes, the angle to which the tip of the probe portion should face changes, and it does not face the eardrum correctly.
[0047]
In addition, a downward stepped portion 18 a is provided on the inner side (inner periphery) of the positioning cap 18 so as to be engaged with the flange-shaped engaging portion 17 a of the probe cover 17.
[0048]
As shown in FIGS. 4 and 6, the outer periphery of the positioning cap 18 is formed in a truncated cone shape so that the outer diameter of the lower end portion 42 is the largest, and gradually decreases downward in the cross section. It has an open taper shape. In addition, a plurality of concave portions 44 to be hooked with fingers are formed on the side surface along the circumferential direction.
[0049]
Next, a configuration in which the region (cap top region 17 ₁ ) facing the tip opening 13a of the waveguide 13 in the probe cover 17 is always kept in a tension state without generating wrinkles will be described with reference to FIG. To do.
[0050]
First, the probe cover 17 is placed on the distal end portion of the probe sub cover 16, and the positioning cap 18 is further placed thereon, and the male screw portion 43 on the positioning cap 18 side is screwed into the female screw portion 43a on the main body 11 side. When the positioning cap 18 is attached to the main body 11, the stepped portion 18 a on the inner peripheral surface side of the opening of the positioning cap 18 engages with the locking portion 17 a on the probe cover 17 side, and the positioning cap 18 (male screw portion 43) and the main body 11. As the screwing of the (female screw portion 43a) proceeds, the positioning cap moves downward (advances) while rotating. Since the outer peripheral surface 16c of the probe sub cover 16 has a taper shape that is thicker toward the lower side, the opening inner peripheral surface 18c (step 18a) of the positioning cap 18 becomes the tapered outer periphery of the probe sub cover 16 as the positioning cap 18 descends. Approaches the surface 16c. For this reason, the opening end of the probe cover cylindrical portion 17 ₂ is gradually pulled in the axial direction (the direction of arrow A in FIG. 6), and the opening end of the cylindrical portion 17 ₂ is positioned by the positioning cap 18 in FIG. Are gradually tightened as shown in FIG. 4 (between the tapered outer peripheral surface 16c of the probe sub-cover and the inner peripheral surface 18c of the positioning cap 18). When the screw fastening in which the lower end portion of the positioning cap 18 is in contact with the flange portion 16a of the probe sub cover 16 is completed (the male screw portion 43 of the positioning cap 18 is screwed to the female screw portion 43a of the main body 11), The cap top region 17 ₁ that covers the tip opening of the probe sub-cover 16 in the cover 17 is held in a tension state in which a tension directed outward in the radial direction acts as shown by an arrow C in FIG. For this reason, the infrared transmitting portion (top region 17 ₁ ) of the probe cover 17 corresponding to the distal end opening portion 13a of the waveguide 13 is maintained in a tension state in which wrinkles do not occur and always has a constant infrared transmittance. Is guaranteed.
[0051]
In this embodiment, when the probe cover 17 is extremely dirty, the positioning cap 18 can be removed and the dirt can be wiped off with alcohol or the like, but the probe cover itself can be easily replaced. In particular, if the probe sub cover 16 is covered with the probe cover 17 and the positioning cap 18 is attached to the main body 11, the probe cover 17 is naturally held in a tension state, so that anyone can easily replace the probe cover 17. Become.
[0052]
Moreover, this embodiment is comprised as mentioned above and exhibits the following effects.
[0053]
FIG. 7 is an explanatory view showing a state in which the thermometer 10 of this embodiment is held in a hand.
[0054]
This figure shows a state where the thermometer 10 is held with the right hand H which is a normal dominant hand. With the front surface of the thermometer 10 (the surface of FIG. 1A) facing forward, the vicinity of the center of the base 11c of the thermometer 10 is applied to the vicinity of the joint at the base of the index finger F1 as shown in the figure. Thereby, the whole inner side of the index finger F1 adheres to the side surface 11e naturally so that the curve of the side surface 11e of the thermometer 10 may be followed. Further, the middle finger F2 positioned in the depth direction of the index finger F1 functions as a finger hook by the above-described bulging portion 11f functioning in the same manner as the side surface 11e.
[0055]
On the other hand, the user's thumb F3 is in contact with the portion near the probe 12 on the front portion of the thermometer 10 as shown in FIG. Accordingly, the thermometer 10 is firmly held by the index finger F1, the middle finger F2, and the index finger F3, and the display unit 34 is exposed from the space between the index finger F1 and the thumb F3. .
[0056]
Furthermore, the operation switch 35 can be operated simply by shifting the position of the thumb F3 while holding the thermometer 10, and the operability such as activation is excellent. Further, by disposing the front portion 34 on the left side of FIG. 1A, the front portion 34 is positioned away from the tip of the thumb F3. For this reason, it is possible to prevent the operation switch 35 from being erroneously operated during measurement.
[0057]
Further, in this state, the probe unit 12 is provided at the center position of the left and right objects of the thermometer 10 and protrudes in the direction opposite to the bottom surface 11c, so that the user's hand H in the state of grasping the thermometer 10 It is located along the virtual center line CE of the image and is directed in the direction of the arrow. The main body 11 is compact, and as shown in the figure, the probe unit 12 is close to the hand when the main body 11 is held.
[0058]
Thereby, compared with the case where it has a probe part at the tip of a comparatively long form like the conventional thermometer, with respect to the small ear hole of the measurement subject who measures body temperature, probe part 12 is in the right direction and position, It becomes extremely easy to use for accurate guidance. In addition, it is easy to hold it with either hand, regardless of whether it is a dominant hand.
[0059]
FIG. 8 shows the relationship between the actual use state and the external auditory canal 61 of the measurement subject C, and FIG. 9 shows the temperature of the operator M such as a mother himself or the temperature of the measurement subject C. It shows how to measure. In particular, in FIG. 9, (a), (b), and (c) show the case where the mother M measures the body temperature of the infant C as a measurement target, and (a) shows the infant C on the knee. Measurement with hugging and facing front, (b) Measurement with infant C's head on knee and facing back, (c) Hugging on infant C knee and facing back It shows the state of measurement. And FIG.8 (d) has shown a mode that mother M itself measures an own body temperature.
[0060]
8, in any case of FIG. 9, the thermometer 10 is inserted into the ear canal 61 as illustrated.
[0061]
In this case, as described with reference to FIG. 7, when the thermometer 10 is held by the hand H, the entire thermometer 1 can be almost contained in the hand, and the probe unit 12 is directed in the direction of the arrow in FIG. 7. . That is, since the probe unit 12 faces inward in the vicinity of the center of the user's hand, the probe unit 12 can be inserted with proper alignment with respect to the small ear hole 62 shown in FIG.
[0062]
In particular, as shown in FIG. 9, it is possible to insert the infant C into the subject in any posture in alignment with the ear hole 62 of the infant C, and as shown in FIG. Even when the person himself / herself uses it for his / her own M, the probe unit 12 is located near the center of his / her hand, so that the alignment is easy even without visually recognizing the ear canal.
[0063]
Then, when the probe portion 12 is inserted into the ear hole 62 as shown in FIG. 8, the tapered surface of the outer periphery of the positioning cap 18 can be brought into contact with the peripheral edge of the ear hole 61 that becomes gradually narrower as it becomes deeper. Thereby, the tip of the probe portion 12 of the thermometer 10 enters the external auditory canal 61 and is appropriately aligned in the depth direction of the external auditory canal 61.
[0064]
That is, when the probe portion 12 of the thermometer 10 is positioned by contacting the periphery of the ear hole 62 by the function of the positioning cap 18, the ear canal insertion portion 51 of the probe portion 12 is appropriately provided with a predetermined length L. And is positioned toward the eardrum K behind the ear canal 61. Accordingly, unlike the conventional thermometer, the probe 12 is not oriented in the ear canal and does not properly face the eardrum K, and the temperature of the ear canal wall surface or the like is detected, and accurate temperature detection is not possible. Thus, the infrared ray R corresponding to the temperature of the eardrum K can be guided to the waveguide 13 in the probe unit 12.
[0065]
Therefore, the operator M can easily operate the operation switch 35 with the thumb F3 while visually confirming the display means 34 of the thermometer 10 in the states of FIGS. 9A to 9C. Can be confirmed.
[0066]
In addition, since the positioning cap 18 is formed of a soft material in such use, even if it is directly pressed against the delicate ear hole 61 of the infant C or the like, the skin or the like is not damaged. And since the positioning cap 18 is made of a flexible material as described above by being brought into contact with the peripheral edge of the ear hole 61, it is deformed when pressed near the ear hole, Moreover, the thickness (outer diameter) does not completely enter the ear hole 61. For this reason, since the positioning cap 18 is tightly closed and tightly closed around the outer ear introduction opening of the ear canal and is closed to create a closed space, the inside of the closed space can quickly respond to the body temperature without being affected by the outside air temperature. Equilibrium temperature.
[0067]
Further, since the outer diameter of the ear canal insertion portion 51 inserted into the ear canal 62 which is this sealed space is set to be thin as described above, it can be easily inserted into the inner wall of the ear canal, and the tip of the probe portion 12 is correctly placed on the eardrum Can be directed to K. For this reason, the temperature based on the infrared rays emitted from the eardrum K can be detected stably without being affected by the temperature on the thermometer 10 side or the like.
[0068]
Further, after such use, the thermometer 10 may become wet when an infant enters the mouth and sucks, or if necessary, even if the vicinity of the probe portion 12 is washed, the thermometer 10 opens. Since 41 is completely sealed, the waterproofing in the main body 11 is maintained, and there is no possibility of damaging the internal mechanism.
[0069]
In particular, when the positioning cap 18 is tightened, the portion where the sealing means 28a is exposed is pressed by the lower end portion of the probe sub-cover at the main body opening 41 which is the most susceptible to water so that the sealing effect is completely achieved. can do. Further, as described above, the positioning cap 18 can be removed. Thereby, the probe cover 17 which covers the front-end | tip of the probe part 12 can be removed, and replacement | exchange is easy. Since most of the probe sub-cover 16 is also exposed, if the probe sub-cover 16 is easily wiped with disinfecting cotton or the like, moisture can be removed and sterilized.
[0070]
Thereby, the user can always keep the thermometer 10 clean, and the inside of the ear canal 61 can be kept clean even when the thermometer 10 is used for a subject having low resistance, such as an infant C, by washing each use. It is preferable because it can be retained.
[0071]
Further, in such maintenance, even if the positioning cap 18 is removed, the tip opening of the waveguide 13 is blocked by the sealing means 15, so that dust or the like enters the waveguide 13. , Without impairing its function.
[0072]
10 and 11 show another embodiment of the thermometer of the present invention. A thermometer 70 in FIG. 10 is a second embodiment of the present invention, and a thermometer 80 in FIG. 11 is a third embodiment of the present invention. In these thermometers, the same reference numerals as those in the above-described embodiment are attached. Since the parts have a common configuration, a duplicate description will be omitted, and differences will be mainly described.
[0073]
The thermometer 70 and the thermometer 80 differ from the thermometer 10 of the first embodiment in that the shapes of the main body 71 and the main body 81 are thin.
[0074]
In the above-described embodiment, the positioning cap 18 and the main body 11 are screw-fastened, but the claw provided on the positioning cap 18 and the claw engaging portion provided on the main body 11 side are engaged. A bayonet engagement structure or the like may be used.
[0075]
In the above-described embodiment, the probe unit 12 is guided by the waveguide 13, the probe sub cover 16 that is in close contact with the outer periphery of the waveguide 13, and the waveguide 13 and the probe sub cover 16. A sealing member 15 that closes the distal end of the tube 13, a cap-type probe cover 17 that is attached to the distal end of the probe sub-cover 16, and an outer periphery of the probe sub-cover 16 that is detachable from the main body 11. And a positioning cap 18 for retaining the probe cover 17 to prevent the probe cover 17 from being detached. The probe portion includes a probe portion main body in which the waveguide 13 and the probe sub cover 16 are integrated, and a tip of the probe portion main body. A cap-type probe cover 17 that closes the opening, and is provided on the outer periphery of the probe section main body so that it can be attached to and detached from the main body 11 and the probe cover 17 is removed. In the positioning cap 18, which is configured from a structure to hold because, at the distal end of the waveguide 13 may have a structure without the sealing member 15.
[0076]
The present invention is not limited to the above-described embodiment.
[0077]
The electrical configuration in the main body of the present embodiment may be replaced by another configuration having a common function. Further, as the temperature detection means, a configuration such as a thermocouple may be used instead of the infrared detection method.
[0078]
In addition, a configuration may be adopted in which a means for preliminarily heating the main body 11 or the probe unit 12 is provided, and detection is performed after the temperature is raised to about the body temperature before measurement.
[0079]
【The invention's effect】
As described above, according to the first aspect, it is possible to provide a thermometer that can be quickly and accurately measured while conforming to a small ear hole of an infant and can always be kept clean.
In addition, with the positioning member removed from the main body and the probe sub cover exposed, the dirty probe cover is removed, a new probe cover is placed on the probe sub cover tip, and the positioning member is attached to the main body. Since the new probe cover can be retained and retained, anyone can easily replace the probe cover.
According to the second aspect of the present invention, since the probe cover is formed to be very thin, the positioning member can be smoothly attached and detached.
According to the third aspect of the present invention, since the region of the probe cover facing the distal end opening of the waveguide is held in tension outward in the radial direction, a constant infrared transmittance is always guaranteed, and accurate body temperature measurement is possible. it can.
According to the fourth aspect, since the probe cover is gradually pulled and gripped, there is no possibility that the probe cover is broken when the positioning member is attached / detached.
According to the sixth aspect of the present invention, it is possible to provide a thermometer that can be quickly and accurately measured in conformity with a small ear hole of an infant and can always be kept clean.
Also, remove the positioning member from the main body, remove the dirty probe cover from the probe main body, cover the tip of the probe main body with a new probe cover, and attach the positioning member to the main body to prevent the new probe cover from coming off. Since it can be held, anyone can easily replace the probe cover.
[Brief description of the drawings]
FIG. 1 shows a thermometer according to a first embodiment of the present invention,
(A) is a schematic front view,
(B) is a schematic rear view.
2 is a schematic plan view of the thermometer of FIG. 1. FIG.
3 is a schematic exploded perspective view of the thermometer of FIG. 1. FIG.
4 is a schematic cross-sectional view showing a configuration example of a probe portion of the thermometer of FIG. 1. FIG.
FIG. 5 is a schematic front view of a positioning cap of the thermometer of FIG. 1;
FIG. 6 is an enlarged cross-sectional view for explaining how the top region of the probe cover is held in a tensioned state by the positioning cap.
7 is an explanatory view showing a state of being held in the hand in order to use the thermometer of FIG. 1. FIG.
8 is an explanatory diagram showing a state in which body temperature is detected in the state of FIG.
FIG. 9 is a diagram showing how the thermometer of FIG. 1 is used by an operator such as a mother;
(A) is a measurement with the infant C held on the knee and facing the front,
(B) is a measurement with the head of an infant C placed on the knee and facing the back,
(C) has shown the mode of measurement which hold | maintains on the infant C knee and turns back.
(D) shows how the mother herself measures her body temperature.
FIG. 10 is a diagram showing a second embodiment of the thermometer of the present invention.
FIG. 11 is a view showing a third embodiment of the thermometer of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Thermometer 11 Main body 11a Upper case 11b Lower case 11d, 11e (Main body) Side surface 12 Probe part 13 Waveguide 15 Sealing means 16 Probe sub cover 17 Probe cover 34 Display means 35 Operation switch.

Claims (6)

It has a main body that houses the temperature measuring means, and a probe portion that is attached to an opening provided in the main body,
The probe section guides infrared rays into the thermometer body; and
A cover member that covers the periphery of the waveguide and is formed so as to be inserted into the ear canal of the infant,
Located at the base end around the cover member, and attached to and detached from the main body side,
A cylindrical positioning member having an outer shape larger than the cover member so as to make contact with the periphery of the ear hole and create a sealed space inside,
A cylindrical probe sub-cover that has an opening at the tip, is in close contact with the periphery of the waveguide, and has a base end disposed in the main body;
The probe sub-cover and the positioning member are detachably interposed, and are composed of a cap-type probe cover having a translucent function for closing the tip opening of the probe sub-cover,
An outer peripheral surface of the probe sub cover is formed in a tapered shape with a diameter increasing toward the base end side, and the cap cylindrical portion of the probe cover is formed by the outer peripheral surface of the probe sub cover and the inner peripheral surface of the opening of the positioning member. A thermometer configured to be clamped,
The base end portion of the probe sub cover includes a contact portion that contacts the periphery of the main body opening,
By attaching the positioning member to the main body, the contact portion is brought into contact with the sealing means exposed to the opening of the main body, so that the probe portion and the opening of the main body are sealed. A thermometer characterized by being configured .   The thermometer according to claim 1, wherein the probe cover is made of a stretchable resin film.   A flange portion is provided at the proximal end opening of the probe cover, and a step portion that is axially engaged with the flange portion on the probe cover side is provided on the inner peripheral surface of the opening of the positioning member. The thermometer according to claim 1, wherein the thermometer is characterized.   The thermometer according to claim 3, wherein the probe cover and the main body are screwed together.   The transparent sealing means which is arrange | positioned between the said waveguide and the said probe subcover, and block | closes the front-end | tip opening of the said waveguide is provided. Thermometer. It has a main body that houses the temperature measuring means, and a probe portion that is attached to an opening provided in the main body and is thinly formed so as to be inserted into the ear canal of the infant,
The probe unit has a cylindrical probe unit body provided therein with a waveguide for guiding infrared rays into the thermometer body;
Cylindrical shape that is located at the base end around the probe body, is attached to and detached from the body, and has a larger outer shape than the probe body so as to make contact with the periphery of the ear hole and create a sealed space inside A positioning member of
A cap-type probe cover provided with a translucent function that detachably interposes between the probe body and the positioning member and closes the tip opening of the probe body;
The outer peripheral surface of the probe portion main body is formed in a tapered shape having a larger diameter toward the proximal end side, and the cap cylindrical portion of the probe cover is formed by the outer peripheral surface of the probe portion main body and the inner peripheral surface of the opening of the positioning member. A thermometer held between
The base end portion of the probe sub cover includes a contact portion that contacts the periphery of the main body opening,
By attaching the positioning member to the main body, the contact portion is brought into contact with the sealing means exposed to the opening of the main body, so that the probe portion and the opening of the main body are sealed. Thermometer characterized by being.

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