JP2000139848A - Probe cover - Google Patents

Abstract

PROBLEM TO BE SOLVED: To hygienically and inexpensively manufacture a probe cover, assure measurement accuracy and improve the operability of removing. SOLUTION: This probe cover consists of a top flat surface 5 forming an IR transmission window 7 and a tapered part 6 and is composed of a hollow projecting part 2 and a flat part 4 which is successively disposed like a flange at the base part 3 of this projecting part 2 and has an area extremely larger than the area of the top flat surface 5. The hollow part of the projecting part 2 is mounted at the front end 12a of the probe 12 at the time of mounting. Next, a ring 13 is inserted from above and this ring 13 is fitted to the base part 12b of the probe 12, by which the probe cover 1 is fixed to the probe 12. The outer peripheral edge 4a of the flat part 4 protrudes largely outward from the base part 12b of the probe 12 in this state.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a biomedical device,
For example, it relates to a probe cover of an ear thermometer.

[0002]

2. Description of the Related Art In general, an infrared ear thermometer is provided with a probe cover for covering a probe portion to protect an infrared transmitting portion. As shown in FIG. 8, a probe cover of a conventional ear thermometer includes a thermometer main body 101,
A circular film 102 and a substantially frustoconical cap 103
There is something consisting of The probe cover 104 of the ear-type thermometer comprises a film 102 and a cap 103. When the probe cover 104 is attached to the probe 105 of the thermometer main body 101, the center of the film 102 is first placed on the tip of the probe 105, Cap 10 from above
3. Wrap the film from the outside with 3
03 is attached to the probe 105. The probe 105 has a projection 106 and a concave portion inside the large-diameter opening of the cap 103, that is, has a snap mechanism, and attaches the cap 103 of the probe cover 104 to the thermometer main body 101.
The probe 105 can be properly held. FIG. 9 shows a state where the probe cover 104 is attached to the thermometer main body 101 (US Pat. No. 5,645,350).

FIG. 10 shows a probe cover of another conventional ear thermometer. The probe cover 201 has a specular shape and can be inserted into the ear cavity. The probe cover 201 has a hollow sheath 204 integrally formed with a circular base ring 203 that is rigid and thick in the radial direction on a side adjacent (close to) the probe 202 of the thermometer main body. These sheaths 204
The base ring 203 is formed of a material that does not easily absorb light in the far-infrared range, the distal end constitutes an infrared transmission window 205, and the side wall 206 of the sheath 204 has a truncated right circular cone shape. In addition, the thickness d ₁ of the infrared transmitting portion window 206 of the sheath 204 is equal to the thickness d of the other base ring 203.
_{2. The} side wall 207 is formed to be significantly thinner than the thicknesses d ₃ and d ₄ (US Pat. No. 5,088,834).

[0004]

Among the above-mentioned conventional probe covers, the one shown in FIG. 8 identifies the central portion of the film when the film is mounted on the probe of the thermometer main body, and detects the opening of the probe of the thermometer. It is necessary to be positioned at the center of the camera. When the operation is poor and the mounting is inadequate, wrinkles or lumps are generated in the probe section of the thermometer main body, which affects the temperature measurement accuracy. It is necessary for the film to have a constant infrared transmittance that affects the measurement of body temperature, and it is required that the film has a constant thickness and uniformity without unevenness in composition. Further, since the infrared transmitting portion of the film located at the opening of the probe of the thermometer main body is not specified, it is necessary to manage the thickness of the entire film. This is costly in film production. Increasing the depth of the truncated-conical cap can result in contamination during measurement and insertion into the outer ear, which is unsanitary. After the measurement, when removing the film, it is necessary to remove the frustoconical cap and remove the film. To remove the film, two operations are required, and the operability is poor. In addition, the truncated cone type cap has a small opening at the tip, so the detachability is poor,
Moreover, the contamination of the film after the measurement is completed causes the film to be attached to the cap, and the contamination is adhered to the repeatedly used cap, which is unsanitary. There are problems such as.

In the probe cover shown in FIG.
The opening needs to be thick in order to attach the thermometer main body to the probe, and thin in the infrared transmission window in order to improve infrared transmission. Due to the thickness of the middle part of the probe cover, a foreign body sensation may be felt in the outer ear when measuring the eardrum temperature. The probe cover is thickened so that the proximal end portion and the distal end portion of the probe cover can be easily pulled out and the proximal end portion can be easily attached to the thermometer body. Therefore, it is necessary to use a sheet having a certain thickness as an original sheet when manufacturing the probe cover. If the original sheet becomes thick, it is difficult to heat-treat the original sheet uniformly in a large number of pieces in vacuum compression molding. That is, it is difficult to form a thin sheet using the infrared transmission window. For this reason, it is difficult to ensure uniformity and yield in mass productivity, which causes a cost increase. With the integrated probe cover,
Since there is a limit to the thickness of the proximal ring portion, it is difficult to remove the probe cover after the measurement of the body temperature because the finger cover is small. Since it is an integrated probe cover, there are problems that it is difficult to write notes, decorations, and identification.

The present invention has been made in view of the above problems, and has as its object to provide a disposable probe cover which can be manufactured in a sanitary manner and at low cost.
It is another object of the present invention to provide a probe cover that can be easily positioned, guarantees the measurement accuracy of a thermometer, and has good operability in removal.

[0007]

A probe cover according to the present invention is provided with a hollow projection formed of a flat top portion and an inclined portion forming an infrared transmission window, and a flange-shaped connection to the base of the projection portion. A flat portion having an area significantly larger than that of the top flat portion is provided, and the protrusion and the flange-shaped flat portion are formed of one thin film.

The probe cover is made of one thin film having the same thickness, and can be manufactured at low cost. In addition, the infrared transmission window can be accurately positioned at the probe tip by fitting the hollow portion of the projection into the probe tip at the time of measurement. Since the mode of use is a thin film, it may be inserted into the ear cavity with the protrusion fitted to the tip of the probe. Alternatively, after the protrusion is fitted to the tip of the probe, a ring may be attached to the base end of the probe from the tip direction, and the flat portion may be fixed to the probe. At the time of removal, the area of the flat part is large, so a part of the flat part protrudes sufficiently outward from the main body. Even if you are wearing it, you can easily remove it.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to embodiments. FIG. 1 shows a probe cover according to an embodiment of the present invention. FIG. 1 (a) is a plan view thereof, and FIG. 1 (b) is a side view thereof. FIG. 2 is an enlarged sectional view thereof. The probe cover 1 of this embodiment includes a substantially frusto-conical projection 2 and a flat portion 4 which is connected to a base end 3 of the projection 2 and formed outward in a flange shape. The protruding portion 2 is hollow and includes a flat portion 5 at the top of the tip and an inclined portion 6. The top 5 of the tip forms an infrared transmission window 7. The probe cover 1 of this embodiment is formed of one thin sheet having the same thickness, and is made of polyethylene, polypropylene, or the like. The thickness of the sheet may be selected in the range of 5 to 50 microns. Both the flange-shaped flat portion 4 and the flat portion 5 at the top of the tip are circular in plan view, as shown in FIG.

The dimensions of the probe cover of this embodiment are such that the flat portion 5 at the top of the tip has a diameter R ₁ of 7 mm and the protrusion 2
Is set to a diameter of 19 mm, the diameter R ₃ of the flat portion 4 in a flange shape is set to 64 mm, and the height H ₁ of the projection 2 is set to 9 mm. However, these dimensions are naturally set to different values depending on the size of the main body used. However, the probe cover 1 of this embodiment is characteristic in the dimensional ratio, R ₁ : R ₃ = 7: 64, and H ₁ : R ₃ = 9: 6.
4, the diameter of the flange-shaped flat portion 4 is
Than the diameter of the flat portion 5 which forms the infrared transmission Window 7, also is that several times greater than the height H ₁ of the projections 2. Even from the area ratio, the flat part 4 is the flat part 5
Much larger than. The diameter of the flat portion 5 at the top of the tip,
The ratio of the diameters of the flange-shaped flat portions 4 may be 1: 4 or more. The ratio between the height of the projection and the diameter of the flange-shaped flat portion may be 1: 3 or more.

Since the flange-shaped flat portion 4 of the probe cover 1 according to this embodiment is flat and has a large area, it may be used to write notes, decorations, identification, and the like.
FIG. 3 is a side view of the ear thermometer using the probe cover according to the embodiment before the probe cover is attached. The thermometer main body 11 has a tapered probe 12 at the tip. However, the thermometer main body 11 may be a well-known one or a new one as long as the probe 12 is provided. The ear thermometer includes a ring 13 for attaching the probe cover, in addition to the probe cover 1. As shown in FIG. 4, the ring 13 is an O-shaped ring.
A small diameter portion 15 is formed. Further, as shown in FIG. 5A, the ring 13 may be provided with a projection 16 on the outer peripheral edge so that the ring 13 can be easily removed. FIG.
(B), a C-ring may be used instead of the O-ring.

When attaching the probe cover 1 to the probe 12 of the thermometer main body 11, the projection 2 of the probe cover 1 is fitted to the tip 12a of the probe 12, as shown in FIG. Since the hollow inner diameter of the projection 2 is set slightly larger than the outer diameter of the tip 12a of the probe 12,
By fitting the projection 2, the infrared transmission window 7 is accurately positioned on the tip 12 a of the probe 12. Subsequently, the ring 13 is fitted downward from above the projection 2 and the inner diameter of the ring 13 is fitted to the base end 12b of the probe 12, so that the flat portion 4 is thin as shown in FIG. The probe 12 is completely covered with the probe cover 1 including a part of the flat portion 4 by bending downward by the downward movement of the ring 13. Further, with the probe cover 1 completely attached, a part 4 a of the flat portion 4 protrudes outward from the base 12 b of the probe 12. Therefore, at the time of removal, the probe cover can be easily removed by grasping the protruding portion 4a with a finger and pulling it upward.

In FIGS. 3 and 6, the flange-shaped flat portion 4 is shown horizontally, but as shown in FIG. 6, when the projection 2 is fitted to the tip 12a of the probe 12, Since the flat portion 4 is a thin sheet, the outer peripheral edge hangs down by its own weight. Therefore, if a normal person such as an adult does not use the ring 13, even if the probe is inserted into the ear cavity from the state of FIG. 6, sufficiently practical measurement is possible.

Although the probe cover of the above embodiment has been described for use in an ear thermometer, the probe cover of the present invention is not limited to an ear thermometer, but is widely applied as a protection device for other biomedical instruments. can do.

[0015]

According to the present invention, a hollow projection formed of a flat top portion and an inclined portion forming an infrared transmitting window, and a flange-shaped continuous portion provided at the base of the projection portion, are provided in comparison with the flat top portion. Since it has a flange-shaped flat portion with a remarkably large area and is formed of a single thin film, a projection that can be easily attached to the probe tip of the thermometer main body is formed. By simply fitting the tip of the probe into the protruding portion, the infrared transmission window can be positioned with respect to the tip surface of the probe, the film does not shift, the probe cover can be easily attached, and the measurement accuracy can be guaranteed.

By making the outer diameter of the flange-shaped flat portion larger than that of the mounting ring, the removal operation becomes easy, and the size of the flange-shaped flat portion can be changed depending on the measurement site. Since the shape of the film projection is shallow, the original sheet can be used with a small thickness, and material management of the original sheet by vacuum compression molding is simplified. In addition, it is easy to control the thickness of the infrared transmission window formed on the projection of the formed film. In addition to guaranteeing the accuracy of the thermometer, the probe cover can be manufactured at low cost.

Since the probe is in the form of a film, it can be printed on the flat portion of the probe cover, and it is possible to easily write notes, identifications, or decorations. Since the probe cover is made of a film and is made of a thin material, the entire probe cover can be formed of a soft material, and the insertion feeling of use is good. It can also be used on the ears of infants with weak skin.

Since the probe cover is thin and the projections are shallow, any number of the probe covers can be stacked. And the like.

[Brief description of the drawings]

FIG. 1 is a plan view and a side view showing a probe cover according to an embodiment of the present invention.

FIG. 2 is an enlarged sectional view of the probe cover of the embodiment.

FIG. 3 is an explanatory diagram of an ear thermometer using the probe cover according to the embodiment before the probe cover is attached.

FIG. 4 is a plan view and a sectional view of a ring used when the probe cover is mounted.

FIG. 5 is a plan view showing another example of a ring used when attaching the probe cover.

FIG. 6 is a diagram illustrating a state in which a protruding portion of the probe cover is fitted to a tip of a probe of an ear thermometer.

FIG. 7 is a side view showing a state where the probe cover is attached to a probe of an ear thermometer.

FIG. 8 is a diagram showing a state before a conventional probe cover is attached to a probe of an ear thermometer.

FIG. 9 is a diagram showing a state in which the conventional probe cover is attached to a probe of an ear thermometer.

FIG. 10 is a sectional view showing another conventional probe cover.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Probe cover 2 Projection part 3 Base part 4 Flange-like flat part 5 Top flat surface 6 Inclined part 7 Infrared transmission window 12 Probe 13 Ring

Claims (8)

[Claims] 1. A hollow projection formed of a flat top portion and an inclined portion forming an infrared transmitting window, and a flange-shaped continuous portion provided at the base of the projection portion, and has a significantly larger area than the flat top portion. A probe cover comprising: a flat portion; and the projection and the flange-shaped flat portion are formed of one thin film. 2. The probe cover according to claim 1, wherein the height of the projection is smaller than the height of the probe. 3. The probe cover according to claim 1, wherein the inner diameter of the projection is set to be along the outer diameter of the probe. 4. The probe cover according to claim 1, wherein the ratio of the diameter of the flat portion to the flat portion of the flange is as large as 1: 4 or more. 5. The method according to claim 1, wherein the ratio of the height of the projection to the diameter of the flange-shaped flat portion is 1: 3 or more, and the diameter of the flange-shaped flat portion is large. Probe cover. 6. The probe cover according to claim 1, wherein said film has a thickness of 5 to 50 microns. 7. The probe according to claim 1, wherein a tip of a probe is inserted into said projection, and a flat portion having a flange shape is fixed to said probe by a ring. The probe cover according to claim 5 or claim 6. 8. An outer diameter of the flange-shaped flat portion is set such that an outer peripheral portion projects outward of the ring when fixed to the probe by the ring. Probe cover.