JP2008095230A - Auscultation garment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an auscultation garment designed so that a patient can be diagnosed using a stethoscope or with the garment on. <P>SOLUTION: The auscultation garment enables diagnosis through fabric, wherein an average deviation of surface roughness of each of the wale direction and the course direction of a knit, or a length direction and a width direction of the knit detected by the KES method is 0-2.0 μm in both surface of woven/knit. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an auscultatory garment capable of diagnosis using a stethoscope while wearing clothes.

  When a doctor or other medical professional examines using a stethoscope, the subject is usually undressed and auscultated by pressing the head of the stethoscope against the subject's skin. . For example, Patent Document 1 has been proposed as an improvement of a stethoscope that allows medical treatment using a stethoscope while wearing clothes. In addition, a cover sheet that is detachably attached to the head portion of a stethoscope has been proposed as an attempt to prevent the head portion of the stethoscope from directly touching the skin during examination (for example, Patent Document 2).

JP-A-6-181921 JP 2004-329245 A

  An object of the present invention is to provide an auscultatory garment that enables accurate auscultation using a stethoscope while wearing clothes.

  The present inventors have found that if a woven or knitted fabric having specific physical properties is used, diagnosis using a stethoscope can be performed on the woven or knitted fabric, and the present invention has been achieved. That is, the present invention can be auscultated through a fabric in which the average deviation of the surface roughness according to the KES method in the well direction and the course direction of the knitted fabric or in the vertical and horizontal directions of the knitted fabric is 0 to 2.0 μm on both sides of the woven and knitted fabric. Auscultation clothes. Furthermore, it is preferable that the mean deviation (MMD) of the coefficient of friction according to the KES method in each of the well direction and the course direction of the knitted fabric, or the vertical and horizontal directions of the knitted fabric is 0 to 0.01 on both sides of the woven or knitted fabric.

  The auscultation garment of the present invention enables accurate auscultation using a stethoscope while wearing clothes, and the mental or physical burden associated with undressing at the time of medical care and medical examination among elderly people and women is reduced. , Providing quality of life improvements. In addition, it is possible to shorten the examination time in auscultation, the problem of hygiene when the head part of the stethoscope and the skin of a large number of people are in contact, the problem of low temperature on the skin of the metal head part, and the like.

The present invention is described in detail below.
The auscultation garment of the present invention has an average deviation of the surface roughness according to the KES method in the well direction and the course direction of the knitted fabric, or the vertical direction and the horizontal direction of the knitted fabric on both sides of the knitted fabric. It is characterized by. The average deviation (SMD) of the surface roughness can be determined using KES-FB4-AUTO-A manufactured by Kato Tech Co., Ltd. Specifically, in an environment of 20 ° C./65% RH, a contact of a knitted and knitted fabric applied with a tension of 100 gf / cm with respect to a sample width of 20 cm and a piano wire of 0.5 mmΦ folded once to a width of 5 mm. The average deviation of the surface roughness when the contact piece is brought into contact with the contact pressure of the spring by a force of 5 gf and the friction piece thus pressed is moved 2 cm horizontally at a constant speed of 1 mm / sec. When the average deviation of each surface roughness satisfies the scope of the present invention, friction between the woven / knitted fabric and the subject's skin during auscultation and between the woven / knitted fabric and the stethoscope head, in particular, stick slip can be reduced. This enables accurate auscultation with little noise using a stethoscope. When the average deviation of the surface roughness exceeds 2.0 μm, noise during auscultation becomes excessive, and correct auscultation becomes difficult. A preferable range of the average deviation of the surface roughness is 1.5 μm or less, and more preferably 1.0 μm or less.

  Further, in this specification, the well direction of the knitted fabric refers to the arrangement in the longitudinal direction of the loop of the woven fabric, the course direction of the knitted fabric refers to a continuous series of the loop of the woven fabric, and the vertical direction of the woven fabric refers to the length direction of the woven fabric. The horizontal direction is the width direction of the fabric.

  Furthermore, it is preferable that the mean deviation (MMD) of the coefficient of friction according to the KES method in each of the well direction and the course direction of the knitted fabric or the warp direction and the horizontal direction of the knitted fabric is 0 to 0.01 on both sides of the woven or knitted fabric. The average deviation of the friction coefficient can be determined using Kato Tech Co., Ltd. KES-FB4-AUTO-A. Specifically, in an environment of 20 ° C./65% RH, a knitted fabric knitted with a tension of 100 gf / cm and 10 piano wires of 0.5 mmΦ are arranged and 5 × 5 mm of contacts wound on the surface. The average deviation of the coefficient of friction when the contact surface is pressed against the woven or knitted fabric with a force of 50 gf and moved horizontally by 2 cm at a constant speed of 0.1 cm / sec.

  If the average deviation of the coefficient of friction is within the desired range, friction between the woven and knitted fabric and the subject's skin during auscultation and between the woven and knitted fabric and the stethoscope head, especially the stick-slip phenomenon, can be reduced. It is possible to provide accurate auscultation with less noise using the instrument. If the average deviation of the coefficient of friction exceeds 0.01, noise during auscultation may increase and correct auscultation may be difficult. A preferable range of the average deviation of the friction coefficient is 0.008 or less.

  As the woven or knitted fabric satisfying the desired SMD value as described above, more preferably the desired MMD value, one having a dense surface structure is preferable. For example, a material having few gaps formed by crossing fibers or fiber bundles is preferably selected. The reason why the surface structure is fine is preferable. When the surface structure is sparse, the frictional sound between the clothes and the skin and the frictional sound between the head of the stethoscope and the clothes resonates in the gaps between the fibers of the clothing material and is amplified. This is probably because of this.

Such a woven or knitted fabric can be provided by selecting a specific weaving / knitting density, fiber diameter, density and the like. When the thickness is measured at a low pressure for a knitted fabric of 7 g / cm ² , it is preferably 0.32 or more. When measured at a high pressure for a fabric of 240 g / cm ² , the knitting density is preferably 0.4 or more, and more preferably 0.45 or more.

The thickness of the woven or knitted fabric used in the auscultation garment of the present invention at a measurement load of 7 g / cm ² is preferably 0.3 to 0.6 mm. If the thickness exceeds 0.6 mm, the attenuation of the body sound may increase and correct auscultation may not be possible.

The density at a measurement load of 7 g / cm ² of the woven or knitted fabric used in the auscultatory garment of the present invention is preferably 0.3 to 1 g / cm ³ . By setting the density to 0.3 to 1 g / cm ³ , the SMD value and the MMD value can be set to desired values, which is preferable. When the density is smaller than 0.3 / cm ^3, it is considered that the frictional sound between the clothes and the skin and the frictional sound between the head of the stethoscope and the clothes resonate in the gap between the fibers of the clothes material and are amplified.

The air content of the woven or knitted fabric used in the auscultatory garment of the present invention is preferably 75% or less when the thickness is measured at a low pressure for a knitted fabric of 7 g / cm ² . Moreover, when measured at a high pressure for a fabric of 240 g / cm ² , it is preferably 65% or less. If the air content exceeds 75% during measurement at a low pressure, noise during auscultation may increase. In addition, when measuring at a high pressure, if it exceeds 65%, noise during auscultation may become large.

Specific examples of the woven or knitted fabric preferably include a high-density woven or knitted fabric, a woven or knitted fabric composed of ultrafine fiber bundle yarns, or a surface-treated woven or knitted fabric.
Although it will not specifically limit if it is a method which can provide the physical property requested | required as a surface processing method, For example, the method of coating a calendar process, a silicon | silicone, etc. as a conventionally well-known processing method is mentioned. In particular, in order to obtain a woven or knitted fabric satisfying a desired SMD value, more preferably a desired MMD value, it is preferable to raise both sides of the woven or knitted fabric. By raising the surface, the surface structure can be made uniform, and the average deviation of the surface roughness and the average deviation of the friction coefficient can be set to desired values. Specific methods of raising include buff raising and needle cloth raising, but buff raising is preferable because finer raising treatment is possible.

  The knitted or knitted fabric used in the auscultatory garment of the present invention can be appropriately selected as long as it has the specific properties as described above. The average fineness of the ultrafine fiber bundle yarn is preferably 0.1 to 1.1 dtex, more preferably 0.1 to 0.6 dtex. The spinning method of the ultrafine fiber is not particularly limited as long as a conventionally known method can be applied and a desired SMD value or MMD value can be provided. In addition, raising a woven or knitted fabric made of ultrafine fibers as described above can preferably provide a woven or knitted fabric satisfying desired SMD values and MMD values.

  Of the knitted and knitted fabrics used in the auscultatory garments of the present invention, the knitted fabrics are particularly preferred because they are stretchable and can reduce the decrease in stick slip. Moreover, when an inpatient uses, it is preferable that it is the woven / knitted fabric which can be worn for a long time.

  The material of the woven or knitted fabric used for the auscultatory garment of the present invention is not particularly limited as long as a woven or knitted fabric having an average deviation of the required surface roughness can be provided, and can be selected from synthetic fibers, natural fibers, and recycled fibers. Specific examples include synthetic fibers such as polyester, nylon and acrylic, natural fibers such as cotton, silk and hemp, and combinations thereof. The fibers constituting the woven or knitted fabric may be long fibers or short fibers.

  Examples of the shape of the auscultation garment of the present invention include a T-shirt, a jacket, a poncho, an apron, a cape, and the like, but are not particularly limited. For more accurate auscultation, a shape that can be in close contact with the skin is preferred.

  The following examples illustrate the invention. However, the present invention is not limited to these examples.

(Weaving and knitting used)
Example 1 (High Density) Smooth Microfiber-Brushed (Buffing)
Example 2 (High Density) Smooth Microfiber-No Brushed Example 3 (High Density) Plain Weave Microfiber-Brushed No Example 4 (High Density) Smooth Porous Water Absorbent Polyester (Antistatic Processing)
Comparative Example 1 Smooth Antistatic polyester comparative example 2 W tricot Fullal polyester comparative example 3 100% cotton male underwear (manufactured by Gunze Co., Ltd.)
Comparative Example 4 Tengu Men T-shirt (Fuji Defense Co., Ltd. BVD)
Comparative Example 5 100% cotton female underwear (Gunze Co., Ltd.)

(Average deviation of surface roughness of woven / knitted fabric / SMD)
A test piece of 20 cm width was attached by applying a tension of 100 gf / cm under an environment of 20 ° C./65% RH using Kato Tech Co., Ltd. KES-FB4-AUTO-A. The piano wire was bent to a width of 5 mm and pressed to the sample at 5 gf and moved horizontally at a constant speed of 1 mm / sec, and the well direction and the course direction of the knitted fabric, or the vertical direction and the horizontal direction of the knitted fabric were measured. .

(Friction coefficient average deviation / MMD)
A test piece of 20 cm width was attached by applying a tension of 100 g under an environment of 20 ° C./65% RH using Kato Tech Co., Ltd. KES-FB4-AUTO-A, and a contact (0.5 mmΦ piano wire) Is wound on a 10 × 5 × 5 mm surface) with a pressure of 50 gf and moved horizontally at a constant speed of 1 mm / sec to change the well direction and the course direction of the knitted fabric, or the warp direction and the horizontal direction of the knitted fabric. It was measured.

(Measurement of thickness)
High pressure measurement for woven fabric is measured by JIS L1096 method with a measurement load of 23.5 kPa (240 g / cm ² ), and low pressure measurement for knitted fabric is measured by JIS L1018 method with a measurement load of 0.7 kPa (7 g / cm ^2). ) Was measured.

(Density measurement)
The density of the woven or knitted fabric: D [g / cm ³ ] is based on the above-mentioned thickness: T [mm] and the basis weight [g / m ² ]: W,
D = W / (1000T).

(Measurement of air content)
The air content of the knitted or knitted fabric: A [%] is from thickness: T [mm], specific gravity of the material: G [−], basis weight: W [g / m ² ],
It calculated by A = 1- (W / 1000GT).

  The physical property values of Examples 1 to 4 and Comparative Examples 1 to 5 are summarized in Tables 1 and 2.

(Auscultation)
Subjects were asked to wear auscultation clothes made of each knitted and knitted fabric, and auscultation by a doctor was performed and evaluated. The results of auscultation of respiratory sounds were summarized in Tables 1 and 2 as ◎ (good), ○ (somewhat good), △ (somewhat difficult), and × (difficult).

  From the above results, it was confirmed that the clothes of the examples can be auscultated with an accurate breathing sound from above the fabric.

Claims (7)

  An auscultation garment capable of auscultating through a fabric, wherein the average deviation of the surface roughness according to the KES method in each of the knitted well direction and the course direction, or the knitted warp direction and the horizontal direction is 0 to 2.0 μm on both sides of the woven or knitted fabric.   The auscultation according to claim 1, wherein the mean deviation (MMD) of the coefficient of friction by the KES method in each of the well direction and the course direction of the knitted fabric, or the vertical direction and the horizontal direction of the knitted fabric is 0 to 0.01 on both sides of the woven and knitted fabric. clothes.   The auscultable garment according to claim 1, wherein both surfaces of the woven or knitted fabric are raised. Thickness woven in the measurement weight 7 g / cm ² of knitted garments for auscultation according to a is any of claims 1 to 3 0.3 to 0.6 mm. Auscultatory garment according to any one of claims 1 to 4 density at measuring weights 7 g / cm ² of the woven or knitted fabric is 0.3 to 1 g / cm ^3.   The auscultation garment according to any one of claims 1 to 5, wherein the woven or knitted fabric is composed of an ultrafine fiber bundle yarn having an average fineness of 0.1 to 1.1 dtex.   The garment for auscultation according to any one of claims 1 to 6, wherein the woven or knitted fabric is a knitted fabric.