JP2004135712A - Sheet for patient - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sheet for a patient to be used as one of nursing-care articles, especially bedclothes for the elderly or for medial care, for reducing efforts in sanitization and care-taking by adding an anti-bacterial or sterilization function. <P>SOLUTION: A soft-feel upper side edge cloth 3 such as towel cloth is sewn to the periphery of an upper center anti-bacterial cloth 2. The anti-bacterial treatment is applied to the upper side edge cloth 3 for inhibiting growth of coli bacteria such as O-157. A lower side edge cloth 9 made of the same texture as the upper side cloth 3 is attached to the rear side of the upper side edge cloth 3, and a lower center anti-bacterial cloth 8 with the anti-bacterial treatment is attached to the upper center anti-bacterial cloth 2 as well. In addition, a filling material 10 for ejecting far infrared rays with humidity absorbing and anti-bacterial functions are put between the upper center anti-bacterial cloth 2 and the upper side edge cloth 3 and the lower center anti-bacterial cloth 3 and the lower side edge cloth 9 on the rear side to make the sheet for the patient. Moreover, slits 4, 5, 6 and 7 are formed at four corners of the upper side edge cloth 3, and it it possible to carry a person to be cared while the person is laying on the back on the sheet for the patient. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a bed sheet for a patient used as one of nursing care articles, and particularly to a bed sheet for the aged or medical care, which is provided with an antibacterial or sterilizing function to reduce hygiene and nursing care. About.
[0002]
[Prior art]
At present, due to the transition to a declining birthrate and aging society and a demand for improvement of welfare, an increasing number of people need to care for bedridden elderly people or sick persons (hereinafter, cared people). In particular, there are some care recipients who have difficulty in changing their supine postures due to a decrease in physical exercise ability or muscle strength. In the case of such a cared person, a pressure sore may occur due to bedsore on the skin surface pressed against the bedding, and eventually gangrene or ulcer may occur. Therefore, it is strongly required that bedding that the care-receiver's skin touches directly or indirectly always maintain cleanliness. To satisfy the cleanliness of the bedding, first, washing or sun-drying of the bedding is preferable.
[0003]
[Problems to be solved by the invention]
However, operations such as changing sheets and washing bedding are troublesome. In particular, when changing bedding, it is necessary to change the body of the cared person because the bedding placed under the body of the cared person is changed, which requires a lot of labor. I have. In particular, in facilities such as nursing homes for the elderly, hospitals, etc., where there are many cared people, the work time and labor for each cared person tend to be a large burden on facility management.
[0004]
Also, during the rainy season, which is a characteristic of Japan, washing and drying of sheets can be outsourced to a specialized company equipped with a dryer, but bedding itself may not be sufficiently sun-dried and sun-sterilized. . Particularly in the case of home care, the degree of inconvenience may have a significant effect on the health of the cared person. Further, in the conventional futon, bedding and sheets are separate materials, and two types of work such as washing and drying sheets and sundrying bedding are required. Therefore, there is a need for a bedding that can reduce the work of drying the bedding used by the care-receiver in the sun and reduce the increase in bacteria as much as possible.
[0005]
The present invention has been made in order to solve the above-described problems, and provides a patient bedsheet that can suppress the growth of bacteria, can reduce the maintenance work of bedding, and can reduce the moving effort of the cared person. The purpose is to do.
[0006]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, the mattress for a patient of the present invention sews a comfortable upper edge cloth such as a towel cloth around the upper central antibacterial cloth. The upper edge fabric has been subjected to an antibacterial treatment for suppressing the generation of Escherichia coli such as O-157. On the back side of the upper edge cloth, there is a lower edge cloth made of the same towel cloth as the upper edge cloth. Similarly, on the back side of the upper central antimicrobial cloth, there is a lower central antimicrobial cloth that has been subjected to antimicrobial treatment. The upper central antibacterial cloth and the lower lower central antibacterial cloth emit far-infrared rays and sandwich a filler having a moisture absorbing and antibacterial action. The upper central antimicrobial cloth and the lower central antimicrobial cloth are made uneven by quilting to improve air permeability, and the upper central antimicrobial cloth has antibacterial treatment and a low coefficient of friction on the surface and is slippery And Slits were formed at the four corners of the upper side edge cloth so that the cared person could be conveyed while lying on the patient's bedcloth.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
As used herein, the term "antimicrobial" is intended to mean sterilization to kill bacteria, sterilization to reduce the number of bacteria, and suppression of bacterial growth. That is, the term "antimicrobial" is used synonymously with "sterilization" and "sterilization." Similarly, the term "deodorant" has the meaning of absorbing odors, deodorizing by killing bacteria that generate odors, and decomposing odors (unpleasant odors such as ammonia). I do. The wording "warming" has the meaning of directly or indirectly preventing the invasion of cold air, the protection against cold such as preventing body heat from being deprived by outside air, and the like, and the reduction of body temperature. The term “moisture absorption” includes functions such as drying, moisture prevention, and dehumidification.
[0008]
(1) Structure of bedsheet for patient
FIG. 1 shows a top view of a patient bedsheet 1 according to the present invention. FIG. 2 is a view of the lower surface of the patient pad 1 according to the present invention. FIG. 3 shows a vertical cross-sectional view of the patient bedsheet 1 cut in the longitudinal direction. FIG. 4 is an assembly view of the patient bedsheet 1 according to the present invention. The bedding for patients of the present invention can be used on bedding such as O-157 (pathogenic Escherichia coli), methicillin-resistant Staphylococcus aureus (MRSA) known for nosocomial infections, enteric bacteria, staphylococci, Pseudomonas aeruginosa, and cansida. The purpose is to suppress the occurrence or proliferation of fungi (fungal infections) and other bacteria, and to improve the heat retention. Therefore, cloths having various effects are used in combination in the patient mat 1 of the present invention.
[0009]
The bedding 1 for a patient of the present invention is made of a structure in which a batting is enclosed and bound with two large cloths. That is, the upper side of the patient bedding 1 is composed of an upper central antibacterial cloth 2 having a rectangular outer shape and a single piece of cloth, and an upper side edge cloth 3 having a rectangular hole at the center. As the upper central antibacterial cloth 2, a cloth treated to prevent methicillin-resistant Staphylococcus aureus (MRSA), Pseudomonas aeruginosa and Escherichia coli from growing is used.
[0010]
For the upper marginal cloth 3, a towel cloth that has been subjected to an antibacterial treatment for suppressing bacteria that infect the oral cavity such as O-157 (pathogenic Escherichia coli) is used. As the antibacterial treatment for suppressing Escherichia coli, a cloth made of fibers into which a natural substance such as catechin is kneaded corresponds.
[0011]
The upper central antibacterial cloth 2 and the upper side edge cloth 3 are sewn into one piece of cloth by means of sewing or the like, but near the boundary and at the four corners of the upper central antibacterial cloth 2. The upper edge cloth 3 is provided with four slits 4, 5, 6, 7. The slits 4, 5, 6, and 7 are holes that completely penetrate the bedsheet 1 for the patient up and down, and the size thereof is such that a human hand can be inserted. That is, the size of the slits 4, 5, 6, 7 in the longitudinal direction is about 10 to 15 cm.
[0012]
FIG. 2 shows a state of the lower surface of the bed sheet 1 for the patient. The lower side of the bed sheet 1 for the patient is also rectangular in shape, and a lower central antibacterial cloth 8 of one piece of cloth and a central portion are provided. And a lower side edge cloth 9 having a rectangular hole. The lower central antibacterial cloth 8 is made to have the same outer shape and size as the upper central antibacterial cloth 2, and the batting is sandwiched between the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 from above and below. I have.
[0013]
The lower side edge cloth 9 is also formed in the same outer shape and size as the upper side edge cloth 3. Moreover, the lower side edge cloth 9 is made of a towel cloth subjected to an antibacterial treatment. The above-mentioned slits 4, 5, 6, 7 are opened in the lower side edge cloth 9 located at the four corners of the lower central antibacterial cloth 8. A filler 10 such as cotton, wool, or feather is sandwiched between the lower central antibacterial cloth 8 and the upper central antibacterial cloth 2.
[0014]
FIG. 5 shows a state in which the upper central antibacterial cloth 2 is viewed upward. When the upper center antibacterial cloth 2 and the lower center antibacterial cloth 8 are combined, a large number of elongated fillers 10 are sandwiched inside. A plurality of flat portions 11 formed by sewing are provided in the short direction of the upper central antibacterial cloth 2. That is, after the filling material 10 is sandwiched between the upper central antimicrobial cloth 2 and the lower central antimicrobial cloth 8 from above and below, a plurality of flat portions 11 are formed, and the upper central antimicrobial cloth is formed into a quilt-like shape. 2 and lower central antimicrobial cloth 8.
[0015]
FIG. 6 shows a partially enlarged view of the flat portion 11. One flat portion 11 is formed by gathering two to five rows of sewing stitches 12 (five rows of perforations in FIG. 6) at equal intervals. As a result, a flat (concave) portion having a predetermined width is formed in the flat portion 11 of the upper side edge cloth 3 (and the lower central antibacterial cloth 8), and the upper side edge cloth 3 having no flat portion 11 has an inner portion. The filled bulge 13 is formed by the filling 10. Thereby, the surface of the upper side edge cloth 3 is formed into a wavy shape in which the flat portions 11 and the bulging portions 13 are alternately arranged (see FIG. 3).
[0016]
Since the sewing 12 of the flat portion 11 is performed by combining the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8, the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 in the flat portion 11 are joined together. It has a close contact shape. When the lower central antibacterial cloth 8 having such a shape is laid on a bed or a mat, a plurality of flat portions 11 facilitate the flow of air in the short direction of the lower central antibacterial cloth 8 and provide ventilation. Can play a role. That is, the ventilation of the surface of the upper central antibacterial cloth 2 or the lower central antibacterial cloth 8 can be performed more favorably at the flat portion 11 (see FIG. 3).
[0017]
When the flat portion 11 is formed by sewing, the filling 10 may be removed at that portion (see FIG. 4). That is, the filler 10 may not be completely provided between the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 in the flat portion 11. In this case, the filler 10 fills the collection of the elongated fillers 10 only in the bulging portion 13. Thereby, the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 can be sewn together with the swelling of the filler 10 kept larger.
[0018]
However, the filler 10 may be present in the flat portion 11. That is, after the filler 10 uniformly spread like a piece of cloth is sandwiched between the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 from above and below, the flat portion 11 is sewn with a sewing machine, and 10 may be sewn integrally with the upper center antibacterial cloth 2 and the lower center antibacterial cloth 8. Thereby, it is possible to minimize the movement of the filler 10 between the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 due to reasons such as washing and body pressure of the cared person.
[0019]
As described above, after the filling material 10 is sandwiched between the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 from above and below, sewing is performed, and the upper and lower surfaces are formed in a wavy shape. The upper side edge cloth 3 and the lower side edge cloth 9 are sewn like the edge side to form the patient bedsheet 1 (see FIG. 4). The overall size of the patient bedsheet 1 is about 1 meter 30 cm in the longitudinal direction and about 80 cm in the transverse direction. However, the size may be larger or smaller.
[0020]
By the way, the slits 4, 5, 6, 7 are formed as holes vertically penetrating the upper edge cloth 3 and the lower edge cloth 9 sewn up and down integrally. Processing such as chain stitching is applied to prevent the fabric from fraying.
[0021]
By the way, a cared person generally eats on a bed in many cases. In particular, victims who have suffered serious injuries, such as fractures, have to eat on bed. In addition, at the time of going to bed, the hands and face (particularly, mouth) of the care receiver are located in the peripheral portion of the patient bedsheet 1. Therefore, by suppressing the generation of bacteria that may cause oral infection such as O-157 around the edge of the bedsheet 1 for patients, it is possible to effectively prevent the bacteria of O-157 from adhering to hands, face, and mouth. It is possible to efficiently prevent bacteria such as O-157 from entering the body.
[0022]
In addition, the care receiver generally wears sleepwear or other underwear on the body part, but the hands, feet and face are generally exposed, and the upper central antibacterial cloth is provided on the part. When No. 2 is used, the caregiver's feeling of use, such as poor touch, is poor. However, in order to prevent the caretaker from turning over and pressure ulcers, a cloth having a small coefficient of friction and high lubricity is required. Therefore, the present invention is designed to simultaneously solve three problems, such as feeling of use, multiplication of bacteria, and reduction of the caregiver's labor, by combining the respective parts that come into contact with the care receiver using a preferable cloth. Things.
[0023]
(2) Explanation of Cloth Material of Upper Edge Cloth 3 and Lower Edge Cloth 9
For the upper side edge cloth 3 and the lower side edge cloth 9, for the purpose of suppressing generation and growth of bacteria and viruses such as O-157, a towel cloth subjected to a deodorant and antibacterial treatment is used. The deodorant / antibacterial treatment means a treatment for attaching a deodorant / antibacterial agent to fibers or kneading them into raw materials of fibers. For example, there are processes such as vapor deposition of an antibacterial agent on the fiber surface and kneading of the antibacterial agent into a fiber raw material at the time of producing the fiber. As the deodorant / antibacterial agent, titanium dioxide, silver, catechin and the like are known. Titanium dioxide exerts an antibacterial action by a photocatalytic action.
[0024]
In addition, the upper margin cloth 3 and the lower margin cloth 9 are lifted by the caregiver's hands inserted into the slits 4, 5, 6, and 7, and the care receiver is transported or turned over on the patient bedsheet 1. Is performed. For this reason, the towel cloth is used for the purpose of preventing the caregiver's hand from slipping and gripping the caregiver and improving the feel of the care-receiver's skin.
[0025]
Further, in a bed or the like in which the care receiver is laid on a position slightly floating above the floor, towel cloth is used to prevent the patient's bedsheet 1 from slipping off the bed together with the care receiver. In other words, the upper edge cloth 3 and the lower edge cloth 9 are made of a material which has a relatively large surface resistance and is subjected to a soft brushing treatment with a soft touch. In addition, since the head, hands and feet of the cared person are located in the upper side edge cloth 3, the antimicrobial agent applied to the upper side edge cloth 3 is a natural material antibacterial agent such as catechin. More psychological security is given to the user (caregiver and cared person).
[0026]
In addition, the fiber density of the fabric used for the upper side edge cloth 3 and the lower side edge cloth 9 is 32.5 2.0 children per 3.8 cm in the vertical direction and 2.50 in the horizontal direction. There were 38 2.0 children in 0 cm. High density lip yarns (sometimes used for upper center antibacterial cloth 2 and lower center antibacterial cloth 8) have a density of 174 warp yarns per inch and 120 weft yarns per inch. The upper edge fabric 3 and the lower edge fabric 9 have ruggedness (JIS standard value of the degree of deterioration when rubbed under a load) in dry class 3 and wet class 3-4. is there.
[0027]
(3) Explanation of the cloth material of the upper center antibacterial cloth 2
On the other hand, the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 are also made of antibacterial cloth, but the lower central antibacterial cloth 8 is subjected to a deodorizing treatment. The upper central antimicrobial cloth 2 is made of synthetic fibers such as polyamide-based synthetic fibers, rayon or polyester, natural fibers having a small friction coefficient on the surface of silk or the like, and fibers having a relatively high lubricity. A mixture is used, and the fibers used are subjected to an antibacterial and deodorizing treatment. The upper central antimicrobial cloth 2 is subjected to a moisture absorbing or moisture permeable treatment, and the moisture absorption or moisture permeable treatment provides air permeability. Since the care receiver lies on the upper central antibacterial cloth 2, pressure ulcers (bed sores) with bedding are likely to occur.
[0028]
To prevent the deterioration or outbreak of pressure ulcers by suppressing the growth of methicillin-resistant Staphylococcus aureus (MRSA), which is a hospital-acquired bacterium, and Pseudomonas aeruginosa and Escherichia coli detected in patients' pressure ulcer sites, A fabric made of an antibacterial agent such as ceramics kneaded into the fiber or firmly attached to the fiber surface is used for the upper central antibacterial cloth 2. Moreover, the surface of the cloth used for the upper central antibacterial cloth 2 is relatively smooth (has a good touch and feel), so that friction with human skin can be reduced, and the occurrence or deterioration of pressure ulcers can be prevented.
[0029]
When titanium dioxide or another photocatalytic substance is used as the antibacterial agent, a photocatalytic reaction is generated by room light such as sunlight or a fluorescent lamp applied to the cloth surface, and the deodorant and antibacterial effects are exhibited. As described above, since the upper central antibacterial cloth 2 is a cloth indirectly or directly in contact with the human body of the cared person, a cloth having a small friction coefficient on the surface of the cloth and having a sterilizing or antibacterial function is used. An example of the cloth used for the upper central antibacterial cloth 2 is Saniter 30 (a product of Kuraray Co., Ltd.). The saniter 30 is an antibacterial and deodorant fiber into which a special silver-based ceramic is kneaded during melt spinning of a polyester fiber.
[0030]
The special silver-based ceramic of the saniter 30 is an antibacterial agent, and is a ceramic containing a metal having an antibacterial effect, for example, silver, zinc, and other metals. Bacteria that have the effect of suppressing the growth due to the special silver-based ceramics include Bacillus subtilis, Pseudomonas aeruginosa (causative agent of pressure sore), Pneumococcus, Escherichia coli, Salmonella, Vibrio parahaemolyticus, Trichophyton, Methicillin-resistant Staphylococcus aureus (MRSA) ).
[0031]
Further, cloth of Shine Up (trademark) EX sold by Kuraray Co., Ltd. may be used. This Shine Up EX is made by kneading a metal-containing ceramic-based special deodorant (containing titanium dioxide) into a composite fiber composed of polyester fiber and polyamide-based synthetic fiber fiber. As a result, deodorant and antibacterial effects are exhibited. There are similar ones for cloths sold by Shinshu Ceramics Co., Ltd.
[0032]
(4) Description of the filling 10
As described above, the filler 10 is used in combination with one or more of cotton or feathers, other artificial fibers, natural fibers, odor absorbing substances such as activated carbon and ceramics, charcoal and other moisture absorbing substances, and the like. May be. In this embodiment, a first internal component (fiber or batting) that emits far-infrared rays and absorbs moisture, and a second internal component (fiber or batting) that has been subjected to antibacterial treatment (sterilizing ability) are used.
[0033]
(5) Description of the first internal component of the filling 10
As the first built-in material, a wool-type filling in which ceramics made of natural zeolite as a raw material are kneaded or adhered to natural fibers or artificial fibers is used. Zeolites are hydrous aluminosilicate minerals that contain water molecules in the molecular structure in the form of water of crystallization. More specifically, the chemical composition of zeolite is a condensed acid salt in which a part of silicon of silicate is replaced by aluminum, and has a three-dimensional network structure in a connected tetrahedron of SiO 4 —AlO 4, and thus includes cavities. A structure is formed.
[0034]
A cation (cation) corresponding to the anion (anion) and water of crystallization are present in the cavity or a pore formed by connecting the cavities by electrostatic attraction of metal ions. . Zeolites of various structures exist depending on the ratio of silicon to aluminum in the skeleton or the type and number of cations. General properties of zeolites include cation exchange capacity, molecular sieve action, adsorption of polar substances, catalysis, far-infrared radiation, and the like.
[0035]
Since the water of crystallization of zeolite exists as a water molecule in the three-dimensional network structure of zeolite, it is also particularly called zeolite water, and even when dehydrated by heating or the like, the structure of zeolite is not destroyed, It remains as a cavity, and becomes a sponge-like structure. This cavity has a characteristic that gas and moisture are strongly adsorbed again. That is, there is hygroscopicity or drying property or bacterial adsorption performance.
[0036]
Another major characteristic of zeolites is their base substitution capacity. This is also called a cation exchange capacity "CEC: Cation Exchange Capacity", and has a force to hold or separate cations (NH4 +, potassium, sodium, calcium, etc.) just like a magnet. In particular, the base substitution capacity of zeolite is called permanent charging, and has a property of maintaining its power for a long time without being affected by the surrounding environment (such as PH). Further, zeolite has a property of efficiently emitting far infrared rays.
[0037]
As described above, zeolite has a far-infrared radiation function and an adsorbing function. Such an adsorbing material and an opto-semiconductor ceramic or the like (a mixture of an opto-semiconductor ceramic and / or a metal powder such as silver) are used at the same time. Then, bacteria, viruses, mold or malodorous substances, harmful substances, etc. are first adsorbed and held on the adsorbing material. Then or simultaneously, bacteria, viruses, molds, etc. are killed or reduced by the photocatalytic action of the photo-semiconductor ceramics or the like that have been irradiated with light, and malodorous substances and the like are decomposed. In addition, even in the case of bacteria and other substances that are not adsorbed, growth (proliferation) prevention and repellent effects can be expected by the photocatalytic action of the photosemiconductor ceramics.
[0038]
The first built-in component uses far-infrared radiation to prevent pressure ulcers from deteriorating due to improvement in blood flow of the care recipient lying on the bed sheet 1 for patients, and to increase the growth of bacteria or adsorb odorous substances due to the decrease in humidity due to moisture absorption or drying. The purpose is to prevent the deodorization due to. In particular, the wool-type fibers used in the first built-in material have fine fibers entangled with air to some extent, so that the fibers as a whole can better absorb malodorous components such as ammonia.
[0039]
By the way, the effect of far infrared rays on the human body has a heating effect. In other words, when far-infrared rays are applied to the skin surface, the skin surface is converted into heat and the person feels warmth. Furthermore, when the temperature rises to around 40 ° C., that is, around the human body temperature, the amount of far-infrared rays (including mid-infrared rays / ultra-far-infrared rays) generated from the first internal component becomes the largest. Even if a human body is irradiated with a large amount of far-infrared rays, it takes a long time for the effect of heating the human body to appear, but the persistence is long. The generation of such infrared rays causes the first built-in component to also have a drying action.
[0040]
Further, when far-infrared rays in a specific wavelength range (3 to 16 μ) emitted from the zeolite are irradiated on a human body, the far-infrared rays are absorbed by 60% of a human body fluid (water). In the body fluid in which far-infrared rays have been absorbed, water clusters become small, and the balance of the body fluid is adjusted. As a result, it is believed that blood flow is improved.
[0041]
In addition, the wavelength of the far-infrared ray is shorter than the longer one, so that the inside / deep portion near the epidermis of the human body (foot and leg or human body tissue such as lower leg or upper leg, torso, etc.) is quickly heated (warmed). In addition to stimulating sweating and activating cells, the circulation of blood is improved, and the effect of lowering the viscosity of blood to make it smoother can be expected (in the present application, these effects are referred to as far-infrared effects). The wavelength of far-infrared rays that gives a very good effect on human body tissue is 8 to 14 μm (micron meters), and the wavelength of far-infrared rays that normally gives good effects is 4 to 20 μm (micron meters). The wavelength of far-infrared ray that gives some good effect is 1.5 μm (micron meter) or more, and mid-infrared ray, far-infrared ray, and super far-infrared ray give some good effect.
[0042]
The infrared rays are referred to as near-infrared rays at a wavelength of 0.76 to 1.5 μm, mid-infrared rays at a wavelength of 1.5 to 5.6 μm, far-infrared rays at a wavelength of 5.6 to 400 μm, and ultra-far infrared rays at a wavelength of 400 to 1000 μm. However, in the present specification and claims, the description will be made as far-infrared rays including this mid-infrared ray or ultra-far infrared rays. The longer the wavelength of far-infrared rays, the deeper the body tissue penetrates and warms the body from deeper parts (keeps warm).
[0043]
Therefore, the longer the wavelength of the far-infrared ray, the longer it takes for the far-infrared effect to appear. However, once the far-infrared effect occurs, the far-infrared effect is sustained, and if the bed sheet 1 for the patient is outside the care recipient, Even so, the far-infrared effect continues. In addition, the shorter the wavelength of the far-infrared ray, the more effective it is to warm the surface of the human body tissue (keep the temperature warm). Therefore, as the wavelength of the far-infrared ray is shorter, the far-infrared effect appears immediately earlier, has immediate effect, and it can be expected that the human body is immediately warmed (heated) by the patient bedsheet 1. Therefore, a fibrous material that emits long-wavelength far-infrared rays is used as the first built-in component, and a material that causes the upper central antimicrobial cloth 2 to emit short-wavelength far-infrared rays may be used.
[0044]
(6) Application example of first built-in object
As the first built-in component, a cloth having a trade name of “Bio Nest (registered trademark) Sera” (see Japanese Patent Application Laid-Open No. 2000-17568) sold by Kikko Co., Ltd. may be used. "Bio Nest Cella" is a ceramic in which zeolite, which is a natural ore, is processed and its fine particles are firmly adhered to the surface of natural fibers. By the action of this ceramic and its fine particles, far infrared rays are sufficiently radiated to the outside even at a temperature lower than the body temperature, and a heating effect on the human body is exerted. In addition, this “Bio Nest Cella” may be used for the upper side edge cloth 3, the lower side edge cloth 9, the upper center antibacterial cloth 2 or the lower center antibacterial cloth 8.
[0045]
In addition, as the first built-in material, a cloth sold under the trade name “Serum (registered trademark) A” by Toyobo Co., Ltd. may be used. In the case of the serum A, an ultrafine ceramic is embedded / kneaded in an acrylic fiber. By the action of the ceramics, at about 40 degrees Celsius near body temperature, far infrared rays are radiated to the outside, and a heating effect on the human body is exerted. At around 40 degrees Celsius, the generation amount of far infrared rays is the largest. Further, as described above, since far infrared rays have various wavelengths, two or more kinds of fibers having different wavelengths of far infrared rays to be emitted (processed so as to emit far infrared rays) are laminated. It may be a first built-in component.
[0046]
(7) Description of the second internal component of the filling 10
Cotton or fiber to which an antibacterial agent is attached is used for the second internal component of the filling 10 in order to decompose bacteria or organic substances attached to the first internal component. For example, one in which a quaternary ammonium salt-based antibacterial agent is bonded to a fiber is used. This quaternary ammonium salt-based antibacterial agent destroys the cell wall of methicillin-resistant Staphylococcus aureus (MRSA), suppresses the growth, and acts as a nutrient source of bacteria such as sweat and sebum discharged from the human epidermis. It has the effect of suppressing proliferation. Specifically, epicodomo cotton (sold by Toyobo) or the like is used.
[0047]
(8) Application example of the second built-in object
In addition, as the second built-in material, a cloth called “Dismel” (trade name of Toyobo Co., Ltd.) (or Annon, registered trademark) may be used. This cloth is described in Japanese Utility Model Patent No. 3056573 or No. 30613324 in which Koken Co., Ltd. and the like are the right holders. 3, may be used as the upper central antimicrobial cloth 2, the lower side edge cloth 9, the lower central antimicrobial cloth 8 or the filling 10.
[0048]
This dismel is an ammonia deodorant and antibacterial material of the acrylate fiber. That is, a carboxylic group is attached to a nonwoven fabric containing a crosslinked acrylic fiber having a pH buffering ability (ability to reduce a pH change), and when ammonia (NH3) acts on the carboxylic group (COOH), ionic bonds are formed. As a result, an odorless ammonium carboxylate (COOHNH4) is generated, thereby removing the ammonia odor and suppressing the propagation of various bacteria by ammonia. As a result, the dismel exhibits a deodorizing action and an antibacterial action. This dismel is a fluffy cotton-like fiber and has a heat retaining effect. Other examples include rayon cotton in which titanium dioxide coated with apatite (artificial bone, calcium phosphate) is kneaded into fibers. Titanium dioxide exerts antibacterial and deodorant effects by photocatalytic action.
[0049]
(9) Explanation of the fabric of the lower central antibacterial cloth 8
As the lower central antibacterial cloth 8, a cloth that absorbs moisture and has a deodorizing and antibacterial action is used. For example, a cloth made of 100% polyester fiber subjected to sire processing and water repellent processing, and silver and / or titanium dioxide adhered (fixed) to one side by a sputtering method or the like. . The amount of silver to be attached is 3 to 4% by mass of the whole. Such a cloth has good waterproofness due to the water-repellent treatment. By the way, silver is a substance having relatively high bactericidal activity even among metals, has the ability to kill mold and bacteria even at a low temperature, is less likely to generate static electricity, is less likely to adhere dust, and has the ability to cut off ultraviolet rays. Further, since the amount of silver used is small, the weight of the entire cloth is not significantly affected. There is a ripstop (trade name) as a cloth having such characteristics.
[0050]
In addition, there is a photocatalytic silica gel as an antibacterial treatment agent. This is obtained by supporting about 10% by mass of titanium dioxide on silica gel having strong hygroscopicity. Since silica gel transmits ultraviolet light, the titanium dioxide is sufficiently irradiated with light, and the photocatalytic function of the titanium dioxide is sufficiently exhibited. Also, there is rayon cotton in which titanium dioxide coated with apatite (artificial bone, calcium phosphate) is kneaded in fibers.
[0051]
When ultraviolet light is applied to titanium dioxide, electrons are excited from the valence band to the conductor, and electrons and holes are generated. Oxygen in the air is reduced by the reduction reaction by the electrons, and a superoxide ion (O2-) is generated. The superoxide ions generate OH radicals via hydrogen peroxide or become water and oxygen.
[0052]
Furthermore, water molecules in the air are oxidized by the holes to generate OH radicals having strong oxidizing power. It is considered that bacteria and organic substances near the cloth are oxidized by the oxidizing power of the OH radicals and the like and decomposed into carbon dioxide and water. As a result, deodorization and antibacterial action are exhibited. Moreover, since silica gel or apatite has an action of adsorbing organic substances, the organic substances adsorbed on the silica gel or apatite are decomposed by the photocatalytic action of titanium dioxide. Decomposition of the odorous organic substance exerts a deodorizing effect.
[0053]
As described above, a cloth having an antibacterial action is also used for the lower central antibacterial cloth 8, and the lower central antibacterial cloth 8 is expected to have a function of absorbing moisture and deodorizing. The lower central antibacterial cloth 8 has a smooth surface as much as possible, so that the lower central antibacterial cloth 8 and the cloth directly below the lower central antibacterial cloth 8 can be slid. is there. This is to make it possible for the care receiver to move smoothly and the like with the patient support cloth 1 in a state where the care receiver is lying on the patient support cloth 1. However, since the lower side edge cloth 9 used around the lower center antibacterial cloth 8 is a cloth having a relatively large surface resistance such as a towel cloth, it is possible to prevent the patient's bedsheet 1 from slipping more than necessary.
[0054]
(10) Function and effect by using patient bedsheet 1
FIG. 7 is a diagram showing a state in which the care receiver 14 is lying on the bed sheet 1 for the patient. The bed sheet 1 for a patient is usually used by being laid on a bed mat or a bed sheet. In FIG. 7, the height of the cared person 14 is drawn so as to match the size of the bed sheet 1 for the patient, but the bed sheet 1 for the patient may be made larger than the height of the cared person 14. However, it may be made small and is not particularly limited in the present invention. At least, the torso of the cared person 14 must be sized to fit on the bed sheet 1 for the patient.
[0055]
With the care receiver 14 lying on the bed sheet 1 for the patient, the two caregivers lift the slits 4 and 6 and the slits 5 and 7 from both sides of the care receiver 14 by the respective caregivers. The care receiver 14 can be moved. In addition, one caregiver can lift the slits 4 and 6 or the slits 5 and 7 to help the care receiver 14 change his or her body position, such as turning over. In this case, the lower central antibacterial cloth 8 is a slippery cloth having a relatively small coefficient of friction, so that the care receiver 14 can be easily moved with the patient mat 1 while the care receiver 14 is on the cloth.
[0056]
In addition, the following effects can be obtained by laying the patient pad 1 directly or indirectly under the body of the care receiver. As described above, the upper marginal cloth 3 of the patient bedding 1 has been subjected to an antibacterial treatment for suppressing the generation or proliferation of bacteria that infect the oral cavity such as O-157. Can be prevented as much as possible.
[0057]
In particular, when the cared person 14 is completely bedridden or the like, food is carried directly to the mouth of the cared person 14 by a spoon or the like handled by the cared person. At this time, even if food such as juice falls on the upper marginal cloth 3 and the upper marginal cloth 3 becomes dirty, the antibacterial action of the upper marginal cloth 3 suppresses the growth of bacteria that feed on food. Therefore, the state of hygiene around the head of the cared person 14 can be more comfortably maintained.
[0058]
In addition, since a plurality of flat portions 11 are formed on the surface of the upper center antibacterial cloth 2, more gaps are easily formed between the flat portion 11 and the skin of the care receiver 14, so that ventilation, that is, more Moisture on the skin surface of the care receiver 14 due to inflow and outflow of air can be reduced. As a result, the growth of bacteria due to an increase in humidity can be suppressed.
[0059]
In addition, since the body of the cared person 14 is supported by the plurality of bulges 13 formed on the surface of the upper central antibacterial cloth 2, the concentration of pressure on the body at one point can be reduced, and the skin of the cared person 14 can be reduced. Blood flow obstruction such as congestion can be better avoided. In addition, since the upper central antibacterial cloth 2 is subjected to antibacterial treatment, it is possible to minimize the occurrence or deterioration of pressure ulcers or other diseases caused by bacteria or blood flow inhibition on the skin of the cared person 14.
[0060]
It is possible to obtain a far-infrared effect by far-infrared rays emitted from the first built-in material of the filling 10 in the patient pad 1. Far-infrared rays exert the highest absorbency and deepening power on the human body (animals and plants having a water molecular structure of 60% or more) and excite water molecules to activate cells. The wavelength that is good for growth health is considered to be far infrared rays of 8 to 14 microns, and the far infrared rays deeply penetrate into human body tissue to warm from inside the body and promote perspiration. As a result, blood circulation is improved and metabolism is activated, and effects such as cosmetic effects, recovery from fatigue, promotion of internal functions, and reduction of cholesterol can be expected.
[0061]
In addition, the far-infrared effect warms (heats) the inside / deep parts of the human body or human tissues such as feet and legs or lower leg or upper leg, promotes sweating, improves blood circulation, and lowers the viscosity of blood. Make it smooth. In this smooth blood, the chain of red blood cells adhering to each other is broken, the individual red blood cells are broken apart, and the generation of thrombus is suppressed or reduced. By improving the blood flow by the far-infrared effect, it is possible to suppress the deterioration or occurrence of diseases such as pressure sores that occur on the skin surface of the cared person 14.
[0062]
Further, since the first built-in component of the filler 10 has a function of absorbing moisture or an odorous component, it is possible to adjust humidity and to have a deodorizing effect. Moreover, the odor components and other bacteria adsorbed to the first internal component are decomposed by the antibacterial action provided in the second internal component of the filling 10, so that it is possible to prevent the growth of bacteria and the generation of offensive odor. .
[0063]
Further, since the lower central antibacterial cloth 8 on the lower surface of the patient bedsheet 1 is a finely woven cloth and has a moisture absorbing effect, it absorbs sweat, urine and other moisture from the cared person 14 or absorbs the lower central antibacterial cloth 8. It can be received as a whole and can be prevented from penetrating below the patient bedsheet 1 as much as possible. Moreover, the deodorizing and antibacterial action of the lower central antibacterial cloth 8 can prevent the spread of odor due to the proliferation of bacteria and the like. When the patient bedsheet 1 is used, a string may be passed through each of the slits 4, 5, 6, and 7, and the bedsheet 1 or the like may be bound to the bed sheet or the like.
[0064]
(11) Application examples of slits 4, 5, 6, 7
FIG. 8 shows a handle 15 as an application example of the slits 4, 5, 6, and 7. The handle 15 is made of cloth or cowhide (other animal leather) or the like, and is sewn at the same position as the slits 4, 5, 6, 7 (see FIG. 1) of the lower side edge cloth 9 or other methods. Installed with. Since the handle 15 is used by the caregiver to lift the patient bedsheet 1, a relatively rigid cloth is preferable. Further, the handles 15 may be attached to the four corners of the upper side edge cloth 3 (the front side of the bedsheet 1 for a patient).
When the palm 15 is turned upside down and the handle 15 is grasped from below, the lower side edge cloth 9 can be grasped at the same time, so that the patient pad 1 can be firmly grasped. Thereby, the patient's bedcloth 1 can be moved, the patient can be moved, or the patient can be turned over while the patient is placed on the patient's bedsheet 1. In addition, you may put a hand between the handle 15 and the lower side edge cloth 9 with the palm side facing down, and may grasp the handle 15 firmly.
[0065]
In addition, the term “antibacterial” used in the present description and claims includes, in addition to antibacterial, “sterilization”, “killing insects”, “disinfection” that kills bacteria / micro vermin, and “reducing the number of bacteria / micro vermin”. "Sterilization" also includes the meaning of inhibiting the growth of bacteria / micro vermin. The term “deodorant” used in the present specification and the claims means, in addition to deodorant, the adsorption of odors, the decomposition of odors (unpleasant odors such as ammonia), and the use of substances or components that neutralize odors. Includes "deodorization" by killing bacteria that generate and generate odors. That is, the deodorization includes the meaning of “deodorization”. Furthermore, as used herein and in the claims, the term "warming" includes any direct or indirect warming of a human body or part of a human body by any means.
[0066]
Further, the term "heat retention" used in the present specification and claims is intended to directly or indirectly prevent the invasion of cold air / prevention of body heat from being taken away by the outside air, etc., and directly or indirectly reduce the human body temperature. Including meaning to prevent. The term “moisture absorption” used in the present specification and claims includes not only moisture absorption but also drying, moisture proofing, dehumidification, and the like. The wording "antifouling" used in the present specification and the claims includes meanings such as hard to stain, prevention of adhesion of stains, decomposition of the attached stains, and easy removal of the attached stains by washing.
[0067]
(12) Another embodiment
The present invention is not limited to the above embodiments, but can be variously modified. The fiber material used as the upper center antibacterial cloth 2, the lower center antibacterial cloth 8, the upper margin cloth 3, the lower margin cloth 9 or the filler 10 is made of an artificial fiber such as polyester fiber, polyamide synthetic fiber fiber, acrylic fiber or the like. Any of fibers, natural fibers such as silk and cotton, glass fibers, carbon fibers, rubber and other synthetic fibers may be used. In the present invention, the material of the fiber material itself is not limited.
[0068]
In addition, the upper center antibacterial cloth 2 and / or the lower center antibacterial cloth 8 may also be made of a cloth applied to exhibit a heating / heating effect by far infrared rays. Moreover, the cloth may be subjected to an antibacterial treatment and a treatment for radiating far-infrared rays at the same time, or may be a treatment for blocking sunlight (ultraviolet rays) or a treatment for providing conductivity. If there is conductivity, it is possible to suppress the generation of static electricity due to rubbing between cloths, and it is possible to expect the effect of avoiding the user's discomfort due to the discharge of static electricity that tends to occur during drying.
[0069]
However, it is preferable that the upper side edge cloth 3 and the upper central antibacterial cloth 2 that touch the body of the care-receiver be cloths having a smooth touch and / or good touch as much as possible. The lower central antibacterial cloth 8 may be made of a material that completely blocks moisture, such as a tent sheet, vinyl, or rubber.
[0070]
In addition, a mesh-like or knit-like cloth (a cloth with good air permeability and light permeability) may be used, or a cloth with a small texture such as linen (a cloth with a poor air permeability) may be used. May be used. The upper central antibacterial cloth 2 and / or the lower central antibacterial cloth 8 may be made less likely to adhere to dirt by fluorine processing, waterproof processing, or the like in some cases. This makes it possible to further reduce the adhesion of dirt on the patient bedsheet 1. The upper side edge cloth 3 and / or the lower side edge cloth 9 may also be subjected to the same stain prevention such as fluorine processing, waterproof processing, or water repellent processing.
[0071]
In addition, the patient bedding 1 of the present invention may be used as a cushion, a rug, or a pet bedding, and the present invention is not limited to nursing bedding. May be used wherever it is needed. The filler 10 is made of various kinds of cloths / knits, cotton, conductive cloth, sponge, urethane, cushion, rubber, buckwheat hull, lint, synthetic fiber such as polyamide synthetic fiber or natural fiber. For example, a cloth material, a polystyrene foam, a cushion material in which air bubbles are sealed between laminated polyester films, a cloth made of a metal fiber that reflects far infrared rays, or the like may be used.
[0072]
Further, the upper side edge cloth 3, the upper center antibacterial cloth 2, the lower center antibacterial cloth 8, and the lower side edge cloth 9 are provided with conductive fibers (carbon fibers or conductive fibers such as carbon, copper, iron, nickel, etc.). The use of such a material in which a metal powder having a certain amount is kneaded in a fiber) can be used as a patient bedsheet 1 that can prevent generation of static electricity and destruction of electric components due to static electricity. In this case, a ground wire for electrically connecting the front and back of the patient bedsheet 1 may be required. In addition, flame-retardant (non-combustible) fibers may be used for each of the cloths (the upper central antibacterial cloth 2, the lower central antibacterial cloth 8, and the like) exposed by the patient bedding 1.
[0073]
The outer shapes of the holes of the slits 4, 5, 6, and 7 are not particularly limited in the present invention, and may be round holes, squares, triangles, squares, polygons, stars, slits, ellipses, and doors. Any shape, such as a shape, may be used. In addition, a sheet tape (removable tape), a string, rubber, or the like is added (sewn) around the holes of the slits 4, 5, 6, and 7, and the holes of the slits 4, 5, 6, and 7 are closed. It may be made to be able to. In addition, the number of slits for the caregiver provided in the upper side edge cloth 3 is not limited to four as in the above embodiment, but may be two or four or more.
[0074]
Further, in the above embodiment, the outer shapes of the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 were made rectangular, but the present invention is not limited to this form, and it is not limited to this form, but may be triangular, quadrangular or more polygonal. , A circle, an ellipse, and the like. Therefore, the outer shape of the upper side edge cloth 3 sewn around the upper center antibacterial cloth 2 may be any shape such as a triangle, a polygon, a circle, and an ellipse. Further, in the above embodiment, the upper side edge cloth 3 is sewn around the upper center antibacterial cloth 2, but the upper side edge cloth 3 and the lower side edge cloth 9 may be omitted, or the upper side edge cloth 3 may be omitted. The slits 4, 5, 6, 7 opened in the cloth 3 may be omitted.
[0075]
Furthermore, the filler 10 exerted the far-infrared radiation and the antibacterial action, but the filler 10 was omitted, and the far-infrared radiation action was added to the upper central antibacterial cloth 2 or the lower central antibacterial cloth 8. May be. That is, the upper center antibacterial cloth 2 or the lower center antibacterial cloth 8 may be subjected to a process of emitting far infrared rays and exerting an antibacterial action. In addition, in the above embodiment, a plurality of bulging portions 13 and flat portions 11 formed by quilting or the like are formed on the surfaces of the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8. The upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 in which the flat portion 11 is not formed at all may be used.
[0076]
Further, in the above embodiment, the flat portion 11 formed on the surface of the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 is formed by sewing in the transverse direction. It may be formed by sewing in the direction. That is, in the present invention, the shape formed by the flat portion 11 and the bulging portion 13 is not particularly limited.
[0077]
In the above embodiment, the upper side edge cloth 3 and the lower side edge cloth 9 are sewn along the edges of the upper center antibacterial cloth 2 and the lower center antibacterial cloth 8. The lower side edge cloth 9 may be completely overlapped on the edge portions of the upper center antibacterial cloth 2 and the lower center antibacterial cloth 8. That is, the upper side edge cloth 3 may completely overlap with the edge portion of the upper center antibacterial cloth 2. The same applies to the lower side edge cloth 9.
[0078]
In addition, as a disinfectant / antibacterial agent, it is known that it is caused by the photocatalytic action of the photosemiconductor powder. This photocatalytic action is generated as a chemical action by an electrochemical cell in which one electrode is a photosemiconductor ceramic, which is a photosemiconductor powder, and the other electrode is a metal. As such an optical semiconductor powder, TiO2, CdS, CdSe, WO3, Fe2O3, SrTiO3, KNbO3 and the like are used. As the metal powder, various metal powders such as gold, silver, platinum and copper are used. In addition, ceramic powder such as apatite (apatite), zeolite or sepiolite, activated carbon, silica gel, or silk fiber-containing material is used as the adsorbing material.
[0079]
In a cloth using such an adsorbent material and an opto-semiconductor ceramic, bacteria, viruses, mold, or malodorous substances, harmful substances, and the like are first adsorbed and held by the adsorbent material. Thereafter or simultaneously, bacteria, viruses, molds, and the like are killed or reduced by photocatalysis by the photo-semiconductor powder and the metal powder that have been irradiated with light, and malodorous substances and the like are decomposed. Furthermore, even in the case of a substance that is not adsorbed, growth (proliferation) prevention and repellent effects can be obtained by the photocatalytic action.
[0080]
When a material that emits far-infrared rays is kneaded into fibers such as the upper central antibacterial cloth 2, the wavelength of far-infrared rays emitted by the upper central antibacterial cloth 2 and the far-infrared rays emitted from the first built-in material of the filling 10. May be different. That is, the upper central antimicrobial cloth 2 may emit far-infrared rays having a short wavelength, and the filler 10 may emit far-infrared rays having a long wavelength.
[0081]
In addition, the coefficient of friction of the upper central antibacterial cloth 2 and the lower central antibacterial cloth 8 is determined by the weight of the cloth itself and the magnitude of the pulling force in the relative direction when the cloth is rubbed with another cloth (such as cotton). It may be processed in such a manner that its value is 0.01 to 0.1 at room temperature. In this processing, the fineness of the fibers used when the cloth is woven is adjusted, the density (or roughness) of the cloth is adjusted, or the woven upper central antibacterial cloth 2 or the lower side is woven. A material having lubricity such as silicone is fixed to the cloth surface of the central antibacterial cloth 8.
[0082]
Similarly, a process of adjusting the value of the coefficient of friction of the upper edge cloth 3 and / or the lower edge cloth 9 may be performed. The friction coefficient may be processed so as to be 0.4 to 1.0 at normal temperature. However, since the friction coefficient of the upper side edge cloth 3 and / or the lower side edge cloth 9 is not always necessary, the processing may not be performed.
[0083]
(13) Summary
The bed sheet for a patient of the present invention is an upper central cloth woven with a fiber to which a substance having one or both of an antibacterial / deodorizing property and a property of emitting far-infrared rays is added. (Upper center antibacterial cloth 2) and lower center cloth (lower center antibacterial cloth) woven with a fiber to which a substance having one or both of antibacterial / deodorizing and moisture absorbing properties is added. 8) from above and below to form a single cloth.
[0084]
Thereby, by the antibacterial action of the upper central cloth (upper central antibacterial cloth 2), it is possible to prevent the deterioration of pressure ulcers generated on the skin of the cared person and to suppress the growth of bacteria such as methicillin-resistant Staphylococcus aureus (MRSA). Also, it is possible to prevent an increase in moisture and an increase in odorous components.
[0085]
If the surface of the upper central cloth (upper central antibacterial cloth 2) has lubricity, a large friction does not occur on the contact surface with the cared person, and it is possible to prevent the occurrence or deterioration of pressure sores and other wounds on the skin.
[0086]
A filler made of a fiber to which a substance emitting far-infrared rays is added is inserted between the upper central cloth (upper central antibacterial cloth 2) and the lower central cloth (lower central antibacterial cloth 8). If possible, a far-infrared effect due to far-infrared rays emitted from the fiber can be expected.
[0087]
In addition, the bedding for the patient of the present invention includes a marginal cloth (upper marginal cloth 3 or lower marginal cloth 9) made of a thick soft cotton fabric (towel cloth) having a good moisture absorption, and the upper central cloth and the upper marginal cloth. And / or sewn around the lower central fabric. As a result, the feel of the peripheral portion of the bed sheet for the patient is improved. In addition, if an antibacterial / deodorant is also bound to this peripheral cloth, the growth of bacteria such as O-157 can be suppressed.
[0088]
Further, in the bed sheet for a patient of the present invention, the surface of the upper central cloth and / or the lower central cloth is subjected to quilting processing, so that bulging portions (bulging portions 13) and flat portions (flat portions 11) are alternately formed. It is characterized in that a large number of aligned irregularities are formed. Thus, a ventilation path is formed between the care-receiver's skin and the patient's bedcloth, preventing the accumulation of moisture and preventing the pressure of the care-receiver's body from concentrating at one point.
[0089]
Furthermore, if the property of emitting far infrared rays is added to the upper central cloth, the far infrared effect of far infrared rays can be further enhanced. Moreover, if the wavelength of the far infrared ray emitted from the upper central cloth is short and the wavelength of the far infrared ray emitted from the filler 10 is long, the far infrared effect from the far infrared ray from the upper central cloth is first exerted, and then the filling is performed. It is possible to cause a time difference that the far-infrared effect of far infrared rays from the object 10 is exerted. In addition, since the far-infrared effect of the long-infrared far-infrared ray has a long-lasting effect, the care-receiver can continue to feel the effect even if the care-receiver separates from the patient pad. When the surface of the center cloth is quilted, the bed sheet for the patient can be easily washed.
[0090]
The mattress for a patient according to the present invention has a narrow band cloth sewn at both ends to the marginal cloth, and a handle (handle 15) into which a man can be inserted, or a holding hole (slits 4, 5,. 6, 7) are formed at least two places on the marginal cloth. This allows the caregiver to easily lift the patient bedsheet on which the cared person is riding.
[0091]
(14) Explanation of Claims
The bed sheet for a patient of the present invention is a substance having one or both of properties of exhibiting an antibacterial / deodorizing effect and a property of emitting far-infrared rays (substances which emit far-infrared rays include metal oxides). (Including substances with antibacterial and deodorizing properties include zeolites, apatite, titanium dioxide, silver, copper, etc.), and friction with ceramics containing materials, silicon or alumina ceramics, zeolite, sepiolite, etc. A woven upper central cloth (upper central antibacterial cloth 2) woven on a slippery cloth surface having a small coefficient, and a substance having one or both of antibacterial, deodorant and moisture absorbing properties (Substances that have a hygroscopic effect include ceramics such as apatite, zeolite and alumina, silica gel, charcoal, and activated carbon.) Characterized in that the lower central cloth woven fabric surface (the lower central antibacterial cloth 8) and on one cloth-like fit than the vertical with.
[0092]
Thereby, by the antibacterial action of the upper central cloth (upper central antibacterial cloth 2), it is possible to prevent the deterioration of pressure ulcers generated on the skin of the cared person and to suppress the growth of bacteria such as methicillin-resistant Staphylococcus aureus (MRSA). Also, it is possible to prevent an increase in moisture and an increase in odorous components.
[0093]
In addition, the bedding for a patient of the present invention is a fiber to which a substance exhibiting an antibacterial and deodorizing effect is added, and is woven on a slippery cloth surface. As described above, there are methods such as thinning the fibers used for the cloth itself, thinning the weave, and attaching silicon, fluororesin, etc. to the cloth surface.) The upper central cloth (upper central antibacterial cloth 2) A filler composed of fibers to which a substance that emits far-infrared rays is added (the first built-in component of the filler 10), and either or both of the antibacterial / deodorizing and moisture absorbing properties. A lower central cloth (lower central antibacterial cloth 8) woven from fibers to which a substance having the substance is added. The lower central cloth and the upper central cloth sandwich the filler from above and below. It is characterized in that it has a shape of a single bun.
[0094]
Thereby, since the friction between the care receiver and the patient bedcloth laid on the patient bedsheet is small, the twist of the skin is reduced and the degree of pressure on the blood vessel is reduced. In addition, the bed sheet for the patient of the present invention easily shifts with respect to the bed, and the displacement force on the care receiver can be further reduced, and movement and the like can be facilitated. That is, the blood flow is hardly hindered. Moreover, a far-infrared effect is achieved by far-infrared rays emitted from the filler. Activation of cells such as the skin and internal organs can be achieved by a combination of these effects, so that prevention or improvement of pressure sores and other diseases can be achieved.
[0095]
In addition, the bedding for a patient of the present invention is a fiber to which a substance exhibiting an antibacterial and deodorizing effect is added, and is woven on an upper surface of a slippery cloth (upper central antibacterial cloth 2). It is composed of a fiber to which a substance emitting infrared rays is added (the first internal component of the filler 10) and a fiber to which a substance exhibiting an antibacterial and deodorizing effect is added (the second internal component of the filler 10). And a lower central cloth woven from fibers to which a substance having one or both of antibacterial, deodorant and moisture absorbing properties has been added. The above-mentioned filling material is sandwiched between the upper central cloth and the upper central cloth so as to form a single bun.
[0096]
Thereby, since the friction between the care receiver and the patient bedcloth laid on the patient bedsheet is small, the twist of the skin is reduced and the degree of pressure on the blood vessel is reduced. That is, the blood flow is hardly hindered. Moreover, a far-infrared effect is achieved by far-infrared rays emitted from the filler. In addition, the antibacterial and deodorizing action of the second built-in substance of the filling 10 adsorbs and sterilizes bacteria and other undesired substances, thereby preventing the care recipient's skin environment from deteriorating. By the combination of these effects, activation of cells such as skin and internal organs and prevention of deterioration of lesions due to proliferation of bacteria can be prevented, so that pressure ulcers and other diseases can be prevented or ameliorated.
[0097]
The bedding for the patient of the present invention is a fiber to which a substance exhibiting an antibacterial and deodorizing effect is added, and an upper central cloth woven on a cloth surface having lubricity, and a substance emitting far-infrared rays are added. A filler composed of fibers and a fiber to which a substance exhibiting an antibacterial / deodorant effect is added, and a substance having one or both of the antibacterial / deodorant effect and the moisture absorbing effect are added. A lower central cloth woven on the surface of a slidable fiber, and the lower central cloth and the upper central cloth sandwich the filler from above and below in a vertical direction. It is characterized by having a shape.
[0098]
Thereby, since the friction between the care receiver and the patient bedcloth laid on the patient bedsheet is small, the twist of the skin is reduced and the degree of pressure on the blood vessel is reduced. That is, the blood flow is hardly hindered. Moreover, a far-infrared effect is achieved by far-infrared rays emitted from the filler. In addition, the antibacterial and deodorizing action of the second built-in substance of the filling 10 adsorbs and sterilizes bacteria and other undesired substances, thereby preventing the care recipient's skin environment from deteriorating.
[0099]
By the combination of these effects, activation of cells such as skin and internal organs and prevention of deterioration of lesions due to proliferation of bacteria can be prevented, so that pressure ulcers and other diseases can be prevented or ameliorated. Furthermore, since the lower central cloth has lubricity (small coefficient of friction), the bed sheet for the patient of the present invention easily shifts with respect to the bed, and the displacement force to the care receiver can be further reduced. That is, movement and the like become easy. The quilting of the surface of the upper central cloth and / or the lower central cloth further reduces the friction and reduces the deviation force.
[0100]
In addition to the features described above, the bedding for the patient of the present invention is characterized in that the marginal cloth (the upper marginal cloth 3 or the lower marginal cloth 9) made of a thick soft cotton fabric having good moisture absorption is used as the upper central cloth and / or the lower marginal cloth 9. Alternatively, it is sewn around the lower central cloth.
Thus, the marginal cloth can efficiently absorb the moisture leaking from the care-receiver's head or the like, thereby preventing the environment from deteriorating.
[0101]
In addition to the features described above, in addition to the above features, the surface of the upper central cloth and / or the lower central cloth is subjected to a quilting process to form a large number of irregularities in which bulging portions and flat portions are alternately arranged. It is characterized by having. Thereby, while the air permeability between the care receiver and the patient bedding of the present invention can be further improved, and the cloth having a small coefficient of friction has irregularities, so that the contact resistance between the patient bedding and the care receiver is further reduced. In addition, it is possible to prevent the blood flow from being hindered due to the twisting of the skin and the like, and to disperse the body pressure of the cared person due to the minute unevenness, so that the occurrence or deterioration of pressure sores or other lesions due to congestion can be improved.
[0102]
In addition to the features described above, the patient mat of the present invention is characterized in that the upper central cloth has air permeability, and the lower central cloth is waterproofed, and is sandwiched between the upper central cloth and the lower central cloth. The filled filler is characterized by having a moisture absorbing action or a drying action for lowering the humidity. This drying action is also achieved by emitting the infrared rays. This prevents sweat and urine (in some cases, feces) from the care receiver from leaking below the bed sheet for the patient or penetrating the bed, drying the bed with the filling material, and keeping the bed clean. Since the growth of the keeping bacteria can be prevented, it is possible to prevent the environmental deterioration of the bed (such as a bed) of the care receiver in advance.
[0103]
Moreover, since the filling or lower central cloth of the patient's bedcloth has an antibacterial action, the moisture such as sweat and urine dammed by the waterproof lower central cloth is completely decomposed into harmless substances, Deterioration of pressure ulcers and other diseases due to an increase in bacteria on the body of the cared person can be prevented, and deterioration of the skin environment of the cared person can be prevented. By the quilting process on the surface of the upper central cloth and / or the lower central cloth, the air permeability and the hygroscopicity are further improved.
[0104]
In addition, the mattress for a patient of the present invention has a property of exhibiting an antibacterial and deodorizing action and a property of emitting far-infrared rays, or a property woven from fibers to which a substance having both properties is added. A central cloth (upper central antibacterial cloth 2) and a peripheral cloth (upper peripheral cloth 3) made of a thick soft cotton fabric having good moisture absorption may be sewn around the central cloth. That is, a patient bedsheet made of a minimum necessary cloth may be used.
[0105]
Further, in addition to the above-mentioned features, the patient pad of the present invention is characterized in that an antibacterial / deodorant is also bound to the marginal cloth. As a result, the growth of bacteria around the head of the cared person can be suppressed, and deterioration of the environment can be prevented.
[0106]
In addition to the above features, the patient mat of the present invention has a grip portion (handle 15) formed by sewing both ends of a narrow band cloth to the margin cloth so that a hand can be inserted into the margin cloth. And / or at least two places are formed on the back side. Thereby, it is possible to hold the holding portion with the palm of the hand facing upward and also hold the marginal cloth. Alternatively, the palm of the hand can be placed downward and inserted between the gripping portion and the marginal cloth to grasp the periphery of the bedsheet for the patient. It is easier for the caregiver to lift the patient bedsheet on which the care receiver is placed.
[0107]
Similarly, the patient mat of the present invention is characterized in that at least two holes (slits 4, 5, 6, 7) into which the hand can be inserted are formed in the marginal cloth portion.
[0108]
In the mattress for a patient according to the present invention, the peripheral cloth is processed so that a coefficient of friction with respect to the cotton cloth at room temperature is 0.4 to 1.0, and the upper central cloth and / or the lower central cloth cotton. It is characterized in that it is processed so that the coefficient of friction against the cloth is 0.01 to 0.1 at room temperature.
[0109]
Each substance used in the patient bedding of the present invention, the substance having the property of exhibiting antibacterial and deodorizing effects is a special silver-based ceramic or a quaternary ammonium salt substance, silver, an antibacterial agent of copper or , TiO2, CdS, CdSe, WO3, Fe2O3, SrTiO3, KNbO3, any one of the optical semiconductor powders, apatite (apatite), zeolite or sepiolite ceramic powder, activated carbon, charcoal, It is a substance obtained by binding or mixing with any of silica gel. Further, the substance that emits far infrared rays is zeolite.
[0110]
【The invention's effect】
As described in detail above, the mattress for a patient of the present invention includes an upper central antibacterial cloth sewn around a comfortable upper edge cloth such as a towel cloth, and a lower soft edge such as a towel cloth. The filler was sandwiched between a lower central antimicrobial cloth sewn around the cloth. This filler emits far-infrared rays and has a moisture absorbing and antibacterial action. The antibacterial action of the upper central antibacterial cloth suppresses the growth or generation of bacteria, so that the occurrence or deterioration of pressure ulcers on the skin of the cared person can be prevented.
[0111]
In addition, the effect of far-infrared rays emitted from the filling material can promote health such as improvement of blood flow by adjusting the body fluid balance of the cared person, and a heat retaining effect. Moreover, sweat and other liquids emitted from the care receiver are absorbed by the filling inside the patient pad, and the lower central antibacterial can prevent such liquids from penetrating below the patient pad as much as possible. It can contribute to improving the sanitary environment.
[0112]
In addition, since the caregiver lifts the slit provided in the upper side edge cloth, the position of the care-receiver can be easily changed and the care-taker can easily move, thereby contributing to a reduction in the care labor. Furthermore, since the quilting process is performed, the entire patient mat can be washed in a whole. Moreover, since the antibacterial (deodorant) agent is firmly fixed to the fiber by the sputtering method or kneaded directly into the fiber, the antibacterial effect is not lost by washing or the like.
[Brief description of the drawings]
FIG. 1 shows a top view of a patient bedsheet 1 according to the present invention.
FIG. 2 shows a state in which the lower surface of the patient bedsheet 1 according to the present invention is viewed.
FIG. 3 shows a vertical sectional view of the patient bedsheet 1 cut in a longitudinal direction.
FIG. 4 shows an assembly view of the patient bedsheet 1 according to the present invention.
FIG. 5 shows a state in which the upper central antibacterial cloth 2 is viewed upward.
FIG. 6 is a partially enlarged view of the flat portion 11;
FIG. 7 shows a state in which the cared person 14 is lying on the bed sheet 1 for a patient.
FIG. 8 shows the handle 15;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Pat cloth for patient, 2 ... Upper center antibacterial cloth, 3 ... Upper margin cloth, 4, 5, 6, 7 ... Slit, 8 ... Lower center antibacterial cloth, 9 ... Lower margin cloth, 10 ... Filler , 11: flat part, 12: sewing machine, 13: bulge part, 14: cared person, 15: handle.

Claims (13)

A fiber to which a substance exhibiting antibacterial and deodorizing properties and / or a property that emits far-infrared rays is added, and is woven on a slippery cloth surface with a small friction coefficient. The upper central cloth,
The lower central cloth woven on the surface of the cloth which has a small coefficient of friction and a lubricity with a coefficient of friction is added. A mattress for a patient, which is made into a single piece of cloth. An upper center cloth woven on a cloth surface having a small coefficient of friction and a slippery fiber, to which a substance exhibiting an antibacterial and deodorizing effect is added,
A filler composed of fibers to which a substance emitting far-infrared rays has been added,
A lower central cloth woven from fibers to which a substance having one or both of an antibacterial / deodorizing effect and a moisture absorbing effect is added,
A bed sheet for a patient, characterized in that the lower central cloth and the upper central cloth sandwich the filling material from above and below to form a single bun. An upper center cloth woven on a cloth surface having a small coefficient of friction and a slippery fiber, to which a substance exhibiting an antibacterial and deodorizing effect is added,
A filler composed of a fiber to which a substance that emits far-infrared rays is added, and a fiber to which a substance exhibiting an antibacterial and deodorizing effect is added,
A lower central cloth woven from fibers to which a substance having one or both of an antibacterial / deodorizing effect and a moisture absorbing effect is added,
A bed sheet for a patient, characterized in that the lower central cloth and the upper central cloth sandwich the filling material from above and below to form a single bun. An upper center cloth woven on a cloth surface having a small coefficient of friction and a slippery fiber, to which a substance exhibiting an antibacterial and deodorizing effect is added,
A filler composed of a fiber to which a substance that emits far-infrared rays is added, and a fiber to which a substance exhibiting an antibacterial and deodorizing effect is added,
The lower central fabric woven on the surface of a cloth with a small coefficient of friction and a lubricious surface with a fiber to which a substance having one or both of the antibacterial, deodorant and moisture absorbing properties is added. Prepare,
A bed sheet for a patient, characterized in that the lower central cloth and the upper central cloth sandwich the filling material from above and below to form a single bun. The peripheral fabric made of a thick soft cotton fabric having good moisture absorption is sewn around the upper central fabric and / or the lower central fabric. Mattress for patient. The quilting process is performed on the surface of the upper central cloth and / or the lower central cloth to form a large number of irregularities in which bulging portions and flat portions are alternately arranged. The bedsheet for a patient according to 3, 4 or 5. The upper central cloth has air permeability, and the lower central cloth is waterproofed.The filler sandwiched between the upper central cloth and the lower central cloth has a moisture absorbing function of lowering humidity. 7. The patient pad according to claim 1, 2, 3, 4, 5, or 6. An upper central cloth woven with a fiber to which a substance having one or both properties of exhibiting antibacterial and deodorizing properties and emitting far-infrared rays,
A bedding sheet for a patient, wherein a marginal cloth made of a thick soft cotton fabric having good moisture absorption is sewn around the central cloth. 9. A mattress for a patient according to claim 5, 6, 7 or 8, wherein an antibacterial / deodorant is also bonded to the marginal cloth. It is characterized in that at least two places are provided on the upper surface and / or the back side of the marginal cloth, which can be inserted manually by sewing both ends of the narrow band cloth to the marginal cloth. 10. The patient pad according to claim 5, 6, 7, 8 or 9. 10. The bed sheet for a patient according to claim 4, wherein at least two holes into which the hand can be inserted are formed in the marginal cloth portion. The edge cloth is processed so that the coefficient of friction with respect to the cotton cloth is 0.4 to 1.0 at room temperature, and the coefficient of friction with the cotton cloth at the upper center cloth and / or the lower center cloth is 0 at room temperature. 12. The bed sheet for patients according to claim 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or 11, which is processed so as to be 0.11 to 0.1. Substances with antibacterial and deodorant properties are special silver ceramics or
A quaternary ammonium salt substance, an antibacterial agent of silver or copper, or one of TiO2, CdS, CdSe, WO3, Fe2O3, SrTiO3, and KNbO3 as a raw material and an apatite (phosphorus ash) Stone), zeolite or sepiolite ceramic powder, activated carbon, charcoal, is a substance obtained by binding or mixing with any of silica gel,
13. The patient pad according to claim 1, wherein the substance emitting far-infrared rays is zeolite.

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