JP2010094521A - Ecological sleep bedding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide ecological sleep bedding which allows use of existing bedding, ensures small power consumption, and attains reduction of CO<SB>2</SB>. <P>SOLUTION: Air 35 in a bed wrapped by a coverlet 33 and a laying ventilation net 31 is sucked by a three-dimensional ventilation net 22 to go into a circulation warmer 1 via a suction tube 28 and a suction port of the circulation warmer 1, to be circulated. A covering blast net 32 is attached to the coverlet 33, and a laying blast cloth 34 is covered on the covering blast net 31 in the laying mattress, therebetween the three-dimensional ventilation net 22 is provided and placed on the laying mattress to set with the circulation warmer 1, so that existing bedding can be used. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

Technology field

The present invention relates to the field of health and welfare and energy saving.

In the conventional technology, warm air is blown into the warm air passage built in the quilt or quilt, and the inside of the bed is air-controlled to an environment suitable for sleep. The warm air was released outside the bed, and the outside air was always heated to the specified temperature by the heater, so there was a lot of energy loss and a large amount of CO ₂ was generated and discharged.
In addition, the bedding on hand cannot be used, and it was necessary to purchase a special quilt with a warm air passage.
In addition, when the room temperature suddenly drops due to cold waves, it is difficult for the elderly and others to adjust the temperature in the bed with the remote control.Therefore, a technology has been invented that incorporates a temperature / humidity sensor in the wall or bed mat to automatically control it. It was. There were many sensor failures during use, and service was difficult.

Patent 3061360 Patent 3186632 Japanese Patent No.3053507 Patent 2630733 Japanese Patent No. 2616893 Patent 3633977

Problems to be solved by the invention

Problem 1 is that air sleep (using the technology of the prior art document) is usually used for 8 hours by ordinary people and 24 hours for sick people. Co ₂ reduction is a duty for product development, and human survival It is a global issue.
Issue 2 is the biggest issue of widespread use of hand-held bedding.
Problem 3 was the problem of bad smell and nosocomial infections caused by incontinence and the release of pathogenic bacteria into the room by the user at home, hospital, and elderly facilities.
Problem 4 requires automatic control for the elderly and sick people to use, and at that time the sensor was placed in the bedding.
There is an urgent need to solve this problem.

Means to solve the problem

The means for solving the problem 1 is to return the blown air in the bed (35) from the three-dimensional ventilation net (22) to the circulation heater (1) as shown in FIG. The body air becomes a heated body and the warm air blown at 32 ° C circulates at 31 ° C. A small amount of outside air enters from the gap between the wall and the floor, and it keeps the humidity constant, not 100% circulation. The graph shown in Figure 22 proves.
In addition, the indoor temperature controller (41) and the outlet (26) shown in FIG. 12 are switched to switch the indoor heater to the circulating heater (1) when entering the floor. 41) Do not allow air conditioning until it expires or the room temperature is until 28 ° C in summer. In winter, keep room temperature at 23 ° C so that heating does not enter.
In this way, you can save a lot of energy, reduce CO ₂ and have a good night's sleep, leading to better health. For reference, the room cooler is a 2.2Kw (business hotel) Eco Sleep 510w heater 10w motor, and the 510w heater circulates warm air at all times for short-time use.

The means for solving the problem 2 is that the hanging blow net (32) or the hanging blower mounting cloth (29) shown in [FIG. 8] [FIG. 9] [FIG. It is attached to. In general, [FIG. 9] is simple to use.
For laying, as shown in [FIG. 12], [FIG. 13] and [FIG. 14], the laying net for laying (31) and the blowing cloth for laying (34) may be laid on a hand-held quilt.
In this way, all the bedding you have can be made eco-sleep.

The means for solving the problem 3 is to circulate the air (35) in the bed as shown in FIG.
Since some leaked air is deodorized and sterilized by the deodorizing and sterilizing filter (16) and the sterilizing basket (17), the incontinence bad smell and the bacteria in the bed are not released outside the bedding. Moreover, the room is cleaned by using it for a long time.
The back skin of long-term bed life is kept healthy due to the flow of air around 32 ° C 40% ± 5 on the back, which prevents "bed slipping", and some people have cured themselves to solve various health and hygiene problems. It is.

Means for solving the problem 4 is to install the return sensor (12) shown in [FIG. 1] and [FIG. 2] in a place where the suction hot air of the suction port (3) of the circulation heater (1) passes. When the return sensor (12) returns to a temperature lower than the indicated temperature, the current of the adjusting heater (13) is increased to maintain the temperature, and when the temperature returns to a higher level, the current is adjusted to be lower. When the air temperature in the bed (35), which always blows the indicated temperature or perspires perspiration, is 40% up to 3% to 5%, the 10w motor speed is increased to increase the air volume and keep it at 40%. . In the opposite case, the rotation is reduced to reduce the air volume and increase the humidity due to sweating. The inhalation sensor (43) is returned to the three-dimensional ventilation net (43), and the sensor (12) is installed in the return passage of the circulating heater (1), so that the bed air (35) can be accurately measured and controlled. Is solved in a way that does not.

The invention's effect

As shown in [FIG. 1] and [FIG. 2], the effect of the problem 1 is as shown in [FIG. 5] and [FIG. 13] in the circulating heater (1) where the outside air is sucked only at the suction port (3). Because the air in the bed (35) circulates, the release of warm air is extremely low. The warm air blown at 32 ° C returns to the circulation heater (1) at 31 ° C. [FIG. 22] The air blowing is instructed at 30 ° C., and the return is receiving heat at a body temperature of 36 ° C. so as to indicate 30 ° C. to 29.5 ° C. Regulating heater (13) is not working.
Further, as shown in FIG. 5, the indoor temperature controller (41) of the indoor cooler (25) and the outlet (26) of the circulating heater (1) are related to each other so that the circulating heater (1) when entering the floor is Set the room temperature controller (41) to turn off when the blower starts or the room cooler (25) will not cool until 28 ° C in summer and will not heat up to 23 ° C in winter. 2.2Kw of the cooler and 10w circulation heater energy-saving electric bill of if, CO ₂ reduction will be huge numbers. It has been reported that hotels emit 10% CO ₂ and 13% at home. The effect of reducing even 2 to 3% is possible by this spread.

The effect of the problem 2 is that the household bedding can be obtained by purchasing four items of the circulating heater (1), the floor ventilation net (31) and the three-dimensional ventilation net (22) and the hanging air outlet attachment cloth (29) shown in FIG. All of the hotel bedding becomes the “Eco Sleep Bedding” of the present invention, and the spread effect is not controversial.

The effect of the invention of Problem 3 is that the air in the bed (35) circulates in the machine shown in FIG. 5 and deodorizes and sterilizes the bad smell of incontinence and the bed air of the patient's bacteria holder (35) and does not discharge outside. . In addition, we believe that long-term use will help clean the room and prevent nosocomial infections.
Being able to sleep well in an ideal environment is the starting point of health and the most familiar item that uses 1/3 of life, so far only air conditioning in bedding has not been put to practical use in the world.

The effect of the invention of Problem 4 is that the method that has been implemented so far was to apply a temperature sensor from the heater, set it in the bed, and control the inside of the bed with the signal.
This signal is a temperature and humidity signal of the warm air blown, and the air in the bed cannot be measured.
The measurement at the position of the inlet (3) is the measurement of the air in the bed (35), and has the effect of ideal bed control.
In order to sense the temperature and humidity of the bed air (35) more quickly, an intake temperature sensor (43) may be installed in the three-dimensional ventilation net (22). If it is set in this position, it can be installed in factory production, so installation is not time-consuming and failure does not occur.

Circulating Heater (1) Perspective Plan View Circulating Heater (1) Perspective Front View Circulation heater (1) Plan view Circulation heater (1) Front view Cross section side view with Eco Sleep set to bed Eco-sleep set in a Japanese-style room Eco-sleep set in Japanese room A perspective plan view of the hanging futon and hanging fan net (32) Top view of the hanging fan mounting cloth (29) Top view of hanging blow net (32) Side view of hanging blow net (32) Perspective plan view of warm air circulating with the air blowing cloth (34) set on the ventilation net (31) Ventilation net for flooring (32 hot air circulates in cross section, side view Top view of 3D ventilation net Cross-sectional side view of three-dimensional ventilation net Plan view of modified ventilation net (38) Large hospital bed data August 7, 1999 National University Hospital Bedding Data September 30, 2003 Bedding data when using general bedding at home (applicant) March 11, 2007 Data on the bed of the highest class international hotel August 26, 2007 Air sleep [warm air discharge type] bed data January 7, 2008 Eco sleep [warm air circulation type] bed data August 30, 2009

Detailed Description of the Invention

The bed interior air (35) wrapped in the hanging futon (33) and the bed vent net (31) shown in FIG. 5 is a three-dimensional vent net (22) or the flat vent net (42) in FIG. Is drawn into the circulation heater (1) through the suction pipe (28) and the suction port (3).
An implementation method will be described for the air flow of the circulating heater (1) in FIG. The air passing through the suction port (3) from the suction pipe (28) senses temperature and humidity by the return sensor (12) and sends a signal to the electric control board (45) to control the temperature and humidity. Next, it passes through the return passage (18), is sterilized with the sterilization basket (17) of [FIG. 1], enters the deodorization sterilization filter (16), completes the deodorization sterilization, and returns to the return passage hole (15) of [FIG. ) Through the return passage (18), through the Shirotsuko fan ventilation passage (19), and is sucked into the Shirotsuko fan (7) from the fan suction port (9) and flows into the warm air passage (14) in FIG. At this time, the computer operates in accordance with the signal from the return sensor (12) by the adjusting heater (13) so that the designated air temperature and humidity are linked with the motor (8), and the designated temperature and humidity, for example, the temperature is 28 ° C to 34 ° C and the humidity is 30 It is controlled to 50% to 50%, and the warm air is blown into the bed through the air vent (31) from the air blow cloth (34) in [Fig. Flows into the bed air (35). The intake temperature / humidity sensor (43) plays the same role as the return sensor (12). The warm air flowing from the warm air passage (14) to the hanging air outlet (6) passes through the hanging air blowing pipe (23) and then passes through the hanging air blowing net (32) or the hanging air blowing port attaching cloth (29). It becomes the air in the bed (35) and merges with the warm air flowing from the bed to create a pleasant sleep environment. The heat of this 32 ° C warm air is dissipated from the bedding, but the body temperature of 36 ° C becomes a heated body, and returns to the suction pipe of the circulation heater (1) through the three-dimensional ventilation net (22) at around 31 ° C.
Because this circulation continues, advanced energy saving and CO ₂ reduction can be achieved.

(1) All hotel guests will turn on the air conditioner when entering the room and continue to use it until checkout. Even if the cooler of 2.2 Kw is stopped during sleep, the room temperature change is 26 ° C. ± 3 ° C. because the heat retention is good. During sleep, the bed should be air-conditioned with Eco Sleep. I sleep with the inside of the bed in a comfortable environment will be in tomorrow's vitality energy-saving, hotels of gains made in reducing CO ₂ emissions a year in Ekosuripu and to switching 10W of power than to air conditioning a large space in the 2.2KW cooler It will be a huge profit through. The customer stays again for a good night's sleep and believes there is no more industrial value.
▲ 2 ▼ Industrial use value is tremendous for people who travel for a long time and have a little sleep time.
(3) Medical people are likely to make a medical error due to lack of sleep after 24 hours of life. I consider it a necessity for this industry. In addition, there are patients who are completely cured of bed sores.

DESCRIPTION OF SYMBOLS 1 Circulation heater 2 Filter cover 3 Suction port 4 Fan vent for floor 5 Mounting hole for both sides 6 Fan vent for hanging 7 Shirotsuko fan 8 Motor 9 Fan suction port 10 Shirotsuko fan case 11 Substrate 12 Return sensor 13 Control heater 14 Hot air passage 15 Return passage hole 16 Deodorizing and sterilizing filter 17 Sterilization rod 18 Return passage 19 Shirotsukofan ventilation path 20 Cover cover 21 Hanging cover 22 Three-dimensional ventilation net 23 Hanging fan pipe 24 Bed fan pipe 25 Indoor cooler 26 Outlet 27 Remote control 28 Suction pipe 29 Hanging Air blower mounting cloth 30 Magic tape 31 Ventilation net for floor 32 Air blow net for hanging 33 Futon for hanging 34 Air blow cloth for floor 35 Air in bed 36 Macla 37 Shoulder cover 38 Air vent on both sides 39 Bed 40 Circulating heater set fitting 41 Indoor Temperature controller 42 plane Air Nets 43 wet suction temperature and humidity sensor 44 insole for temperature sensor 45 electrically control board 46 switching switch

Claims (12)

  A bedding characterized in that the air in the bed formed by the quilt for sleeping and the quilt for bed is circulated by a fan.   The bedding according to claim 1, wherein air in the bed formed by a hanging futon and a bed futon is sucked from the vicinity of the feet, and the air is blown again into the bed through a fan.   The bedding according to claim 2, wherein a flat ventilation net or a three-dimensional ventilation net that sucks air in the bed is provided at an end of the floor ventilation net in the human foot direction.   The air in the bed formed by the quilt and the bed quilt is sucked through the air permeable bed net and the air is blown into the bed again through a fan. The bedding described in.   The bedding according to claim 4, wherein air is sucked from a portion excluding the feet of the quilt.   The bedding according to claim 5, wherein an air blowing cloth for sending air into the bed is provided at an end of the air ventilation net in the person's foot direction.   The bedding according to any one of claims 1 to 6, wherein the sucked air is blown into the bed through a gap between the hanging futon and the hanging cover and / or a gap between the floor ventilation net and the floor cover.   The bedding according to any one of claims 1 to 7, wherein the sucked bed air is heated by a heater and blown into the bed.   The bedding according to any one of claims 1 to 8, wherein the sucked bed air is blown into the bed through a filter.   The bedding according to any one of claims 1 to 9, further comprising a change-over switch capable of switching between an indoor air conditioner and a circulation heater.   When a person enters the bed made up of a quilt and a quilt, a sensor is installed to detect the person. This sensor detects the person and at the same time circulates air with a fan and adjusts the room temperature. The bedding according to any one of claims 1 to 11, wherein the bedding is performed.   The temperature and humidity of the sucked bed air are sensed by a return sensor and adjusted by a heater and a fan so that the temperature is 28 to 34 ° C and the humidity is 30 to 50%. The bedding according to claim 11.

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