JP2005348979A - Bed - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bed effectively producing a useful vibration such as sleep-inducing vibration and massage vibration causing relaxation effect to the body of a user on the bed. <P>SOLUTION: The bed provided with a bed body 1 having a setting face for setting bedding in which a user lies is provided with a vibration unit 30 directly or indirectly giving the useful vibration to the body of the user on the bed body 1. The position of the vibration unit 30 can be adjusted vertically and widthwise in the main body 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a bed for resting a user's body.

Due to the sudden change in the social environment, the user is unknowingly and greatly stressed in normal social life. In recent years, interest in improving quality of life has increased, and various methods for relieving these stresses have been proposed. Among them, it is known that it is important to ensure high-quality sleep from the viewpoint of the stress relieving effect, but it is difficult to ensure high-quality sleep. Here, it is known that it is effective to use music and vibration to realize high-quality sleep. Conventionally, speakers placed on the left and right of the user's head and the user's feet A bedding having a vibration device arranged on the left and right of a part has been proposed (Patent Document 1). It is considered that a high quality sleep can be obtained by adding a comfortable music and vibration to the body during sleep or during sleep and thereby exhibiting a high relaxation effect.
Japanese Patent Laid-Open No. 2000-83766

  Further, in the industry, there is a demand for the development of a bed that can give a user on the bed a useful vibration that can exhibit a relaxation effect and the like. The present invention has been made in view of the above circumstances, and provides a bed capable of effectively giving useful vibrations such as a wakeful sleep vibration and a massage vibration that induce sleep to the user's body on the bed. is there.

  The bed according to the first aspect of the present invention is a bed having a bed main body on which bedding on which a user lies can be placed, and is provided with a vibration section that provides useful vibration directly or indirectly to the user's body on the bed main body. In addition, the position of the vibrating part can be adjusted in the height direction of the bed main body. According to the bed concerning the 1st invention, a vibration part can give useful vibrations, such as a wakefulness vibration and a massage vibration, to a user's body on a bed main part directly or indirectly. Furthermore, the position of the vibrating part can be adjusted in the height direction of the bed body. For this reason, if the height position of a vibration part is adjusted, a useful vibration can be effectively added to a user's body, or the height position where a useful vibration is applied can be adjusted. Therefore, useful vibrations such as a wakefulness vibration and a massage vibration by the vibration unit can be effectively applied to the user's body on the bed body. For example, it is possible to cope well when using bedding such as mattresses having different thicknesses.

  The bed according to the second aspect of the present invention is a bed having a bed main body on which bedding on which the user lies can be placed, and is provided with a vibration section that provides useful vibration directly or indirectly to the user's body on the bed main body. In addition, the position of the vibrating portion can be adjusted in the width direction of the bed main body. The width direction of the bed body corresponds to the width direction of the user sleeping on the bed. According to the bed concerning the 2nd invention, a vibration part can give useful vibrations, such as a hypnotic vibration and a massage vibration, directly or indirectly to a user's body on a bed main part. Furthermore, the position of the vibrating part can be adjusted in the width direction of the bed body. For this reason, if the position of a vibration part is adjusted in the width direction of a bed main body, a useful vibration can be effectively added to a user's body, or the position which applies a useful vibration in the width direction of a bed can be adjusted. Therefore, useful vibrations such as a wakefulness vibration and a massage vibration by the vibration unit can be effectively applied to the user's body on the bed body.

  According to the bed according to the present invention, the vibration unit can give useful vibrations typified by sleep-induced vibrations and massage vibrations directly to the user's body on the bed body or indirectly through bedding. Furthermore, since the position of the vibration part can be adjusted in the height or width direction of the bed body, a gap is generated between the vibration part and the bedding due to circumstances such as the size of the foot pillow and mattress bedding. Even in such a case, the position of the vibrating part can be adjusted in a direction to reduce or eliminate the gap. Therefore, useful vibrations such as a sleeping vibration or a massage vibration by the vibration unit can be applied to the user's body on the bed body. Therefore, it is possible to use beddings such as mattresses and foot pillows having a thickness, hardness, shape, touch, design, etc. according to the user's preference.

  According to the bed according to the present invention, the vibration unit applies useful vibration directly to the user's body on the bed main body or indirectly through a vibration transmission medium such as bedding. The vibration transmission medium can be exemplified by a foot pillow on which the user's foot is placed on the bed body or a mattress on which the user's body is placed, and in some cases, a head pillow on which the user's head is placed on the bed body. . Moreover, the form provided with the foot side member which faces the user's foot | leg which lies on a bed main body, or the head side member which faces the head side of a user's actuator is employable. In this case, it is preferable that the vibration part is provided in one or both of the foot side member and the head side member. A mode in which the vibration part is provided on one or both of the foot side member and the head side member can be adopted. In this case, as compared with the form in which the vibration part is built in bedding such as a mattress, it is possible to eliminate the problem that the user etc. steps on the vibration part and damages it, and the protection and durability of the vibration part Will improve. Furthermore, it is advantageous for reducing the vibration noise of the vibration part. The foot side member is a member provided on the foot side of the user lying on the bed body in the bed body. A head side member is a member provided in the head side of the user who lies on a bed main body among bed main bodies. The foot-side member can be generally formed of a foot frame that has a function of suppressing a shift of the user's foot side among the bedding placed on the bed body. The head-side member can be generally formed of a head frame that has a function of suppressing the deviation of the head side of the user among the bedding placed on the bed body. The foot frame may be a foot board attached to the bed body, but is not necessarily limited to a board shape, and may be a pipe or bar assembled in a frame shape. The foot frame may be integrally attached to the bed body, or may be provided so as to be separable. The head frame can be a headboard attached to the bed body, but is not necessarily limited to a board shape, and may be a pipe or bar assembled in a frame shape. The foot frame and the head frame may be integrally attached to the bed body, or may be provided so as to be separable.

  The vibration direction of the vibration unit may be the height direction of the bed body, the length direction of the bed body (height direction of the user sleeping on the bed), or the width direction of the bed body (bed The width direction of the user who lies on the bed may be used. It is preferable that the vibration part can protrude to the user side on the bed rather than the foot side member and / or the head side member. If the vibration part can protrude toward the user on the bed, it can be dealt with even when the size of the mattress is short. You may decide to provide the foot pillow which mounts the user's foot | leg of a bed main body. The foot pillow may have a sole facing surface that faces the sole of the foot. The so-called acupoints are concentrated on the sole of the foot and are sensitive to stimulation, which is advantageous for enhancing the hypnotic action and the massage effect. The sole-facing surface may be a standing face, or may have an uneven shape that approximates the sole of the foot of the user lying on the bed body. Preferably, the foot pillow has a foot side facing surface facing the calf of the user's foot lying on the bed body, in addition to the sole facing surface facing the foot sole surface of the user's foot lying on the bed body. Thus, it is possible to adopt a form in which useful vibrations are propagated to the sole-facing surface and the foot-side facing surface of the foot pillow.

  A strong mode for relatively increasing the degree of pressure contact between the vibration part and bedding (for example, a mattress or a pillow) and a pressure mode between the vibration part and bedding (for example, a mattress or pillow) are relatively lower than those in the strong mode. A weak mode is provided, and a mode in which the strong mode and the weak mode are switched by adjusting the position of the vibration part on the bed body can be adopted. Moreover, it is preferable that the position of the vibrating part can be adjusted in the height direction of the bed body. In this case, it is advantageous to cope with fluctuations in the height dimension and height dimension of bedding such as a mattress, and it is advantageous to change the vibration propagation property to the user on the bed into a plurality of forms. Furthermore, it is preferable that the position of the vibrating part can be adjusted in the width direction of the bed body. In this case, it is advantageous to cope with fluctuations in the width dimension of bedding such as mattresses and pillows.

  Preferably, the form provided with the heating part which heats the user's body on a bed main body directly or indirectly is employable. As a heating part, at least one of a user's arm, a use waist, and a user's leg (especially a sole, a calf, an ankle, etc.) can be heated. If a heating unit is provided, the user's body on the bed can be warmed, and a relaxation effect such as a hypnotic effect and a massage effect can be further achieved by a combined action using warming such as a moderate hypnotic vibration and warming. Can be improved. It is particularly suitable for users (women, elderly people, etc.) who suffer from coldness. The heating unit can be provided on at least one of the bedclothes, the bed main body, and the foot side member on the bed. When the foot pillow and the mattress are provided, the heating unit can be provided on the foot pillow and the mattress. it can. The heating unit is preferably an electric heater type that is heated by electricity, but may be another type having a heat storage function or a heat generation function.

  Embodiments of the present invention will be described below with reference to the drawings. The drawings show conceptual diagrams and do not define the details.

(Example 1)
1 to 5 show a first embodiment. The bed includes a bed main body 1 having a mounting surface 10 on which a user can lay bedding 16 (mattress), and a mattress 16 (vibration transmission medium, bedding) mounted on the mounting surface 10 of the bed main body 1. A foot board 11 as a foot frame provided on the bed main body 1 so as to be positioned on the foot side of the user lying on the bed), and on the head side of the user lying on the mattress 16 on the mounting surface 10 of the bed main body 1. A head board 12 as a head frame and a side board 13 as side members are provided on the bed body 1 so as to be positioned. The foot board 11 has a first surface 11 f that faces the head board 12 and a second surface 11 s that faces away from the head board 12. The bed body 1 has a side board 13. When the user lies on the mattress 16 mounted on the mounting surface 10 on the bed body 1, the vibration unit 3 (3 </ b> P) as a vibration unit that gives moderate useful vibration to the user's foot is attached to the foot pillow 4. It is detachably attached to the footboard 11 or fixedly built in an opposing position. A vibration unit 3 (3M) as a vibration unit is detachably or fixedly incorporated in the footboard 11 at a position facing the end 16e of the mattress 16 mounted on the mounting surface 10 of the head body 1. Yes. Thus, the vibration unit 3 (3P, 3M) is built in the foot board 11 of the bed body 1. The vibration unit 3 (3P, 3M) has an axis K, and the vibration direction is the K1, K2 direction (the length direction of the bed main body 1). The useful vibration of the vibration unit 3 </ b> P is propagated mainly to the user's foot through the foot pillow 4. The vibration unit 3M is disposed below the vibration unit 3P, and useful vibration of the vibration unit 3M is propagated to the user's body mainly through the end portion 16e of the mattress 16 in the length direction. A feed line 3w is derived from the vibration units 3P and 3M. The vibration unit 3 (3P, 3M) is fitted into a hollow portion having an opening formed in the foot board 11 and built therein. In this state, the vibration unit 3 is held so as to face the headboard 12 of the bed main body 1 with a space therebetween, that is, to face the foot sole of the user's foot.

  A known structure can be adopted as the fixing means. As the fixing means, for example, a screwing structure that holds the vibration unit 3 in its position with a bolt can be employed. In this case, a group of female screw holes in which a large number of female screw holes into which bolts can be screwed are arranged in the moving direction of the vibration unit 3 (3P, M) is formed in the footboard 11 in advance. Then, after adjusting the position of the vibration unit 3, a bolt that has passed through a through hole (not shown) of the vibration unit 3 (3P, M) is detachably screwed into a desired female screw hole in the female screw hole group and fixed. Accordingly, a method of fixing to the foot board 11 so that the vibration unit 3 (3P, M) after the position adjustment does not move can be adopted.

  Further, as the fixing means described above, a pin hole into which the pin can be inserted is provided on the vibration unit 3 (3P, M) so that the position of the vibration unit 3 (3P, M) is not inadvertently displaced due to free fall or the like. A group of pin holes arranged in a row along the moving direction is formed in the footboard 11 in advance. Then, after adjusting the position of the vibration unit 3, the pin that has passed through the unillustrated through hole of the vibration unit 3 (3P, M) is detachably inserted into a desired pin hole in the pin hole group and fixed. . Accordingly, a method of fixing the vibration unit 3 (3P, 3M) after the position adjustment to the foot board 11 so as not to move can be adopted. As the fixing means described above, an electromagnet is attached to the vibration unit 3 (3P, 3M), the position of the vibration unit 3 is adjusted in a state where the electromagnet is demagnetized, and the electromagnet is excited after the position of the vibration unit 3 is adjusted. In addition, it is possible to adopt a method in which the vibration unit 3 (3P, M) is detachably attached to an adsorption portion formed of a magnetic adsorption material of the footboard 11. Also, as the fixing means described above, conversely, an electromagnet is attached to the foot board 11 on the bed body 1 side, the position of the vibration unit 3 is adjusted with the electromagnet demagnetized, and the position of the vibration unit 3 is adjusted. Energize the electromagnet. Accordingly, it is possible to adopt a method in which the suction portion formed of the magnetic suction material in the vibration unit 3 (3P, M) after position adjustment is detachably attached to the footboard 11. According to the present embodiment, the vibration unit 3 (3P, 3M) is built in the foot board 11 as described above. The material of the foot board 11 is not particularly limited, and may be made of wood, metal, or resin. The hollow portion opens in both the first surface 11f and the second surface 11s of the footboard 11. However, the present invention is not limited to this, and the hollow portion may be open in either the first surface 11f or the second surface 11s. .

  As shown in FIG. 1, the bed main body 1 is provided with a plurality (two) of Y guide portions 105 extending along the height direction (arrow Y1, Y2 direction). The positions of the vibration units 3 (3P, 3M) can be adjusted along Y guide portions 105 provided along the height direction (arrows Y1 and Y2 directions) of the bed main body 1. . The position-adjusted vibration unit 3 (3P, 3M) is fixed at the adjusted height position by the fixing means (not shown). The vibration units 3P and 3M include a plurality of vibration sources 30 arranged in parallel along the width direction (arrow W direction) of the user and a plurality of vibrations so as to give useful vibration to the user lying on the bed main body 1. It has the holding | maintenance part 31 formed with the loading material which has the vibration propagation nature which hold | maintains the source | sauce 30 collectively, and the base 32 which hold | maintains the holding | maintenance part 31. The loading material constituting the holding unit 31 is not particularly limited, and a resin system, a rubber system, a foam material system, a fiber assembly, a metal system, or the like can be used as a base material. Since the loading material is interposed between the adjacent vibration sources 30, it is advantageous for suppressing vibration interference caused by the adjacent vibration source 30. The vibration source 30 has a vibration function. The vibration principle of the vibration source 30 includes a method of vibrating the vibrator by magnetism, a method of vibrating the vibrator by piezoelectric action, a method of vibrating the vibrator by magnetostrictive action, a method of vibrating the vibrator by driving a motor, and an ultrasonic wave A known vibration method such as a vibration method can be employed. The axis K direction of the vibration source 30 is the length direction of the bed main body 1 (the height direction of the user), but is not limited thereto, and the axis K direction of the vibration source 30 is the height of the bed main body 1. It may be the direction. The vibration source 30 vibrates along the axis K of the vibration source 30 in the directions of arrows K and K2.

  As shown in FIG. 1, the foot pillow 4 (vibration transmission medium, bedding) is detachably mounted on the mattress 16 on the placement surface 10 of the bed body 1 so that at least a part thereof faces the vibration unit 3P. It has been. The foot pillow 4 extends from the lateral portion 42 to the footboard so as to face both the lateral portion 42 extending along the mattress 16 and the foot sole of the user lying on the bed body 1 and the vibration unit 3. 11 and a vertical portion 41 erected upward, and has a side surface 4s and an end surface 4k. The foot pillow 4 includes a sole facing surface 43 that faces the foot sole of the user's foot and a foot side facing surface 44 that faces the calf and ankle of the user lying on the bed main body 1. Here, the sole facing surface 43 is provided on the side surface of the vertical portion 41 of the foot pillow 4. The sole-facing surface 43 has a bulging portion 43a that bulges so as to face the arch region on the user's sole. The foot side facing surface 44 is provided on the upper surface of the lateral portion 42 of the foot pillow 4. The foot side facing surface 44 of the foot pillow 4 has a shape that approximates the shape of the calf and ankle of the user, and has a protrusion 45 that faces the ankle of the user's foot. The foot pillow 4 and the mattress 16 are formed using a material that does not put a burden on the body as a base material. As described above, examples of the substrate include at least one of urethane resin, cotton, feathers, beads, gel materials, and the like. The mattress 16 may incorporate a spring such as a coil spring. The axial center of the coil spring can be extended in the thickness direction of the mattress 16.

  In the present embodiment, it is preferable that a vibration start unit for starting vibration and a vibration stop unit for stopping vibration are provided. As the vibration start unit, a lying sensor that outputs a signal of the user lying on the bed body 1 can be provided. As the input vibration stop unit, a sleep sensor that estimates or detects that the user has entered sleep can be provided. An example is a method in which the vibration source 30 starts to vibrate in response to a command from the vibration starting unit, and the vibration of the vibration source 30 is stopped by a sleep sensor signal. As a lying sensor for detecting the lying of the user, for example, a pressure sensor built in the mattress 16 for detecting the weight of the user can be formed. Alternatively, the lying sensor can be formed by a switch that is operated by the user's fingertip or the like based on the user's intention. The sleep sensor may have a timer function that estimates that the user has been induced to sleep when a predetermined time has elapsed since the start of the wakefulness vibration by the vibration source 30. As a sleep sensor, a physical quantity change (for example, chest or abdominal displacement, chest or abdominal displacement period, heartbeat displacement, heartbeat period) based on the respiration and / or heartbeat of the user lying on the bed. ) Can be exemplified. Or as a sleep sensor, the sensor which detects a user's brain wave, the snoring sound sensor which detects a user's snoring sound, etc. can be illustrated.

  At the time of use, the user lies on the mattress 16 placed on the placement surface 10 of the bed main body 1. The user's foot is placed on the foot pillow 4. The useful vibration of the vibration unit 3M is propagated to the user's body mainly through the end portion 16e of the mattress 16. Since the vibration unit 3M is provided on the user's foot side, vibration transmission to the user's foot side is effective, and although it can improve the massage property to the foot, waist, etc., the user's head side There is little vibration propagation to the body, and it is possible to improve sleepiness and massage. In general, the calf and ankle of the user's foot lying on the bed main body 1 are placed on and opposed to the foot-side facing surface 44 of the foot pillow 4. Further, the sole of the foot of the user faces the sole facing surface 43 of the foot pillow 4. In this state, the vibration source 30 of the vibration unit 3 (3P, 3M) vibrates. The vibration of the vibration source 30 is propagated and stimulated as a useful vibration to the foot of the foot pillow 4, particularly to the sole facing surface 43. Thereby, the useful vibration which can exhibit relaxation effects, such as a massage vibration and a sleep vibration, can be given to the user who lies on the bed main body 1. Furthermore, moderate useful vibrations are given to the calf and ankle of the user's foot via the foot-side facing surface 44 of the foot pillow 4, which is advantageous in enhancing the user's comfort. As described above, since the useful vibration of the vibration source 30 built in the foot board 11 is propagated through the foot pillow 4 and the mattress 16, the useful vibration is moderately attenuated by the foot pillow 4 and the mattress 16, and the vibration source 30 The vibration is transmitted to the user's foot indirectly, and the comfort can be improved.

  5 and 6 show the concept of the movable mechanism 100 with the vibration unit 3 (3P, 3M) in a three-dimensional direction. As shown in FIGS. 6 and 7, the movable mechanism 100 includes a Z guide portion 101 extending along the width direction (arrow Z1 and Z2 directions) of the bed body 1 and a width direction along the Z guide portion 101. A Y guide part 105 provided on the slider 103 movable along the arrows Z1 and Z2 and extending along the height direction of the bed body 1 (arrows Y1 and Y2 directions); and a Y guide part 105 The X guide portion 107 is provided on the slider 106 movable along the height direction (arrows Y1 and Y2 directions) and extends along the length direction (arrows X1 and X2 directions) of the bed body 1. And have. The X guide part 107 and the vibration unit 3 (3P, 3M) are connected. By such a movable mechanism 100, the vibration unit 3 (3P, 3M) can be moved in the width direction (Z1, Z2 direction) of the bed main body 1, the height direction of the bed main body 1 (arrows Y1, Y2 direction), the bed main body 1 It is possible to move three-dimensionally along the length direction (arrow X1, X2 direction). The vibration unit 3 (3P, 3M) can be held in the moved position by a fixing means (not shown). As the fixing means, a screwing structure that holds the vibration unit 3 (3P, 3M) in its position with a bolt or a nut can be employed so that the vibration unit 3 (3P, 3M) is not displaced. As a fixing means, a pinning structure in which the insertion pin is inserted and fixed to the vibration unit 3 (3P, 3M) or the bed main body 1 so that the position of the vibration unit 3 (3P, 3M) is not displaced due to free fall or the like. May be adopted. Therefore, the sliders 103 and 106 can be held at the positions by screw tightening structures such as bolts and nuts. By inserting the insertion pins into the sliders 103, 106, etc., the sliders 103, 106, etc. can be held at their target positions, and as a result, the vibration unit 3 (3P, 3M) can be held at the target positions.

  As described above, according to the present embodiment, the position of the vibration unit 3 (3P, 3M) can be three-dimensionally adjusted according to the user's preference. In this case, it is advantageous to cope with fluctuations in the height and thickness dimensions of the bedding such as the mattress 16 and the foot pillow 4, and the thickness and height of the bedding such as the mattress 16 and the foot pillow 4 are determined by the user's preference. Can be selected. According to the present embodiment, as described above, the vibration units 3M and 3P can be adjusted in position along the height direction, that is, the directions of the arrows Y1 and Y2. Therefore, according to the user's preference, as shown in FIG. 7, mode P1 is mainly applied to the upper part of the foot pillow 4 in the height direction, and vibration is mainly applied to the intermediate part of the foot pillow 4 in the height direction. The mode P2 can be changed to a mode P3 in which vibration is mainly applied to the lower part of the foot pillow 4 in the height direction. Further, since the position of the vibration unit 3M can be adjusted in the height direction, that is, the directions of the arrows Y1 and Y2, the mode M1 for applying vibration to the upper part of the thickness direction of the mattress 16 and the thickness of the mattress 16 as shown in FIG. It can be changed to a mode M2 in which vibration is applied to the middle part of the direction and a mode M3 in which vibration is applied to the lower part of the mattress 16 in the thickness direction. In the modes M1, M2, and M3, since the thickness of the mattress 16 is affected, the vibration forms tend to be different. In general, if vibration is applied to the upper part of the mattress 16 in the thickness direction, the vibration attenuation due to the thickness of the mattress 16 is small, so that the vibration propagation distance in the length direction of the bed body 1 can be increased. Even if 3M is arranged on the user's foot side, it is advantageous for propagating useful vibration not only to the user's foot but also to the waist and back. In some cases, it is advantageous to propagate near the shoulder. If vibration is applied to the lower part of the mattress 16 in the thickness direction, the vibration attenuation due to the thickness of the mattress 16 is large. Therefore, the vibration propagation distance in the length direction of the bed body 1 can be reduced, and the user's foot is the center. Useful vibration can be applied. Thus, it is advantageous to change the vibration propagation form to the user on the bed into a plurality of modes according to the user's preference. Furthermore, since the position of the vibration unit 3 can also be adjusted in the width direction of the bed body 1 (arrows Z1 and Z2), the user's physique, changes in the width dimensions of the bedding such as the mattress 16 and the foot pillow 4, and the bed It is possible to deal with fluctuations in the number of sleeping users and to add useful vibrations to the user's body. In this sense as well, there is an advantage that the user can use the useful vibration according to his / her preference.

  9 to 11 show another movable mechanism 100B. The movable mechanism 100B includes a Z guide portion 101 extending along the width direction (arrow Z1, Z2 direction) of the bed body 1 and a width direction (arrow Z1, Z2 direction) along the Z guide portion 101. The Y guide part 105 provided on the movable slider 103 and extending along the height direction (arrow Y1, Y2 direction) of the bed body 1, and the height direction (arrow Y1) along the Y guide part 105 , Y2 direction) and an X guide portion 107 provided on the slider 106 movable along the length direction (arrow X1, X2 direction) of the bed main body 1. Therefore, the vibration unit 3 (3P, 3M) is moved in the width direction (Z1, Z2 direction) of the bed main body 1, the height direction of the bed main body 1 (arrow Y1, Y2 direction), and the length of the bed main body 1 by the movable mechanism 100B. It is possible to move three-dimensionally along the direction (arrow X1, X2 direction). The vibration unit 3 (3P, 3M) whose position has been adjusted can be held by a fixing means. As the fixing means, for example, a screwing structure that holds the vibration unit 3 in its position with bolts or nuts can be employed.

  FIG. 12 shows another movable mechanism 100C. The movable mechanism 100 </ b> C is provided on the hood board 11 and extends along the height direction (arrow Y <b> 1, Y <b> 2) of the bed body 1, and the height direction along the Y guide portion 105. An X guide portion 107 is provided on the slider 106 that is movable along (the directions of the arrows Y1, Y2) and extends along the length direction (the directions of the arrows X1, X2) of the bed main body 1. The X guide part 107 and the vibration unit 3 are connected. Accordingly, the vibration unit 3 (3P, 3M) can be moved by the movable mechanism 100C along the height direction (arrow Y1, Y2 direction) of the bed main body 1 and the length direction (arrow X1, X2 direction) of the bed main body. Has been. The vibration unit 3 (3P, 3M) whose position has been adjusted can be held by a fixing means. As the fixing means, for example, a screwing structure that holds the vibration unit 3 in its position with a bolt or a nut can be employed.

  As described above, according to this embodiment, the position of the vibration unit 3 (3P, 3M) can be adjusted in the height direction of the bed main body 1 (arrow Y1, Y2 direction). For this reason, for example, even when the height positions of the vibration units 3P and 3M are not adapted due to the thickness and height of the mattress 16 and the foot pillow 4, the vibration unit 3M can be made to have a good mattress 16. The vibration unit 3 </ b> P can be applied to a good position of the foot pillow 4 while being applied to the position. Therefore, useful vibrations that give relaxation effects such as sleep-induced vibrations and massage vibrations by the vibration units 3M and 3P can be effectively applied to the user's body on the bed main body 1. When using the mattress 19 and the foot pillow 4 that are not pre-installed on the bed and have a thickness, height, etc. according to the user's preference, a difference in height tends to occur.

  In addition, according to the present embodiment, as shown in FIG. 1, the position of the vibration unit 3 (3P, 3M) can be adjusted in the length direction of the bed body 1 (arrow X1, X2 direction). Therefore, even when a gap L (see FIG. 1) is generated between the vibration units 3M and 3P and the bedding (such as the mattress 16 and the foot pillow 4), the vibration units 3P and 3M are moved in the direction of the arrow X1. If it moves and protrudes from the 1st surface 11s of the footboard 11, the position of the vibration units 3P and 3M can be adjusted in the direction in which the gap L is reduced or eliminated. For example, when the gap L is generated between the vibration units 3P and 3M and the foot pillow 4 and between the vibration units 3M and 3P and the mattress 16 due to circumstances such as the size of the mattress 16 and the foot pillow 4. In addition, as shown in FIG. 1, the vibration units 3M and 3P are protruded toward the user side on the bed from the first surface 11f of the footboard 11 in a direction to reduce or eliminate the gap L, and the vibration unit 3M is moved to the mattress 16. The vibration unit 3P can be applied to the foot pillow 4 while being applied to the end 16e of the foot. Therefore, useful vibrations such as a wakeful sleep vibration and a massage vibration by the vibration units 3M and 3P which are vibration parts can be effectively applied to the user's body on the bed main body 1. Note that the gap L is likely to occur when the mattress 19 and the foot pillow 4 having a hardness, thickness, shape, feel, design, etc. according to the user's preference are used instead of being pre-installed on the bed. Even in the mattress 19 and the foot pillow 4 that are pre-installed on the bed, the gap L may occur.

  Furthermore, according to the present embodiment, by adjusting the position of the vibration unit 3M in the directions of the arrows X1 and X2, the pressure contact degree between the vibration unit 3M and the mattress 16 and the pressure contact degree between the vibration unit 3P and the foot pillow 4 can be adjusted. The vibration propagation rate between the vibration unit 3M, the mattress 16, and the foot pillow 4 can be adjusted. Therefore, relaxation effects such as a hypnotic effect and a massage effect can be adjusted. Here, when the vibration propagation rate is desired to be increased, the strong mode may be set to relatively increase the pressure contact degree between the vibration unit 3M and the mattress 16 and the pressure contact degree between the vibration unit 3P and the foot pillow 4. When it is desired to lower the vibration propagation rate, the weak mode in which the pressure contact degree between the vibration unit 3M and the mattress 16 and the pressure contact degree between the vibration unit 3P and the foot pillow 4 are relatively lower than in the strong mode may be used. . When the vibration propagation rate is desired to be intermediate, an intermediate mode in which the pressure contact between the vibration unit 3M and the mattress 16 and the pressure contact between the vibration unit 3P and the foot pillow 4 are intermediate between the strong mode and the weak mode may be used. Since the vibrations of the vibration units 3P and 3M are propagated to the user through the foot pillow 4 and the mattress 16 in this way, it is advantageous to eliminate discomfort even when the vibration is strong.

  According to the present embodiment, since the vibration unit 3 (3P, 3M) which is a vibration part is provided in the footboard 11, the footboard 11 can serve as a housing or casing of the vibration unit 3, The impact resistance to the vibration source 30 can be improved, and the protection and durability of the vibration source 30 can be improved, which is advantageous for extending the life of the vibration source 30. Furthermore, since the vibration source 30 is built in the footboard 11, the problem that the user steps on the vibration source 30 and damages it as compared with a form in which a bedding such as a mattress is built in is eliminated. can do. Since the vibration source 30 is built in the footboard 11, propagation of vibration noise to the outside can be suppressed, which can contribute to reduction of both vibrations.

  In this embodiment, an electric heater type heating unit 5 (see FIG. 1) is provided. Therefore, the user's feet lying on the bed can be warmed by the heating unit 5, and the combined effect of combining useful vibration and warming enhances the user's comfort and induces the user to sleep. The action or massage action can be improved. In particular, it is suitable for arousal of users (women, elderly people, etc.) who suffer from coldness. Since the heating unit 5 is provided on the lower surface of the foot pillow 4, direct contact between the skin of the user's foot and the heating unit 5 can be avoided, and warming of the foot becomes indirect and warms appropriately. be able to.

(Example 2)
13 and 15 are conceptual diagrams of the second embodiment. The present embodiment basically has the same configuration and operational effects as the first embodiment. Hereinafter, the description will focus on the different parts. The vibration units 3P and 3M are mounted on the foot board 11, and in the height direction of the bed main body 1 (arrow Y1, Y2 direction) and the width direction of the bed main body 1 (arrow Z1, Z2 direction) with respect to the foot board 11. It can be moved. Furthermore, along the length direction (the height direction of the user sleeping on the bed) of the bed main body 1 on which the vibration units 3P and 3M are mounted, that is, the direction approaching the user (the arrow X1 direction) or the direction away from the use. It can be moved in the direction of arrow X2. Thereby, the position of the vibration units 3P and 3M built in the foot board 11 can be adjusted in the length direction of the bed main body 1. As shown in FIGS. 13 and 14, the footboard 11 is provided with a guide portion 11 r extending in the length direction (arrow X 1, X 2 direction) of the bed body 1, which is convex or concave. The bed main body 1 is provided with a guided portion 1r made of a concave or convex extending in the length direction of the bed main body 1. Due to the slide fitting of the guided portion 1r and the guide portion 11r, the footboard 11 and thus the vibration unit 3 (3P, 3M) mounted on the footboard 11 is in the length direction of the bed body 1 (sleeps on the bed). It can be moved along the height direction of the user), that is, in the directions of the arrows X1 and X2. For this reason, the gap L is generated between the vibration units 3P, 3M and the foot pillow 4 and between the vibration units 3M, 3P and the mattress 16 due to circumstances such as the size of the mattress 16 and the foot pillow 4. However, if the footboard 11 is moved toward the headboard 12 in the direction of the arrow X1 in the direction of reducing or eliminating the gap L, the vibration unit 3M is moved in the length direction of the mattress 16 as shown in FIG. The vibration unit 3P can be applied to the foot pillow 4 while being applied to the end portion 16e. Therefore, useful vibrations that give relaxation effects such as sleep-induced vibrations and massage vibrations by the vibration units 3M and 3P can be effectively applied to the user's body on the bed main body 1. Further, the degree of pressure contact between the vibration unit 3M and the mattress 16 and the degree of pressure contact between the vibration unit 3P and the foot pillow 4 can be adjusted, and the vibration propagation rate can be adjusted according to the user's preference.

  In the embodiment shown in FIG. 15, the vibration direction (K1, K2 direction) of the vibration source 30 is the direction along the height direction of the bed body 1, that is, the direction along the thickness direction of the mattress 16. In the embodiment shown in FIG. 16, the vibration direction (K1, K2 direction) of the vibration source 30 is the direction along the height direction of the bed body 1, that is, the direction along the sole facing surface 43 of the foot pillow 4. Has been.

  FIG. 17 shows an example of the vibration source 30 described above. As shown in FIG. 17, in the vibration source 30, a cylindrical coil 312 is coaxially housed inside a cylindrical outer case 316, and vibrators 313 and 313 formed of magnets are formed inside the coil 312. The magnetic poles are arranged so that the directions of the magnetic poles face each other with the spacer 315 interposed therebetween. Spring members 314 and 314 are disposed at both ends of the vibrators 313 and 313. Each of these components is accommodated in the outer case 316. When an electric signal having a predetermined frequency is input to the coil 312, the vibrators 313 and 313 formed of magnets are alternately moved in the vibration direction, and the vibrator 313 of the vibration source 30 exhibits a vibration action. The vibration direction is the axial length direction of the outer case 316. By changing the frequency, amplitude, etc. of the input electrical signal, the frequency, amplitude, etc. of the vibration of the vibration source 30 can be controlled. As shown in FIG. 18, the plurality of vibration sources 30 are held side by side in a storage space 31m of a holding portion 31 formed of a polymer material such as urethane foam. Other examples of vibration units that can be used include linear motor type and eccentric motor type vibration units. Both generate vibration by driving the motor at a frequency to be vibrated.

(Other examples)
19 to 29 show another embodiment (which can be premised on Embodiment 1 and Embodiment 2). 19 to 29, the vibration units 3P and 3M can be moved in the height direction and the width direction or the length direction of the bed main body 1. In the embodiment shown in FIG. 19, a heating unit 5 that can heat the foot is attached to the lower surface of the foot pillow 4. In the embodiment shown in FIG. 20, a heating unit 5 that can heat the back surface of the foot is attached to a position of the footboard 11 of the bed body 1 that faces the vertical portion 41 of the foot pillow 4. Here, as shown in FIG. 20, the sole facing surface 43 of the foot pillow 4, the heating unit 5, and the vibration unit 3 are arranged in this order. Thereby, the area | region which gives the useful vibration which gives relaxation effects, such as a wakeful sleep vibration and a massage vibration, can be effectively warmed by the heating part 5 among the foot soles of the user's leg lying on the bed. . Also in this case, direct contact between the skin of the user's foot and the heating unit 5 can be avoided. In the example shown in FIG. 21, the heating unit 5 is integrally provided on the upper surface 16 u on the user's foot side of the mattress 16. In this case, useful vibrations such as sleep-induced vibration and massage vibration can be applied to the soles of the feet of the user lying on the bed by the vibration unit 3, and the calves of the feet can be effectively warmed. In this case as well, the hypnotic action or the massage action that effectively induces the user to sleep can be improved by a combined action that combines warm vibration such as hypnotic vibration and massage vibration and warming.

  In the example shown in FIG. 22, the foot pillow 4 includes a foot pillow body 40 formed of a material suitable for the foot pillow 4, and an electric heater type heating unit 5 provided on the lower surface of the lateral portion 42 of the foot pillow body 40. And a surface layer 46 that covers the heating unit 5 and the foot pillow body 40. The heating unit 5 can mainly warm the calf and ankle of the foot. Also in this case, direct contact between the skin of the user's foot and the heating unit 5 can be avoided. In the example shown in FIG. 23, the foot pillow 4 is an electric type provided over the foot pillow main body 40, the vertical surface 41 v of the vertical portion 41 facing the foot board 11, and the lower surface 42 d of the horizontal portion 42 facing the mattress 16. It has the heating part 5 and the surface layer 46 which covers the heating part 5 and the foot pillow main body 40. The heating unit 5 can warm the foot sole, calf, and ankle of the user's foot. In the example shown in FIG. 24, the foot pillow 4 faces the foot pillow body 40, the first heating unit 5 f having a far infrared effect embedded in the vertical portion 41 so as to face the foot board 11, and the mattress 16. Thus, it has the 2nd heating part 5s with the far-infrared effect embed | buried under the horizontal part 42, and the surface layer 46 which covers the foot pillow main body 40. As shown in FIG. The first heating unit 5f can warm the back of the foot, and the second heating unit 5s can warm the calf and ankle of the user. The heating parts 5f and 5s may be Bincho charcoal or natural ore.

  In the example shown in FIG. 25, the foot pillow 4 includes a sole facing surface 43 that faces the foot sole of the user's foot, and a foot facing surface 44 that faces the calf of the user's foot lying on the bed body 1. And an extension 48 inserted between the end 16e in the length direction of the mattress 16 and the footboard 11. The useful vibration of the vibration unit 3 built in the footboard 11 is propagated to the sole facing surface 43 of the foot pillow 4 and the foot of the foot pillow 4 through the extended portion 48 and the end portion 16e of the foot pillow 4. It can also be propagated to the side facing surface 44. The extending portion 48 may be formed of the same material as that of the foot pillow 4 other than the extending portion 48. In some cases, the extension portion 48 can be formed of a material harder than the portion other than the extension portion 48 of the foot pillow 4 in order to suppress the attenuation of vibration propagation.

  In the embodiment shown in FIG. 26, the foot pillow 4 has an upright foot-facing surface 43 facing the foot sole of the user's foot and a horizontal surface facing the calf of the user's foot lying on the bed body 1. Foot side facing surface 44. When the foot is placed on the foot pillow 4, the foot pillow 4 is soft, so that the shape of the foot pillow 4 is elastically deformed along the shape of the foot.

  In the example shown in FIG. 27, the foot pillow 4 is an electric type provided over the foot pillow body 40, the vertical surface 41 v of the vertical portion 41 facing the foot board 11, and the lower surface 42 d of the horizontal portion 42 facing the mattress 16. It has the heating part 5 and the surface layer 46 which covers the heating part 5 and the foot pillow main body 40. The foot pillow body 40 has a covering portion 47 that covers the foot surface (surface on the toenail side) facing away from the foot sole of the user's foot. As a result, the holdability of the user's foot is improved, and the user's foot is prevented from being greatly separated from the footboard 11, and the contact between the foot sole surface of the user's foot and the sole facing surface 43 of the foot pillow 4 is achieved. It is advantageous to maintain the sex.

  According to the bed according to the present invention, the vibration source 30 and the vibration unit 3 may be mounted on the head board 12. Further, the number of vibration sources 30 mounted per vibration unit 3 may be one or plural. The vibration source 30 and the vibration unit 33 are provided so as to face both the foot pillow 4 and the mattress 16, but not limited thereto, the vibration source 30 and the vibration unit 33 are provided so as to face only the foot pillow 4. It is also possible to adopt the form that is used. Alternatively, a mode in which the vibration source 30 and the vibration unit 33 are provided so as to face only the mattress 16 may be employed. In addition, the present invention is not limited to the embodiments described above and shown in the drawings, and can be implemented with appropriate modifications without departing from the scope of the invention.

  The present invention can be used for a bed for resting a user's body.

It is a front view of the bed which attached the vibration unit to the foot board of the bed main body. It is a top view of the bed which attached the vibration unit to the foot board of the bed main body. It is a side view of the bed which attached the vibration unit to the foot board. It is sectional drawing which shows an example of a vibration unit. It is a block diagram which shows the principal part of the movable mechanism which moves a vibration unit. It is a perspective view which shows the principal part of the movable mechanism which moves a vibration unit. It is a block diagram which shows the form which adds the vibration of the vibration unit which changed height to a foot pillow. It is a block diagram which shows the form which adds the vibration of the vibration unit which changed height to a mattress. It is a block diagram which shows the movable mechanism which concerns on another example which moves a vibration unit. It is a top view which shows the movable mechanism which moves a vibration unit. It is a side view which shows the movable mechanism which moves a vibration unit. It is a block diagram which shows another movable mechanism. FIG. 10 is a front view of the bed in a state before the foot board having the vibration unit is brought close to the bed body according to the second embodiment. It is a front view of the bed in the state which concerns on Example 2 and made the footboard with a vibration unit approach the bed main body. It is a block diagram of the state which has arrange | positioned the axial center of the vibration part of the vibration unit which applies a vibration to a mattress in the height direction of a bed intention. It is a figure of the state which has arrange | positioned the axial center of the vibration part of the vibration unit which applies a vibration to a foot pillow in the height direction of the bed main body. It is sectional drawing which shows an example of the internal structure of a vibration part. It is a perspective view which shows the state in which the holding | maintenance part of a vibration unit hold | maintains a vibration part. It is a block diagram which shows the foot board and foot pillow vicinity which built the vibration unit in another example. It is a block diagram which shows the foot board and foot pillow vicinity which built the vibration unit in another example. It is a block diagram which shows the foot board and foot pillow vicinity which built the vibration unit in another example. It is sectional drawing which concerns on the other example and shows the foot pillow vicinity which has a heating part. It is sectional drawing which concerns on the other example and shows the foot pillow vicinity which has a heating part. It is sectional drawing which concerns on the other example and shows the foot pillow vicinity which has a heating part. It is a block diagram which shows the foot pillow vicinity which concerns on another example and has an extending part. It is a block diagram which shows the foot pillow vicinity concerning another example. It is sectional drawing which concerns on the other example and shows the foot pillow vicinity which has a cover part.

Explanation of symbols

  In the figure, 1 is a bed body, 11 is a footboard (foot side member), 16 is a mattress (bedding), 3 (3P, 3M) is a vibration unit (vibration unit), 30 is a vibration source, 4 is a foot pillow ( (Beddings) 5 indicates a heating unit.

Claims (7)

  In a bed having a bed body on which bedding on which a user lies can be placed, a vibration section that provides useful vibration directly or indirectly to the user's body on the bed body is provided, and the vibration section is The bed can be adjusted in position in the height direction of the bed main body.   In a bed having a bed body on which bedding on which a user lies can be placed, a vibration section that provides useful vibration directly or indirectly to the user's body on the bed body is provided, and the vibration section is The bed is adjustable in position in the width direction of the bed main body. In claim 1 or claim 2,
The bed body has a foot side member facing the user's foot side lying on the bed body, or a head side member facing the user's head side, and the vibrating section includes the foot side member and the head side. A bed provided on one or both of the members.   The bed according to claim 3, wherein the vibrating portion can protrude toward a user on the bed more than the foot side member or the head side member.   5. The bedclothes according to claim 1, wherein the bedding is a foot pillow on which a user's foot is placed on the bed body or a mattress on which the user's body is placed. bed.   The high mode in which the height position of the contact portion between the vibrating portion and the bedding is high, and the height position of the contact portion between the vibrating portion and the bedding according to any one of claims 1 to 5. Is provided with a low mode that is relatively lower than that in the high mode, and the high mode and the low mode can be switched by adjusting the position of the vibrating unit in the bed body in the height direction. The bed is characterized by having.   The bed according to any one of claims 1 to 6, further comprising a heating unit that directly or indirectly warms a user's body lying on the bed main body.

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