JP2017169626A - pillow - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pillow that can be used according to a state of a body.SOLUTION: A pillow includes a head support part 10 for supporting a head part, a cervical spine support part 20 for supporting a cervical spine part, and a height adjusting part for adjusting the height of at least one of the head support part and the cervical spine support part. The height adjusting part adjusts the height of the head support part to be higher than the height of the cervical spine support part. Preferably, the height adjusting part adjusts the height of both the head support part and the cervical spine support part.SELECTED DRAWING: Figure 8

Description

  The present invention relates to a pillow.

For example, Patent Document 1 discloses a pillow for use at bedtime, a head support portion on which a head having a predetermined height and elasticity is placed, and a height lower than the head support portion. A cervical vertebra support unit for placing the cervical vertebrae having elasticity, and a thoracic vertebra support unit for placing the upper thoracic vertebrae having elasticity lower than the cervical vertebra support unit in order, The pillow characterized by the cross-sectional shape of the perpendicular direction in a support part, the said cervical vertebra support part, and the said thoracic vertebra support part being a substantially triangular shape is disclosed.
Further, Patent Document 2 is a pillow that supports the head of a human body, and is connected to a first bag body that supports the head of the human body and an end portion on one side in one axial direction of the first bag body. A second bag that supports the cervical vertebra of the human body, and a third bag that supports the upper thoracic vertebra of the human body and is connected to one end of the second bag. A pillow is disclosed, characterized in that each of the first, second, and third bag portions is provided with an openable and closable hole.

Japanese Patent Laid-Open No. 2015-020051 Japanese Patent Laying-Open No. 2015-205015

  It aims at providing the pillow which can be used according to the state of a body.

  The pillow according to the present invention adjusts the height of at least one of a head support part that supports the head part, a cervical part support part that supports the cervical vertebra part, the head support part, and the cervical spine support part. A height adjusting portion that adjusts the height of the head support portion to be higher than the height of the cervical vertebra support portion.

  Preferably, the height adjustment unit adjusts the heights of both the head support unit and the cervical vertebra support unit.

  Preferably, the height adjustment unit adjusts the height of the head support unit higher than the height of the cervical vertebra support unit within a range of 2 cm to 10 cm.

  Preferably, the height adjusting portion adjusts the height of at least one of the cervical vertebra support portion and the head support portion to a height at which the neck can be bent and fixed in the front direction.

  Preferably, on the basis of the height information stored by the height storage unit and the height storage unit storing the height information indicating the height of the head support unit and the cervical vertebra support unit, A height selection unit that selects height information, and the height adjustment unit is configured to control the head support unit and the cervical spine support unit based on the height information selected by the height selection unit. Adjust the height.

  In the pillow height adjustment method according to the present invention, in the pillow, the height of the head support part that supports the head is adjusted to be relatively higher than the height of the cervical part support part that supports the cervical vertebra part. Process.

  A pillow that can be used according to the state of the body can be provided.

It is a figure which illustrates the height adjustment pillow. It is a figure which illustrates height adjustment pillow 1 before and after height adjustment. It is a figure which illustrates cervical spondylosis and radiculopathy typically. It is a figure which illustrates typically compression by the forward bending and backward bending of a spine. It is a figure which illustrates typically the height adjustment pillow 1 in a remission period and a deterioration period. It is a figure which illustrates the height adjustment pillow 2 in the modification 1. FIG. It is a figure which illustrates the function structure of the height adjustment pillow 2 in the modification 1. FIG. It is a figure which illustrates the height adjustment pillow 3 in the modification 2. FIG.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram illustrating a height adjustment pillow 1.
As illustrated in FIG. 1A, the height adjustment pillow 1 includes a head support 10 that supports the head, a cervical support 20 that supports the cervical vertebra, and a shoulder support that supports the shoulder. Part 90.
The head support unit 10, the vertebra support unit 20, and the shoulder support unit 90 are made of a material having elasticity. For example, the head support 10, the vertebra support 20, and the shoulder support 90 are made of urethane, pipe, beans, beads, feathers, feathers, buckwheat, water, cypress, ester, charcoal, or the like. . Further, the shoulder support portion 90 supports, for example, up to the scapula.

As illustrated in FIG. 1B, the height adjustment pillow 1 includes a height adjustment portion 100 that adjusts the height of at least one of the head support portion 10 and the cervical vertebra support portion 20. Moreover, the height adjustment pillow 1 has the one or several height adjustment part 100, for example. In this example, the height adjustment pillow 1 includes two height adjustment units 100A and a height adjustment unit 100B. The height adjustment unit 100 </ b> A adjusts the height of the cervical vertebra support unit 20, and the height adjustment unit 100 </ b> B adjusts the height of the head support unit 10.
The height adjusting unit 100 adjusts the height automatically or manually. For example, in the case of automatic, the height adjustment unit 100 adjusts the height by motor control or the like. In addition, the height adjustment unit 100 may adjust the height by operating an electric pump so that gas, liquid, or the like is taken in or out of the height adjustment pillow 1. In addition, for example, in the case of manual operation, the height adjusting unit 100 adjusts the height by allowing gas or liquid or the like to be taken in and out of the height adjusting pillow 1 by a manual pump. In addition, the height adjusting unit 100 may adjust the height by inserting / removing a bag, a plate, rubber, or the like containing the same material as the pillow into / from the height adjusting pillow 1. In the present example, the height adjusting unit 100 will be described as a specific example in which the height is automatically adjusted by motor control.

FIG. 1C is a diagram illustrating a hardware configuration of the height adjustment unit 100.
As illustrated in FIG. 1C, the height adjustment unit 100 includes a height adjustment button 140, a motor 150, an arm 160, a support plate 170, a drive unit 180, and the like.
The height adjustment button 140 is a button for adjusting the height of the head support 10 or the cervical vertebra support 20. For example, the height adjustment unit 100 includes one or a plurality of height adjustment buttons 140. In this example, the height adjustment unit 100 includes a height adjustment button 140A and a height adjustment button 140B.
The motor 150 is a power generator. For example, the motor 150 generates power using electric power.
The arm 160 is an arm-shaped part such as a machine. For example, the arm 160 is controlled by power. In this example, the arm 160 is controlled by the power of the motor 150.
The support plate 170 is a plate that supports the head and the cervical vertebra. For example, the support plate 170 is a plate made of plastic, resin, wood, metal, or the like. For example, the support plate 170 may be a cushion, a pad, or the like.
The drive unit 180 is a drive control device for the arm 160. For example, the drive unit 180 has a motor 150, and drives and controls the arm 160 with the power of the motor 150. In this example, when the power of the motor 150 is transmitted to the lower end portion of the arm 160, the distal end portion of the arm 160 rotates. As a result, the drive unit 180 drives and controls the height of the support plate 170 via the arm 160. By changing the height of the support plate 170, the height adjustment unit 100 adjusts the height of the head support unit 10 and the height of the cervical vertebra support unit 20. Further, for example, the drive unit 180 includes a height adjustment button 140, and changes the height of the support plate 170 when the height adjustment button 140 is pressed. In this example, the drive unit 180 increases the height of the support plate 170 when the height adjustment button 140A is pressed, and decreases the height of the support plate 170 when the height adjustment button 140B is pressed.

Drawing 2 is a figure which illustrates height adjustment pillow 1 before and after height adjustment.
FIG. 2A illustrates the height adjustment pillow 1 before height adjustment. For example, the height of the cervical vertebra support part 20 is higher than the height of the head support part 10 before the height adjustment. In this example, the height of the cervical vertebra support part 20 is higher than the height of the head support part 10 so that a human can naturally sleep on his / her back.
FIG. 2B illustrates the height adjustment pillow 1 after height adjustment. For example, after the height adjustment, the height of the head support portion 10 is higher than the height of the cervical vertebra support portion 20. In this example, the height of the head support 10 and the cervical vertebra support 20 is high enough to bend and fix the neck in the front direction. Moreover, the height of the head support part 10 and the cervical vertebra part support part 20 is a height at which the head can be fixed so that the jaw is pulled and depressed. For example, the height adjuster 100 adjusts the height of the head support 20 higher than the height of the cervical vertebra support 10 within a range of 2 cm to 10 cm. In this example, the height adjustment unit 100 adjusts the height of the head support unit 20 to be 5 cm higher than the height of the cervical vertebra support unit 10.

Here, the background for which the height adjustment pillow 1 is required will be described.
In the human spine, the cervical vertebrae and lumbar vertebrae are lordosis and the thoracic vertebrae are posterior. This curved structure creates an S-curve made from the spine from the neck to the waist. With this S-shaped curve, the spine supports a human head of about 5 kg.
When looking at the cervical spine, the cervical spine is gently curved in normal cases. A normal cervical curvature distributes the pressure on the cervical spine from the head. However, when a smartphone or a tablet terminal or the like is manipulated to look down for a long time, a straight neck tends to be formed. Here, the straight neck means a cervical vertebra extending straight. If it becomes a straight neck and the forehead of the neck is lost, the S-curve cannot be maintained, the balance of the whole body is lost, and the burden on the muscles increases. That is, when falling into a straight neck, the pressure from the head cannot be dispersed, and a great burden is placed on the neck muscles and cervical spine. As a result, the heavy head is supported by the muscles of the neck and back, so it is prone to stiff shoulders, back and back pain, and headaches.
Furthermore, if it becomes a straight neck for a long time, it will become the radiculopathy mentioned later. And radiculopathy has temporal multipleity, and repeats a deterioration stage and a remission stage.
Conventionally, in order to maintain an S-shaped curve in a pillow, it has been common sense to make the surface supporting the head lower than the surface supporting the cervical vertebra. However, it was found as a new finding that, at the time of radiculopathy, it is effective to relieve pain when the surface supporting the head is higher than the surface supporting the cervical vertebra. Therefore, the height adjustment pillow 1 that can be used according to the symptoms of radiculopathy is required.

FIG. 3 is a diagram schematically illustrating cervical spondylosis and radiculopathy.
FIG. 3A is a diagram schematically illustrating cervical spondylosis. Here, cervical spondylosis refers to a disease in which the cervical vertebra deforms.
As illustrated in FIG. 3A, the spinal cord is compressed by osteophyte or disc herniation. Here, the osteophyte refers to an osteophyte formed from the inner layer of the periosteum and presenting a spine shape. As a result of cervical spondylosis, osteophytes occur. That is, the intervertebral disc is deformed, the end portions of the vertebral body are easily rubbed, the end portions of the vertebral body are deformed, and osteophytes are generated. Here, the vertebral body is a main part of the bone forming the spine and means a cylindrical part. Osteophyte or disc herniation is likely to occur due to a long-lasting straight neck condition in which pressure from the head is applied to the cervical vertebra.
Further, osteophytes and the like compress the spinal cord and the like. The osteophyte or the like compresses the spinal cord or nerve root depending on the degree of deformation. Here, the nerve root means a nerve branched from the spinal cord to the left and right. When osteophyte or the like compresses the spinal cord, the symptom is called cervical spondylotic myelopathy, and when it presses the nerve root, it is called cervical spondylotic radiculopathy (radiculopathy). In addition, radiculopathy is more likely to develop.
FIG. 3B is a diagram schematically illustrating radiculopathy.
As illustrated in FIG. 3B, osteophytes and the like formed at the end of the vertebral body press the spinal nerve root. Thereby, radiculopathy develops. Due to radiculopathy, pain in the arm, numbness, discomfort, and the like occur. In addition, radiculopathy is frequently observed after the fifties, and in most cases, it can be handled by conservative treatment.

FIG. 4 is a diagram schematically illustrating the backward bending of the spine and the compression due to the forward bending.
FIG. 4A schematically illustrates compression of the spinal cord or the like by the osteophyte when the spine is bent backward.
As illustrated in FIG. 4A, when the cervical vertebra is bent backward, compression of the spinal cord or the like is likely to occur. As the distance between the vertebral bodies on the spinal cord side becomes narrow due to backward bending, osteophytes and the like can more easily press the spinal cord or the nerve root. In other words, the backward bending causes the nerve hole through which the nerve passes to be narrowed, and the osteophyte or the like more easily presses the spinal cord or nerve root.
FIG. 4B schematically illustrates compression of the spinal cord or the like by osteophytes or the like when the spine is bent forward.
As illustrated in FIG. 4B, when the spine is bent forward, compression of the spinal cord or the like is improved.
Due to the forward bending, the distance between the vertebral bodies on the spinal cord side is widened, so that the compression of the spinal cord or nerve root by osteophytes or the like is improved. That is, the forward bending causes a widening of the nerve hole through which the nerve passes, and the compression of the spinal cord or the nerve root by the osteophyte etc. is improved.

FIG. 5 is a diagram schematically illustrating the height adjustment pillow 1 in the remission period and the deterioration period.
FIG. 5 (A) is a diagram schematically illustrating the height adjustment pillow 1 in the remission phase of radiculopathy.
As illustrated in FIG. 5A, the height of the head support portion 10 is lower than the cervical spine support portion 20 during the remission period of radiculopathy. That is, the height adjustment pillow 1 bends the cervical spine. As a result, a normal cervical vertebral bending structure is created, and the physiological lordosis of the cervical vertebra can be maintained and restored.
FIG. 5B is a diagram schematically illustrating the height adjustment pillow 1 in the worsening period of radiculopathy.
As illustrated in FIG. 5B, the height of the head support portion 10 is higher than the height of the cervical spine support portion 20 in the worsening period of radiculopathy. For example, the heights of the head support 10 and the cervical vertebra support 20 are high enough to bend and fix the neck in the front direction. As a result, the cervical vertebra is bent forward and nerve compression is improved. With improved compression, you can lie on your back even during radiculopathy.
In this example, when the doctor examines the patient, the doctor presses the height adjustment button 140 based on the diagnosis result. The height adjustment unit 100 adjusts the height of the head support unit 10 and the vertebra support unit 20 based on the pressed height adjustment button 140. The patient can use the height adjustment pillow 1 having an appropriate height depending on the state of radiculopathy.
The shoulder support 90 supports the thoracic vertebra and the cervical vertebra in an integrated manner. Moreover, the shoulder part support part 90 supports a scapula. The spine of the scapula is called the thoracic vertebra. Since this portion has a rib attached, it is integrated with the rib cage to form a trunk. If there is no shoulder support 90 and the thoracic vertebra and the cervical vertebra have different heights, the lower cervical vertebra, which is the transition portion, is burdened by the weight of the head. As a result, stiff shoulders and neuralgia are more likely to occur. In this example, the shoulder support part 90 can integrally support the thoracic vertebra and the cervical vertebra. That is, the shoulder support part 90 can support the cervical vertebra as a part of the trunk.
As described above, the height adjusting pillow 1 can adjust the height according to the remission period and the deterioration period of the radiculopathy. Moreover, the height adjustment pillow 1 can improve stiff shoulders and neuralgia due to cervical spondylosis.

(Modification 1)
The modification 1 of the said embodiment is demonstrated.
FIG. 6 is a view illustrating the height adjusting pillow 2 in the first modification.
As illustrated in FIG. 6A, the height adjustment pillow 2 includes a head support portion 10 that supports the head, a cervical support portion 20 that supports the cervical vertebra, and a shoulder support portion 90 that supports the shoulder. , A height adjustment unit 100, and a height selection button 250. The height adjustment pillow 2 includes a height adjustment unit 100 similar to the height adjustment pillow 1 of the first embodiment. Moreover, the height adjustment pillow 2 has, for example, one or a plurality of height selection buttons 250. In this example, the height adjustment pillow 2 has a height selection button 250A and a height selection button 250B. Based on the selected height selection button 250 </ b> A or height selection button 250 </ b> B, the height adjustment unit 100 adjusts the height of the head support unit 10 and the cervical vertebra support unit 20.
As illustrated in FIG. 6B, the height adjustment pillow 2 when the height selection button 250A is selected is illustrated.
When the height selection button 250 </ b> A is selected, the height of the cervical vertebra support 20 is higher than the height of the head support 10. The height selected by the height selection button 250A is a height calculated so that a gentle curvature of the cervical spine can be created based on, for example, the average value of the size of the human head. The height selected by the height selection button 250A is a height that can maintain and recover the physiological lordosis of the cervical spine.
As illustrated in FIG. 6C, the height adjustment pillow 2 when the height selection button 250B is selected is illustrated.
When the height selection button 250B is selected, the height of the head support unit 10 is higher than the cervical spine support unit 20. For example, the height adjusted by the selection of the height selection button 250B is a height calculated so that the head can be fixed by bending the neck based on the average value of the size of the human head. Thereby, the forward bending of the cervical spine is promoted, the compression of the nerve root is improved, and even in the case of the radiculopathy, it can be turned on its back.

FIG. 7 is a diagram illustrating a functional configuration of the height adjustment pillow 2 in the first modification.
As illustrated in FIG. 7, the height adjustment pillow 2 of Modification 1 includes a CPU (Central Processing Unit), a nonvolatile memory, a volatile memory, a bus, and the like, and the height control program 50 is installed. ing.
The height control program 50 includes a height storage unit 550, a height selection unit 560, and a height adjustment unit 570.
Part or all of the height control program 50 may be realized by hardware such as ASIC (Application Specific Integrated Circuit) or may be realized by borrowing a part of OS (Operating System) functions. .

  In the height control program 50, the height storage unit 550 stores height information indicating the heights of the head support unit 10 and the cervical vertebra support unit 20. In this example, the height storage unit 550 stores height information representing two types of heights corresponding to the height selection button 250A and the height selection button 250B.

  The height selection unit 560 selects height information based on the height information stored by the height storage unit 550. In this example, according to the selection of the height selection button 250A or the height selection button 250B by the user, the height selection unit 560 is based on the height information stored in the height storage unit 550. Select information.

The height adjustment unit 570 adjusts the heights of the head support unit 10 and the cervical vertebra support unit 20 based on the height information selected by the height selection unit 560. The height adjustment unit 570 causes the height adjustment unit 100 to adjust the heights of the head support unit 10 and the cervical vertebra support unit 20 based on the height information selected by the height selection unit 560.
As described above, when the height selection button 250A is selected, the head support unit 10 and the cervical vertebra support unit 20 have a height for maintaining and recovering the physiological lordosis of the cervical spine. When the height selection button 250B is selected, the head support unit 10 and the cervical vertebra support unit 20 have a height that causes the cervical vertebra to bend forward, and nerve root compression is improved.

(Modification 2)
The modification 2 of the said embodiment is demonstrated.
FIG. 8 is a diagram illustrating the height adjustment pillow 3 in the second modification.
As illustrated in FIG. 8A, the height adjustment pillow 3 includes a head support 10 that supports the head, a cervical support 20 that supports the cervical vertebra, and a shoulder support 90 that supports the shoulder. And a height display monitor 250 that displays the heights of the head support 10 and the cervical vertebra support 20. The material of the height adjustment pillow 3 is the same as that of the height adjustment pillow 1 of the above embodiment.
As illustrated in FIG. 8B, the height adjustment pillow 3 includes a cushion 200, a cushion 210, an air cushion 220, an air pump 230, and a connection portion 240. The air cushion 220 is an example of a height adjusting unit according to the present invention. In this example, the height adjustment pillow 3 has two height adjustment portions, the air cushion 220A adjusts the height of the cervical vertebra support portion 20, and the air cushion 220B is the head support portion 10. Adjust the height.
The cushion 200 and the cushion 210 are, for example, cushions having elasticity. The cushion 200 may be omitted if the head and the cervical vertebra can be supported by the air cushion 220 alone.
The air cushion 220 is, for example, a cushion that has elasticity and changes in size when liquid or gas is taken in or out. In this example, the size of the air cushion 220 is changed by taking in and out air. Accordingly, the height of the cushion 200 changes.
The air pump 230 is, for example, a manual or electric pump. In this example, the air pump 230 manually supplies or exhausts air inside the air cushion 220. As illustrated in FIG. 8C, when air is supplied by the air pump 230, the air cushion 230 expands and the height of the cushion 200 increases. Further, by exhausting air by the air pump 230, the air cushion 230 contracts and the height of the cushion 200 decreases.
The connection part 240 is made of a material having elasticity, for example. In this example, the connection part 240 is a cushion. Moreover, the connection part 240 connects the air cushion 220A and the air cushion 220B. In addition, the connection part 240 may connect the cushion 200A and the cushion 200B, and may connect the cushion 210A and the cushion 210B. In addition, even if there is no connection part 240, when the head and the cervical vertebra part can be supported, the connection part 240 may be omitted. Moreover, the connection part 240 does not expand or contract in the present example due to taking in and out of air.
The height display monitor 250 displays the heights of the head support unit 10 and the cervical vertebra support unit 20. For example, the height display monitor 250 includes a flow meter that measures the flow rate of air inside the air cushion 220 and digitally displays the height according to the flow rate of air.
As described above, the height adjustment pillow 3 can adjust the height of the head support 10 higher than the height of the cervical vertebra support 20 by taking in and out air. Thereby, the height adjustment pillow 3 can be used according to the deterioration time and remission time of radiculopathy.

DESCRIPTION OF SYMBOLS 1 ... Height adjustment pillow 10 ... Head support part 20 ... Cervical vertebrae support part 100 ... Height adjustment part 140 ... Height adjustment button 150 ... Motor 160 ... Arm 170 ... Support plate 180 ... Drive unit

Claims (6)

A head support for supporting the head;
A cervical spine support that supports the cervical spine;
A height adjusting part that adjusts the height of at least one of the head supporting part and the cervical vertebra supporting part,
The height adjusting unit adjusts the height of the head support unit higher than the height of the cervical vertebra support unit. The pillow according to claim 1, wherein the height adjustment unit adjusts the heights of both the head support unit and the cervical vertebra support unit. The pillow according to claim 1, wherein the height adjustment unit adjusts the height of the head support unit higher than the height of the cervical vertebra support unit within a range of 2 cm to 10 cm. The pillow according to claim 1, wherein the height adjusting unit adjusts the height of at least one of the cervical vertebra support unit and the head support unit to a height at which a neck can be bent and fixed in the front direction. A height storage section for storing height information representing the height of the head support section and the cervical vertebra support section;
A height selection unit that selects height information based on the height information stored by the height storage unit;
The pillow according to claim 1, wherein the height adjustment unit adjusts the height of the head support unit and the cervical vertebra support unit based on height information selected by a height selection unit. A method for adjusting the height of a pillow, comprising: adjusting a height of a head support portion supporting the head relatively higher than a height of the cervical spine support portion supporting the cervical vertebra.

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