阅读说明：本技术 一种受控支撑单元阵列自适应睡眠姿态的床 (Controlled support unit array self-adaptive sleeping posture bed ) 是由 李建华 于 2021-09-18 设计创作，主要内容包括：本申请公开了一种受控支撑单元阵列自适应睡眠姿态的床,包括基体、支撑单元阵列和覆盖层,所述支撑单元阵列设置在基体上,所述覆盖层设置在支撑单元阵列的顶端；还包括控制支撑单元阵列变形的控制器,所述控制器与支撑单元阵列电性连接；所述支撑单元阵列包括多个支撑结构,多个所述支撑结构矩阵式排布在基体上；所述支撑结构包括伸缩机构和压力传感器,所述压力传感器安装在伸缩机构上；所述伸缩机构包括气缸和活塞杆,所述气缸固定在基体上,所述活塞杆伸缩连接在气缸内；所述活塞杆的顶端安装有弹性件。本申请具有提升用户舒适度的优点。(The application discloses a controlled support unit array self-adaptive sleeping posture bed which comprises a base body, a support unit array and a covering layer, wherein the support unit array is arranged on the base body, and the covering layer is arranged at the top end of the support unit array; the controller is electrically connected with the supporting unit array; the supporting unit array comprises a plurality of supporting structures which are arranged on the base body in a matrix manner; the supporting structure comprises a telescopic mechanism and a pressure sensor, and the pressure sensor is arranged on the telescopic mechanism; the telescopic mechanism comprises an air cylinder and a piston rod, the air cylinder is fixed on the base body, and the piston rod is connected in the air cylinder in a telescopic manner; the top end of the piston rod is provided with an elastic part. This application has the advantage that promotes user's comfort level.)

1. A controlled support unit array self-adaptive sleeping posture bed is characterized in that: the device comprises a base body (1), a supporting unit array (2) and a covering layer (3), wherein the supporting unit array (2) is arranged on the base body (1), and the covering layer (3) is arranged at the top end of the supporting unit array (2);

the support device is characterized by further comprising a controller (4) for controlling the deformation of the support unit array (2), wherein the controller (4) is electrically connected with the support unit array (2);

the supporting unit array (2) comprises a plurality of supporting structures (21), and the supporting structures (21) are arranged on the base body (1) in a matrix mode.

2. The controlled support unit array adaptive sleep posture bed of claim 1, characterized in that: the supporting structure (21) comprises a telescopic mechanism (22) and a pressure sensor (23), and the pressure sensor (23) is installed on the telescopic mechanism (22).

3. The controlled support unit array adaptive sleep posture bed of claim 2, characterized in that: the telescopic mechanism (22) comprises an air cylinder (221), a piston rod (222) and an electromagnetic valve, the air cylinder (221) is fixed on the base body (1), the piston rod (222) is connected in the air cylinder (221) in a telescopic mode, the electromagnetic valve is installed on the air cylinder (221), and the controller (4) is electrically connected with the electromagnetic valve to control the extension or the contraction of the piston rod (222).

4. The controlled support unit array adaptive sleep posture bed of claim 3, wherein: an elastic piece is arranged at the top end of the piston rod (222).

5. The controlled support unit array adaptive sleep posture bed of claim 4, wherein: the elastic piece is a spring.

6. The controlled support unit array adaptive sleep posture bed of any one of claims 1-5, wherein: still include adaptive control module (5), be provided with vibrations module (51), draw neck module (52) and gentle module (53) on adaptive control module (5), vibrations module (51), draw neck module (52) and gentle module (53) all with controller (4) electric connection.

7. The controlled support unit array adaptive sleep posture bed of claim 6, wherein: the self-adaptive control module (5) controls each supporting structure (21) to control the pressure and the length of the supporting structure (21) and support the sleeping posture of the human body.

8. The controlled support unit array adaptive sleep posture bed of claim 1, characterized in that: the covering layer (3) is made of elastic fiber weaved objects.

9. The controlled support unit array adaptive sleep posture bed of claim 2, characterized in that: the telescopic mechanism (22) comprises a motor and a screw rod, the motor is fixed on the base body (1), the screw rod is connected to the base body (1) through threads, the screw rod is perpendicular to the base body (1), and the screw rod is connected with a motor shaft of the motor through threads.

10. The controlled support unit array adaptive sleep posture bed of claim 9, wherein: the motor is electrically connected with the controller (4).

Technical Field

The application belongs to the technical field of furniture supplies, and particularly relates to a controlled support unit array self-adaptive sleeping posture bed.

Background

Household articles generally refer to furniture, bedding, kitchen and bathroom appliances, indoor accessories and commodities required by daily life, and are collectively called household articles. Furniture in a broad sense refers to a kind of utensil essential for human beings to maintain normal life, engage in production practice and develop social activities. Furniture in the narrow sense refers to a class of appliances and equipment for people to sit, lie or support and store articles in life, work or social practice.

Furniture is not only a simple functional substance product, but also a widely popularized popular art, and the furniture not only needs to meet certain specific purposes, but also needs to meet the requirements for people to enjoy, so that people can generate certain aesthetic pleasure and arouse rich and associative spirit in the contact and use processes.

In a traditional bed, the bed surface is a plane, and the comfort of a human body is provided by increasing the elasticity of the bed surface. The existing electric bed is characterized in that the whole bed surface is divided into a plurality of bed boards to be spliced, the combination angle between the spliced bed boards is adjusted through an electric control element, and a mattress is driven to change the shape so as to adapt to the physiological structure of a human body and increase the comfort. The defects and limitations of the existing electric bed are as follows: firstly, the adjustment is carried out under the manual intervention before falling asleep, and the adjustment cannot be carried out in the falling asleep state; secondly, the following adjustment of the curved surface of the bed surface to irregular sleeping postures and the change of the sleeping postures can not be realized.

Disclosure of Invention

The purpose of this application is to more press close to human appearance curved surface of sleeping to can adapt to the bed of the irregular change of human appearance of sleeping.

In order to achieve the purpose, the following technical scheme is adopted in the application: a controlled support unit array self-adaptive sleeping posture bed comprises a base body, a support unit array and a covering layer, wherein the support unit array is arranged on the base body, and the covering layer is arranged at the top end of the support unit array;

the controller is electrically connected with the supporting unit array;

the supporting unit array comprises a plurality of supporting structures which are arranged on the base body in a matrix mode.

Preferably, the support structure comprises a telescoping mechanism and a pressure sensor, the pressure sensor being mounted on the telescoping mechanism.

Preferably, telescopic machanism includes cylinder, piston rod and solenoid valve, the cylinder is fixed on the base member, piston rod telescopic connection is in the cylinder, the solenoid valve is installed on the cylinder, controller and solenoid valve electric connection to the extension or the shrink of control piston rod.

Preferably, the top end of the piston rod is provided with an elastic element.

Preferably, the elastic member is a spring.

Preferably, the device further comprises a self-adaptive control module, wherein the self-adaptive control module is provided with a vibration module, a neck pulling module and a soft module.

Preferably, the self-adaptive control module controls each supporting structure to control the pressure and the length of the supporting structure and wrap the sleeping posture of the human body.

Preferably, the covering layer is made of fiber weaved objects with elasticity.

Preferably, the telescopic mechanism comprises a motor and a screw rod, the motor is fixed on the base body, the screw rod is connected to the base body through threads, the screw rod is perpendicular to the base body, and the screw rod is connected with a motor shaft of the motor through threads.

Preferably, the motor is electrically connected with the controller.

Has the advantages that: 1. because the human body is not completely straight, when a user lies on the bed, the supporting force of the human body is different, the problem that the supporting force of the human body is different in different lying postures is solved, and the supporting force of the human body is approximately equal through the extension and the shortening of a plurality of supporting structures.

2. Provides a bed surface which is closer to the curve of the human body and the sleeping posture and is comfortable to sleep.

3. The bed surface can adapt to the change of the sleeping posture of the human body, and the human body can wake up less during sleep.

4. The muscles and bones are relaxed by adjusting the bed surface to change the body posture.

5. The influence of the bad sleeping posture on the respiratory and circulatory systems is reduced.

6. And performing auxiliary treatment or auxiliary correction according to medical advice.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a telescopic mechanism in an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a cover layer in an embodiment of the present application.

Fig. 4 is an electrical connection diagram of an adaptive control module according to an embodiment of the present disclosure.

1. A substrate; 2. an array of support cells; 21. a support structure; 22. a telescoping mechanism; 221. a cylinder; 222. a piston rod; 23. a pressure sensor; 3. a cover layer; 4. a controller; 5. an adaptive control module; 51. a vibration module; 52. a neck pulling module; 53. a light module.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

The first embodiment is as follows: the embodiment of the application discloses a controlled support unit array self-adaptive sleeping posture bed, which comprises a base body 1, a support unit array 2 and a covering layer 3, wherein the base body 1 is a rectangular cube; the supporting unit array 2 is fixed on the base body 1 through bolts, and the covering layer 3 is fixed at the top end of the supporting unit array 2; the device also comprises a controller 4 for controlling the deformation of the supporting unit array 2, wherein the controller 4 is electrically connected with the supporting unit array 2; support element array 2 includes a plurality of bearing structure 21, and a plurality of bearing structure 21 matrixes are arranged on base member 1, all has compiled the serial number on every bearing structure 21, is convenient for maintain and accurate control.

The supporting structure 21 comprises a telescopic mechanism 22 and a pressure sensor 23, the pressure sensor 23 is installed on the telescopic mechanism 22, the controller 4 is electrically connected with the pressure sensor 23, the pressure sensor 23 detects the pressure applied to the covering layer 3, the controller 4 issues an instruction to the telescopic mechanism 22 according to the detected pressure, and the telescopic mechanism 22 is extended or shortened.

The telescopic mechanism 22 comprises an air cylinder 221, a piston rod 222 and an electromagnetic valve, the air cylinder 221 is fixed on the base body 1 through a bolt, the piston rod 222 is telescopically connected in the air cylinder 221, the electromagnetic valve is installed on the air cylinder 221, and the controller 4 is electrically connected with the electromagnetic valve to control the extension or contraction of the piston rod 222; the controller 4 controls the piston rod 222 to ascend or descend according to the numerical value of the pressure sensor 23; to suit the needs of the user.

Example two: the embodiment of the application discloses a controlled support unit array self-adaptive sleeping posture bed, which comprises a base body 1, a support unit array 2 and a covering layer 3, wherein the base body 1 is a rectangular cube; the supporting unit array 2 is fixed on the base body 1 through bolts, and the covering layer 3 is fixed at the top end of the supporting unit array 2; the device also comprises a controller 4 for controlling the deformation of the supporting unit array 2, wherein the controller 4 is electrically connected with the supporting unit array 2; support element array 2 includes a plurality of bearing structure 21, and a plurality of bearing structure 21 matrixes are arranged on base member 1, all has compiled the serial number on every bearing structure 21, is convenient for maintain and accurate control.

The supporting structure 21 comprises a telescopic mechanism 22 and a pressure sensor 23, the pressure sensor 23 is installed on the telescopic mechanism 22, the controller 4 is electrically connected with the pressure sensor 23, the pressure sensor 23 detects the pressure applied to the covering layer 3, the controller 4 issues an instruction to the telescopic mechanism 22 according to the detected pressure, and the telescopic mechanism 22 is extended or shortened.

The telescopic mechanism 22 comprises an air cylinder 221, a piston rod 222 and an electromagnetic valve, the air cylinder 221 is fixed on the base body 1 through a bolt, the piston rod 222 is telescopically connected in the air cylinder 221, the electromagnetic valve is installed on the air cylinder 221, and the controller 4 is electrically connected with the electromagnetic valve to control the extension or contraction of the piston rod 222; the controller 4 controls the piston rod 222 to ascend or descend according to the numerical value of the pressure sensor 23; to suit the needs of the user.

The top end of the piston rod 222 is provided with an elastic member, which is a spring and plays a role of buffering, and the elastic member reduces the hard impact to the user when the user lies on the surface of the cover layer 3 at the moment.

In order to improve the comfort level of a user, the device further comprises a self-adaptive control module 5, wherein the self-adaptive control module 5 is provided with a vibration module 51, a neck pulling module 52 and a soft module 53, the self-adaptive control module 5 realizes switching of the vibration module 51 and the soft module 53 by controlling the movement speed of the support unit array 2, and the neck pulling module 52 lifts up the telescopic mechanism 22 below the neck of the human body to enable the neck to be supported, so that the aim of stretching the neck is fulfilled; when the vibration module 51 is needed, the movement speed of the telescopic mechanism 22 in the supporting unit array 2 is high; when the light module 53 is required, the telescopic mechanism 22 in the support unit array 2 moves at a slow speed.

The self-adaptive control module 5 controls each support structure 21 to control the pressure and the length of the support structure 21 and wrap the sleeping posture of the human body; when one of the pressure sensors 23 detects a large pressure, the adjacent telescopic mechanism 22 is activated, i.e., the telescopic mechanism 22 is extended.

The third embodiment of the application discloses a controlled support unit array self-adaptive sleeping posture bed, which comprises a base body 1, a support unit array 2 and a covering layer 3, wherein the base body 1 is a rectangular cube; the supporting unit array 2 is fixed on the base body 1 through bolts, and the covering layer 3 is fixed at the top end of the supporting unit array 2; the device also comprises a controller 4 for controlling the deformation of the supporting unit array 2, wherein the controller 4 is electrically connected with the supporting unit array 2; support element array 2 includes a plurality of bearing structure 21, and a plurality of bearing structure 21 matrixes are arranged on base member 1, all has compiled the serial number on every bearing structure 21, is convenient for maintain and accurate control.

The supporting structure 21 comprises a telescopic mechanism 22 and a pressure sensor 23, the pressure sensor 23 is installed on the telescopic mechanism 22, the controller 4 is electrically connected with the pressure sensor 23, the pressure sensor 23 detects the pressure applied to the covering layer 3, the controller 4 issues an instruction to the telescopic mechanism 22 according to the detected pressure, and the telescopic mechanism 22 is extended or shortened.

The telescopic mechanism 22 comprises an air cylinder 221, a piston rod 222 and an electromagnetic valve, the air cylinder 221 is fixed on the base body 1 through a bolt, the piston rod 222 is telescopically connected in the air cylinder 221, the electromagnetic valve is installed on the air cylinder 221, and the controller 4 is electrically connected with the electromagnetic valve to control the extension or contraction of the piston rod 222; the controller 4 controls the piston rod 222 to ascend or descend according to the numerical value of the pressure sensor 23; to suit the needs of the user.

The top end of the piston rod 222 is provided with an elastic member, which is a spring and plays a role of buffering, and the elastic member reduces the hard impact to the user when the user lies on the surface of the cover layer 3 at the moment.

In order to improve the comfort level of a user, the device further comprises a self-adaptive control module 5, wherein the self-adaptive control module 5 is provided with a vibration module 51, a neck pulling module 52 and a soft module 53, the self-adaptive control module 5 realizes switching of the vibration module 51 and the soft module 53 by controlling the movement speed of the support unit array 2, and the neck pulling module 52 lifts up the telescopic mechanism 22 below the neck of the human body to enable the neck to be supported, so that the aim of stretching the neck is fulfilled; when the vibration module 51 is needed, the movement speed of the telescopic mechanism 22 in the supporting unit array 2 is high; when the light module 53 is required, the telescopic mechanism 22 in the support unit array 2 moves at a slow speed.

The self-adaptive control module 5 controls each support structure 21 to control the pressure and the length of the support structure 21 and wrap the sleeping posture of the human body; when one of the pressure sensors 23 detects a large pressure, the adjacent telescopic mechanism 22 is activated, i.e., the telescopic mechanism 22 is extended.

In order to improve the comfort of the bed, the bed also comprises a flat plate mode, a suspension mode, an independent control mode, a body lifting mode and a head raising mode.

When a user needs to lie flat for sleeping, the flat-plate mode is started, the plurality of supporting structures 21 are matched with each other, the user is supported according to the human body curve, and the user lies flat.

When the user needs the suspension mode, the suspension mode is started, and the support structure 21 can be supported point to point according to the part needing to be supported.

When the user needs the independent control mode, the independent control mode is started, and the supporting structure 21 can be controlled to ascend and descend independently.

When the user needs the body-raising mode, the body-raising mode is activated, and the plurality of support structures 21 are raised in sequence from the middle position to the feet of the user.

When the user requires the head-up mode, the head-up mode is activated, and the plurality of support structures 21 are sequentially raised from the middle position to the head of the user.

The bed surface is adaptive to the curved surface and the sleeping posture of a human body by adjusting the bed surface adaptive to the sleeping posture change through a control program and providing a plurality of control modes for assisting in treating and relieving muscle and bone injuries.

Example four: the embodiment of the application discloses a controlled support unit array self-adaptive sleeping posture bed, which comprises a base body 1, a support unit array 2 and a covering layer 3, wherein the base body 1 is a rectangular cube; the supporting unit array 2 is fixed on the base body 1 through bolts, and the covering layer 3 is fixed at the top end of the supporting unit array 2; the device also comprises a controller 4 for controlling the deformation of the supporting unit array 2, wherein the controller 4 is electrically connected with the supporting unit array 2; support element array 2 includes a plurality of bearing structure 21, and a plurality of bearing structure 21 matrixes are arranged on base member 1, all has compiled the serial number on every bearing structure 21, is convenient for maintain and accurate control.

The supporting structure 21 comprises a telescopic mechanism 22 and a pressure sensor 23, the pressure sensor 23 is installed on the telescopic mechanism 22, the controller 4 is electrically connected with the pressure sensor 23, the pressure sensor 23 detects the pressure applied to the covering layer 3, the controller 4 issues an instruction to the telescopic mechanism 22 according to the detected pressure, and the telescopic mechanism 22 is extended or shortened.

The telescopic mechanism 22 comprises a motor and a screw rod, the motor is fixed on the base body 1 through a bolt, the screw rod is connected on the base body 1 through threads and is vertical to the base body 1, the screw rod is connected with a motor shaft of the motor through threads and controls the screw rod to move up and down through the positive and negative rotation of the motor, and the motor is electrically connected with the controller 4; the controller 4 controls the piston rod 222 to ascend or descend according to the numerical value of the pressure sensor 23; to suit the needs of the user.

In order to improve the comfort level of a user, the device further comprises a self-adaptive control module 5, wherein the self-adaptive control module 5 is provided with a vibration module 51, a neck pulling module 52 and a soft module 53, the self-adaptive control module 5 realizes switching of the vibration module 51 and the soft module 53 by controlling the movement speed of the support unit array 2, and the neck pulling module 52 lifts up the telescopic mechanism 22 below the neck of the human body to enable the neck to be supported, so that the aim of stretching the neck is fulfilled; when the vibration module 51 is needed, the movement speed of the telescopic mechanism 22 in the supporting unit array 2 is high; when the light module 53 is required, the telescopic mechanism 22 in the support unit array 2 moves at a slow speed.

The self-adaptive control module 5 controls each support structure 21 to control the pressure and the length of the support structure 21 and wrap the sleeping posture of the human body; when one of the pressure sensors 23 detects a large pressure, the adjacent telescopic mechanism 22 is activated, i.e., the telescopic mechanism 22 is extended.

Example five: the embodiment of the application discloses a controlled support unit array self-adaptive sleeping posture bed, which comprises a base body 1, a support unit array 2 and a covering layer 3, wherein the base body 1 is a rectangular cube; the supporting unit array 2 is fixed on the base body 1 through bolts, and the covering layer 3 is fixed at the top end of the supporting unit array 2; the device also comprises a controller 4 for controlling the deformation of the supporting unit array 2, wherein the controller 4 is electrically connected with the supporting unit array 2; support element array 2 includes a plurality of bearing structure 21, and a plurality of bearing structure 21 matrixes are arranged on base member 1, all has compiled the serial number on every bearing structure 21, is convenient for maintain and accurate control.

The supporting structure 21 comprises a telescopic mechanism 22 and a pressure sensor 23, the pressure sensor 23 is installed on the telescopic mechanism 22, the controller 4 is electrically connected with the pressure sensor 23, the pressure sensor 23 detects the pressure applied to the covering layer 3, the controller 4 issues an instruction to the telescopic mechanism 22 according to the detected pressure, and the telescopic mechanism 22 is extended or shortened.

The telescopic mechanism 22 comprises a motor and a screw rod, the motor is fixed on the base body 1 through a bolt, the screw rod is connected on the base body 1 through threads and is vertical to the base body 1, the screw rod is connected with a motor shaft of the motor through threads and controls the screw rod to move up and down through the positive and negative rotation of the motor, and the motor is electrically connected with the controller 4; the controller 4 controls the piston rod 222 to ascend or descend according to the numerical value of the pressure sensor 23; to suit the needs of the user.

In order to improve the comfort of the bed, the bed also comprises a flat plate mode, a suspension mode, an independent control mode, a body lifting mode and a head raising mode.

When a user needs to lie flat for sleeping, the flat-plate mode is started, the plurality of supporting structures 21 are matched with each other, the user is supported according to the human body curve, and the user lies flat.

When the user needs the suspension mode, the suspension mode is started, and the support structure 21 can be supported point to point according to the part needing to be supported.

When the user needs the independent control mode, the independent control mode is started, and the supporting structure 21 can be controlled to ascend and descend independently.

When the user needs the body-raising mode, the body-raising mode is activated, and the plurality of support structures 21 are raised in sequence from the middle position to the feet of the user.

When the user requires the head-up mode, the head-up mode is activated, and the plurality of support structures 21 are sequentially raised from the middle position to the head of the user.

The bed surface is adaptive to the curved surface and the sleeping posture of a human body by adjusting the bed surface adaptive to the sleeping posture change through a control program and providing a plurality of control modes for assisting in treating and relieving muscle and bone injuries.

Finally, it should be noted that: the above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.