CN219595023U - Non-contact sleep and vital sign data monitoring pillow - Google Patents

Abstract

The utility model relates to the technical field of intelligent pillows, and discloses a non-contact sleep and vital sign data monitoring pillow, which comprises a pillow body, wherein a micro air pressure sensor, an air pipe and a main control box are arranged in the pillow body, and a fixed bottom plate is positioned at the bottom of the pillow body and is fixed with the pillow body; wherein the micro-air pressure sensor is arranged in the middle of the pillow body and is close to the region of the neck of the user during sleeping; the main control box is arranged in the middle of the pillow body and is close to the top area of the head of the user sleeping; the air pipe is used for communicating the micro air pressure sensor with the main control box.

Description

Non-contact sleep and vital sign data monitoring pillow

Technical Field

The utility model relates to the technical field of intelligent pillows, in particular to a sleep and vital sign data monitoring pillow.

Background

Most pillows with monitoring functions which are already appeared in the market at present are in contact, namely monitoring equipment is in contact with a human body, and the comfort of a user is reduced due to the contact structure; in addition, some power lines of the monitoring equipment are directly connected from the pillow and are not detachable, and some pillows are provided with a USB connector outside the pillow, so that the power plug is inconvenient to pull out and insert and needs two hands to operate; in addition, the sanitary problems that the pillowcase cannot be disassembled for cleaning and the like exist.

Disclosure of Invention

The present utility model has been developed with a view to one, two or more of the following: the non-contact sleep and vital sign data monitoring pillow aims to improve the comfort of the monitoring pillow under the condition of ensuring accurate monitoring; the pillowcase is detachable; the main control box power supply port is innovatively designed, so that the main control box is attractive in appearance and convenient to pull out and insert.

For this reason, some embodiments of the present utility model provide a non-contact sleep and vital sign data monitoring pillow, including a pillow body, wherein a micro air pressure sensor, an air pipe and a main control box are arranged in the pillow body, and a fixed bottom sheet is positioned at the bottom of the pillow body and fixed with the pillow body; wherein the micro-air pressure sensor is arranged in the middle of the pillow body and is close to the region of the neck of the user during sleeping; the main control box is arranged in the middle of the pillow body and is close to the top area of the head of the user sleeping; the air pipe is used for communicating the micro air pressure sensor with the main control box.

Preferably, the main control box is a T-shaped main control box and comprises a box body and a power port assembly.

Further, the power port assembly comprises a power supply boss step, a nut fixing cover and a power supply column, wherein the power supply column and the power supply boss step are integrated, one end of the power supply column is arranged in the middle of the long side face of the box body and fixedly connected with the box body, the other end of the power supply column is provided with threads, and the internal threads of the nut fixing cover are matched with the threads of the power supply column; the power supply boss step, the threads of the power supply column and the nut fixing cover extend out of the pillow body, and the power supply boss step and the box body clamp the pillow body.

Further, a pillow inner liner is sleeved on the outer surface of the pillow body, a round hole is formed in the position, corresponding to the power supply port, of the pillow inner liner, the diameter of the round hole of the pillow inner liner can penetrate through the power supply boss steps with notches at the two ends, and the pillow inner liner is clamped between the pillow body and the power supply boss steps.

Further, the outer surface of the pillow body is sleeved with a pillow cover, a round hole is formed in the position, corresponding to the power supply port, of the pillow cover, the round hole of the pillow cover is sleeved on the threaded power supply column, and the pillow cover is tightly pressed between the power supply boss step and the nut fixing cover through rotating the nut fixing cover.

Further, the power port assembly is a power button.

Further, the micro air pressure sensor, the air pipe and the main control box are arranged in the pillow body in a recessed mode, and the micro air pressure sensor fixing groove, the air pipe fixing groove, the main control box fixing groove and the power supply boss fixing groove are formed in the pillow body.

Preferably, the fixed bottom sheet is a soft fixed bottom sheet, and is adhered to the pillow body through aqueous glue, and preferably, the soft fixed bottom sheet adopts memory cotton or sponge.

Further, the pillow body head-on region is recessed downwardly; the lateral head area is slightly convex; the junction area of the neck and the back of the sit-ups is concave and extends out of the pillow of the vertical shaft; the neck region of the back rest is concave and protrudes upwards.

Based on the technical scheme, the non-contact sleep and vital sign data monitoring pillow provided by the embodiment of the utility model realizes non-contact monitoring by arranging the monitoring equipment in the pillow body, improves the comfort of products, can monitor sleep and vital sign index parameters of a user, and helps the user to carry out sleep analysis. According to the pillow body in some embodiments, the pillow body can be well attached to a human body according to an ergonomic design structure, so that the monitoring accuracy is ensured, and meanwhile, the use comfort of a user is improved. In some embodiments, the pillowcase is tightly pressed on the power supply boss step through the nut fixing cover, so that the pillowcase is convenient to detach and install; in addition, the design of the power port assembly of some embodiments facilitates the plugging and unplugging of the power plug.

Drawings

FIG. 1 is a schematic view of a non-contact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model;

FIG. 2 is a front perspective view of a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model;

FIG. 3 is a rear perspective view of a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model;

FIG. 4 is a bottom perspective view of a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model;

FIG. 5 is a bottom view of a noncontact sleep and vital sign data monitoring pillow with a bottom pad removed according to an embodiment of the present utility model;

FIG. 6 is a bottom view of a non-contact sleep and vital sign data monitoring pillow with the bottom pad and electrical components removed, in accordance with an embodiment of the present utility model;

fig. 7 is an exploded view of a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model.

Fig. 8 is a partial enlarged view of an exploded view of a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model.

Fig. 9 is a perspective view of a T-shaped main control box built in a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model.

Fig. 10 is a top view of a T-shaped master control box built into a noncontact sleep and vital sign data monitoring pillow according to an embodiment of the present utility model.

Reference numerals illustrate:

the pillow comprises a 1-pillow body, a 2-fixed bottom piece, a 3-micro air pressure sensor, a 4-air pipe, a 5-main control box, a 6-pillow lining, a 7-pillowcase, an 8-L type-C power plug, an 11-head-on-back area, a 12-head-on-side area, a 13-neck and back interface area, a 14-neck-on-back area, a 15-micro air pressure sensor fixing groove, a 16-air pipe fixing groove, a 17-main control box fixing groove, a 18-power boss fixing groove, a 51-power boss step, a 52-nut fixing cover and a 53-power column.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1, 3, 4 and 5, the non-contact sleep and vital sign data monitoring pillow provided by the utility model comprises: the pillow body 1 is a carrier of the whole non-contact sleep and vital sign data monitoring pillow; the fixed bottom sheet 2 is positioned at the bottom of the pillow body, the fixed bottom sheet is preferably made of soft materials, the soft materials are adhered to the pillow through water-based glue, the soft materials can be PVC, PE, ABS, PP, PC, and the hardness is preferably higher than that of memory cotton or sponge of the pillow body, so that a good bearing effect is achieved, meanwhile, the feeling of feeling on touch is soft, and the fixed bottom sheet ensures that monitoring components are not shifted when the pillow is normally used; the micro-air pressure sensor 3, the air pipe 4 and the main control box 5 are arranged in the pillow body, wherein the micro-air pressure sensor is arranged in the middle of the pillow body and is close to the region of the neck of the user who sleeps on the back; the main control box is arranged in the middle of the pillow body and is close to the top area of the head of the user sleeping; the air pipe is used for communicating the micro air pressure sensor with the main control box.

The non-contact monitoring is realized by utilizing the built-in micro-air pressure sensor, the existence of the sensor is not perceived at all when a user sleeps on the pillow due to the obstruction of memory cotton, the comfort of the product is improved, the sleep and physical sign index parameters of the user can be monitored, the sleep analysis and the sleep quality improvement of the user are helped, meanwhile, the disease prediction and the prevention suggestion are carried out according to the physical sign data of a certain period, the health care and the navigation of the user are realized, and finally, when the user goes wrong during sleeping, the sleep-monitoring pillow can timely send information to the bound mobile terminal for alarming and timely carrying out treatment.

The micro air pressure sensor 3 is arranged in the middle of the pillow and near the region of the neck of the user sleeping on the back, and can accurately monitor the sleeping data and the physical sign data of the user no matter where the user is sleeping on the pillow. The air pipe 4 is also integrally arranged in the pillow body, and communicates the micro air pressure sensor with the main control box; the micro air pressure sensor can sense the change of the micro air pressure in the air bag caused by the movement of the user, can generate voltage change along with the change of the generated voltage, and can detect the air pressure of the air bag in real time through amplification, filtering and conversion, and the sleep data and vital sign data of the user are obtained through complex and precise algorithm calculation. The main control box 5 is arranged in the middle of the pillow and is close to the top area of the head of the user, and the top area of the head is close to the power port, so that the head of the user cannot be pressed to the main control box when the user sleeps on the back. The positions of the main control box and the micro air pressure sensor are measured and designed by human bodies, and the positions of various groups of people are improved through multiple experimental tests, so that the sleeping and physical sign data of the user can be accurately monitored no matter the user sleeps on the back or sleeps on the side, and no dead angle is ensured in monitoring.

As shown in fig. 6, the micro air pressure sensor fixing groove 15, the air pipe fixing groove 16, the main control box fixing groove 17 and the power supply boss fixing groove 18 are respectively used for fixing the micro air pressure sensor, the air pipe and the T-shaped main control box which are arranged in the pillow body. As shown in fig. 7, 8, 9 and 10, the main control box 5 may be a T-shaped main control box, and includes a box body and a power port assembly, where the power port assembly includes a power boss step 51, a nut fixing cover 52 and a power post 53, the power post and the power boss step are integrated, one end of the power post is in the middle of a long side surface of the box body and is fixedly connected with the box body by two screws, the other end of the power post is provided with threads, and the internal threads of the nut fixing cover are matched with the threads of the power post; the power supply boss step, the threads of the power supply column and the nut fixing cover extend out of the pillow body, and the power supply boss step and the box body clamp the pillow body; the outer surface of the pillow body is sleeved with a pillow inner liner, a round hole is formed in the position, corresponding to the power supply port, of the pillow inner liner, and a pillow inner liner 6 with the round hole of the pillow inner liner penetrates through a power supply boss step 51 with notches at two ends and is fixed on the pillow body 1; the outer surface of the pillow body is sleeved with a pillow case, a round hole is formed in the position, corresponding to the power supply port, of the pillow case, the pillow case 7 is sleeved on a threaded power supply column after being provided with the round hole, and finally the pillow case is tightly pressed on the power supply boss step 51 through the nut fixing cover 52, so that the pillow case can be clamped between the power supply boss step 51 and the nut fixing cover 52, the stability of the power supply port is guaranteed, and meanwhile, the pillow case can be detached for cleaning after the nut fixing cover is screwed down, so that the pillow is very practical.

The power supply port can also be changed into other interfaces such as a power button and the like.

And the reference numeral 8 is an L-type-C power plug, and compared with a traditional power socket, the L-type power plug cannot break a power line when the pillow is jacked onto the bed backrest, so that the service life of the power line is prolonged.

As shown in fig. 2, fig. 2 is the view of fig. 1 rotated 180 degrees, and reference numeral 11 is a head-on-back area that is recessed downward to fit the head; reference numeral 12 is a side sleeper head region which is slightly raised to support the head, the slightly raised configuration being such that side sleeper may be converted to a back sleeper; reference numeral 13 is a junction area of the neck and the back of the person sleeping on the back, which extends out of the vertical axis pillow in a concave shape and is used for supporting the junction of the neck and the back of the person sleeping on the back; reference numeral 14 denotes a neck region of the back sleep, which is concave and protrudes upward to hold and support the neck; the reference numerals 11, 13 and 14 are concave, so that the head, neck and back can be attached more easily, the pressure intensity of the head, neck and back can be dispersed, and the head, neck and back are positioned at the correct position when the user is induced to sleep back; the head-on region 11, the neck-on-back interface region 13, and the neck-on-back region 14 combine to form a curve that allows the person to remain within the normal cervical curve during sleep-on. According to the analysis of the human body size data of each body type, the shape and the size of the head, neck and shoulder area, the back sleep area and the side sleep area are designed, and the structure can be well attached to the human body.

Other embodiments of the utility model will be apparent to those skilled in the art from consideration of the specification and practice of the utility model disclosed herein. This utility model is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the utility model and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the utility model being indicated by the following claims.

It is to be understood that the utility model is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof.

Claims (9)

1. The non-contact sleep and vital sign data monitoring pillow comprises a pillow body (1) and is characterized in that a micro-air pressure sensor (3), an air pipe (4) and a main control box (5) are arranged in the pillow body, and a fixed bottom sheet (2) is positioned at the bottom of the pillow body and is fixed with the pillow body;

wherein the micro-air pressure sensor is arranged in the middle of the pillow body and is close to the region of the neck of the user during sleeping;

the main control box is arranged in the middle of the pillow body and is close to the top area of the head of the user sleeping;

the air pipe is used for communicating the micro air pressure sensor with the main control box;

the pillow is characterized in that the micro air pressure sensor, the air pipe and the main control box are arranged in the pillow body, and the micro air pressure sensor fixing groove (15), the air pipe fixing groove (16), the main control box fixing groove (17) and the power supply boss fixing groove (18) are formed in a sunken mode.

2. The non-contact sleep and vital sign data monitoring pillow of claim 1, wherein the master control box is a T-master control box comprising a box body and a power port assembly.

3. The non-contact sleep and vital sign data monitoring pillow according to claim 2, wherein the power port assembly comprises a power boss step (51), a nut fixing cover (52) and a power post (53), the power post is integrated with the power boss step, one end of the power post is arranged in the middle of the long side face of the box body and is fixedly connected with the box body, the other end of the power post is provided with threads, and the internal threads of the nut fixing cover are matched with the threads of the power post; the power supply boss step, the threads of the power supply column and the nut fixing cover extend out of the pillow body, and the power supply boss step and the box body clamp the pillow body.

4. A non-contact sleep and vital sign data monitoring pillow according to claim 3, wherein a pillow inner liner is sleeved on the outer surface of the pillow body, a round hole is formed in the position, corresponding to the power supply port, of the pillow inner liner, and the diameter of the round hole of the pillow inner liner can pass through the power supply boss steps with notches at the two ends and is clamped between the pillow body and the power supply boss steps.

5. A non-contact sleep and vital sign data monitoring pillow according to claim 3, wherein a pillow case is sleeved on the outer surface of the pillow body, a round hole is formed in the position of the pillow case corresponding to the power port, the round hole of the pillow case is sleeved on the threaded power column, and the pillow case is tightly pressed between the power boss step and the nut fixing cover by rotating the nut fixing cover.

6. A noncontact sleep and vital sign data monitoring pillow according to claim 3, wherein the power port assembly is a power button.

7. The non-contact sleep and vital sign data monitoring pillow of claim 1, wherein the fixed backsheet is a soft fixed backsheet that is adhered to the pillow body by aqueous glue.

8. The non-contact sleep and vital sign data monitoring pillow of claim 7, wherein the soft fixed backsheet is a memory cotton or sponge.

9. A non-contact sleep and vital sign data monitoring pillow according to any one of claims 1 to 8, wherein the outer heads-up region of the pillow body is concave downward; the lateral sleeping head area is microprotrusive; the junction area of the neck and the back of the sit-ups is concave and extends out of the pillow of the vertical shaft; the neck region of the back rest is concave and protrudes upwards.