CN223299284U - A lying neck support pillow - Google Patents

Abstract

The utility model relates to the technical field of pillows, in particular to a lying position neck fixing pillow, which comprises a bottom pillow and two neck supports capable of adjusting the distance according to the size of the neck of a patient, wherein the two neck supports are symmetrically arranged on the bottom pillow, each neck support is provided with a skin attaching surface, a plurality of auxiliary air bags are arranged on the skin attaching surface, an inflation assembly communicated with the auxiliary air bags is arranged in the bottom pillow, the auxiliary air bags are in a rectangular array, at least 3 rows of auxiliary air bags are arranged on the skin attaching surface, at least 3 columns of auxiliary air bags are arranged on the skin attaching surface, an air permeable channel is formed between every two adjacent auxiliary air bags, the skin attaching surface is an inclined surface, the inflation assembly comprises a micro air pump and a controller, the micro air pump is electrically connected with the controller, the air outlet end of the micro air pump is communicated with an air tap arranged at the side of the bottom pillow through a hose, and the air inlet end of the micro air pump is communicated with the auxiliary air bags through the neck supports. The cervical vertebra fixing pillow realizes cervical vertebra fixing of a patient in a recumbent position through the cooperation of the adjustable neck support and the auxiliary air bag, prevents left and right head deflection, keeps breathing normally and improves sleeping quality of the patient.

Description

Lying position neck fixing pillow

Technical Field

The utility model relates to the technical field of pillows, in particular to a recumbent neck fixing pillow.

Background

The patient with cervical spondylosis or the patient after neck surgery can not shake the head and the neck at will, the method generally adopted clinically at present is to place two salt bags on two sides of the neck, and when the patient moves the head left and right, the salt bags on two sides can be touched, so that the aim of early warning is achieved, but the salt bags need to be wrapped by special methods, the patient is still a normal pillow, and the neck is suspended, so that the rapid recovery of the neck is not facilitated. Still another way is that the patient is stared at by the bed accompanying personnel at any time before the sickbed, the patient is reminded of the posture of the head and neck, the method is time-consuming and labor-consuming, and the head and neck of the patient are difficult to fix.

Through retrieving, the patent of publication number CN209347484U discloses neck fixed pillow, holds in the palm pillow including neck, two spacing bags and inner bag, realizes the fixed to patient's neck through being wavy air bag's rectangular shape neck pillow, but still has great problem in the in-service use, is not inseparable enough between patient's neck and the pillow, and the phenomenon of deflection about the head can appear easily in the sleep process, not only influences patient's sleep quality, still is unfavorable for patient to resume.

Disclosure of utility model

In order to solve the problems that the existing neck and the pillow are not tight enough and are easy to deviate from the head left and right, the utility model provides the recumbent neck fixing pillow, the cervical vertebra of a patient in a recumbent position is fixed by matching the adjustable neck support and the auxiliary air bag, the head left and right deviation is prevented, the breathing is kept in a normal state, and the sleeping quality of the patient is improved.

The utility model provides a recumbent cervical fixing pillow which comprises a bottom pillow and two neck supports capable of adjusting the distance according to the size of the cervical part of a patient, wherein the two neck supports are symmetrically arranged on the bottom pillow, the neck supports are provided with a skin-sticking surface, a plurality of auxiliary air bags are arranged on the skin-sticking surface, and an inflation assembly communicated with the auxiliary air bags is arranged inside the bottom pillow. Through set up supplementary gasbag on the skin face of both sides, can closely laminate with patient's neck, strengthen the fixed support effect to the neck.

Further, the auxiliary air bags are in a rectangular array, at least 3 rows of auxiliary air bags are arranged on the skin-facing surface, at least 3 columns of auxiliary air bags are arranged on the skin-facing surface, and ventilation channels are formed between adjacent auxiliary air bags. The arrays are distributed to more stably support the neck.

Further, the skin-sticking surface is an inclined surface, and an included angle between the skin-sticking surface and the surface of the bottom pillow is 90-110 degrees. The auxiliary air bag can be attached to the neck of a patient by small inflation.

Further, the inflation assembly comprises a micro air pump and a controller, the micro air pump is electrically connected with the controller, the air outlet end of the micro air pump is communicated with the air tap arranged on the side edge of the bottom pillow through a hose, and the air inlet end of the micro air pump is communicated with the auxiliary air bag through a neck support through a hose. The auxiliary air bag is inflated and deflated through the miniature air pump.

Further, an electromagnetic valve is arranged in the auxiliary air bag, a hose connected with the air inlet end of the miniature air pump is connected with the electromagnetic valve, and the electromagnetic valve is electrically connected with the controller. The micro air pump is started through the controller, so that the air inflation and deflation can be performed to the inside of the auxiliary air bag through the electromagnetic valve, and the air pressure in the auxiliary air bag is regulated.

Further, an air pressure sensor is arranged in the auxiliary air bag and is electrically connected with the controller. When the air pressure sensor detects that the air pressure in the auxiliary air bag is lower than the pressure value set by a user, the miniature air pump is started to inflate, and when the air pressure sensor detects that the air pressure in the auxiliary air bag reaches the set value, the inflation is stopped.

Further, a heat-sensitive sensor is arranged in the auxiliary air bag and is electrically connected with the controller. When the temperature sensor detects that the internal temperature of the auxiliary air bag exceeds a temperature value set by a user, the controller automatically starts the micro air pump to deflate, so that the auxiliary air bag is separated from the neck skin.

Further, the surface layer of the auxiliary air bag is also provided with a heat conducting copper sheet, and the heat conducting copper sheet is connected with the heat-sensitive sensor through a copper wire. The temperature between the auxiliary air bag and the neck is measured more accurately through the heat conduction copper sheet.

The utility model has the beneficial effects that:

The utility model provides a recumbent cervical fixing pillow, which is tightly attached to the cervical of a user through the cooperation of two cervical holders with adjustable intervals and a plurality of auxiliary air bags capable of automatically inflating and deflating, so that the fixing effect on the cervical of the user is enhanced, the phenomenon that the user deflects the head left and right during sleeping is effectively reduced, and the normal breathing is kept, thereby improving the sleeping quality of the patient.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of a neck immobilization pillow;

FIG. 2 is a plan view of a neck immobilization pillow;

FIG. 3 is a schematic view of a micro air pump;

In the figure, a bottom pillow, a neck support, a skin-contacting surface, an auxiliary air bag, a ventilation channel, a miniature air pump, 41, an air tap, 42, an air outlet end, 43, an air inlet end, 44, an electromagnetic valve, 5, an air pressure sensor, 6, a heat-sensitive sensor and 7, a heat conducting copper sheet are shown.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown.

In order to make neck support 2 closely laminate with user's neck to carry out steady rest to the neck, prevent to control the head deviation, design a position of lying on neck fixed bolster, as shown in fig. 1 and 2, including end pillow 1 and two neck supports 2 that can adjust the interval according to patient's neck size, two neck supports 2 symmetry set up on end pillow 1, and the fixed mode can adopt bonding, hot melt connection or other fixed modes. The neck support 2 is provided with a skin-attaching surface 21, the skin-attaching surface 21 is provided with a plurality of auxiliary air bags 3 which can be inflated and expanded through an inflation component, and the inflation component is arranged in the bottom pillow 1. When the auxiliary air bag 3 is inflated, the auxiliary air bag 3 can be moved towards the direction close to the neck of the user until the auxiliary air bag 3 is tightly and fully attached to the neck of the user, so that the neck of the user is stably supported. The neck brace 2 may be a solid rubber block, or may be a hollow rubber sleeve, and is preferably a hollow rubber sleeve, and through the hollow arrangement of the rubber sleeve, the neck brace can provide comfort for a user through deformation of the rubber sleeve.

The auxiliary air bags 3 are in a rectangular array, at least 3 rows of auxiliary air bags 3 are arranged on the skin-facing surface 21, at least 3 columns of auxiliary air bags 3 are arranged on the skin-facing surface 21, and ventilation channels 31 are formed between the adjacent auxiliary air bags 3, so that air can flow, and heat dissipation is carried out on the neck of a user. The skin-sticking surface 21 is an inclined surface, and the surface of the skin-sticking surface 21 and the surface of the bottom pillow 1 form an included angle of 90-110 degrees. Through the supplementary gasbag 3 that the slope set up, improve the laminating degree with user's neck, improve the comfort simultaneously.

As shown in fig. 3, the inflation assembly comprises a micro air pump 4 and a controller, the micro air pump 4 is electrically connected with the controller, an air outlet end 42 of the micro air pump 4 is communicated with an air tap 41 arranged on the side edge of the bottom pillow 1 through a hose, an air inlet end 43 of the micro air pump 4 is communicated with the auxiliary air bag 3 through a neck support 2 through a hose, an electromagnetic valve 44 is arranged in the auxiliary air bag 3, the hose connected with the air inlet end 43 of the micro air pump 4 is connected with the electromagnetic valve 44, and the electromagnetic valve 44 is electrically connected with the controller. The power module for supplying power to the micro air pump 4 and the controller is also arranged in the bottom pillow 1, and the micro air pump 4 is started through the controller, so that the air can be inflated and deflated to the inside of the auxiliary air bag 3 through the electromagnetic valve 44, and the internal air pressure of the auxiliary air bag 3 is regulated.

In order to automatically control the air pressure in the auxiliary air bag 3, an air pressure sensor 5 is arranged in the auxiliary air bag 3, and the air pressure sensor 5 is electrically connected with the controller. When the air pressure sensor 10 detects that the air pressure in the auxiliary air bag 3 is lower than the pressure value set by the user, namely the micro air pump 4 is automatically started to inflate through the controller, and when the air pressure sensor 5 detects that the air pressure in the auxiliary air bag 3 reaches the pressure value set by the user, the inflation is stopped.

In order to control the internal temperature of the air bag, a heat-sensitive sensor 6 is arranged in the auxiliary air bag 3, and the heat-sensitive sensor 6 is electrically connected with a controller. When the temperature sensor 6 detects that the internal temperature of the auxiliary air bag 3 exceeds the temperature value set by a user, the micro air pump 4 is automatically started to deflate through the controller, so that the auxiliary air bag 3 is separated from the skin of the neck, the controller is electrically connected with the timing sensor, and the micro air pump 4 can be automatically inflated after a set time length.

In order to further control the temperature between the air bag and the neck of the user, the surface layer of the auxiliary air bag 3 is further provided with a heat conducting copper sheet 7, and the heat conducting copper sheet 7 is connected with the heat-sensitive sensor 6 through a copper wire, so that the temperature between the auxiliary air bag 3 and the neck of the user is measured more accurately.

When the air bag is used, a user sleeps in a lying position, the neck is located between the two neck supports 2, the micro air pump 4 is started to inflate the auxiliary air bag 3 due to the pressure between the neck of the user and the auxiliary air bag 3, at the moment, the air pressure inside the auxiliary air bag 3 can be regulated by the automatic control controller through the arrangement of the air pressure sensor 5, the auxiliary air bag 3 is tightly attached to the neck of the user, and the neck of the user is fixed.

The above description is illustrative of the utility model and is not to be construed as limiting, and it will be understood by those skilled in the art that many modifications, changes or equivalents may be made without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (5)

1. The recumbent position neck fixing pillow is characterized by comprising a bottom pillow (1) and two neck supports (2) capable of adjusting the distance according to the size of the neck of a patient, wherein the two neck supports (2) are symmetrically arranged on the bottom pillow (1), the neck supports (2) are provided with a skin-sticking surface (21), a plurality of auxiliary air bags (3) are arranged on the skin-sticking surface (21), and an inflation assembly communicated with the auxiliary air bags (3) is arranged inside the bottom pillow (1);

the auxiliary air bags (3) are in a rectangular array, at least 3 rows of auxiliary air bags (3) are arranged on the skin-adhering surface (21), and ventilation channels (31) are formed between adjacent auxiliary air bags (3);

The inflation assembly comprises a miniature air pump (4) and a controller, the miniature air pump (4) is electrically connected with the controller, an air outlet end (42) of the miniature air pump (4) is communicated with an air tap (41) arranged on the side edge of the bottom pillow (1) through a hose, and an air inlet end (43) of the miniature air pump (4) is communicated with the auxiliary air bag (3) through a neck support (2) through a hose;

The auxiliary air bag (3) is internally provided with an air pressure sensor (5), and the air pressure sensor (5) is electrically connected with the controller.

2. The recumbent neck fixing pillow according to claim 1, wherein the skin-contacting surface (21) is an inclined surface, and the skin-contacting surface (21) and the surface of the base pillow (1) form an included angle of 90-110 degrees.

3. The cervical immobilization pillow according to claim 1, wherein the auxiliary air bag (3) is internally provided with an electromagnetic valve (44), a hose connected with an air inlet end (43) of the miniature air pump (4) is connected with the electromagnetic valve (44), and the electromagnetic valve (44) is electrically connected with the controller.

4. The recumbent neck fixing pillow according to claim 1, wherein a heat-sensitive sensor (6) is arranged in the auxiliary air bag (3), and the heat-sensitive sensor (6) is electrically connected with a controller.

5. The cervical immobilization pillow for sleeping position of claim 4, wherein the surface layer of the auxiliary air bag (3) is further provided with a heat conducting copper sheet (7), and the heat conducting copper sheet (7) is connected with the heat-sensitive sensor (6) through copper wires.