CN210842523U - Pillow (Ref. TM.) with a heat-insulating layer - Google Patents

Abstract

The application belongs to the technical field of pillows of bedding articles, and particularly relates to a pillow. In the pillow, a lifting air bag is arranged on a bracket, two C-shaped deformation balloons are arranged on the lifting air bag, and a neck accommodating position is formed between the two C-shaped deformation balloons. Human neck holds and holds the position at the neck during use, and two C shape deformation balloons are spread on the upper berth and are equipped with the precoat, can prevent that the women from getting into the gap of C shape deformation balloon and the condition of being pressed from both sides when using. The inflation assembly inflates or exhausts the two C-shaped deformation balloons, so that the neck and the head of a human body can swing left and right. The inflation assembly inflates or exhausts the lifting air bag, can adjust the height position of the lifting air bag, meets different requirements of different users on the height position of the pillow, and is convenient to adjust.

Description

Pillow (Ref. TM.) with a heat-insulating layer

Technical Field

The application belongs to the technical field of pillows of bedding articles, and particularly relates to a pillow.

Background

Due to the change of office modes, cervical spondylosis becomes more and more common, and the current commonly used cervical spondylosis physical therapy products and methods mainly comprise traction technology, heat treatment products, U-shaped cervical pillows and massage pillow products. Chinese patent application No. 201720306725.2's patent document discloses a domestic physiotherapy pillow of non-organism deficiency class cervical spondylopathy, left side C shape deformation balloon and right side C shape deformation balloon that sets up through the symmetry, no matter aerify and the gassing in-process, the deformation of balloon all can produce the neck and still have micro-friction from top to bottom except that extrusion and release pressure, consequently not only can drive human cervical vertebra skeleton muscle motion but also can carry out the extrusion formula massage to the acupuncture point, cervical vertebra exercise physiotherapy to non-organism deficiency class cervical spondylopathy has good effect. However, some users of the above physio-pillow consider that: the height position of the physiotherapy pillow can not be completely suitable for oneself, the pillow with the height can be suitable for oneself when the pillow is purchased, and the pillow is hoped to be adjusted in a controllable height mode.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide a pillow so as to solve the technical problem that the height position of the existing pillow cannot be adjusted.

The application embodiment provides a pillow, includes:

a support;

the lifting air bag is arranged on the bracket;

the two C-shaped deformation balloons are arranged above the lifting air bag, and a neck accommodating position for accommodating the neck of the human body is formed between the two inflated C-shaped deformation balloons;

the fabric layer is laid on the upper surface of the C-shaped deformation balloon; and

and the inflation assembly is used for inflating or exhausting the lifting air bag and the C-shaped deformation balloon.

Optionally, the lifting air bag is in a strip shape, and the lifting air bag extends in a direction perpendicular to the neck of the human body.

Optionally, a side portion of the lifting airbag is connected to the bracket.

Optionally, the pillow further comprises a controller for controlling the inflation assembly to inflate and deflate the lifting air bag so as to enable the head of the human body to rise and fall in a preset mode, and a trigger in communication connection with the controller.

Optionally, the trigger is a remote controller.

Optionally, the inflation assembly includes an air pump, a silencer connected to an output end of the air pump, an air flow distributor connected to an output end of the silencer and configured to transmit compressed air to the lifting airbag and the C-shaped deformation balloon, and a control valve assembly connected to the silencer and configured to inflate or deflate the lifting airbag.

Optionally, the control valve assembly includes a tee joint, a first normally closed solenoid valve connected to one of the output ends of the airflow distributor, and a second normally closed solenoid valve for exhausting, and three ends of the tee joint are respectively connected to the first normally closed solenoid valve, the second normally closed solenoid valve, and the lifting airbag.

Optionally, the C-shaped deformable balloon comprises a plurality of inflatable bladders arranged in a stacked manner, each of the inflatable bladders comprising two elastic membranes connected at their peripheries to form a gas chamber; the inflatable air bag is provided with a wide end and a narrow end which are oppositely arranged; the narrow ends of all the inflatable air bags in the two C-shaped deformation balloons are arranged close to the neck accommodating position;

in the same C-shaped deformation balloon, vent holes are respectively formed in the narrow end of the elastic membranes of the two adjacent inflatable air bags, and the edges of the vent holes of the two adjacent inflatable air bags are connected so as to communicate the air chambers of the inflatable air bags; one of the inflatable bladders is connected to the inflation assembly.

Optionally, an air pool hole balloon is arranged on the upper surface of the inflatable air bag above the inflatable air bag, and the air pool hole balloon is communicated with the inflatable air bag; and a flexible connecting piece is connected between the upper surfaces of the inflatable air bags above the two C-shaped deformation balloons.

Optionally, the pillow further comprises an elastic layer disposed between the C-shaped deformation balloon and the fabric layer.

One or more technical solutions in the pillow provided by the embodiment of the present application have at least one of the following technical effects: in the pillow, a lifting air bag is arranged on a bracket, two C-shaped deformation balloons are arranged on the lifting air bag, and a neck accommodating position is formed between the two C-shaped deformation balloons. Human neck holds and holds the position at the neck during use, and two C shape deformation balloons are spread on the upper berth and are equipped with the precoat, can prevent that the women from getting into the gap of C shape deformation balloon and the condition of being pressed from both sides when using. The inflation assembly inflates or exhausts the two C-shaped deformation balloons, so that the neck and the head of a human body can swing left and right. The inflation assembly inflates or exhausts the lifting air bag, can adjust the height position of the lifting air bag, meets different requirements of different users on the height position of the pillow, and is convenient to adjust.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic view of a person using a pillow provided by an embodiment of the present application, with the person separated from the pillow for ease of labeling;

FIG. 2 is a top view of a person using the pillow of FIG. 1;

FIG. 3 is a schematic view of an assembled C-shaped deformable balloon for use in a pillow according to an embodiment of the present application;

FIG. 4 is a schematic view of the pillow of FIG. 1 being used to swing the head of a person, with the person separated from the pillow for easy marking;

fig. 5 is a schematic structural view of an elastic layer applied in the pillow of fig. 1;

fig. 6 (a) and (b) are schematic diagrams of the lifting air bag applied to the pillow of fig. 1 before and after inflation, respectively.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the embodiments of the present application, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like refer to orientations and positional relationships illustrated in the drawings, which are used for convenience in describing the embodiments of the present application and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the embodiments of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present application, unless otherwise specifically stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the embodiments of the present application can be understood by those of ordinary skill in the art according to specific situations.

Referring to fig. 1, 2 and 6, an embodiment of the present application provides a pillow, which includes a support 10, a lifting airbag 90, a C-shaped deformation balloon 20, a fabric layer 40 and an inflation assembly 50. The lifting air bag 90 is arranged on the bracket 10. The two C-shaped deformation balloons 20 are disposed above the lifting airbag 90, a neck accommodating portion 20a for accommodating the human neck 110 is formed between the two inflated C-shaped deformation balloons 20, and the two inflated C-shaped deformation balloons 20 are disposed below the neck levator 101 below the human neck 110. The precoat 40 is laid on the upper surface of the C-shaped deformation balloon 20. The inflation assembly 50 is used to inflate and deflate the lift airbag 90 and the C-shaped deformable balloon 20.

Compared with the prior art, the pillow provided by the application has the advantages that the lifting air bag 90 is arranged on the support 10, the two C-shaped deformation balloons 20 are arranged on the lifting air bag 90, and the neck accommodating position 20a is formed between the two C-shaped deformation balloons 20. When the neck-shaped deformation balloon is used, the neck 110 of a human body is accommodated in the neck accommodating position 20a, and the fabric layer 40 is paved on the two C-shaped deformation balloons 20, so that the situation that hairs of a woman enter gaps of the C-shaped deformation balloons 20 and are clamped when the woman uses the neck-shaped deformation balloon can be prevented. The inflation assembly 50 inflates or deflates the two C-shaped deformation balloons 20, so that the neck 110 and the head of the human body can swing left and right. The inflation assembly 50 inflates or exhausts the lifting air bag 90, can adjust the height position of the lifting air bag 90, meets different requirements of different users on the height position of the pillow, and is convenient to adjust.

In another embodiment of the present application, the support 10 may be a plate-like structure, and the support 10 may be used as a carrier for other structures. The inflation assembly 50 is disposed on the support 10 and covered by the fabric layer 40 so that the pillow is a unitary structure.

Referring to fig. 1, in another embodiment of the present application, the lifting airbag 90 is a strip shape, and the lifting airbag 90 is disposed to extend along a direction perpendicular to the cervical vertebrae of the human neck 110. With this arrangement, the elongated lifting air bag 90 can push up the C-shaped deformation balloon 20 after being inflated, so that the position of the occipital surface is raised. After the lifting air bag 90 is exhausted, the position of the C-shaped deformation balloon 20 descends along with the ascending, so that the position of the pillow surface descends. Therefore, the height of the pillow can be adjusted according to the requirements of users. Moreover, the elongated lifting air bag 90 extends along the direction perpendicular to the neck 110 of the human body, so that the structure is compact, and the overall structure occupies less space.

Referring to FIG. 6, in another embodiment of the present application, a side portion 91 of the lifting bladder 90 is attached to the support frame 10. This way it is easy to fit onto the bracket 10. After the ascent and descent balloon 90 is inflated, the ascent and descent balloon 90 swings around the side portion 91 connected to the stent 10 and expands to push the C-shaped deformation balloon 20 upward. After the lifting airbag 90 is deflated, the lifting airbag 90 is retracted and returned to the support frame 10.

In another embodiment of the present application, the pillow further comprises a controller (not shown) for controlling the inflation and deflation of the lifting bladders 90 by the inflation assembly 50 to raise and lower the head of the person in a predetermined manner, and a trigger (not shown) communicatively connected to the controller. By adopting the scheme, the requirement of slowly rising and falling the pillow can be realized. The pillow has the height adjustable function, the controller is triggered by the trigger, and the controller is set to inflate and deflate the lifting air bag 90 according to the preset time, so as to realize the function of continuously rising and falling the pillow. The air pump 51 is full of air for the lifting air bag 90, 1 minute is needed when the pressure value is 35KPA, and 1.5 minutes is needed during air exhaust to lower the pillow surface to the lowest position, so that the air pump 51 is only needed to work to inflate the lifting air bag 90 for one minute and then stop, then exhaust is carried out for 1.5 minutes and then stop, and the operation is continuously circulated or the circulation time and the circulation time are set to automatically stop, or the manual closing can be realized through a trigger. The practical test shows that the pillow has good sleep promoting effect when lifted continuously, and the test results show that 70% of people can sleep in shallow sleep in 6-10 min even in slightly interfered room and sleep in deep sleep in 15 min.

In another embodiment of the present application, the trigger is a remote control. The controller is driven by a remote controller, and the controller drives the inflation assembly 50 to work, so that the operation of a user is convenient. The controller is driven by means of a remote control, which is part of the prior art.

Referring to fig. 1, in another embodiment of the present application, the inflating assembly 50 includes an air pump 51 for generating compressed air, a muffler 52 connected to an output end of the air pump 51, an air distributor 53 connected to an output end of the muffler 52 for transmitting the compressed air to the ascent and descent balloon 90 and the C-shaped deformation balloon 20, and a control valve assembly 55 connected to the muffler 52 for inflating or deflating the ascent and descent balloon 90. The muffler 52 can reduce noise when the compressed gas flows. The airflow distributor 53 is equivalent to a reversing valve, and can realize the on-off and switching of the air passage, and further realize the switching of the inflation state and the exhaust state. In operation, the air pump 51 is started, and the compressed air of the air pump 51 is delivered to the air flow distributor 53 through the silencer 52 and is delivered to the lifting air bag 90 or the two C-shaped deformation balloons 20 respectively according to the inflation time and the inflation sequence, or individually or jointly or alternatively. The air pump 51, the silencer 52, the air flow distributor 53, the lifting air bag 90 and the C-shaped deformation balloon 20 can be connected through a hose 54. The air pump 51 is connected with a transformer 80, converts alternating current commercial power into direct current low voltage power, and transmits the direct current low voltage power to the air pump 51 through a wire and plug interface. Compared with the existing pillows on the market, the height adjustment is realized by filling gas into the air bags, and in order to prevent gas leakage, the inflation mode of holding the inflatable ball is adopted for inflation, so that the situation that the inflation and deflation adjustment is troublesome every time is caused. In the embodiment, the inflation assembly 50 comprising the air pump 51 is adopted to inflate and deflate the lifting air bag 90, so that the use is convenient.

Referring to fig. 1, in another embodiment of the present application, the control valve assembly 55 includes a three-way valve 551, a first normally closed solenoid valve 552 connected to one of the output ends of the airflow distributor 53, and a second normally closed solenoid valve 553 for exhausting, wherein three ends of the three-way valve 551 are respectively connected to the first normally closed solenoid valve 552, the second normally closed solenoid valve 553, and the lifting air bag 90. When the pillow needs to be lifted or lowered, the pillow can be lifted or lowered by opening and closing the first normally closed solenoid valve 552 and the second normally closed solenoid valve 553 in cooperation with the air filling of the lifting air bag 90.

The concrete mode is as follows: when the pillow needs to be lifted, the air pump 51 and the first normally closed solenoid valve 552 are operated, and the compressed air is connected to the first normally closed solenoid valve 552 through the air flow distributor 53, because the first normally closed solenoid valve 552 is already in an open working state at this time, the air flows to the lifting air bag 90 through the first normally closed solenoid valve 552, so that the lifting air bag 90 is inflated to expand, and the pillow surface is lifted.

When the required height is reached, the air pump 51 and the first normally closed solenoid valve 552 are powered off to stop working, at this time, the first normally closed solenoid valve 552 is in a power-off state to close and break the gas release circuit of the lifting air bag 90, at this time, the air in the lifting air bag 90 cannot be released, so a certain height is kept, and the pillow surface height is also kept.

When the height of the pillow needs to be lowered, the second normally closed solenoid valve 553 is operated, and at this time, the air in the lifting air bag 90 is discharged through the second normally closed solenoid valve 553 connected by the tee 551. Thus, as the gas discharge pillow surface is lowered, when it is lowered to a height deemed appropriate by the user, the second normally closed solenoid valve 553 is deactivated to close the gas release passage. At this time, the air in the elevating air bag 90 is not released, so that the height is kept constant, and the height of the pillow surface is also kept.

The air pump 51 and the control valve assembly 55 are utilized in the present embodiment to manually adjust the height position of the pillow at any time, thereby avoiding the trouble that the user of the conventional lifting pillow needs to use the hand-held inflatable ball and press the inflatable ball with hand to inflate the pillow with effort, which is time-consuming and labor-consuming. In addition, the working states of the air pump 51, the first normally closed solenoid valve 552 and the second normally closed solenoid valve 553 may be realized by providing corresponding keys on the remote controller.

Further, since the first normally closed solenoid valve 552 and the second normally closed solenoid valve 553 are selected to have a gas-holding type valve body having a pressure of 60KPA or less, it is basically unnecessary to consider the gas leakage problem. Through experimental tests, when the air pressure of the lifting air bag 90 is in a pressure state of 50KPA, the inflation assembly 50 basically has no leakage under the air pressure for 2 months. Whereas, from a practical application and pillow surface area standpoint, the air pressure inside the air bag inside the pillow need only be maintained at 35KPA to be sufficient to support the head and neck 110 of the person. The above solution is therefore feasible.

Referring to fig. 1, 3 and 4, in another embodiment of the present application, the C-shaped deformation balloon 20 includes a plurality of inflatable bladders 21 stacked in an up-down direction, each inflatable bladder 21 includes two elastic membranes 211 whose peripheries are connected to form an air chamber 2111; the inflatable air bag 21 is provided with a wide end 21a and a narrow end 21b which are oppositely arranged; the narrow ends 21b of all the inflatable air bags 21 in the two C-shaped deformation balloons 20 are arranged close to the neck accommodating position 20 a; in the same C-shaped deformation balloon 20, the elastic membranes 211 of two adjacent inflatable air bags 21 are respectively provided with vent holes 2112 at the narrow ends 21b, and the edges of the vent holes 2112 of the two adjacent inflatable air bags 21 are connected so as to communicate the air chambers 2111 of the respective inflatable air bags 21; one of the inflatable bladders 21 is connected to an inflation assembly 50. With this arrangement, since the respective inflatable bladders 21 of the same C-shaped deformation balloon 20 are communicated, when one of the inflatable bladders 21 of the C-shaped deformation balloon 20 is inflated, the respective inflatable bladder 21 will be inflated. The cumulative effect of the C-shaped deformation balloon 20 when inflated, in addition to lifting, may cause the C-shaped deformation balloon 20 to form a C-shape around the position of the vent 2112, because the inflated bladder 21 of the same layer deforms more highly at the wide end 21a than at the narrow end 21 b. Specifically, the peripheries of the two elastic films 211 in each inflatable bag 21 are thermally fused, so that molding is easy and airtightness is ensured. The inflated airbag 21 is shaped like a pear. The lowermost inflatable bladder 21 is connected to the inflation assembly 50 to facilitate inflation of the C-shaped deformable balloon 20 by the inflation assembly 50.

When the two C-shaped deformation balloons 20 are inflated, the upper surfaces of the two C-shaped deformation balloons 20 will have the effect of clamping the neck 110, and the clamping position is a part called a skyline in the traditional Chinese medicine. When the two C-shaped deformation balloons 20 are deflated simultaneously, the skull is put down, the clamping force of the neck 110 and the acupuncture points and pressure are cancelled, and the two C-shaped deformation balloons 20 automatically recover the flat state under the influence of the elasticity of the balloons. No matter in the process of inflation and deflation, the deformation of the C-shaped deformation balloon 20 can generate a slight amount of up-and-down friction effect on the neck 110 except for extrusion and pressure release, so that the structure not only can drive the movement of cervical vertebra skeletal muscles, but also can perform extrusion type massage on acupuncture points.

When the two C-shaped deformation balloons 20 are inflated simultaneously, the skull is pushed upwards. Referring to fig. 1 and 4, the gas in any one of the C-shaped balloons 20 is rapidly released. The C-shaped deformation balloon 20 which does not release gas loses the original balance clamping force of the C-shaped deformation balloon 20 which releases gas, so that a response pressure difference is generated to expand slightly, the acting force is applied to the skull below the auriculo-temporal bone which is close to the C-shaped deformation balloon 20, the skull will take the spinal joint as a winding point 102, and the skull will rotate and slide to the side which releases gas quickly by the weight of the skull. Typically, a unilateral application of a slight push underneath the temporal bone behind the ear will produce a more effective cranial wiggling effect than other locations in the skull. Along with the simultaneous inflation of the two C-shaped deformation balloons 20, the alternating inflation and deflation of the two C-shaped deformation balloons 20 can form the left-right swinging motion of the head.

Referring to fig. 1 to 3, in another embodiment of the present invention, a wind pool cavity balloon 22 is disposed on the upper surface of the upper inflatable airbag 21, and the wind pool cavity balloon 22 is communicated with the inflatable airbag 21. When the inflatable air bag 21 of the C-shaped deformation balloon 20 is inflated, the wind pool point balloon 22 is also inflated, and then the wind pool point balloon 22 extrudes the wind pool point 103 of the human body.

In another embodiment of the present application, the upper surface of the inflated airbag 21 located above is provided with a permanent magnet. The magnetic field of the permanent magnet is applied to the acupuncture points of the human body to generate the magnetic therapy effect on the human body.

In another embodiment of the present application, a flexible web 23 is attached between the upper surfaces of the upper inflatable bladders 21 of the two C-shaped deformable balloons 20. When the two C-shaped deformation balloons 20 are inflated simultaneously, the neck 110 of the human body can be lifted to a certain height by virtue of the flexible connecting sheet 23 due to the simultaneous vertical deformation of the two C-shaped deformation balloons 20, and the head tilting-back state is formed by the self weight of the head by utilizing the connecting joint of the head and the spine as a winding point 102, so that the elevation angle of the head is changed. The flexible connecting sheet 23 is arranged between the two C-shaped deformation balloons 20, the non-inflated C-shaped deformation balloons 20 are contracted into a flat state under the influence of the resilience force of the elastic membrane 211, and the flexible connecting sheet 23 can limit the two C-shaped deformation balloons 20 to be restored to preset positions.

Referring to fig. 1, in another embodiment of the present application, the pillow further includes an elastic layer 30 disposed between the C-shaped deformable balloon 20 and the fabric layer 40. The elastic layer 30 provides better softness and comfort. The pillow has no hard feeling on the outside, and can be directly used as a common pillow when the inflation assembly 50 does not work.

Referring to fig. 1, 4 and 5, in another embodiment of the present application, the elastic layer 30 is laid on the two C-shaped deformation balloons 20, the positions of the elastic layer 30 corresponding to the two C-shaped deformation balloons 20 are respectively cut to form flip structures 31, and the free ends 31a of the flip structures 31 are separated from the surface of the elastic layer 30 when the C-shaped deformation balloons 20 are inflated. Just can not be wrapped in elastic layer 30 when C shape deformation balloon 20 undulant torsional deformation like this, and the fluctuation that can be free can realize being greater than the swing at 90 degrees angles, reaches the demand of user's neck 110 and the big angle swing of head, makes the effect of cervical vertebra traction and massage dynamics promote, avoids the too high defect of original physiotherapy pillow power loss.

Referring to fig. 3 and 5, in another embodiment of the present application, the two flip structures 31 are disposed close to the pivot end 31b of the elastic layer 30, and the free ends 31a of the two flip structures 31 are disposed opposite to each other. With this arrangement, when the C-shaped deformable balloon 20 is inflated, each of the inflatable air bags 21 can swing at an angle of more than 90 degrees with respect to the position of the ventilation hole 2112, and the free end 31a is separated from the original plane of the elastic layer 30.

Referring to fig. 5, in another embodiment of the present application, the elastic layer 30 includes a main body 32 and a flip structure 31, the pivot end 31b of the flip structure 31 is connected to the main body 32, and a gap 33 is formed between the main body 32 and the flip structure 31. With this solution, the flip structure 31 is easy to process. When the C-shaped deformation balloon 20 is inflated, the free end 31a of the arc-shaped surface is easily separated from the elastic layer 30; when the C-shaped deformable balloon 20 is deflated, the free end 31a is easily restored to the flat surface of the elastic layer 30. In both moving processes, the free end 31a of the flip structure 31 will not interfere with the elastic layer 30, so that the flip structure 31 can move smoothly.

Referring to fig. 1, in another embodiment of the present application, the elastic layer 30 is a cotton layer, a memory cotton layer, a latex layer, an anion cotton layer or other elastic layers 30. By adopting the elastic layers 30, better softness and comfort can be provided for a user, and meanwhile, when the inflation assembly 50 inflates the C-shaped deformation balloon 20, the elastic layers 30 can generate larger deformation, so that the C-shaped deformation balloon 20 can generate larger-angle swing.

Referring to fig. 1, in another embodiment of the present application, the fabric layer 40 is an elastic fabric layer. The elastic cloth layer has the elastic telescopic characteristic, so that the elastic cloth layer can deform along with the C-shaped deformation balloon 20 when inflated, and the appearance integrity of the pillow and the isolation of the internal structure are ensured. The elastic cloth layer can be selected from Bikini cloth, sports wear cloth or four-side elastic cloth and the like.

Referring to fig. 1, in another embodiment of the present application, the pillow further includes a tilt telescopic balloon 70 disposed on the frame 10 and corresponding to the trapezius 104 and supraspinatus 105 of the human body, the tilt telescopic balloon 70 being connected to the inflation assembly 50. The inclined telescopic balloon 70 is arranged to push and strok the cervical part 110, the Dazhui point 106, the trapezius muscle 104 and the supraspinatus muscle 105 upwards during inflation and deflation.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A pillow, comprising:

a support;

the lifting air bag is arranged on the bracket;

the two C-shaped deformation balloons are arranged above the lifting air bag, and a neck accommodating position for accommodating the neck of the human body is formed between the two inflated C-shaped deformation balloons;

the fabric layer is laid on the upper surface of the C-shaped deformation balloon; and

and the inflation assembly is used for inflating or exhausting the lifting air bag and the C-shaped deformation balloon.

2. The pillow of claim 1, wherein the lifting bladder is elongated and extends in a direction perpendicular to the neck of the person.

3. The pillow of claim 2 wherein a side portion of said lifting bladder is attached to said frame.

4. The pillow of claim 1, wherein the pillow further comprises a controller for controlling the inflation and deflation of the lifting bladder by the inflation assembly to cause the person's head to rise and fall in a predetermined manner, and a trigger in communication with the controller.

5. The pillow of claim 4, wherein the trigger is a remote control.

6. The pillow of claim 1, wherein the inflation assembly comprises an air pump, a muffler connected to an output of the air pump, a gas flow distributor connected to an output of the muffler for delivering compressed gas to the lifting bladder and the C-shaped deformation bladder, and a control valve assembly connected to the muffler for inflating or deflating the lifting bladder.

7. The pillow according to claim 6, wherein the control valve assembly comprises a tee, a first normally closed solenoid valve connected to one of the output ends of the air flow distributor, and a second normally closed solenoid valve for exhausting air, and three ends of the tee are respectively connected to the first normally closed solenoid valve, the second normally closed solenoid valve, and the lifting air bag.

8. The pillow of any one of claims 1 to 7, wherein the C-shaped deformable balloon comprises a plurality of inflatable bladders arranged in a stack, each of the inflatable bladders comprising two elastic membranes joined at their peripheries to form an air chamber; the inflatable air bag is provided with a wide end and a narrow end which are oppositely arranged; the narrow ends of all the inflatable air bags in the two C-shaped deformation balloons are arranged close to the neck accommodating position;

in the same C-shaped deformation balloon, vent holes are respectively formed in the narrow end of the elastic membranes of the two adjacent inflatable air bags, and the edges of the vent holes of the two adjacent inflatable air bags are connected so as to communicate the air chambers of the inflatable air bags; one of the inflatable bladders is connected to the inflation assembly.

9. The pillow of claim 8, wherein the upper surface of the inflatable bladder above is provided with a reservoir pocket balloon, the reservoir pocket balloon being in communication with the inflatable bladder; and a flexible connecting piece is connected between the upper surfaces of the inflatable air bags above the two C-shaped deformation balloons.

10. The pillow of any one of claims 1 to 7, further comprising an elastic layer disposed between the C-shaped deformable balloon and the fabric layer.

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