CN210130665U - Air-blowing clip pillow, air-blowing pillow and air-blowing pillow group - Google Patents

Abstract

The utility model provides a clamp pillow of blowing and the pillow group of blowing thereof, wherein the clamp pillow of blowing includes: an inflatable pillow body having an inflatable chamber and an inflatable assembly configured to be coupled to the inflatable pillow body to facilitate inflation of the inflatable pillow body with a nozzle, the inflatable pillow body including a main body portion and two end portions, the two end portions and the main body portion being arranged substantially linearly to provide local support to a body part.

Description

Air-blowing clip pillow, air-blowing pillow and air-blowing pillow group

Technical Field

The utility model relates to a pillow, pad field still further, relate to a clamp pillow of blowing and the pillow group of blowing.

Background

The neck pillow is a common tool for assisting rest in daily life of people. Most of the existing neck pillows are made of elastic materials or granular materials and filled into shapes for people to use, for example, the shape of a U is formed for people to use. The elastic material can give people soft touch, but is very inconvenient to store and carry.

On such basis, the inflatable neck pillow has appeared gradually, and the inflatable neck pillow can be inflated in the neck pillow to form the state that supplies people to use, and when not needing to use, can be through letting out the gas in the neck pillow for the neck pillow volume diminishes, accomodates easily.

Whether it is an elastic filled pillow or an inflatable pillow, it enables the shape of the neck pillow to surround more of the neck circumference based on the need to support the neck, such as making the neck pillow U-shaped, which leaves only one opening for the neck to extend into the neck pillow, and most of the neck circumference can be surrounded by it, so that the neck can be supported when it is inclined at multiple angles, such as in the backward, sideways direction.

Returning to the actual use requirements, various support requirements exist in daily life of people, particularly for the head and the neck, so that the body part can rotate flexibly. However, the existing neck pillow is matched with the neck in shape based on the requirement of supporting the neck, and the existing neck pillow does not consider supporting other parts and has fixed structural shape.

In the use requirement, a plurality of temporary or small-part supporting requirements exist, for example, when the head part is deflected once, only a small part of the neck part is required to be supported sometimes, and a small area between the head part and a depending object is required to be supported sometimes, and for the requirements, the existing neck pillow can not meet the requirements.

The existing neck pillow is based on the requirement of supporting the neck, which needs to be more around the neck on one hand and be able to be worn on the neck without external force to be stably placed on the shoulder, and both of these requirements make the structure of the neck pillow tend to be close to the shape of the neck or around the neck.

Further, the volume of the neck pillow is increased based on the requirement of supporting and surrounding the neck more, for example, for an inflatable neck pillow, it needs to be filled with more air to support the neck, but for a large volume of air, the requirement for the user is higher.

Additionally, in some situations where support is desired, the need for support may be related to the object on which the user is resting, such as whether the user needs to rest his head on a side wall support or a back support, such as resting his head on a wall or on the back of a chair. For seats, there are various configurations, such as whether the back is flat or curved, whether the top of the back is head supported, etc., which make the user experience different needs for auxiliary support when seated, and for fixed-structure neck pillows, which do not accommodate these needs.

The statements herein merely provide background information related to the present disclosure and may not necessarily constitute prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing is suitable for the small region support demand of head or neck.

An object of the utility model is to provide a clamp of blowing pillow and the pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing is suitable for user predetermined use position, provides predetermined position's support.

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing is confirmed with the relative position at health position with the help of external force, does not need self to form to wear the structure and confirms the position with the health.

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing adopts the support mode of little tolerance, is suitable for the user to blow with the mouth, only needs little tolerance just can blow to full.

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing can be by nimble centre gripping between health demand support position and dependence thing.

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing can adapt to the orientation of deciding of neck and support the demand, when supporting the neck, makes with the help of the clamping-force between the head slope time and the shoulder the pillow of blowing is stably placed.

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing can be followed the opposite side and folded the square structure of accomodating that forms the rule when not aerifing, and the convenience is placed in the clothing pocket.

An object of the utility model is to provide a blow double-layered pillow and the pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing configuration one blows the subassembly for the packing that the mouth blown the pillow of blowing, and do not need extra instrument to inflate.

An object of the utility model is to provide a clamp of blowing pillow and the pillow of blowing and the pillow group of blowing thereof, wherein the subassembly self-sealing of blowing blows in gas, improves the efficiency that the user blown, fills fast the pillow of blowing.

An object of the utility model is to provide a press from both sides the pillow and blow the pillow group, wherein when the subassembly of blowing was pressed, gas in the pillow of blowing can be flowed by the control ground, adjusts from this gas volume in the pillow of blowing.

An object of the utility model is to provide a clamp of blowing pillow and the pillow of blowing and the pillow group of blowing thereof, wherein the subassembly of blowing by detachably set up in the pillow of blowing for the pillow body of blowing and the subassembly of blowing are independent separately, and the convenience is handled respectively to it in succession, for example clean respectively, retrieve respectively to and the make up of the convenient different pillow of blowing and the subassembly of blowing uses.

An object of the utility model is to provide a clamp pillow of blowing and the pillow group of blowing thereof, one of them the pillow body of blowing can detachably dispose a plurality ofly the subassembly of blowing, so that the pillow of blowing can adapt to sharing of many people and use, and the people of difference can use the difference subassembly of blowing to fill.

An object of the utility model is to provide a clamp of blowing pillow and the pillow of blowing and the pillow group of blowing thereof, wherein the pillow of blowing is configured a coupling assembling, coupling assembling can assist the definite the pillow of blowing and the position by the dependence thing.

An object of the utility model is to provide a clamp of blowing pillow and the pillow of blowing and the pillow group of blowing thereof, wherein the auxiliary assembly can assist a plurality ofly the pillow group of blowing forms a pillow group of blowing, cooperates different dependence thing.

An aspect of the utility model is to provide a blowing pillow, it includes:

an air-blowing bolster, characterized by, includes:

the air blowing pillow body is provided with an air blowing chamber; and

a blow assembly disposed in said blow pillow body in communication with said blow chamber for facilitating blowing of said blow pillow body with a nozzle, said blow pillow body including a body portion and two end portions, said two end portions and said body portion being disposed substantially linearly for providing local support to a body part.

The blow clip pillow according to some embodiments, wherein the blow pillow body includes a sealing line that seals the body portion and edges of the two end portions to form the blow chamber.

The blow bolster of some embodiments, wherein the sealing line includes an outer edge and an inner edge, the outer edge and the inner edge on either side of the body portion, the inner edge being curved.

The blow bolster of some embodiments, wherein the outer edge is linear.

The inflatable pillow of some embodiments, wherein the sealing line includes two side edges, the two side edges are respectively located at two ends, and the two ends connect the inner edge and the outer edge in an arc shape.

The blow clip pillow according to some embodiments, wherein the arcuate curvature of the side edges are opposite.

The insufflation pillow of some embodiments wherein the insufflation pillow body includes a first skin and a second skin, the first skin and the second skin arranged in a stack to form the insufflation chamber.

The blow clip bolster of some embodiments, wherein the blow bolster includes a sealing line that seals edges of the first skin and the second skin to form the blow chamber with closed edges.

The blow clip pillow of some embodiments, wherein the first skin layer comprises a base layer of a flexible, breathable material and a gas barrier layer attached to the base layer to block gas transmission therethrough.

The blow clip pillow according to some embodiments, wherein the first skin and the second skin are elastic.

The insufflation pillow of some embodiments, wherein the insufflation assembly includes an insufflation body and a seal mounting ring secured to the insufflation pillow, the insufflation body being sealingly removably mounted to the seal mounting ring for mouth insufflation or exsufflation of the insufflation pillow by the insufflation body.

The blow clip pillow according to some embodiments, wherein the seal mounting ring includes a ring body defining a mounting hole to sealingly mount the blow body and an extended rim extending horizontally outward from a top end of the ring body.

The insufflation clip according to some embodiments, wherein the insufflation body includes a top edge extending horizontally outward from a top end of the insufflation body, the top edge of the insufflation body and the extended edge of the seal mounting ring cooperating to respectively provide a mounting force application point to quickly press the insufflation body into the seal mounting ring.

The blowing bolster according to some embodiments, wherein the blowing body has a height greater than a height of the seal mounting ring such that the blowing body protrudes from a bottom of the seal mounting ring when mounted to the seal mounting ring, the protruding portions of the blowing body cooperate with the extending edges of the seal mounting ring to respectively provide separate points of application for rapidly pushing the blowing body out of the seal mounting ring.

The insufflation bolster according to some embodiments, wherein the insufflation body includes a bracket having a through hole and a closing film movably mounted to the bracket to close or communicate the through hole and the insufflation chamber, the closing film being pushed at least partially away from the bracket when gas is insufflated into the insufflation body, the gas passing through the through hole into the insufflation chamber.

The air blowing pillow according to some embodiments, wherein the air blowing main body includes a pressing member movably installed at the bracket, and when the pressing member is pressed, the pressing member pushes the sealing film to partially deform so that the through hole communicates the air blowing chamber and the external space.

The inflatable pillow according to some embodiments, wherein the length orientation of the inflatable pillow body is 20cm to 27 cm.

The inflatable pillow according to some embodiments, wherein the inflatable pillow body has a width in a range of 8cm to 15 cm.

The insufflation clip pillow according to some embodiments, wherein the volume of the insufflation pillow body ranges from 400ml to 1100 ml.

The blow clip pillow according to some embodiments, wherein the volume of the blow pillow ranges from 850ml to 950 ml.

The inflatable bolster according to some embodiments, wherein the inflatable bolster secures a support position by a clamping force between body parts or between a body part and a resting object.

The blow clip pillow according to some embodiments, wherein the sealing line is formed by means of heat pressing.

The insufflation bolster of some embodiments wherein the outer and inner edges of the insufflation bolster are folded inwardly in half along a centerline to form a generally square configuration.

The utility model discloses another aspect provides a blowing pillow, and it includes:

the air blowing clip pillow; and

a connecting assembly configured to the blow bolster to facilitate securing the blow bolster to a support via the connecting assembly.

The inflatable bolster according to some embodiments, wherein the connecting assembly includes a first connecting member and a second connecting member, the first connecting member and the second connecting member are respectively disposed at the two ends, and the first connecting member and the second connecting member are detachably connected to form a closed loop with the inflatable bolster and are fixed to the rest.

An inflatable pillow assembly, comprising:

a plurality of said inflatable pillows; and

and the connecting components are respectively arranged on the plurality of blowing pillows to connect the plurality of blowing pillows.

The inflatable pillow set of some embodiments, wherein when the inflatable pillow set is in the connected state, two adjacent inflatable pillows form an empty space, and the empty space cooperates with a rest to provide support for a user.

Drawings

Fig. 1A and 1B are schematic views illustrating an unfilled state of a blow pillow according to a first embodiment of the present invention.

Fig. 2A is a schematic view illustrating a rolling process of the blow pillow according to the first embodiment of the present invention.

Fig. 2B is a schematic view of a folding process of the air pillow according to the first embodiment of the present invention.

Fig. 3 is a schematic view of the inflated state of the blow pillow according to the first embodiment of the present invention.

Figure 4 is a schematic cross-sectional view of the inflated state of the blow pillow according to a first embodiment of the present invention.

Fig. 5A and 5B are schematic diagrams of the air blowing pillow according to the first embodiment of the present invention.

Fig. 6A and 6B are schematic diagrams of the deflation of the inflation pillow according to the first embodiment of the present invention.

Fig. 7 is an exploded view of a blow pillow according to a first embodiment of the present invention.

Figure 8 is an exploded view of the blow assembly of the blow pillow according to the first embodiment of the present invention.

Fig. 9A and 9B are schematic diagrams illustrating a disassembly process of the blowing assembly of the blowing pillow according to the first embodiment of the present invention.

Fig. 10A and 10B are schematic views illustrating a process in which the air-blowing assembly of the air-blowing pillow according to the first embodiment of the present invention is installed.

Fig. 11 is a schematic view showing a state of use of the air pillow according to the first embodiment of the present invention.

Fig. 12 is a schematic view showing another state of use of the blow pillow according to the first embodiment of the present invention.

Fig. 13 is a schematic view of a blow pillow according to a variant of the first embodiment of the invention.

Fig. 14 is a schematic view of the use of the inflatable pillow according to a variant of the first embodiment of the invention.

Fig. 15 is a schematic view of a blow pillow according to a second embodiment of the present invention.

FIG. 16 is a schematic view showing a state of use of the inflatable pillow according to the second embodiment of the present invention

Fig. 17 is a schematic view of a blowing pillow set according to a third embodiment of the present invention.

Fig. 18 is a schematic view showing the use of the air pillow group according to the third embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1-12 of the drawings, a blow clip pillow 100 according to one embodiment of the present invention is illustrated. The air blowing bolster 100 includes an air blowing pillow body 10 and an air blowing assembly 20, and the air blowing assembly 20 is disposed on the air blowing pillow body 10 so as to fill the air blowing pillow body 10 by air blowing through the air blowing assembly 20 or to release air in the air blowing pillow body 10.

The blow clip 100 is adapted to be used to support a partial area of a user's head or neck. The inflatable clamp pillow 100 may be held between partial areas of a body part or may be used to be held between a body part and a rest W. The position of the blow bolster 100 is determined by the clamping force between the body parts or by the clamping force between the body parts and the rest W.

The blowing pillow 10 has a blowing chamber 101, and the blowing assembly 20 is configured to communicate with the blowing chamber 101, so that the gas in the blowing chamber 101 is controlled by the blowing assembly 20.

The air-blowing pillow body 10 has an uninflated state 110, and in the uninflated state 110, the air-blowing pillow body 10 is a flexible plane, so that the air-blowing pillow body is convenient to roll up or fold and store.

The inflatable pillow 100 has an inflated state 120, in which the air blowing chamber 101 is filled with air and the air blowing assembly 20 seals the air therein, and the inflatable pillow body 10 is supported by the air in the inflated state 120. That is, in the inflated state 120, the volume of the blow clip pillow 110 is increased, and the body of the blow clip pillow 100 is adapted to be supported in a spaced relation between body parts of a person or between a body part of a person and an object.

Further, in the inflated state 120, the blow clip 100 is adapted to support a head portion area. For example, the blow clip pillow 100 is adapted to be placed on the shoulder, and when the head is tilted, a partial region of the head of the user is supported by the blow clip pillow, and the blow clip pillow 100 is fixed to the shoulder by the clamping force between the head and the shoulder. In the inflated state 120, the blow clip 100 is adapted to be supported between a head portion region and a support. For example, when the user wants to rest the head on the rest W, the blow clip 100 is placed between the head and the rest W, and the position of the blow clip 100 is determined by the resting force of the head. That is, the blow bolster 100 is supported for use while its position is determined by the force between the two sides being supported.

The air-blowing pillow body 10 includes a body part 11 and two end parts 12, and the two end parts 12 are integrally connected to the body part 11. The two end portions 12 are located on opposite sides of the main body portion 11. Further, the two end portions 12 and the main body portion 11 are substantially linearly arranged so that the blow bolster 100 is directly supported at a portion to be supported without forming a full support structure, such as a U-shaped structure, surrounding a large portion of the neck portion. That is, the blowing bolster 100 only needs to form a partial support structure in a partial region, and the required support structure is simplified and reduced in size. It should be noted that the blowing bolster 100 is supported in a small or local area to be supported in a gas-supported manner, so that when a user blows and fills, the amount of gas to be filled is relatively small, and the user can conveniently use the blowing bolster by blowing with the mouth. And because the air-blowing bolster 100 is filled with a small amount of air, the self-weight is small, and the air-blowing bolster can be flexibly clamped and supported at a part needing to be supported without falling off, such as between the head and the shoulder or between the head of the body and a leaning object W.

Further, the main body portion 11 extends substantially linearly, and the two end portions 12 are formed in an arc-shaped configuration, so that the blowing bolster 100 is formed in a shape like a pea or a capsule so as to be flexibly supported at a position to be supported in a small support manner.

Further, the blowing bolster 100 is arranged substantially symmetrically about the height center line, thus enabling the blowing bolster 100 to be conveniently folded in half or rolled up in the length direction for storage.

Referring to fig. 2A, when the blowing bolster 100 is rolled up along the length direction, one of the end portions 12 is rolled up along the direction in which the length of the blowing bolster 100 extends, centering on the other end portion 12, the blowing bolster 100 is rolled up into a stacked column shape having a smaller volume, and the height of the column is determined by the maximum width of the blowing bolster 100.

Referring to fig. 2B, when the blowing bolster 100 is folded, the two side edges 153 are folded inwards along the length direction of the blowing bolster 100, the two sides of the blowing bolster 100 are folded inside, and then folded along the height direction of the blowing bolster 100, the blowing bolster 100 is folded into a smaller approximately square structure with a small volume, and can be conveniently carried in a pocket of clothes, and therefore, the blowing bolster 100 can also be called a pocket pillow.

Referring to fig. 1A to 4, the air-blowing pillow 10 includes a first surface layer 13 and a second surface layer 14, and the first surface layer 13 and the second surface layer 14 are disposed opposite to each other to form the air-blowing chamber 101. That is, a space filled with gas is formed between the first skin 13 and the second skin 14. In other words, the amount of gas that can be filled in the inflation chamber 101 is determined by the sizes of the areas of the first surface layer 13 and the second surface layer 14.

The blowing pillow 10 includes a sealing line 15 that seals the edges of the main body portion and the two end portions to form the blowing chamber. In other words, the sealing line 15 closes the edges of the first skin 13 and the second skin 14 to form the closed puffer chamber 101. That is, the edges of the first skin 13 and the second skin 14 are joined by the seal line 15, thereby enabling the sealing of gas between the first skin 13 and the second skin 14. The sealing line 15 may be formed by hot pressing or by gluing. For example, in manufacturing, the first skin layer 13 and the second skin layer 14 are stacked and hot pressed at predetermined positions of the first skin layer 13 and the second skin layer 14, so that the sealing line 15 is formed, that is, the air blowing chamber 101 is formed between the first skin layer 13 and the second skin layer 14.

Further, according to an embodiment of the present invention, the first skin 13 and the second skin 14 are made of a flexible elastic material, and when the gas is blown into the blowing chamber 101, the first skin 13 and the second skin 14 can be elastically deformed to a small extent, so that a sufficient amount of gas can be filled between the first skin 13 and the second skin 14 for supporting. In other words, the first skin 13 and the second skin 14 can accommodate relatively more gas after elastic deformation under the condition of smaller natural expansion area, thereby providing more supporting strength. Further, the elasticity of the first surface layer 13 and the second surface layer 14 can withstand a predetermined gas pressure, so that the blowing bolster 100 can withstand a predetermined pressure after being filled with blowing gas, that is, can provide a predetermined supporting force.

According to some embodiments of the present invention, the first surface layer 13 and the second surface layer 14 may be two layers independent of each other before manufacturing, and the blowing chamber 101 is formed by sealing all the opposite edges of the first surface layer 13 and the second surface layer 14. In other words, the sealing line 15 forms itself a closed loop sealing the first skin layer 13 and the second skin layer 14.

In particular, according to an embodiment of the invention, said first surface layer 13 and said second surface layer 14 are two layers of the same shape. That is, in the case of cutting the first skin layer 13 and the second skin layer 14 from a raw material, the first skin layer 13 and the second skin layer 14 may be cut at a time by overlapping two raw materials. The first skin 13 and the second skin 14 are capable of providing relatively uniform support conditions when the blow clip 100 is in the inflated state 120. Alternatively, the first skin layer 13 and the second skin layer 14 are supported in a uniform configuration so that when in use, there is no need to visibly distinguish between the obverse side and the reverse side.

In another embodiment of the present invention, the first surface layer 13 and the second surface layer 14 may be two layers formed by folding one layer of raw material. For example, the raw material is folded in half to form the first skin layer 13 and the second skin layer 14, and then the separated regions between the first skin layer 13 and the second skin layer 14 are sealed to form the sealing line 15. In other words, the seal line 15 cooperates with the fold lines of the first and second skin layers 13, 14 to close the first and second skin layers 13, 14.

The first blowing assembly 20 is disposed on the first skin 13 and/or the second skin 14. That is, the first skin 13 and/or the second skin 14 provide mounting locations for the blow-off assembly 20. In this embodiment of the present invention, the air blowing assembly 20 is disposed on the first surface layer 13.

Referring to fig. 4, the first surface layer 13 includes a first base layer 131 and a first gas barrier layer 132, and the first gas barrier layer 132 is attached to the first base layer 131 to isolate gas inside the first surface layer 13. The outer surface of the first base layer 131 faces the external environment, and the inner surface of the first base layer 131 is attached with the first gas barrier layer 132. The first base layer 131 may be a breathable material such as cloth.

It is worth mentioning that the first base layer 131 of the first skin layer 13 of the inflatable pillow may be in direct contact with a body part. The breathable flexible material of the first base layer 131 provides a flexible tactile sensation to the user and protects the skin from injury. The inner surface of the first base layer 131 needs to retain gas to maintain the support configuration, and the gas-impermeable first gas barrier layer 132 prevents gas from permeating through the first gas barrier layer 132 and passing out through the first surface layer 13, so as to satisfy the support condition. The first gas barrier layer 132 may be a glue layer or a plastic film layer, or other gas impermeable film layer. The first gas barrier layer 132 may be formed on the first base layer 131 during the manufacturing process, for example, a colloid material is coated on the first gas barrier layer 132 to form a thin layer of the first gas barrier layer 132 on the inner surface of the first base layer 131, for example, a plastic film is directly pressed on the inner surface of the first gas barrier layer 132 to the first base layer 131. The first gas barrier layer 132 may be adhesively fixed to the first base layer 131.

Likewise, the second surface layer 14 may include a second base layer and a second gas barrier layer attached to the second base layer to provide gas isolation within the second surface layer 14. The outer surface of the second base layer faces the external environment, and the inner surface of the second base layer is attached with the second gas barrier layer. That is, the gas blowing chamber 101 for enclosing gas is formed between the first gas barrier layer 132 and the second gas barrier layer. The second substrate may be a breathable material such as cloth.

It is worth mentioning that the second base layer of the second skin layer 14 of the inflatable pillow may be in direct contact with a body part. The breathable flexible material of the second substrate provides a flexible tactile impression to the user and protects the skin from injury. The inner surface of the second substrate layer is required to retain gas to maintain the supported configuration, while the gas-impermeable second gas barrier layer prevents gas from permeating through the second gas barrier layer and exiting through the second skin layer 14 to meet the support condition. The second gas barrier layer may be a glue layer or a plastic film layer, or other gas impermeable film layer. The second gas barrier layer may be formed on the second base layer during the manufacturing process, for example, by applying a colloid material on the second gas barrier layer to form a thin layer of the second gas barrier layer on the inner surface of the second base layer, for example, by directly pressing a plastic film on the inner surface of the second base layer. The second gas barrier layer may be adhesively fixed to the second base layer.

It is also worth mentioning that the shape of the sealing line 15 determines the shape of the blowing chamber 101, that is, the shape of the sealing line 15 influences the support configuration that the blowing pillow 10 can form.

The sealing line 15 comprises an outer edge 151, an inner edge 152 and two side edges 153, and the outer edge 151, the inner edge 152 and the two side edges 153 are connected with each other to form the blowing chamber 101. In other words, the outer edge 151, the inner edge 152 and the two side edges 153 are connected to each other to form a closed loop.

Referring to fig. 1A-3, the outer edge 151 and the inner edge 152 are on opposite sides, and the two side edges 153 are opposite.

Further, the outer edge 151 and the inner edge 152 are located in the direction in which the length extends, and the both side edges 153 are arranged in the direction in which the width extends. The two side edges 153 form the two opposite ends 12. The outer edge 151 and the inner edge 152 form the extended body portion 11.

Further, the outer edge 151 extends substantially linearly, and the inner edge 152 extends in a slight arc. That is, the outer edge 151 side and the inner edge 152 side form different support conditions when the blow bolster 100 is in the inflated state 120. The outer edge 151 side accommodates support for flat surface requirements and the inner edge 152 side accommodates support for arcuate surfaces. For example, when the blow pillow is used in the blowing state, the blow pillow can be flexibly applied between a user and a rest W, such as a wall or an inner wall of a vehicle, the blow pillow can be held between the rest W of the user's head, and the outer edge 151 side is adapted to support a flat rest W, such as an inner wall of a vehicle, and the inner edge 152 side is adapted to support a curved body part, such as a head.

When the blow clip 100 is in the inflated state 120, the inner edge 152 defines an arcuate recess 105 on one side thereof, the arcuate recess 105 being adapted to captively support a body part of a user. For example, the arcuate depression 105 may be adapted to support a small area of the head of a user, or the arcuate depression 105 may be adapted to captively support a small area of the neck of a user.

The inner edge 152 has a relatively small curvature, thereby allowing the outer edge 151 and the inner edge 152 to conform to each other, so that the blow clip 100 is relatively regular in shape and can be conveniently folded inward or rolled along one edge.

The two side edges 153 are respectively located at the two end portions 12, the two side edges 153 are arc-shaped extensions, that is, the two side edges are arc-shaped connected between the outer edge 151 and the inner edge 152, so that the air-blowing pillow 100 does not have obvious edges and corners, and the whole edges are soft arcs, thereby satisfying the supporting requirements of small areas or local areas, and simultaneously ensuring that the edges of the air-blowing pillow are safer and the body of a user is not uncomfortable due to the edges and corners.

The curvature of the side edges 153 is greater than the curvature of the inner edge 152. The two side edges 153 are used for connecting the outer edge 151 and the inner edge 152 in an arc shape. That is, the two side edges 153 are mainly used for the closing connection, while the inner edge 152 is used for supporting the body part in addition to the closing connection, and the partial area of the body part is needed to match the change of the smaller arc. Further, with such a curvature fit, the height of the blow bolster 100 does not need to be too high in the case of an arc connection of the blow bolster 100, and the material required for the two end portions 12 is also reduced. The air-blowing bolster 100 may be folded in half and cut. Further, the two side edges 152 are curved in opposite directions. The two side edges 153 are respectively bent outward on the same straight line, that is, the two side edges 153 are symmetrical with respect to the center, the two end portions 12 can be folded and overlapped, and when the blow bolster 100 is manufactured, the raw material can be folded in half and then cut to obtain the two end portions 12 in an arc shape.

In the non-inflated state 110, the blow bolster 100 may be rolled up in the direction of the outer edge 151, and axially rolled from one end to the other end, thereby forming a rolled-up state with a small rolled-up volume. The blow clip pillow 100 may be folded inwardly about the outer edge 151 and the outer edge 151 in the uninflated state 110, for example, such that the inner edge 152 and the outer edge 151 meet after folding, and the blow clip pillow 100 may be folded in half about a centerline to provide a generally square folded state. That is, the inflatable split bolster 100 may be folded or rolled into a small volume in different ways when in the uninflated state 110, which is very portable, such as by being placed directly into a pocket of clothing.

The blow clip 100 is relatively small in size and volume in both the uninflated state 110 and the inflated state 120 to meet the local support requirements as well as the small volume support requirements. In the uninflated state 110, the length L of the blow bolster 100 is less than 30cm, and the width W of the blow bolster 100 is less than 20 cm. Preferably, the length L of the blowing bolster 100 is selected to be in a range of 20cm to 27cm, and the width of the blowing bolster 100 is in a range of 8cm to 15cm, so that the blowing bolster 100 can be smaller in size under the condition of meeting the support requirement. The arcuate length of the inner edge 152 may range from 5cm to 11 cm.

For example, the volume of the blowing chamber 101 of the blowing bolster 100 ranges from 400ml to 2000 ml. Optionally, the volume of the blowing chamber 101 of the blowing bolster 100 ranges from 400ml to 1100ml, and preferably, the volume of the blowing chamber 101 of the blowing bolster 100 ranges from 850ml to 950 ml. It is understood that a general user, such as a normally developing male or female, can blow the blowing chamber 101 of the blowing pillow body 10 of the blowing pillow 100 with a puff at a normal pressure. In short, the blow clip 100 may be inflated from the uninflated state 110 to the inflated state in one stroke by a normal user. It is worth mentioning that the general adult male lung capacity is about 3500ml, the female is about 2500ml, the adult lung capacity is the largest, the young and the old are smaller, but the lung capacity is basically far larger than the volume of the air blowing clamp pillow 100 provided by the embodiment of the utility model, that is, for the user, one mouth can be fully blown without too much effort, thereby being very convenient to use.

The blow assembly 20 is detachably configured to the blow bolster 100. That is, the insufflation pillow 10 and the insufflation assembly 20 may be separated from each other when the insufflation pillow 100 is in the uninflated state 110.

Referring to fig. 4 to 10B, the air-blowing assembly 20 includes an air-blowing body 21 and a sealing mounting ring 22, the sealing mounting ring 22 is fixed to the air-blowing pillow body 10, and the air-blowing body 21 is detachably and sealingly mounted to the sealing mounting ring 22, that is, the air-blowing body 21 is detachably mounted to the air-blowing pillow body 10. The blowing body 21 is sealingly inserted into the sealing ring 22. That is, when the gas blowing body 21 is inserted into the seal installation ring 22, the position where the seal body meets the seal installation ring 22 is sealed.

The seal mounting ring 22 has a ring body 221 and forms a mounting hole 202, and the air-blowing body 21 is adapted to be inserted into the mounting hole 202. The ring body 221 forms the mounting hole 202.

The seal mounting ring 22 includes an extended edge 222, and the extended edge 222 is formed by extending horizontally outward from one end of the ring body 221. For example, the extension edge 222 is a planar ring shape. The first skin 13 of the blow pillow body 10 is fixed to the extended rim 222. That is, the extended edge 222 provides a fixed location for the seal mounting ring 22 to be secured to the first skin 13.

The lower end part of the air blowing main body 21 protrudes out of the lower end part of the sealing installation ring 22, so that the structure of the air blowing main body 21 is matched with that of the sealing installation ring 22, and the air blowing main body 21 is convenient to mount and dismount.

The blowing body 21 has a top edge 212, and the top edge 212 extends horizontally outward from the upper end of the blowing body 21. When the blow body 21 is inserted into the seal mounting ring 22, the top edge 212 is restrained to the extended edge 222 of the seal mounting ring 22.

It should be noted that the air blowing body 21 needs to be sealingly mounted on the seal mounting ring 22, the air blowing body 21 is in interference fit with the seal mounting ring 22, so that the air blowing body 21 and the seal mounting ring 22 have good air tightness, and a large operation force is required when the air blowing body 21 is mounted or dismounted, and the fitting structure of the air blowing body 21 and the seal mounting ring 22 provides a force application point for mounting and dismounting the air blowing body 21, so that the air blowing body 21 can be easily mounted or dismounted.

For example, when the air-blowing body 21 needs to be inserted into the seal mounting ring 22, the top edge 212 of the air-blowing body 21 and the extended edge 222 of the seal mounting ring 22 respectively provide two force application points, and when the user's fingers are respectively located at the upper portion of the top edge 212 of the air-blowing body 21 and the lower portion of the extended edge 222 of the seal mounting ring 22, respectively pressing the top edge 212 of the air-blowing body 21 downward and pushing the extended edge 222 of the seal mounting ring 22 upward, the air-blowing body 21 and the seal mounting ring 22 can be easily approached to each other under mutual force, so that the air-blowing body 21 is easily and sealingly mounted to the seal mounting ring 22, and the air-blowing body 21 is quickly pressed into the seal mounting ring 22.

When the air-blowing body 21 needs to be separated from the air-blowing pillow body 10, the bottom end of the air-blowing body 21 and the extended edge 222 of the seal installation ring 22 provide two points of application on both sides, respectively. When the user's fingers are respectively positioned at the bottom end of the air-blowing body 21 and the top of the extended rim 222 of the seal mounting ring 22, the air-blowing body 21 and the seal mounting ring 22 can be easily separated by the mutual force of the air-blowing body 21 and the seal mounting ring 22 by respectively pushing up the bottom end of the air-blowing body 21 and pressing down the extended rim 222 of the seal mounting ring 22, and the air-blowing body 21 is rapidly ejected from the seal mounting ring 22.

The gas blowing body 21 and the seal mounting ring 22 have different hardness, that is, the gas blowing body 21 and the seal mounting ring 22 increase gas tightness by the hardness of the materials in cooperation. The material hardness of the seal installation ring 22 is greater than that of the air-blowing body 21, thereby allowing the seal installation ring 22 to provide sufficient installation strength, and the air-blowing body 21 is compressively inserted into the seal installation ring 22 with small elastic deformation, thereby allowing the air-blowing body 21 to be sealingly installed within the seal installation ring 22. By way of example and not limitation, the material used for the seal mounting ring 22 is TPU (Thermoplastic polyurethane Elastomer) and the material used for the blow body 21 is TPE (Thermoplastic Elastomer).

It is worth mentioning that the air blowing bolster 100 can satisfy the supporting requirement with a small air volume, so that the user can conveniently and rapidly blow air. In use, many insufflation and deflation uses may be required, but after prolonged use or a period of use, the insufflation bolster 100 needs to be cleaned to ensure a healthy and hygienic use. According to the embodiment of the utility model discloses a blow air double-layered pillow 100, blow the main part 21 with sealed collar 22 can conveniently be dismantled and the installation, consequently when cleaning, blow the pillow body 10 with blow the main part 21 and can clear up respectively, for example, blow the pillow body 10 and can clear up with the mode of water washing, it can be clean through disinfection liquid such as alcohol to blow the main part 21 to make different materials and different functional component all can obtain fine clean effect, especially right blow the subassembly 20, the part that the user need blow with the mouth, through such a mode, can provide better sanitary condition for the user, also more sanitary safety to children use.

In an embodiment of the present invention, referring to fig. 13 to 14, one of the blowing pillows 100 may be configured with a plurality of the blowing bodies 21 so as to share the use of the blowing pillows 100 among a plurality of them. That is, when it is required to use, different persons may insert the seal installation ring 22 using different air-blowing bodies 21, and then air-blow the air-blowing bolster 100. It is worth mentioning that the inflatable bolster 100 is supported in a small amount, so that the user can use it by air at will, however, for different people, especially for some users who are in good health condition, sometimes after a period of use, they will be conscious of sanitary and hygienic issues, such as considering whether there is a cold or not, and the detachable disposition of the plurality of the air blowing bodies 21 in this embodiment of the present invention, when the device is used for the same time, the device can be replaced and used among different air blowing bodies 21, the contact part of the mouth of a user is kept clean all the time, when a plurality of persons share, different persons can use different air-blowing bodies 21, so that the air-blowing bodies 21 used by different users are independent of each other, such that the blow clip pillow 100 may be more reassuring, enjoyable to be used in multiple uses or shared among multiple people.

Referring to fig. 4 to 10B, the air blowing body 21 includes a holder 211, a sealing film 213 and a pressing member 214, the sealing film 213 is detachably mounted to the holder 211, the holder 211 has a communication hole 2103, and the sealing film 213 closes the communication hole 2103. When gas is blown into the gas blowing body 21, the closing film 213 is elastically deformed by the gas, the communication hole 2103 communicates with the gas blowing chamber 101 of the gas blowing body 21, and the gas enters the gas blowing chamber 101. The pressing member 214 is movably connected to the blown air main body 21 to push the sealing film 213 to be deformed. When the blowing jig is in the inflated state 120, the pressing member 214 is pressed, the closing film 213 is deformed by the pushing force, the communication hole 2103 communicates the blowing chamber 101 with the external space, and the gas in the blowing chamber 101 is released.

The bracket 211 comprises a ring 2111 and a bottom frame 2112, the bottom frame 2112 is disposed at the bottom of the ring 2111, the pressing component 214 is movably disposed with the bottom frame 2112, the communication hole 2103 is disposed on the bottom frame 2112, or the sealing film 213 is disposed at the bottom side of the bottom frame 2112 in a sealing manner so as to seal or communicate with the communication hole 2103. The pressing member 214 may movably push the elastic deformation.

The ring body 2111 is used for inserting the seal mounting ring 22 to sealingly connect the air-blowing body 21 and the seal mounting ring 22. The ring body 2111 has a height greater than that of the seal attachment ring 22 so that the air-blowing body 21 and the seal attachment ring 22 form a height difference, and the protruding portion of the ring body 2111 provides a point of application when the air-blowing body 21 needs to be disassembled.

The top edge 212 of the blow body 21 is formed to extend outwardly from the top of the ring 2111.

In this embodiment of the present invention, the base frame 2112 is provided with a plurality of the communication holes 2103, and the closing film 213 covers each of the communication holes 2103, so that the gas fills the gas blowing pillow body 10 more quickly.

By way of example and not limitation, the holder 211 of the blow body 21 and the seal mounting ring 22 are respectively manufactured by injection molding of different materials.

The chassis 2112 has a film layer aperture 2101 for mounting the blocking film 213. The sealing film 213 includes a film main body 2132 and a protruding head 2131, wherein the protruding head 2131 protrudes from the film main body 2132 and is used for being squeezed into the film layer hole 2101 of the bottom frame 2112, so that the film main body 2132 covers the bottom frame 2112 to close the communication hole 2103.

The bottom frame 2112 has a movable hole 2102, and the movable hole 2102 is used for movably installing the pressing member 214, that is, when the pressing member 214 is pressed, the pressing member 214 movably pushes the sealing film 213 downwards to deform, so that the communication hole 2103 communicates the air blowing chamber 101 and the external space, thereby performing air bleeding.

The pressing part 214 includes a pressing cap 2141 and a spring 2142, the pressing cap 2141 has an extension post 21411, and the extension post 21411 extends into the activity hole 2102 through the spring 2142 to be elastically pressed. That is, when the pressing cap 2141 is pressed, the extension post 21411 moves downward along the movable hole 2102 and pushes at least a portion of the closing film 213 so that a portion of the film main body 2132 of the closing film 213 leaves the bottom frame 2112, so that the communication hole 2103 communicates the blowing chamber 101 and an outer part space, and when gas exists in the blowing chamber 101, the gas in the blowing chamber 101 may be pressed away from the blowing chamber 101, so that the blowing pillow body 10 is completely deflated.

When the pressing member 214 is operated, for example, pressed, the gas in the gas blowing chamber 101 can be discharged, and when the pressing is not performed, the sealing film 213 is sealed by the internal air pressure, and the gas is held inside the gas blowing chamber 101. That is, it is possible to control the amount of gas in the gas blowing pillow body 10, i.e., control the supporting condition of the gas blowing bolster 100 by operating the pressing member 214, for example, when the amount of gas in the gas blowing chamber 101 is large, it is possible to provide stronger supporting force, and when the amount of gas in the gas blowing chamber 101 is small, it is possible to provide relatively soft supporting force.

The base 2112 may further include a protruding wall 21122, wherein the protruding wall 21122 surrounds the movable hole 2102 to limit the position of the spring 2142. That is, the spring 2142 is installed inside the quick search protruding wall 21122, and the extending post 21411 penetrates the spring 2142 into the movable hole 2102 to elastically press the closing film 213.

The bottom frame 2112 includes a reinforcing rib 21121 protruding from the bottom frame 2112 to enhance the supporting strength of the bottom frame 2112. The air blowing body 21 includes a cover 215, and the cover 215 is movably covered on the bracket 211 so as to shield the inside of the air blowing body 21. The outer cover 215 is partially detachably inserted into the ring body 211 to be stably coupled to the ring body 2111.

Referring to fig. 15-16, a blow clip pillow 100 according to a second embodiment of the present invention is illustrated.

In this embodiment of the present invention, the blowing bolster 100 includes a connection component 30, the connection component 30 is disposed on the blowing bolster 100 of the blowing pillow body 10, so as to pass through the connection component 30 will the blowing bolster 100 is fixed on the object W.

Further, the connecting assembly 30 includes a first connecting member 31 and a second connecting member 32, and the first connecting member 31 and the second connecting member 32 are disposed at the two end portions 12 of the pillow. The first connecting member 31 and the second connecting member 32 can be connected to each other to form a closed loop with the inflatable pillow body 10 so as to fix the inflatable pillow 100 to a rest W. The first connecting element 31 and the second connecting element 32 can have plug elements for the purpose of fixing the ends in a plug-in manner.

Referring to fig. 16, when the blowing clip pillow 100 is used, the blowing clip pillow 100 may be fixed to a seat back position by the connecting assembly 30, so that the blowing clip pillow 100 may be stably supported at a lower portion of a head of a user when the user introduces a rest. In this case, the user does not need to wear the pillow like a U-shaped pillow, and thus the user's use stress is reduced. Meanwhile, the head support can be supported only at the position of the head, and does not need to support other positions, so that the head support is small in size, small in air inflation amount and light in weight, and can be stably fixed on a depending object W through the connecting piece, and the position of the head support cannot be fixed easily due to self weight.

Referring to fig. 17 and 18, a blow pillow set according to a third embodiment of the present invention is illustrated. In this embodiment of the present invention, the blowing pillow set includes at least two blowing pillows 100 and a connecting component 30, the connecting component 30 is respectively disposed on each of the blowing pillows 100, so that the plurality of blowing pillows 100 are combined to form a shape to be supported.

Further, the connecting assembly 30 includes a first connecting member 31 and a second connecting member 32, and the first connecting member 31 and the second connecting member 32 are respectively disposed at one end of the two blowing pillows 100. The first connector 31 and the second connector 32 can be connected to each other to connect the two blow pillows 100. When the connecting members 30 are connected to each other to form the inflatable pillow set, the connecting members 30 form an empty space 301, i.e., an unsupported area is formed between the two inflatable pillows 100.

It is worth mentioning that in connection with some seating arrangements, such as seats for automobiles or airplanes, there is a head rest, i.e. the rear part of the backrest, which is provided with an outwardly projecting portion in the vicinity of the head for providing head support. However, since only the back of the head of a person is supported but the neck is not fixed and supported, when the user leans against the head of the seat with his head resting thereon, the head naturally leans to the left or right, and it is difficult to maintain a good posture. Meanwhile, the existing neck pillows are all structures with approximately consistent supporting thickness, and if the existing neck pillows are used for supporting a seat with a head, the neck pillows further space the back and the seat, so that a user feels uncomfortable. In the embodiment of the present invention, the connecting assembly 30 connects the two blowing pillows 100 to adjust the overall supporting shape of the two blowing pillows 100, and the supporting manner for some special requirements is also satisfied, for example, it can be matched with a seat with a headrest, the position of the connecting assembly 30, that is, the empty region 301 corresponds to the headrest, which does not need to provide extra support, the headrest of the seat can support the back side of the head of the user, and the two blowing pillows 100 of the blowing pillow 10 set can be respectively located at the positions of the shoulders to support other unsupported regions, for example, the neck regions at both sides of the shoulders, so that when the head of the user inclines to any side of the shoulders when the user uses the blowing pillows 100 can support to relieve the stress and the bending degree of the neck of the user, maintaining a good neck posture.

The coupling distance between the first coupling member 31 and the second coupling member 32 may be adjusted to each other to adjust the distance between the two blow pillows 100, i.e., to adjust the position where the support is not required.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (68)

1. An air-blowing bolster, characterized by, includes:

the air blowing pillow body is provided with an air blowing chamber; and

a blowing assembly configured to the blowing pillow body in communication with the blowing chamber for blowing air through the mouth to fill the blowing pillow body, the blowing pillow body including a main body portion and two end portions, the two end portions and the main body portion being arranged substantially linearly, the blowing pillow body having an inner edge, the inner edge being curved to provide local support to a body part, the blowing pillow body having a volume in a range of 400ml to 1100 ml.

2. The blow clip pillow of claim 1, wherein the blow pillow body comprises a sealing line that seals the body portion and edges of the two end portions to form the blow chamber.

3. The blow bolster of claim 2, wherein the seal line includes an outer edge and the inner edge, the outer edge and the inner edge being on opposite sides of the body portion.

4. The blow bolster of claim 3, wherein the outer edge is linear.

5. The inflatable pillow of claim 3 wherein said sealing line includes two side edges, said two side edges being located at two of said ends, said two ends connecting said inner edge and said outer edge in an arc.

6. The blow clip pillow of claim 5 wherein the arcuate curvature of the side edges are oppositely directed.

7. The insufflation pillow of claim 1 wherein the insufflation pillow body includes a first skin and a second skin, the first skin and the second skin being arranged in a stack to form the insufflation chamber.

8. The blow clip pillow of claim 7, wherein the blow pillow comprises a sealing line that seals the edges of the first skin and the second skin to form the blow chamber with a closed edge.

9. The blow clip pillow of claim 7, wherein the first skin layer comprises a base layer and a gas barrier layer, the base layer being of a flexible, breathable material, the gas barrier layer being attached to the base layer to block gas transmission therethrough.

10. The blow clip pillow of claim 7, wherein the first skin and the second skin are resilient.

11. The insufflation clip according to any one of claims 1-10 wherein the insufflation assembly includes an insufflation body and a seal mount ring, the seal mount ring being secured to the insufflation pillow body, the insufflation body being sealingly removably mounted to the seal mount ring for mouth insufflation or exsufflation of the insufflation pillow body by the insufflation body.

12. The blow clip pillow of claim 11, wherein the seal mounting ring includes a ring body defining a mounting hole to sealingly mount the blow body and an extended rim extending horizontally outward from a top end of the ring body.

13. The insufflation clip of claim 11 wherein the insufflation body includes a top edge extending horizontally outward from a top end of the insufflation body, the top edge of the insufflation body and the extended edge of the sealing collar cooperating to respectively provide a point of application of installation force to quickly press the insufflation body into the sealing collar.

14. The insufflation clip according to claim 11 wherein the insufflation body has a height greater than the height of the seal mount ring such that the insufflation body projects from the bottom of the seal mount ring when mounted thereto, the projecting portions of the insufflation body engaging the extending edges of the seal mount ring respectively providing separate points of application for rapidly pushing the insufflation body out of the seal mount ring.

15. The insufflation bolster of claim 11 wherein the insufflation body includes a bracket having a through hole and a closing membrane movably mounted to the bracket to close or communicate the through hole and the insufflation chamber, the closing membrane being urged at least partially away from the bracket when gas is insufflated into the insufflation body, the gas passing through the through hole into the insufflation chamber.

16. The air blowing pillow according to claim 15, wherein the air blowing body includes a pressing member movably installed at the support, and when the pressing member is pressed, the pressing member pushes the sealing film to be partially deformed so that the through hole communicates the air blowing chamber with an external space.

17. The inflatable pillow of any of claims 1-10, wherein the length orientation of the inflatable pillow body is 20cm to 27 cm.

18. The inflatable pillow of any of claims 1-10, wherein the width of the inflatable pillow body ranges from 8cm to 15 cm.

19. The inflatable pillow of any of claims 1-10, wherein the volume of the inflatable pillow ranges from 850ml to 950 ml.

20. The inflatable pillow of any of claims 1-10, wherein the inflatable pillow secures a support position by a clamping force between body parts or between a body part and a resting object.

21. The inflatable pillow of any of claims 1-6, 8-10 wherein the sealing line is formed by heat pressing.

22. The insufflation pillow of any one of claims 1 through 10 wherein the outer and inner edges of the insufflation pillow are folded inwardly in half along a centerline to form a generally square configuration.

23. An air-blowing pillow, comprising:

the air blowing pillow comprises an air blowing pillow body and an air blowing assembly, wherein the air blowing pillow body is provided with an air blowing chamber; the blowing assembly is configured on the blowing pillow body and communicated with the blowing chamber so as to blow and fill the blowing pillow body by using a nozzle, the blowing pillow body comprises a main body part and two end parts, the two end parts and the main body part are approximately linearly arranged, the blowing pillow body is provided with an inner edge, the inner edge is arc-shaped so as to provide local support for a body part, and the volume range of the blowing pillow body is 400 ml-1100 ml; and

a connecting assembly configured to the blow bolster to facilitate securing the blow bolster to a support via the connecting assembly.

24. The blowing pillow of claim 23 wherein the blowing pillow body includes a sealing line that seals the body portion and the edges of the ends to form the blowing chamber.

25. The blow pillow of claim 24, wherein the seal line comprises an outer edge and the inner edge, the outer edge and the inner edge being on opposite sides of the body portion.

26. The blower pillow of claim 25, wherein the outer edge is linear.

27. The blower pillow of claim 25, wherein said sealing line comprises two side edges at respective ends, said ends arcuately connecting said inner edge to said outer edge.

28. The blower pillow of claim 27, wherein the arcuate curvature of the side edges is opposite.

29. The blow pillow of claim 23 wherein the blow pillow body comprises a first skin and a second skin, the first skin and the second skin being arranged in a stack to form the blow chamber.

30. The blow pillow of claim 29, wherein the blow pillow comprises a sealing line that seals edges of the first skin and the second skin to form the blow chamber with closed edges.

31. The air pillow of claim 29, wherein the first skin layer comprises a base layer and a gas barrier layer, the base layer being a flexible, breathable material, the gas barrier layer being attached to the base layer to block gas transmission therethrough.

32. The blow pillow of claim 29, wherein the first skin and the second skin are elastic.

33. The insufflation pillow of any one of claims 23-32 wherein the insufflation assembly includes an insufflation body and a seal mounting ring, the seal mounting ring being secured to the insufflation pillow body, the insufflation body being sealingly removably mounted to the seal mounting ring for mouth insufflation or exsufflation of the insufflation pillow body by the insufflation body.

34. The insufflation pillow of claim 33 wherein the sealing mounting ring includes a ring body defining a mounting aperture to sealingly mount the insufflation body and an extension rim extending horizontally outwardly from a top end of the ring body.

35. The insufflation pillow of claim 33 wherein the insufflation body includes a top edge extending horizontally outward from a top end of the insufflation body, the top edge of the insufflation body and the extended edge of the seal mounting ring cooperating to respectively provide a mounting force application point to quickly press the insufflation body into the seal mounting ring.

36. The insufflation pillow of claim 33 wherein the insufflation body has a height greater than a height of the seal mounting ring such that the insufflation body projects from a bottom of the seal mounting ring when mounted thereto, the projecting portions of the insufflation body engaging the extending edges of the seal mounting ring respectively providing separate points of application for rapidly pushing the insufflation body out of the seal mounting ring.

37. The insufflation pillow of claim 33 wherein the insufflation body includes a frame having a through hole and a closure membrane movably mounted to the frame to close or communicate the through hole and the insufflation chamber, the closure membrane being urged at least partially away from the frame when gas is insufflated into the insufflation body, the gas passing through the through hole into the insufflation chamber.

38. The pillow of claim 37, wherein the blowing body includes a pressing member movably installed at the frame, and when the pressing member is pressed, the pressing member pushes the sealing film to be partially deformed, so that the through hole communicates the blowing chamber with an external space.

39. The inflatable pillow of any of claims 23-32, wherein the length orientation of the inflatable pillow body is between 20cm and 27 cm.

40. The inflatable pillow of any of claims 23-32, wherein the inflatable pillow body has a width in a range of 8cm to 15 cm.

41. The insufflation pillow of any one of claims 23 through 32 wherein the volume of the insufflation pillow ranges from 850ml to 950 ml.

42. The blower pillow of any one of claims 23-32 wherein the blower pillow secures a support position by a clamping force between body parts or between a body part and a resting object.

43. The blower pillow of any of claims 23-28, 30-32, wherein the sealing line is formed by heat pressing.

44. The blower pillow of any of claims 23-32, wherein the outer and inner edges of the blower pillow are folded inwardly and folded in half along a centerline to form a substantially square configuration.

45. The insufflation pillow of any one of claims 23 through 32 wherein said attachment assembly includes a first attachment member and said second attachment member, said first attachment member and said second attachment member being respectively disposed at said ends, said first attachment member and said second attachment member being detachably connected to form a closed loop with said insufflation bolster to be secured to a support.

46. An inflatable pillow assembly, comprising:

a plurality of inflatable pillows according to any of claims 1-22, comprising an inflatable pillow body having an air chamber and an air inflation assembly; the blowing assembly is configured on the blowing pillow body and communicated with the blowing chamber so as to blow and fill the blowing pillow body by using a nozzle, the blowing pillow body comprises a main body part and two end parts, the two end parts and the main body part are approximately linearly arranged, the blowing pillow body is provided with an inner edge, the inner edge is arc-shaped so as to provide local support for a body part, and the volume range of the blowing pillow body is 400 ml-1100 ml; and

and the connecting components are respectively arranged on the plurality of blowing pillows to connect the plurality of blowing pillows.

47. The blowing pillow set of claim 46 wherein the blowing pillow body includes a sealing line that seals the body portion and the edges of the two ends to form the blowing chamber.

48. The blow clip pillow of claim 47, wherein the seal line includes an outer edge and the inner edge, the outer edge and the inner edge being on opposite sides of the body portion.

49. The insufflation pillow set of claim 48 wherein the outer edge is linear.

50. The inflatable pillow of claim 48, wherein the sealing line includes two side edges at each of the two ends, the two ends connecting the inner edge and the outer edge in an arc.

51. The insufflation pillow set of claim 50 wherein the arcuate curvature of the side edges are oppositely directed.

52. The blow pillow set of claim 46 wherein the blow pillow body comprises a first skin and a second skin, the first skin and the second skin being arranged in a stack to form the blow chamber.

53. The blow pillow set of claim 52 wherein the blow pillow comprises a sealing line that seals the edges of the first skin and the second skin to form the blow chamber with a closed edge.

54. The blow pillow assembly of claim 52 wherein the first skin layer comprises a base layer and a gas barrier layer, the base layer being a flexible, breathable material, the gas barrier layer being attached to the base layer to block gas transmission therethrough.

55. The blow pillow set of claim 52, wherein the first skin and the second skin are elastic.

56. The insufflation pillow set of any one of claims 46-55, wherein the insufflation assembly includes an insufflation body and a seal mounting ring, the seal mounting ring being secured to the insufflation pillow body, the insufflation body being sealingly removably mounted to the seal mounting ring for mouth insufflation or exsufflation of the insufflation pillow body by the insufflation body.

57. The insufflation pillow set of claim 56 wherein the seal mounting ring includes a ring body defining a mounting aperture to sealingly mount the insufflation body and an extended rim extending horizontally outwardly from a top end of the ring body.

58. The insufflation pillow set of claim 56 wherein the insufflation body includes a top edge extending horizontally outwardly from a top end of the insufflation body, the top edge of the insufflation body and the extended edge of the seal mounting ring cooperating to respectively provide a mounting force application point to quickly press the insufflation body into the seal mounting ring.

59. The insufflation pillow set of claim 56 wherein the insufflation body has a height greater than a height of the seal mounting ring such that the insufflation body projects out of a bottom of the seal mounting ring when mounted thereto, the projecting portions of the insufflation body engaging the extending edges of the seal mounting ring respectively providing separate points of application for rapidly pushing the insufflation body out of the seal mounting ring.

60. The insufflation pillow set of claim 56 wherein the insufflation body includes a frame having a through hole and a closure membrane movably mounted to the frame to close or communicate the through hole and the insufflation chamber, the closure membrane being urged at least partially away from the frame when gas is insufflated into the insufflation body, the gas passing through the through hole into the insufflation chamber.

61. The blowing pillow group of claim 60, wherein the blowing body includes a pressing member movably installed at the support, and when the pressing member is pressed, the pressing member pushes the sealing film to partially deform so that the through hole communicates the blowing chamber with the external space.

62. The inflatable pillow set of any of claims 46-55, wherein said inflatable pillow body has a length orientation of 20cm to 27 cm.

63. The inflatable pillow set of any of claims 46-55, wherein said inflatable pillow body has a width in the range of 8cm to 15 cm.

64. The insufflation pillow set of any one of claims 46 through 55 wherein the volume of the insufflation pillow ranges from 850ml to 950 ml.

65. The insufflation pillow set of any one of claims 46 through 55 wherein the insufflation pillow secures a support location by a clamping force between body parts or between a body part and a resting object.

66. The inflatable pillow pack of any of claims 46-51, 53-55, wherein said sealing line is formed by heat pressing.

67. The insufflation pillow set of any one of claims 46 through 55 wherein the outer and inner edges of the insufflation pillow are folded inwardly in half along a centerline to form a generally square configuration.

68. The inflatable pillow assembly of any of claims 46-55, wherein when said inflatable pillow assembly is in an attached state, adjacent ones of said inflatable pillows form an empty space, said empty space cooperating with a rest to provide support to a user.

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