CN115191805A

CN115191805A - Zero-pressure combined pillow and manufacturing method thereof

Info

Publication number: CN115191805A
Application number: CN202210840343.3A
Authority: CN
Inventors: 薛维林; 薛维俊
Original assignee: Jiangsu Gerrylin Home Technology Co ltd
Current assignee: Jiangsu Gerrylin Home Technology Co ltd
Priority date: 2022-07-14
Filing date: 2022-07-14
Publication date: 2022-10-18

Abstract

The invention discloses a zero-pressure combined pillow and a manufacturing method thereof, and particularly relates to the technical field of pillows, wherein the pillow comprises a soft pillow part, the bottom end of the soft pillow part is provided with a guide sliding groove and a linkage frame-shaped sliding groove, and a switching assembly is arranged below the guide sliding groove; the switching component comprises a circular clamping support rod arranged below the guide sliding groove, and a first carbon fiber strip and a second carbon fiber strip are arranged inside the circular clamping support rod. According to the invention, the second carbon fiber strip and the first carbon fiber strip of the switching assembly can play a role in supporting the round clamping support rod, so that the vertical supporting force is increased, the vertical supporting force can be increased in the plane positioning support rod by the third carbon fiber strip and the fourth carbon fiber strip, the supporting degree is relatively high, the requirement of hard people on the pillow can be met, the soft and hard switching operation of the pillow can be realized, and the use of different groups can be met.

Description

Zero-pressure combined pillow and manufacturing method thereof

Technical Field

The invention relates to the technical field of pillows, in particular to a zero-pressure combined type pillow and a manufacturing method thereof.

Background

A pillow is a sleeping tool. The pillow is considered as a filler adopted for people to sleep comfortably, and the modern medical research recognizes that the spine of a human body is a straight line when viewed from the front, but has four physiological curves when viewed from the side. In order to protect the normal physiological curvature of the cervical vertebrae and maintain the normal physiological activities of people during sleeping, a pillow is needed during sleeping.

The invention discloses a combined pillow which comprises a pillow body, a pillow surface and a support, wherein the pillow surface and the pillow body can be separated from each other, the pillow surface is positioned in the middle of the upper surface of the pillow body, and the support is arranged in the pillow body. The invention has the advantages of simple structure and convenient use.

Synthesize above-mentioned patent, when the pillow uses, general material is specific material, comprises softer pillow and harder pillow like this, can't switch soft or hard degree according to user's self demand when using, therefore the suitability of pillow is relatively poor.

Disclosure of Invention

In order to overcome the above defects of the prior art, embodiments of the present invention provide a zero-pressure combined pillow and a manufacturing method thereof, the present invention employs a switching component, the whole soft pillow portion is soft and suitable for people requiring soft pillow, and can also be made into a pillow with a hard supporting degree, so as to meet the requirements of people requiring hard pillow, so that a soft and hard switching operation can be performed on a pillow, and the use of different groups can be satisfied, so as to solve the problems proposed in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a zero-pressure combined pillow comprises a soft pillow part, wherein a guide sliding groove and a linkage frame-shaped sliding groove are formed in the bottom end of the soft pillow part, and a switching assembly is arranged below the guide sliding groove;

the switching assembly comprises a circular clamping support rod arranged below the guide sliding groove, a first carbon fiber strip and a second carbon fiber strip are arranged inside the circular clamping support rod, the second carbon fiber strip is located at the position below the first carbon fiber strip, a soft support bottom plate is bonded at the bottom end of the circular clamping support rod, a plane positioning support rod is bonded on the upper surface of the soft support bottom plate and located at the position on one side of the circular clamping support rod, and a third carbon fiber strip and a fourth carbon fiber strip are arranged inside the plane positioning support rod.

In a preferred embodiment, linkage frame shape spout is located one side position department of direction sliding tray, detachable bonding between the soft pillow position that circular joint prop up stick and direction sliding tray belonged to, detachable bonding between the soft pillow position that plane location prop up stick and linkage frame shape sliding tray belonged to, and the cross section shape of plane location prop up the stick sets up to the rectangle, and wherein integrative injection moulding between plane location prop up stick and circular joint prop up stick and the soft supporting baseplate, the third carbon fiber strip is located the below position department of plane location prop up stick, third carbon fiber strip, second carbon fiber strip, first carbon fiber strip and make by carbon fiber material.

In a preferred embodiment, soft pillow position outer wall top covers has the change subassembly, change the subassembly including setting up the overlay type streamlined sunken layer that covers in soft pillow position outer wall top, seted up sunken cell body in the inner wall embedding on overlay type streamlined sunken layer, sunken cell body inner wall bottom position department is fixed with the positioning disk, installs the embedding piece that shares card medium in the top embedding of positioning disk, bonds on the top of embedding piece and has the circular gel that is used for the cooling, the top of circular gel is provided with embedding locating piece and ring magnetite dish, the ring magnetite dish is located embedding locating piece top position department, is equipped with the support ring dish at the outer wall cover of ring magnetite dish, and the upper surface of support ring dish is the ring equidistance and distributes and have a plurality of first massage magnet posts, every the second massage magnet post is all installed to one side according to the massage magnet post, the embedding locating piece is similar with the embedding piece shape and the size is the same, and the embedding piece cross section shape sets up to the cross shape, first massage magnet post is handled through the top according to the massage magnet post with the second, and the second massage magnet post is the same with the cross section shape, and the second magnet post is the same with the cross section.

A method for manufacturing a zero-pressure combined pillow comprises the following specific steps:

step one, when mixing in proportion, 70 parts of polyether polyol 5042, 15 parts of polyether 380, 15 parts of bio-based polyether soybean oil, 2 parts of antibacterial and anti-mite auxiliary agent, 3 parts of organic silicone oil, 0.4 part of reaction catalyst, 1 part of cross-linking agent and 3 parts of water are put into a stirring kettle, one part of mixed object can be taken out and called material A after mixing for 60min totally, the other part is added with modified isocyanate MDl and called material B, the material A is loaded into the material tank A and stored, and the material B is loaded into the material tank B and stored;

step two, during injection molding, respectively adding high-pressure foaming equipment to be connected to the material tank A and the material tank B, heating to 25-30 ℃, wherein the heating time is 5min, heating to 45 ℃, setting a 36% mixing proportion of the material AB on the high-pressure equipment, injecting the material AB into a mold through the head collision of the high-pressure foaming equipment, taking out a needle after the mold is opened for 5 minutes, putting the needle on a shelf, and waiting for 12 hours;

and step three, during combination, placing the cast pillow on polymer gel equipment, injecting the detached circular gel, placing the product on a shelf after 4min, after 10 hours of product trimming, inserting the cut plane positioning support bar and the cut circular clamping support bar into the interior of the position of the soft pillow, namely adding glue for detachable bonding, bonding the product to the bottom position of the circular clamping support bar by using a soft support bottom plate, placing the product on the shelf, drying the glue after eighteen hours, and boxing, wherein in the step one, the stirring step is divided into anticlockwise rotation at the speed of 500r/min for 30min, clockwise rotation at the speed of 600r/min for 30min, meanwhile, human eyes can distinguish by observing mixed colors when stirring for 50min, when no obvious color difference exists, the circular clamping support bar in the step three can be coated with the glue by inserting the first carbon fiber bar and the second carbon fiber bar, and after the glue is inserted into the circular clamping support bar in parallel, the glue can be dried, and then the third carbon fiber and the fourth carbon fiber bar are coated with the glue in parallel, and the glue is inserted into the interior of the plane positioning support bar, and then the glue can be dried.

The invention has the technical effects and advantages that:

1. according to the invention, the switching assembly is adopted to enable the soft flexible supporting bottom plate to drive the plane positioning support bar to move out from the left side of the interior of the linkage frame-shaped sliding groove and not to be bonded with the soft pillow part, the whole soft pillow part is softer and suitable for people requiring soft pillow, so that the circular clamping support bar is inserted into the guide sliding groove, the plane positioning support bar is inserted into the linkage frame-shaped sliding groove, the second carbon fiber bar and the first carbon fiber bar can play a role in supporting the circular clamping support bar, the vertical supporting force is increased, the third carbon fiber bar and the fourth carbon fiber bar can add vertical supporting force to the interior of the plane positioning support bar, the supporting degree is relatively hard, the people requiring hard pillow can be used, the soft and hard switching operation of the pillow can be realized, and the use of different groups can be met;

2. the replacement assembly is adopted to contact the head with the circular gel when the replacement assembly is used in summer, so that the contact part of the head generates a cool feeling and is easier to sleep, the support ring disc is pressed downwards and drives the circular magnet disc to move downwards, the circular magnet disc can drive the embedded positioning block to be inserted into the positioning disc, the positioning and inserting effect is realized, the circular magnet disc can be used for uneasiness, palpitation and insomnia, and the second massage magnet columns and the first massage magnet columns above the support ring disc can increase multi-point squeezing massage of the contact part of the head, so that blood circulation is promoted, blood stasis is removed, a better sleeping effect is achieved, and a better sleeping effect is achieved;

3. according to the invention, polyether polyol, bio-based polyether soybean oil, an antibacterial anti-mite auxiliary agent and organic silicon oil are adopted, the modified isocyanate MDl is added into the other part of the organic silicon oil, high-pressure foaming equipment is respectively added to be connected to the material tank A and the material tank B and heated, and the machine head of the high-pressure foaming equipment is collided and injected into a mold, so that in the manufacturing process, the used raw materials are better in safety and better in environmental protection property, the antibacterial anti-mite effect is achieved, the pillow is more urgent and convenient to manufacture, the cost is effectively saved, the production efficiency is improved, the material has high resilience, and the pillow can be placed and crushed to achieve a zero-pressure state and automatically rebound;

to sum up, through the mutual influence of above-mentioned a plurality of effects, the support degree is harder, satisfies the personnel that require the stereoplasm to the pillow and uses, reaches the switching operation that a pillow can carry out soft and stereoplasm, satisfies the use of different crowds, plays better soporific effect, and it is better to fall asleep soporific effect, and the pillow preparation is got up more anxiously, effectively practices thrift the cost and improves production efficiency, and environmental protection security is better.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall split structure of the present invention.

Fig. 3 is a schematic vertical sectional structure of a first carbon fiber strip according to the present invention.

Fig. 4 is a schematic vertical sectional view of a third carbon fiber strip according to the present invention.

FIG. 5 is a schematic view of the vertical section structure of the soft pillow and the covering streamline-shaped concave layer of the present invention.

Fig. 6 is a schematic bottom view of the present invention.

Fig. 7 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

FIG. 8 is a schematic view of the structure of the joint between the support ring and the ring magnet.

The reference signs are: 1. a soft pillow part; 2. a guide sliding groove; 3. a linked frame-shaped chute; 4. a round clamping support rod; 5. a first carbon fiber strip; 6. a second carbon fiber strip; 7. a flexible support base; 8. a plane positioning support bar; 9. a third carbon fiber strip; 10. a fourth carbon fiber strip; 11. a first massage magnet pole; 12. a covering streamline concave layer; 13. a concave trough body; 14. positioning a plate; 15. embedding a block; 16. a circular gel; 17. embedding a positioning block; 18. a circular ring magnet disk; 19. a support ring disk; 20. a second massage magnet pole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The zero-pressure combined pillow shown in the attached figures 1-8 comprises a soft pillow part 1, wherein the bottom end of the soft pillow part 1 is provided with a guide sliding groove 2 and a linkage frame-shaped sliding groove 3, and a switching component is arranged below the guide sliding groove 2;

the switching assembly comprises a circular clamping support rod 4 arranged below the guide sliding groove 2, a first carbon fiber strip 5 and a second carbon fiber strip 6 are arranged inside the circular clamping support rod 4, the second carbon fiber strip 6 is located at the position below the first carbon fiber strip 5, a soft supporting bottom plate 7 is bonded at the bottom end of the circular clamping support rod 4, a plane positioning support rod 8 is bonded on the upper surface of the soft supporting bottom plate 7 and located at the position on one side of the circular clamping support rod 4, and a third carbon fiber strip 9 and a fourth carbon fiber strip 10 are arranged inside the plane positioning support rod 8.

In some embodiments, as shown in fig. 1-4, the linking frame-shaped chute 3 is located at a side position of the guiding sliding groove 2, the circular clamping support bar 4 is detachably bonded to the soft pillow part 1 to which the guiding sliding groove 2 belongs, so that the soft support base plate 7 can drive the circular clamping support bar 4 to move to one side without being bonded to the soft pillow part 1, so that the circular clamping support bar 4 can be conveniently taken out, the plane positioning support bar 8 is detachably bonded to the soft pillow part 1 to which the linking frame-shaped chute 3 belongs, and the cross section of the plane positioning support bar 8 is rectangular, wherein the plane positioning support bar 8, the circular clamping support bar 4 and the soft support base plate 7 are integrally injection-molded, so that the plane positioning support bar 8 is moved to the left from the inside of the linking frame-shaped chute 3 without being bonded to the soft pillow part 1, so that the plane positioning support bar 8 can be conveniently taken out, the third carbon fiber bar 9 is located below the plane positioning support bar 8, the third carbon fiber bar 9, the second carbon fiber 6, and the third carbon fiber 6 can be made into a light carbon fiber support bar.

In some embodiments, as shown in fig. 5-8, a replacing component is covered on the outer wall of the soft pillow part 1, the replacing component includes a covering streamline-shaped concave layer 12 which is arranged on the outer wall of the soft pillow part 1 and covers the outer wall, a concave groove body 13 is embedded in the inner wall of the covering streamline-shaped concave layer 12, a positioning disc 14 is fixed at the bottom end position of the inner wall of the concave groove body 13, an embedded block 15 which shares a clamping medium is embedded in the top end of the positioning disc 14, a round gel 16 which is used for cooling is bonded on the top end of the embedded block 15, an embedded positioning block 17 and a round magnet disc 18 are arranged above the round gel 16, the round magnet disc 18 is arranged at the position above the embedded positioning block 17, a supporting ring disc 19 is sleeved on the outer wall of the round magnet disc 18, a plurality of first massage magnet columns 11 are equidistantly distributed on the upper surface of the round ring, a second massage magnet column 20 is arranged on one side of each first massage column 11, the embedded positioning block 17 is similar to and the same as the embedded block 15, the cross section of the embedded block 15 is arranged in a cross shape, and the top of the second massage column is processed in a shape similar to the top of the second massage column 20;

when the head of a person is attached to the covering streamline-shaped sunken layer 12, the embedded block 15 can be moved downwards and inserted into the positioning disc 14 to achieve embedded installation, the contact part of the head can generate a cool feeling through contact with the circular gel 16, when the head is maintained, the circular gel 16 can be pulled upwards to drive the embedded block 15 to be separated from the positioning disc 14, the supporting ring disc 19 drives the circular magnet disc 18 to move downwards, the embedded positioning block 17 is inserted into the positioning disc 14 to achieve the positioning and inserting effect, the circular magnet disc 18 can be used for uneasiness, palpitation and insomnia, and the plurality of second massage magnet columns 20 and the first massage magnet columns 11 above the supporting ring disc 19 can increase multi-point-position squeezing massage of the contact part of the head to achieve blood circulation activating and blood stasis removing.

step one, when mixing in proportion, 70 parts of polyether polyol 5042, 15 parts of polyether 380, 15 parts of bio-based polyether soybean oil, 2 parts of antibacterial and anti-mite auxiliary agent, 3 parts of organic silicone oil, 0.4 part of reaction catalyst, 1 part of cross-linking agent and 3 parts of water are put into a stirring kettle, the stirring step is divided into anticlockwise rotation at the speed of 500r/min for 30min, clockwise rotation at the speed of 600r/min for 30min is utilized, human eyes can distinguish by observing mixed colors when stirring for 50min, when no obvious color difference exists, a part of mixed objects can be taken out and called as A materials after being mixed for 60min totally, modified isocyanate MDl is added into the other part of mixed objects and called as B materials, the A materials are respectively loaded into an A material tank for storage, and the B materials are loaded into a B material tank for storage;

step three, during combination, the cast pillow is placed on a polymer gel device, the detached circular gel 16 is injected, after 4min, the product is placed on a shelf, after 10 hours of product trimming, the circular clamping support rod 4 is inserted into the first carbon fiber strip 5 and the second carbon fiber strip 6, the glue is fully coated outside the circular clamping support rod 4, the glue is dried after the glue is inserted into the circular clamping support rod 4 in parallel, then the glue is fully coated outside the third carbon fiber strip 9 and the fourth carbon fiber strip 10, the glue is inserted into the plane positioning support rod 8 in parallel, the glue is dried, the cut plane positioning support rod 8 and the circular clamping support rod 4 are inserted into the soft pillow part 1, the glue can be added for detachable bonding, the soft support bottom plate 7 is used for bonding to the bottom position of the circular clamping support rod 4, the pillow is placed on the shelf, and after eighteen hours, the glue is dried, and then the pillow can be boxed.

The working principle of the invention is as follows:

when the soft and hard pillow part 1 is used in a switching way, the soft supporting bottom plate 7 can be pulled to one side, so that the flexible supporting bottom plate 7 can drive the circular clamping support rod 4 to move out to one side without being adhered with the flexible pillow part 1, meanwhile, the flexible supporting bottom plate 7 drives the plane positioning support bar 8 to move out from the interior of the linked frame-shaped chute 3 to the left without being bonded with the flexible pillow part 1, thus, the circular clamping support bar 4 and the plane positioning support bar 8 can be conveniently disassembled by the personnel from the guide sliding groove 2 and the linkage frame-shaped sliding groove 3 below the soft pillow part 1, thus, the head of a person can be placed on the covering streamline concave layer 12 above the soft pillow part 1, the whole soft pillow part 1 is suitable for the person who requires soft pillow, when the person needs hard pillow, the round clamping support bar 4 can be inserted into the guide sliding groove 2, the plane positioning support bar 8 is inserted into the linkage frame-shaped sliding groove 3, thus, when the head of a person lies on the covering streamline concave layer 12 above the soft pillow part 1, the soft pillow part 1 can deform downwards, thereby extruding on the round clamping support rod 4 and the plane positioning support rod 8, so that the second carbon fiber strip 6 and the first carbon fiber strip 5 can support the round clamping support rod 4 to increase the vertical supporting force, and the third carbon fiber strips 9 and the fourth carbon fiber strips 10 can add vertical supporting force to the interior of the plane positioning support bar 8, therefore, the head of a person can push the plane positioning support bar 8 and the third carbon fiber bar 9 as well as the second carbon fiber bar 6 and the first carbon fiber bar 5 to play a role of vertical support, so that the support degree is relatively high, and the requirement on the hardness of the pillow for the use of the person is met;

when the massage head is used in summer, when the head of a person is attached to the covering type streamline concave layer 12, the embedded block 15 can move downwards, the embedded block 15 drives the circular gel 16 to move downwards, the embedded block 15 can be inserted into the positioning disc 14 to achieve embedded installation, the head of the person lies at the position of the concave groove body 13, the head contact part generates a cool feeling through contact with the circular gel 16, and the person can sleep more easily, when the head is maintained, the circular gel 16 can be pulled upwards, the embedded block 15 is driven by the circular gel 16 to move upwards, the embedded block 15 is separated from the positioning disc 14, then the supporting ring disc 19 is pressed downwards, the supporting ring disc 19 drives the circular ring magnet disc 18 to move downwards, the circular ring magnet disc 18 can remove blood stasis to drive the embedded positioning block 17 to be inserted into the positioning disc 14 to achieve the positioning insertion effect, the head of the person lies at the position on the upper surface of the covering type streamline concave layer 12, the circular ring magnet disc 18 can be used for mind anxiety, palpitation and the insomnia can be achieved through the supporting ring magnet disc 18, the effect of pressing the magnetic columns and the magnetic columns of the massage head can be pressed, and the magnetic columns 20 can be used more conveniently, and the head can be used for sleep more easily.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a zero-pressure combined pillow, includes soft pillow position (1), direction sliding tray (2) and linkage frame shape spout (3), its characterized in that have been seted up to the bottom of soft pillow position (1): a switching component is arranged below the guide sliding groove (2);

switch the subassembly including installing at the circular joint stick (4) of direction sliding tray (2) below, have first carbon fiber strip (5) and second carbon fiber strip (6) at the internally mounted of circular joint stick (4), and second carbon fiber strip (6) are located the below position department of first carbon fiber strip (5), circular joint stick (4) bottom bonds and has soft supporting baseplate (7), just is located bonding of circular joint stick (4) one side position department and has plane location stick (8) at the upper surface of soft supporting baseplate (7), the internally mounted of plane location stick (8) has third carbon fiber strip (9) and fourth carbon fiber strip (10).

2. The zero-pressure combination pillow according to claim 1, wherein: the linkage frame-shaped sliding groove (3) is located at one side position of the guide sliding groove (2), and the circular clamping support rod (4) is detachably bonded with the soft pillow part (1) to which the guide sliding groove (2) belongs.

3. The zero-pressure combination pillow according to claim 1, wherein: the plane positioning support bar (8) is detachably bonded with the soft pillow part (1) to which the linkage frame-shaped sliding groove (3) belongs, the cross section of the plane positioning support bar (8) is rectangular, and the plane positioning support bar (8), the circular clamping support bar (4) and the soft supporting bottom plate (7) are integrally formed by injection molding.

4. The zero-pressure combination pillow according to claim 1, wherein: the third carbon fiber strip (9) is located at the lower position of the plane positioning branch strip rod (8), and the plane positioning branch strip rod (8), the third carbon fiber strip (9), the second carbon fiber strip (6) and the first carbon fiber strip (5) are all made of carbon fiber materials.

5. The zero-pressure combined pillow as claimed in claim 1, wherein: soft pillow position (1) outer wall top covers has the change subassembly, change the subassembly including setting up at the cover formula streamlined sunken layer (12) that soft pillow position (1) outer wall top covered, seted up sunken cell body (13) in the inner wall embedding of cover formula streamlined sunken layer (12), sunken cell body (13) inner wall bottom position department is fixed with positioning disk (14), installs embedding block (15) of sharing card medium in the top embedding of positioning disk (14), bonds on the top of embedding block (15) and has circular gel (16) that are used for the cooling, the top of circular gel (16) is provided with embedding locating piece (17) and ring magnetite dish (18), ring magnetite dish (18) are located embedding locating piece (17) top position department, and the outer wall cover of ring magnetite dish (18) is equipped with support ring dish (19), and the upper surface of support ring dish (19) is that the ring equidistance distributes and has a plurality of first according to rub magnetic column (11), every one side of first according to rub magnetic column (11) all installs second according to rub magnetic column (20).

6. The zero-pressure combined pillow as claimed in claim 5, wherein: the embedded positioning block (17) is similar to the embedded block (15) in shape and same in size, and the cross section of the embedded block (15) is in a cross shape.

7. The zero-pressure combination pillow according to claim 5, wherein: the tops of the first massage magnet column (11) and the second massage magnet column (20) are both subjected to rounding treatment, and the first massage magnet column (11) and the second massage magnet column (20) are similar in shape and size and are the same.

8. The zero-pressure combined pillow according to the sequence of claims 1-7, further comprising a manufacturing method of the zero-pressure combined pillow, and the method comprises the following steps:

and step three, during combination, placing the cast pillow on polymer gel equipment, injecting the detached circular gel (16), placing the product on a shelf after 4min, after 10 hours of product trimming, inserting the cut plane positioning support bar (8) and the circular clamping support bar (4) into the soft pillow part (1), namely adding glue for detachable bonding, bonding the cut plane positioning support bar and the circular clamping support bar to the bottom of the circular clamping support bar (4) by using the soft support bottom plate (7), placing the pillow on the shelf, and after eighteen hours of glue drying, boxing the pillow.

9. The method for making a zero-pressure combined pillow as claimed in claim 8, wherein: in the first step, the stirring step is performed by rotating for 30min in a counter-clockwise mode at the speed of 500r/min, then rotating for 30min in a clockwise mode at the speed of 600r/min, and meanwhile, when the stirring is performed for 50min, human eyes can distinguish by observing mixed colors, and if no obvious color difference exists, the color difference is obtained.

10. The method for manufacturing the zero-pressure combined pillow as claimed in claim 8, wherein the method comprises the following steps: circular joint prop up stick (4) in the step three is through inserting first carbon fiber strip (5) and second carbon fiber strip (6) outside scribble glue and wait the glue dry after parallel insertion circular joint prop up stick (4) is inside can, then scribble glue parallel insertion to the plane location prop up stick (8) inside with third carbon fiber strip (9) and fourth carbon fiber strip (10) outside and wait its glue dry can.