CN216466686U - Foam board with stronger shock-absorbing capacity - Google Patents
Foam board with stronger shock-absorbing capacity Download PDFInfo
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- CN216466686U CN216466686U CN202122584436.8U CN202122584436U CN216466686U CN 216466686 U CN216466686 U CN 216466686U CN 202122584436 U CN202122584436 U CN 202122584436U CN 216466686 U CN216466686 U CN 216466686U
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Abstract
The utility model discloses a foam board with stronger buffering performance, which comprises a foam board main body, wherein the foam board main body consists of a base layer, a first foam board, a buffering bulge and a buffering groove, the first foam board is bonded on the top surface of the base layer, the buffering bulge is integrally formed on the surface of the first foam board, the buffering groove is formed in one side of the buffering bulge, the base layer consists of a tensile knitting mechanism layer, a first pearl cotton layer, a second foam board, a second pearl cotton layer, a third foam board and a PET wear-resistant film layer, the buffering bulge, the buffering groove and the base layer are matched with each other, so that the buffering performance of the foam board main body can be enhanced, the service life of the foam board main body can be prolonged, the tensile knitting mechanism layer in the base layer can also enhance the structural strength of the base layer, and meanwhile, the pearl cotton layer and the foam board in the base layer can enhance the structural strength of the base layer, but also improve the absorption of the base layer to the external impact force.
Description
Technical Field
The utility model relates to the technical field of foam boards, in particular to a foam board with high buffering performance.
Background
The polystyrene foam board, also known as foam board and EPS board, is a white object which is made up by using expandable polystyrene beads containing volatile liquid foaming agent through the processes of heating, prefoaming and heating-forming in mould, and has the structural characteristics of microfine closed hole, and is mainly used for building wall body, roof heat-insulating, composite board heat-insulating, cold storage, air-conditioner, vehicle and ship heat-insulating, floor heating and decorative carving, etc.
However, the existing foam boards have the following disadvantages:
when the existing foam board is used, the self buffering performance is insufficient, so that the foam board is easily damaged, the service life of the foam board is further shortened, the structural strength of the existing foam board is insufficient, and the use safety of the foam board is further reduced.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a foam board with high buffering performance, which aims to solve the problems that the existing foam board in the background art is easy to damage due to insufficient self buffering performance and further reduces the service life of the foam board when in use, and the existing foam board is insufficient in self structural strength and further reduces the use safety of the foam board.
In order to achieve the purpose, the utility model provides the following technical scheme: a foam board with strong buffering performance comprises a foam board main body, wherein the foam board main body consists of a base layer, a first foam board, buffering bulges and buffering grooves, the top surface of the base layer is bonded with a first foam board, the surface of the first foam board is integrally formed with a buffer bulge, one side of the buffering bulge is provided with a buffering groove, the base layer consists of a tensile knitting mechanism layer, a first pearl cotton layer, a second foam board, a second pearl cotton layer, a third foam board and a PET wear-resistant film layer, and the buffering bulge, the buffering groove and the base layer are mutually matched, thereby enhancing the buffering performance of the foam board main body so as to improve the service life of the foam board main body, and the tensile knitting mechanism layer in the basic unit can improve the structural strength of the basic unit, and meanwhile, the pearl cotton layer and the foam board in the basic unit can improve the structural strength of the basic unit and can also improve the external impact force absorbed by the basic unit.
Preferably, buffering arch and buffering recess all are equipped with a plurality of groups, and the multiunit buffering arch is array distribution with buffering recess to can make buffering arch and buffering recess absorb external impact force to the cystosepiment main part, and then can improve the shock-absorbing capacity of cystosepiment main part, so that can improve the life of cystosepiment main part.
Preferably, the tensile knitting mechanism layer is composed of a first tensile fiber yarn and a second tensile fiber yarn, and the second tensile fiber yarn is knitted on one side of the first tensile fiber yarn, so that the structural strength of the tensile knitting mechanism layer can be enhanced, the structural strength of the base layer can be improved, and the damage to the foam board main body during use can be reduced.
Preferably, the surface of the top of the tensile knitting mechanism layer is bonded with a first pearl cotton layer, the surface of the bottom of the tensile knitting mechanism layer is bonded with a second pearl cotton layer, and the elasticity of the base layer can be improved and the structural strength of the base layer can be improved through the first pearl cotton layer and the second pearl cotton layer, so that the use safety of the base layer is improved.
Preferably, first cotton layer top surface of pearl bonds and has the second cystosepiment, the cotton layer bottom surface of second pearl bonds and has the third cystosepiment, third cystosepiment bottom surface bonds and has the wear-resisting rete of PET, through second cystosepiment and third cystosepiment, can improve the basic unit and absorb external impact force, has strengthened the shock resistance of cystosepiment main part to there is the wear resistance of PET wear-resisting rete, can improve the wear resistance of basic unit bottom again, and then improve the safety in utilization and the life-span of the bottom of basic unit.
Preferably, the surface of the outer wall of the foam board main body is coated with the flame retardant, so that the flame retardant performance of the foam board main body can be improved, and the use safety and the functionality of the foam board main body are improved.
The utility model provides a foam board with strong buffering performance, which has the following beneficial effects:
(1) according to the utility model, the base layer can provide a supporting base for the first foam board through the first foam board, and the plurality of groups of buffering bulges and buffering grooves are distributed in an array manner, so that the buffering bulges and the buffering grooves can absorb the impact force of the outside on the foam board main body, and further the buffering performance of the foam board main body can be improved, so that the service life of the foam board main body can be prolonged.
(2) According to the utility model, the first pearl cotton layer and the second pearl cotton layer can be supported by the tensile knitting mechanism layer in the base layer, the elasticity of the base layer can be improved and the structural strength of the base layer can be improved by the first pearl cotton layer and the second pearl cotton layer, so that the use safety of the base layer is improved, the first pearl cotton layer and the second pearl cotton layer can provide a supporting base for the second foam board and the third foam board, the base layer can absorb external impact force by the second foam board and the third foam board, the impact resistance of the foam board main body is enhanced, the wear resistance of the bottom of the base layer can be improved by the PET wear-resistant film layer, and the use safety and the service life of the bottom of the base layer are improved.
(3) According to the utility model, the tensile knitting mechanism layer is composed of the first tensile fiber yarn and the second tensile fiber yarn, and the second tensile fiber yarn is knitted on one side of the first tensile fiber yarn, so that the structural strength of the tensile knitting mechanism layer can be enhanced, the structural strength of the base layer can be further improved, the damage of the foam board main body during use can be reduced, the flame retardant property of the foam board main body can be improved through the flame retardant, and the use safety and the functionality of the foam board main body are further improved.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic top view of the present invention;
FIG. 3 is a schematic cross-sectional view of a substrate according to the present invention;
fig. 4 is a schematic view of the layer structure of the tensile knitting mechanism of the utility model.
In the figure: 1. a foam board body; 2. a base layer; 201. a tensile knitting mechanism layer; 2011. a first tensile filament; 2012. a second tensile fiber filament; 202. a first pearl cotton layer; 203. a second foam sheet; 204. a second pearl cotton layer; 205. a third foam sheet; 206. a PET wear-resistant film layer; 3. a first foam sheet; 4. a buffer protrusion; 5. a buffer groove; 6. and (3) a flame retardant.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
As shown in fig. 1 to 4, the present invention provides a technical solution: a foam board with strong buffering performance comprises a foam board main body 1, wherein the foam board main body 1 is composed of a base layer 2, a first foam board 3, a buffering protrusion 4 and a buffering groove 5, the first foam board 3 is bonded on the top surface of the base layer 2, the buffering protrusion 4 is integrally formed on the surface of the first foam board 3, the buffering groove 5 is formed in one side of the buffering protrusion 4, the base layer 2 is composed of a tensile knitting mechanism layer 201, a first pearl cotton layer 202, a second foam board 203, a second pearl cotton layer 204, a third foam board 205 and a PET wear-resistant film layer 206, the buffering protrusion 4, the buffering groove 5 and the base layer 2 are mutually matched, so that the buffering performance of the foam board main body 1 can be enhanced, the service life of the foam board main body 1 can be prolonged, and the tensile knitting mechanism layer 201 in the base layer 2 can also enhance the structural strength of the base layer 2, meanwhile, the pearl wool layer and the foam board in the base layer 2 can improve the structural strength of the base layer 2 and improve the absorption of external impact force by the base layer 2.
Buffering arch 4 and buffering recess 5 all are equipped with a plurality of groups, and multiunit buffering arch 4 and buffering recess 5 are array distribution to can make buffering arch 4 and buffering recess 5 absorb external impact force to cystosepiment main part 1, and then can improve cystosepiment main part 1's shock-absorbing capacity, so that can improve cystosepiment main part 1's life.
Tensile braider mechanism layer 201 comprises first tensile cellosilk 2011 and second tensile cellosilk 2012, second tensile cellosilk 2012 has been woven to first tensile cellosilk 2011 one side to can strengthen the structural strength of tensile braider mechanism layer 201, and then can improve the structural strength of basic unit 2, so that can reduce the damage when cystosepiment main part 1 uses.
The top surface of the tensile knitting mechanism layer 201 is bonded with a first pearl cotton layer 202, the bottom surface of the tensile knitting mechanism layer 201 is bonded with a second pearl cotton layer 204, and the elasticity of the base layer 2 can be improved and the structural strength of the base layer 2 can be improved through the first pearl cotton layer 202 and the second pearl cotton layer 204, so that the use safety of the base layer 2 is improved.
First pearl cotton layer 202 top surface bonds and has second cystosepiment 203, second pearl cotton layer 204 bottom surface bonds and has third cystosepiment 205, third cystosepiment 205 bottom surface bonds and has the wear-resisting rete of PET 206, through second cystosepiment 203 and third cystosepiment 205, can improve basic unit 2 and absorb external impact force, has strengthened cystosepiment main part 1's shock resistance to there is the wear-resisting rete of PET 206, can improve the wear resistance of basic unit 2 bottom again, and then improve the safety in utilization and the life-span of basic unit 2's bottom.
The surface of the outer wall of the foam board main body 1 is coated with the flame retardant 6, so that the flame retardant property of the foam board main body 1 can be improved, and the use safety and the functionality of the foam board main body 1 are improved.
It should be noted that, a foam board with strong buffering performance, in operation, because the foam board main body 1 adopts the base layer 2, the first foam board 3, the buffering protrusion 4 and the buffering groove 5 are formed, and the first foam board 3 is bonded on the top surface of the base layer 2, thereby enabling the base layer 2 to provide a supporting basis for the first foam board 3, the buffering protrusion 4 is integrally formed on the surface of the first foam board 3, the buffering groove 5 is formed on one side of the buffering protrusion 4, and the buffering protrusion 4 and the buffering groove 5 are respectively provided with a plurality of groups, and the plurality of groups of buffering protrusions 4 and the buffering grooves 5 are distributed in an array manner, thereby enabling the buffering protrusion 4 and the buffering groove 5 to absorb the impact force of the outside on the foam board main body 1, further improving the buffering performance of the foam board main body 1, so as to improve the service life of the foam board main body 1, because the base layer 2 adopts the tensile braiding mechanism layer 201, The first pearl cotton layer 202, the second foam board 203, the second pearl cotton layer 204, the third foam board 205 and the PET wear-resistant film layer 206 are adhered to the top surface of the tensile knitting mechanism layer 201, the second pearl cotton layer 204 is adhered to the bottom surface of the tensile knitting mechanism layer 201, so that the tensile knitting mechanism layer 201 can support the first pearl cotton layer 202 and the second pearl cotton layer 204, the elasticity of the base layer 2 can be improved and the structural strength of the base layer 2 can be improved through the first pearl cotton layer 202 and the second pearl cotton layer 204, the use safety of the base layer 2 is improved, the second foam board 203 is adhered to the top surface of the first pearl cotton layer 202, and the third foam board 205 is adhered to the bottom surface of the second pearl cotton layer 204, so that the first pearl cotton layer 202 and the second pearl cotton layer 204 can provide a support foundation for the second foam board 203 and the third foam board 205, the second foam board 203 and the third foam board 205 can improve the absorption of the external impact force by the base layer 2, enhance the impact resistance of the foam board main body 1, the PET wear-resistant film layer 206 is bonded on the bottom surface of the third foam board 205, so that the wear resistance of the bottom of the base layer 2 can be improved, the use safety and the service life of the bottom of the base layer 2 are further improved, since tensile knitting mechanism layer 201 is composed of first tensile fiber filaments 2011 and second tensile fiber filaments 2012, and a second tensile fiber wire 2012 is woven on one side of the first tensile fiber wire 2011, so that the structural strength of the tensile knitting mechanism layer 201 can be enhanced, further improving the structural strength of the base layer 2 so as to reduce the damage of the foam board main body 1 during use, and by spraying the flame retardant 6 on the outer wall surface of the foam board main body 1, thereby, the flame retardant property of the foam board main body 1 can be improved, and the use safety and the functionality of the foam board main body 1 are further improved.
The foam board with high buffering performance comprises a foam board main body 1, a base layer 2, a tensile knitting mechanism layer 201, a first tensile fiber yarn 2011, a second tensile fiber yarn 2012, a first pearl cotton layer 202, a second foam board 203, a second pearl cotton layer 204, a third foam board 205, a PET wear-resistant film layer 206, a first foam board 3, a buffering bulge 4, a buffering groove 5 and a flame retardant 6, wherein the components are all universal standard components or components known by a person skilled in the art, the structure and the principle of the foam board are known by the person skilled in the art or can be obtained by a conventional experimental method, and the electric appliance elements are flexibly selected, installed and adjusted by the person skilled in the art, so that normal operation of each device is ensured, and excessive limiting requirements are not made.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. A foam board with stronger cushioning performance is characterized in that: including cystosepiment main part (1), cystosepiment main part (1) comprises basic unit (2), first cystosepiment (3), buffering arch (4) and buffering recess (5), basic unit (2) top surface bonds has first cystosepiment (3), first cystosepiment (3) surface integrated into one piece has buffering arch (4), buffering recess (5) have been seted up to buffering arch (4) one side, basic unit (2) comprise tensile knitting mechanism layer (201), first pearl cotton layer (202), second cystosepiment (203), second pearl cotton layer (204), third cystosepiment (205) and the wear-resisting rete of PET (206).
2. A foam deck having enhanced cushioning properties according to claim 1, wherein: buffer protrusion (4) and buffer recess (5) all are equipped with a plurality of groups, and multiunit buffer protrusion (4) and buffer recess (5) are array distribution.
3. A foam deck having enhanced cushioning properties according to claim 1, wherein: the tensile knitting mechanism layer (201) is composed of a first tensile fiber yarn (2011) and a second tensile fiber yarn (2012), and the second tensile fiber yarn (2012) is knitted on one side of the first tensile fiber yarn (2011).
4. A foam deck having enhanced cushioning properties according to claim 1, wherein: the top surface of the tensile knitting mechanism layer (201) is bonded with a first pearl cotton layer (202), and the bottom surface of the tensile knitting mechanism layer (201) is bonded with a second pearl cotton layer (204).
5. A foam deck having enhanced cushioning properties according to claim 1, wherein: the top surface of the first pearl wool layer (202) is adhered with a second foam board (203), the bottom surface of the second pearl wool layer (204) is adhered with a third foam board (205), and the bottom surface of the third foam board (205) is adhered with a PET wear-resistant film layer (206).
6. A foam deck having enhanced cushioning properties according to claim 1, wherein: and a flame retardant (6) is sprayed on the surface of the outer wall of the foam board main body (1).
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CN202122584436.8U CN216466686U (en) | 2021-10-26 | 2021-10-26 | Foam board with stronger shock-absorbing capacity |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115816742A (en) * | 2023-02-21 | 2023-03-21 | 沈阳力登维汽车部件有限公司 | Preparation method of EPP (expanded polypropylene) based composite material anti-seismic energy-absorbing automobile bumper |
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2021
- 2021-10-26 CN CN202122584436.8U patent/CN216466686U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115816742A (en) * | 2023-02-21 | 2023-03-21 | 沈阳力登维汽车部件有限公司 | Preparation method of EPP (expanded polypropylene) based composite material anti-seismic energy-absorbing automobile bumper |
CN115816742B (en) * | 2023-02-21 | 2023-06-02 | 沈阳力登维汽车部件有限公司 | Preparation method of EPP (expanded polypropylene) -based composite anti-seismic energy-absorbing automobile bumper |
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