CN218551890U - Balance pad, elastic pad and furniture - Google Patents

Abstract

The utility model relates to an elastic cushion technical field discloses a balance pad, including this balance pad's elastic cushion and furniture. The balance pad comprises a pad body, wherein the pad body comprises an upper surface and a lower surface which are opposite in the thickness direction of the pad body, a plurality of accommodating holes which are arranged at intervals are formed in the lower surface, each accommodating hole is used for accommodating a part of a corresponding elastic module, and the balance pad can be arranged on the plurality of elastic modules to restrain the movement of the elastic modules in the transverse direction of the balance pad; a plurality of buffer holes which are arranged at intervals are formed on the upper surface, and a buffer layer part is formed on the upper part of the pad body by the plurality of buffer holes; each of the buffer holes and the corresponding one of the accommodation holes are separated in the thickness direction by a partition portion of the pad body. The accommodation hole accommodates a part of the elastic module to restrain the movement of the elastic module in the lateral direction of the balance pad, so that the stability of the plurality of elastic modules is improved, and the buffer layer part improves the buffer performance and the comfort performance of the balance pad through the air accommodated in the plurality of buffer holes.

Description

Balance pad, elastic pad and furniture

Technical Field

The utility model belongs to the technical field of the cushion technique and specifically relates to a balanced pad, a cushion and furniture are related to.

Background

Furniture such as beds, sofa beds and the like are indispensable components in life of people. Most of the existing bed and sofa bed are provided with elastic cushions. The elastic cushion has certain elasticity, and when people lie on the bed or the sofa bed, the elastic cushion can provide certain elastic support and has certain comfort degree relative to the hard cushion.

The existing elastic cushion is an integrated, non-detachable and closed integral cushion which is generally formed by a bottom layer, a spring layer, a sponge superposed layer and a closed side wall, namely, the spring layer is arranged on the bottom layer, the sponge superposed layer is arranged on the spring layer, and the closed side wall is connected between the sponge superposed layer and the bottom layer to form a closed space. However, such an elastic cushion is not only high in cost but also poor in stability in practical use, thereby reducing comfort, being inconvenient to carry, and occupying a large space when stored.

SUMMERY OF THE UTILITY MODEL

To at least some problems that exist among the above prior art, the utility model discloses a promote the travelling comfort when promoting the cushion stability, reduce the cost of cushion, the transport of the cushion of being convenient for reduces and deposits the space that occupies.

In order to achieve the above objects, in a first aspect, the present invention provides a balance pad for manufacturing a household product, the balance pad comprising a pad body including an upper surface and a lower surface opposite to each other in a thickness direction thereof, wherein a plurality of receiving holes are formed in the lower surface at intervals, each receiving hole being for receiving a portion of a corresponding one of elastic modules, such that the balance pad can be coupled to upper portions of the plurality of elastic modules to restrain movement of the elastic modules in a transverse direction of the balance pad when the balance pad is seated on the plurality of elastic modules; a plurality of buffer holes arranged at intervals are formed on the upper surface, and the plurality of buffer holes are configured to form a buffer layer part on the upper part of the pad body; wherein each of the buffer holes and a corresponding one of the accommodation holes are separated by a partition of the pad body in a thickness direction of the balance pad.

In the technical scheme, a plurality of accommodating holes are formed in the lower surface of the cushion body at intervals, a plurality of buffer holes are formed in the upper surface of the cushion body at intervals, each buffer hole and a corresponding accommodating hole are separated in the thickness direction of the cushion body through a separating part of the cushion body, and the buffer holes can form a buffer layer part on the upper part of the cushion body. Therefore, the balance pad promotes the comfort when promoting the stability of the elastic pad, reduces the cost of the elastic pad, and meanwhile, the balance pad and the elastic module are convenient to disassemble and assemble, so that the elastic pad is convenient to carry, and the storage space is reduced.

In some embodiments, each of the receiving holes is coaxially arranged with a corresponding one of the buffer holes.

In some embodiments, the inner surface of the receiving hole is a tapered surface that gradually flares outward toward the lower surface.

In some embodiments, the inner surface of the buffer hole is a tapered surface gradually expanding outward toward the upper surface.

In some embodiments, a depth of the receiving hole is greater than a depth of the buffer hole.

In some embodiments, the depth of the receiving hole is half of the thickness of the pad body, and the depth of the buffer hole is less than half of the thickness of the pad body.

In some embodiments, the balancing pad further comprises a wrapping layer covering all surfaces of the pad body, wherein the wrapping layer covers and attaches the upper surface, the lower surface, the inner surface of the receiving hole, and the inner surface of the buffer hole.

In some embodiments, the pad body is a sponge body, and the wrapping layer is a non-woven fabric layer.

In a second aspect, the present invention provides an elastic cushion, comprising: an elastic module assembly, a cushion layer and the balancing pad of any of the above first aspects, the elastic module assembly comprising a plurality of elastic modules; wherein a portion of each of the plurality of spring modules is received and positioned in a corresponding one of the plurality of receiving holes such that the balancing pad is supported on the plurality of spring modules; the cushion layer is laid on the upper surface of the balance pad.

In this cushion, as above, through this balancing pad, can show promotion cushion stability and travelling comfort, reduce the cost of cushion, simultaneously, cushion layer, elastic module subassembly and balancing pad dismouting of being convenient for, the transport of the cushion of consequently being convenient for reduces and deposits the space that occupies.

In some embodiments, a connection structure is disposed between the cushion layer and the balancing pad.

In some embodiments, the connecting structure includes at least one protrusion formed on a surface of the cushion layer facing the balancing pad, the protrusion being capable of engaging a corresponding one of the cushion holes.

In some embodiments, the spring module assembly includes a plurality of spring module units, each of the spring module units including a fixed base plate and a plurality of the spring modules disposed on the fixed base plate, the fixed base plate being configured to enable the plurality of fixed base plates to be removably coupled together.

In some embodiments, the resilient pad includes a mask that covers a surface of the cushion layer facing away from the balancing pad and is capable of surrounding and covering the perimeter of the resilient module assembly.

In some embodiments, the elastic module assembly further comprises a bottom cushion layer, wherein a plurality of the elastic modules are placed on the bottom cushion layer, and the face mask is configured to be integrally coupled with the bottom cushion layer.

In some embodiments, a support body is provided between the elastic modules in the edge region of the elastic pad in the circumferential direction of the elastic pad.

In some embodiments, the resilient pad is a resilient mattress.

In a third aspect, the present invention further provides a piece of furniture, comprising the elastic pad as described above. Like this, as above, through this cushion, this furniture cost reduction can have good stationarity and comfort level simultaneously to whole quality has been promoted.

Further, the furniture includes, but is not limited to, beds, sofas, chairs, sofa beds, soft-packed benches, and the like.

It will be apparent that elements or features described in a single embodiment above may be used alone or in combination in other embodiments.

Drawings

In the drawings, the size and the proportion do not represent the size and the proportion of an actual product. The figures are merely illustrative and certain unnecessary elements or features have been omitted for clarity.

Fig. 1 is a perspective view schematically illustrating a view angle of a balance pad according to the present invention.

Fig. 2 is a schematic end view of the structure of fig. 1.

Fig. 3 is a partial sectional structural view of fig. 1.

Fig. 4 is a schematic perspective view of an elastic module assembly of an elastic cushion according to the present invention.

Fig. 5 is a perspective view of an elastic module unit of the elastic module assembly of fig. 4.

Fig. 6 is a schematic illustration of the splicing of two of the resilient modular units of fig. 5.

Fig. 7 is a perspective view of the balance pad of fig. 1 laid on the elastic module assembly of fig. 4.

Fig. 8 is a partial cross-sectional structural view of fig. 7.

Fig. 9 is an enlarged schematic view of a circled portion of fig. 8.

Fig. 10 is an exploded view exemplarily showing a cushion layer of an elastic cushion according to the present invention laid on a balance cushion.

Fig. 11 is a partially exploded view exemplarily showing an elastic pad according to the present invention.

Fig. 12 is an exploded view of the entire elastic pad of fig. 11.

Fig. 13 is a perspective view of the assembled elastic pad of fig. 11.

Description of the reference numerals

1-balance pad, 2-pad body, 3-upper surface, 4-lower surface, 5-accommodating hole, 6-elastic module, 7-buffer hole, 8-buffer layer part, 9-separating part, 10-elastic pad, 11-elastic module component, 12-cushion layer, 13-elastic module unit, 14-fixed bottom plate, 15-face mask, 16-bottom layer, 17-clamping chute and 18-clamping plate.

Detailed Description

The elastic pad and the furniture of the present invention will be described in detail with reference to the accompanying drawings. What has been described herein is merely a preferred embodiment in accordance with the present invention, and those skilled in the art will appreciate that other ways of implementing the present invention on the basis of the preferred embodiment will also fall within the scope of the present invention.

In a first aspect, referring to fig. 1, 2, 3, 7 and 8, the present invention provides a balancing pad 1 comprising a pad body 2, the pad body 2 comprising an upper surface 3 and a lower surface 4 opposite to each other in a thickness direction thereof, wherein the lower surface 4 is formed with a plurality of receiving holes 5 arranged at intervals, each receiving hole 5 being adapted to receive a portion of a corresponding one of the elastic modules 6 (refer to fig. 8), such that when the balancing pad 1 is placed on the plurality of elastic modules, the balancing pad 1 can be combined with upper portions of the plurality of elastic modules (refer to fig. 7) to restrain movement of each elastic module 6 in a transverse direction of the balancing pad 1; meanwhile, a plurality of buffer holes 7 are formed on the upper surface 3 at intervals, and the plurality of buffer holes 7 are configured to form a buffer layer portion 8 on the upper portion of the pad body 2; wherein each of the cushion holes 7 and the corresponding one of the accommodation holes 5 are partitioned by the partition 9 of the pad body 2 in the thickness direction of the balance pad 1.

In the balance pad 1, a plurality of receiving holes 5 are formed at intervals on the lower surface 4 of the pad body 2, a plurality of buffer holes 7 are formed at intervals on the upper surface 3 of the pad body 2, each buffer hole 7 and a corresponding one of the receiving holes 5 are separated by a partition 9 of the pad body 2 in the thickness direction of the pad body 2, and the plurality of buffer holes 7 form a buffer layer portion 8 on the upper portion of the pad body 2, so that, when the balance pad 1 is assembled to form an elastic pad 10 (refer to fig. 12), each receiving hole 5 receives a portion of a corresponding one of the elastic modules 6 so that the balance pad 1 can be supported on the plurality of elastic modules 6 to restrain the movement of the elastic modules 6 in the transverse direction of the balance pad 1, thereby remarkably improving the stability of the plurality of elastic modules 6 of the elastic pad 10, and at the same time, the buffer holes 7 can disperse the supporting force of the elastic modules in the corresponding receiving holes 5 to the peripheral region of the buffer holes 7 through the partitions 9, so that no obvious supporting hard points of the elastic modules 6 are felt on the upper surface 3 of the balance pad 1, and further improving comfort. In addition, the cushion layer portion 8 can significantly improve the cushioning performance and comfort performance of the balance pad 1 by the air contained in the plurality of cushion holes 7, and only a thin cushion layer 12 (refer to fig. 10) needs to be laid on the balance pad 1. Consequently, this balance pad 1 promotes the travelling comfort when promoting cushion 10 stability, reduces cushion 10's cost, and simultaneously, balance pad 1 and elastic module 6 dismouting of being convenient for, the transport of the cushion 10 of consequently being convenient for reduces and deposits the space that occupies.

In some embodiments of the balancing pad 1, the receiving hole 5 and the buffer hole 7 may be arranged offset, for example, the central axis of the receiving hole 5 and the central axis of the buffer hole 7 do not coincide. In other embodiments of the balancing pad 1, referring to fig. 2 and 3, each receiving hole 5 and a corresponding one of the buffer holes 7 are coaxially arranged, so that each receiving hole 5 and the corresponding buffer hole 7 can share the same bottom wall (i.e., the partition 9), and the buffer hole 7 can further disperse the supporting force of the elastic module in the corresponding receiving hole 5 to the peripheral area of the buffer hole 7 through the partition 9, so that no obvious supporting hard point of the elastic module 6 is sensed on the upper surface 3 of the balancing pad 1, and the comfort is further improved. In addition, a large number of accommodating holes 5 can be arranged on the lower surface 4 of the cushion body 2 to accommodate a large number of elastic modules 6, and a large number of buffer holes 7 can be arranged on the upper surface 3 of the cushion body 2 to further improve and improve the buffer performance and comfort performance of the balance cushion 1. In addition, the same hole bottom wall is shared by the accommodating hole 5 and the buffer hole 7, so that air circulation between the accommodating hole 5 and the buffer hole 7 can be realized, and the ventilation effect of the balance pad 1 is improved. For example, when the material of the cushion body 2 is a sponge, it is possible to more easily achieve air circulation, and when the material of the cushion body 2 is rubber or silicone, a plurality of vent holes are formed on the hole bottom wall as a short air flow path.

In addition, in some embodiments, the receiving hole 5 may have various shapes, for example, a circular hole or a square hole, and in this case, the shape of the portion of the elastic module 6 received in the receiving hole 5 may also be circular or square. In other embodiments, referring to fig. 2 and 3, the inner surface of the receiving hole 5 is a tapered surface gradually expanding outward toward the lower surface 4, for example, the receiving hole 5 is a tapered hole with a large opening end facing downward and a small opening end facing upward, so that, referring to fig. 8, the tapered surface of the receiving hole may form a tapered surface fit with the inclined outer surface of the tapered elastic module 6, so that both the inclined inner circumferential surface and the bottom surface of the receiving hole 5 may form a support, and thus, the balance pad 1 may be more stably supported on the plurality of elastic modules 6.

In addition, in some embodiments, the buffer hole 7 may have various shapes, for example, a round hole or a square hole. In other embodiments, referring to fig. 2 and 3, the inner surface of the buffer hole 7 is a tapered surface gradually expanding outward toward the upper surface 3, for example, the buffer hole 7 is a tapered hole with a large opening end facing upward and a small opening end facing downward, so that when the upper surface 3 of the cushion 1 is under pressure, the portion of the upper surface 3 surrounding the buffer hole 7 can be compressed more smoothly by the tapered surface of the buffer hole 7, thereby avoiding lateral inclination, and further improving the balance of the buffer.

In addition, in some embodiments, the depth of the receiving hole 5 and the buffer hole 7 may be set according to actual requirements based on the overall thickness of the balance pad 1. For example, in some embodiments, the depth of the receiving hole 5 is less than the depth of the buffer hole 7. In other embodiments, the depth of the receiving hole 5 is the same as the depth of the punched hole 7. In other embodiments, referring to fig. 2 and 3, the depth of the receiving hole 5 is greater than that of the buffer hole 7, so that the movement of each elastic module 6 in the lateral direction of the balancing pad 1 can be restrained more stably and reliably, and the buffering performance and the comfort performance of the balancing pad 1 can be improved.

In addition, in some embodiments, referring to fig. 2 and 3, the depth of the receiving hole 5 is half the thickness of the pad body 2, and the depth of the buffer hole 7 is less than half the thickness of the pad body 2. In this way, not only can the movement of each elastic module 6 in the lateral direction of the balance pad 1 be restrained more stably and reliably, but also the cushioning performance and the comfort performance of the balance pad 1 can be improved, and also the partition 9 can be ensured to have an appropriate thickness.

In addition, in order to improve the integrity and durability of the balancing pad 1, in some embodiments, the balancing pad 1 further includes a wrapping layer covering all surfaces of the pad body 2, wherein the wrapping layer covers and is attached to the upper surface 3, the lower surface 4, the inner surface of the receiving hole 5, and the inner surface of the punched hole 7. That is, the wrapping layer follows the contours of the upper surface 3, the lower surface 4, the inner surface of the receiving hole 5, and the inner surface of the cushion hole 7. Like this, draw the effect of dragging through the whole of parcel layer, can further promote the overall stability of balanced pad 1. In addition, the wrapping layer can wrap the cushion body 2 by welding or bonding. The wrapping layer may be a gauze layer, a non-woven layer, or a canvas layer, or other breathable material layer.

In addition, the pad body 2 may be a rubber body or a silicon body or other elastic material body. Preferably, the pad body 2 may be a sponge body having good air permeability and elasticity.

In a second aspect, and with reference to fig. 4-13, the present invention provides a resilient pad 10, the resilient pad 10 comprising a resilient module assembly 11, a cushion layer 12 and a balancing pad 1 as described in any of the above first aspects, wherein the resilient module assembly 11 comprises a plurality of resilient modules 6; a portion of each of the plurality of elastic modules 6 is received and positioned in a corresponding one of the plurality of receiving holes 5 such that the balance pad 1 is supported on the plurality of elastic modules 6; the cushion layer 12 is laid on the upper surface 3 of the balance mat 1.

In this cushion 10, as described above, through this balance pad 1, can show promotion cushion 10 stability and travelling comfort, reduce the cost of cushion 10, simultaneously, cushion 12, elastic module subassembly 11 and balance pad 1 be convenient for the dismouting, therefore the transport of cushion 10 of being convenient for reduces and deposits the space that occupies.

In addition, in some embodiments, the cushion layer 12 may be directly laid on the balance mat 1. In other embodiments, a connection structure is provided between the cushion layer 12 and the balancing pad 1, so that the cushion layer 12 can be more stably laid on the balancing pad 1 by the connection structure, and the cushion layer 12 is prevented from being laterally displaced due to a local pressure.

In addition, the connection structure may have various types, for example, in one type, the connection structure may include a hook and loop fastener provided on the lower surface of the cushion layer 12 and/or the upper surface of the balance pad 1. In another type, the connection structure includes at least one protrusion formed on a surface of the cushion layer 12 facing the balance pad 1, the protrusion being capable of being combined into a corresponding one of the buffer holes 7, so that the cushion layer 12 can be positioned by making full use of the at least one buffer hole 7 of the balance pad 1, and the cushion layer 12 can be effectively prevented from being laterally displaced due to a local pressure by cooperation of the protrusion and the buffer hole 7. For example, the cushion layer 12 is formed with a protrusion at each of four corners and a middle position, and the protrusions at these positions can be fitted with the buffer holes 7 at corresponding positions.

In addition, in the elastic cushion 10, the elastic module assembly 11 may have various structures, for example, in one structure, the elastic module assembly 11 includes a base on which a plurality of slide rails are formed at intervals, and the plurality of elastic modules 6 may be disposed between the adjacent slide rails by being engaged with the slide rails. In another structure, referring to fig. 4, 5 and 6, the elastic module assembly 11 includes a plurality of elastic module units 13, each elastic module unit 13 includes a fixed base 14 and a plurality of elastic modules 6 disposed on the fixed base 14, the fixed base 14 is configured to detachably connect the plurality of fixed bases 14, so that, in use, the plurality of elastic module units 13 can be quickly assembled to form an elastic module net, and then the balance pad 1 is laid on the elastic module net.

In addition, the plurality of fixed base plates 14 may be detachably coupled together in various ways, for example, in one way, the fixed base plates 14 may be coupled together by screws. Alternatively, referring to fig. 8 and 9, each fixed base plate 14 is provided with a clamping sliding slot 17 on one side and a clamping plate 18 on the opposite side, so that the clamping plate 18 of one fixed base plate 14 can be matched with the clamping sliding slot 17 of another adjacent fixed base plate, and thus a plurality of fixed base plates 14 are connected in sequence to assemble a plurality of elastic modular units 13 into an elastic modular net.

In addition, in some embodiments, in order to improve the protection of the cushion layer 12 and also improve the overall stability of the elastic cushion 10, referring to fig. 11, 12 and 13, the elastic cushion 10 includes a face mask 15, and the face mask 15 covers the surface of the cushion layer 12 facing away from the balance pad 1 and can wrap and cover the periphery of the elastic module assembly 11 to cover the cushion layer 12 and the elastic module 6. The face shield 15 and the elastic module assembly 11 may be connected by adhesive strips, zippers, buttons or any other means.

In addition, in some embodiments, the elastic module assembly 11 may include only a plurality of elastic module units 13, in which case the mask 15 may be coupled to the fixed base plate 14. In other embodiments, referring to fig. 11, 12 and 13, the elastic module assembly 11 further comprises a base layer 16, wherein the plurality of elastic modules 6 are placed on the base layer 16, and the face mask 15 is configured to be integrally connected to the base layer 16. The face shield 15 and the bottom layer 16 may be attached by adhesive strips, zippers, buttons, or any other means.

Furthermore, in some embodiments, in order to improve the comfort of the elastic pad 10, in the circumferential direction of the elastic pad 10, a support body is disposed between the elastic modules 6 in the edge region of the elastic pad 10, so that the support body in the edge region of the elastic pad 10 can effectively improve the support strength of the edge region of the elastic pad 10 together with the elastic modules 6 in the edge region, and prevent the edge of the elastic pad 10 from having a collapsing feeling after a person sits on the elastic pad 10, so that the edge region of the elastic pad 10 and the inner region of the elastic pad 10 have substantially the same support hardness, which can significantly improve the uniformity of the support performance of the elastic pad 10. For example, in one outermost turn of the elastic pad 10, a support body is interposed between the elastic modules 6 adjacent in the circumferential direction, or in two outermost turns of the elastic modules 6 of the elastic pad 10, a support body is interposed between the elastic modules 6 adjacent in each turn in the circumferential direction. In addition, the support body may have various types as long as it can be inserted between the adjacent elastic modules 6. For example, the support may be a rubber column or other structural elastic module, such as an inverted cone elastomer or the like.

In addition, the elastic module 6 may be a spring module, a rubber module, or a silicone module.

In addition, the elastic pad 10 may be used for any desired application. For example, the elastic pad 10 may be used as an outdoor pad and an indoor pad. For example, the elastic pad 10 may be used as an elastic mattress, a sofa pad, a chair pad, and a bench pad.

In a third aspect, the present invention provides a piece of furniture comprising a resilient pad 10 as described in any of the second aspects above. Thus, as described above, the cost of the furniture can be reduced and the furniture can have good smoothness and comfort by the elastic pad 10, thereby improving the overall quality.

The scope of protection of the present invention is limited only by the claims. Persons of ordinary skill in the art, having benefit of the teachings of the present invention, will readily appreciate that alternative structures to those disclosed as possible may be substituted for the alternative embodiments disclosed, and that the disclosed embodiments may be combined to create new embodiments, which likewise fall within the scope of the appended claims.

Claims (17)

1. A balancing pad for manufacturing household products, characterized in that the balancing pad (1) comprises a pad body (2), the pad body (2) comprising an upper surface (3) and a lower surface (4) arranged opposite in its thickness direction, wherein,

the lower surface (4) is formed with a plurality of receiving holes (5) arranged at intervals, each receiving hole (5) is used for receiving a part of a corresponding elastic module (6), so that when the balance pad (1) is arranged on a plurality of elastic modules, the balance pad (1) can be jointed with the upper parts of the elastic modules to restrain the movement of the elastic modules in the transverse direction of the balance pad;

a plurality of buffer holes (7) arranged at intervals are formed on the upper surface (3), and a plurality of buffer holes (7) are configured to form a buffer layer part (8) on the upper part of the pad body (2);

wherein each of the buffer holes (7) and a corresponding one of the accommodation holes (5) are separated by a partition (9) of the pad body (2) in a thickness direction of the balance pad (1).

2. The balancing pad according to claim 1, characterized in that each receiving hole (5) is arranged coaxially with one of the buffer holes (7) corresponding thereto.

3. The balancing pad according to claim 1, characterized in that the inner surface of the receiving hole (5) is a conical surface which gradually flares outwards towards the lower surface (4).

4. The balancing pad according to claim 1, characterized in that the inner surface of the buffer hole (7) is a conical surface which gradually flares outwards towards the upper surface (3).

5. The balancing pad according to claim 1, characterized in that the receiving hole (5) has a greater depth than the buffer hole (7).

6. The balancing pad according to claim 5, characterized in that the receiving hole (5) has a depth of half the thickness of the pad body (2), the relief hole (7) having a depth of less than half the thickness of the pad body (2).

7. The balancing pad according to any one of claims 1 to 6, characterized in that the balancing pad (1) further comprises a wrapping covering all surfaces of the pad body (2), wherein the wrapping covers and attaches the upper surface (3), the lower surface (4), the inner surface of the receiving hole (5) and the inner surface of the buffer hole (7).

8. The balancing pad according to claim 7, characterized in that the pad body (2) is a sponge body and the wrapping layer is a non-woven fabric layer.

9. An elastic pad, characterized in that the elastic pad (10) comprises:

an elastic module assembly (11), the elastic module assembly (11) comprising a plurality of elastic modules (6);

the balancing pad (1) according to any one of claims 1 to 8, wherein a portion of each of the plurality of elastic modules (6) is received and positioned in a corresponding one of the plurality of receiving holes (5) such that the balancing pad (1) is supported on the plurality of elastic modules (6); and

a cushion layer (12), said cushion layer (12) being laid on said upper surface (3) of said balancing pad (1).

10. Cushion according to claim 9, characterized in that a connecting structure is provided between the cushion layer (12) and the balancing cushion (1).

11. The elastic cushion according to claim 10, characterized in that the connecting structure comprises at least one protrusion formed on the surface of the cushion layer (12) facing the balancing cushion (1), the protrusion being capable of engaging a corresponding one of the cushioning holes (7).

12. A resilient pad according to claim 9, wherein the resilient module assembly (11) comprises a plurality of resilient module units (13), each resilient module unit (13) comprising a fixed base plate (14) and a plurality of resilient modules (6) arranged on the fixed base plate (14), the fixed base plate (14) being configured such that a plurality of the fixed base plates (14) are removably connectable together.

13. Cushion according to claim 9, characterized in that the cushion (10) comprises a mask (15), which mask (15) is provided on the surface of the cushion layer (12) facing away from the balancing cushion (1) and can surround and cover the circumference of the elastic module assembly (11).

14. The cushion according to claim 13, wherein the elastic module assembly (11) further comprises a base layer (16), wherein a plurality of the elastic modules (6) are placed on the base layer (16), and wherein the cover (15) is configured to be integrally connected to the base layer (16).

15. Cushion according to claim 9, characterized in that a support is provided between the elastic modules (6) of the edge region of the elastic cushion (10) in the circumferential direction of the elastic cushion (10).

16. A resilient pad according to any of claims 9 to 15, wherein the resilient pad (10) is a resilient mattress.

17. An item of furniture, characterized in that it comprises an elastic pad (10) according to any one of claims 9-16.

Images