A tiled floor mat
By designing the floor mat surface layer as multiple interlocking sub-mat blocks, the problem of inconvenient cleaning of existing floor mats is solved, enabling easy disassembly and cleaning, and enhancing the fun of using them.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU JISENCHUAN TRADING CO LTD
- Filing Date
- 2025-07-09
- Publication Date
- 2026-07-10
AI Technical Summary
Existing detachable floor mats require the entire surface layer to be removed at once for cleaning, which is inconvenient and lacks fun.
The surface layer is designed to be made up of multiple sub-pads, each of which is detachable from the bottom layer. The detachability is achieved through self-adhesive film, Velcro, or anti-slip texture, which enhances the fun.
It enables easy disassembly and cleaning of the surface layer, increasing the fun of use and reducing labor intensity.
Smart Images

Figure CN224474267U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of floor mat structure technology, and in particular to a splicing floor mat. Background Technology
[0002] Floor mats are a type of non-slip household product, commonly used as doormats, bathroom mats, kitchen mats, etc. They can not only prevent life and health safety problems caused by slipping, but also prevent dirt from shoes from entering the room.
[0003] Most floor mats on the market consist of a top layer and a bottom layer. The top layer is usually made of soft materials such as knitted fabric, while the bottom layer is usually made of waterproof materials such as plastic. The top layer is for users to step on, and the bottom layer is for contact with the ground. Floor mats are generally divided into non-separable floor mats and separable floor mats. In non-separable floor mats, the top and bottom layers are fixed together by glue, needle and thread, so the top and bottom layers cannot be separated. In separable floor mats, the top and bottom layers can be separated, making it convenient for users to clean or replace the top or bottom layer.
[0004] Because some floor mats are quite large, and the surface layer of current detachable floor mats is generally a single sheet structure, it is inconvenient to remove the entire surface layer at once for cleaning. Utility Model Content
[0005] The purpose of this invention is to provide a splicing mat that allows for easy removal and cleaning of the surface layer.
[0006] This utility model provides a splicing mat, which includes a top layer and a bottom layer stacked from top to bottom. The bottom layer is an integral sheet structure, and the top layer is spliced together from multiple sub-mat blocks. Each sub-mat block is detachable from the bottom layer.
[0007] In one possible implementation, the plurality of sub-pads are all identical in shape and size; or, at least some of the plurality of sub-pads are different in shape and / or size.
[0008] In one possible implementation, each of the sub-pad blocks is a polygonal structure.
[0009] In one possible implementation, the interlocking mat has a rectangular structure and has mutually perpendicular length and width directions; each of the sub-mat blocks has a rectangular structure, and multiple sub-mat blocks are arranged in an array along the length and width directions.
[0010] In one feasible manner, each of the sub-pads is detachably connected to the underlying layer.
[0011] In one possible implementation, the lower surface of each of the sub-pads is provided with one of a rough surface layer and a barbed surface layer, and the upper surface of the bottom layer is provided with the other of the rough surface layer and the barbed surface layer, the rough surface layer and the barbed surface layer being detachably connected.
[0012] In one possible implementation, the lower surface of each of the sub-pads is provided with a first self-adhesive film layer, and the upper surface of the bottom layer is provided with a second self-adhesive film layer, the first self-adhesive film layer and the second self-adhesive film layer being detachably bonded together.
[0013] In one possible implementation, each of the sub-pads is not connected to the bottom layer; the upper surface of the bottom layer is provided with a first anti-slip texture to increase its friction, and the lower surface of the sub-pad is in contact with the first anti-slip texture on the bottom layer.
[0014] In one possible implementation, in every two adjacent sub-pads, one sub-pad has a protrusion on its side and the other sub-pad has a groove on its side, the protrusion being engaged in the groove.
[0015] In one possible implementation, the lower surface of the substrate is provided with a second anti-slip texture to increase its friction.
[0016] The interlocking floor mat provided by this utility model features a surface layer composed of multiple sub-pad blocks, each of which is detachable from the bottom layer. When cleaning the surface layer, each sub-pad block can be removed from the bottom layer individually for cleaning, eliminating the need to remove the entire surface layer at once. This simplifies the removal and cleaning of the surface layer and saves effort. Furthermore, the surface layer also functions similarly to a jigsaw puzzle, allowing users to easily assemble the mat. Figure 1 The individual pad blocks are then pieced together to form the surface layer, thus increasing the fun of using it. Attached Figure Description
[0017] Figure 1 This is a cross-sectional schematic diagram of the splicing ground mat in an embodiment of this utility model.
[0018] Figure 2 This is a top view of the surface layer in an embodiment of this utility model.
[0019] Figure 3 This is a bottom view of the bottom layer in an embodiment of this utility model.
[0020] Figure 4 This is a top view of the surface layer in another embodiment of the present invention.
[0021] Figure 5 This is a top view of the surface layer in another embodiment of the present invention.
[0022] Figure 6 This is a top view of the surface layer in another embodiment of the present invention.
[0023] Figure 7 This is a top view of the surface layer in another embodiment of the present invention.
[0024] Figure 8 for Figure 7 A schematic diagram of the structure of a single sub-pad.
[0025] Figure 9 This is a cross-sectional schematic diagram of the splicing ground mat in another embodiment of the present invention.
[0026] Figure 10 This is a cross-sectional schematic diagram of the splicing ground mat in another embodiment of the present invention. Detailed Implementation
[0027] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit its scope.
[0028] The terms “first,” “second,” “third,” “fourth,” etc. (if present) in the specification and claims of this utility model are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence.
[0029] The directional terms such as "up," "down," "left," "right," "front," "back," "top," and "bottom" (if present) used in the specification and claims of this utility model are defined according to the position of the structures in the drawings and the relative positions of the structures, and are only for the purpose of clarity and convenience in expressing the technical solution. It should be understood that the use of directional terms should not limit the scope of protection claimed by this utility model.
[0030] like Figures 1 to 3 As shown, the splicing mat provided in this embodiment of the utility model includes a top layer 1 and a bottom layer 2 stacked sequentially from top to bottom along its thickness direction. The four sides of the top layer 1 are flush with the four sides of the bottom layer 2 (that is, the edges of the top layer 1 and the bottom layer 2 are flush, and the outer peripheral dimensions of the top layer 1 and the bottom layer 2 are the same). The bottom layer 2 is an integral sheet (layer) structure. The top layer 1 is spliced together from multiple sub-pad blocks 11. The sidewalls of every two adjacent sub-pad blocks 11 are in contact. Each sub-pad block 11 is detachable from the bottom layer 2, so that each sub-pad block 11 can be removed from the bottom layer 2.
[0031] The interlocking floor mat provided in this embodiment of the utility model features a surface layer 1 composed of multiple sub-pad blocks 11, each of which is detachable from the bottom layer 2. When cleaning the surface layer 1, each sub-pad block 11 can be removed from the bottom layer 2 individually, and then each sub-pad block 11 can be cleaned one by one, eliminating the need to remove the entire surface layer 1 at once for overall cleaning. This facilitates the removal and cleaning of the surface layer 1 and saves effort. Furthermore, the surface layer 1 also functions similarly to a jigsaw puzzle, allowing users to easily assemble the mat. Figure 1 The individual sub-pads 11 are then assembled to form the surface layer 1, thereby increasing the fun of using it.
[0032] like Figure 2 As shown, in one embodiment, the multiple sub-pads 11 have the same shape and size (referring to the outer peripheral dimensions of the sub-pads 11). In another embodiment, at least some of the multiple sub-pads 11 have different shapes and / or sizes.
[0033] In one implementation, each sub-pad 11 is a regular polygonal structure. For example... Figure 2 As shown, in one embodiment, the interlocking mat has a rectangular structure (i.e., both the surface layer 1 and the bottom layer 2 are rectangular structures). The interlocking mat has a length direction L and a width direction W that are perpendicular to each other. Each sub-mat block 11 is a rectangular structure (specifically, it can be a rectangular or square structure). Multiple sub-mat blocks 11 are arranged in an array along the length direction L and the width direction W, which facilitates the user to splice multiple sub-mat blocks 11 to form the surface layer 1. Figure 6 As shown, in another embodiment, each sub-pad 11 is a triangular structure, and multiple triangular sub-pads 11 are spliced together to form a rectangular surface layer 1. Of course, the sub-pads 11 can also be other regular polygonal structures.
[0034] As another implementation, each sub-pad 11 can also be an irregular polygonal structure. For example... Figure 5 As shown, in one embodiment, each sub-pad 11 is an irregular quadrilateral structure, and each sub-pad 11 has at least one side that is not a straight line (e.g., a curve). Multiple irregular quadrilateral sub-pads 11 are spliced together to form a rectangular surface layer 1.
[0035] In other embodiments, the sub-pad 11 may also be of an irregular shape. For example, similar to a jigsaw puzzle. Figure 1 Similarly, the surface layer 1 is divided into multiple irregular sub-pads 11, so that users can assemble them like a puzzle. Figure 1 Multiple irregular sub-pads 11 are spliced together to form the surface layer 1, thereby further increasing the fun of use.
[0036] like Figure 4As shown, in another embodiment, the upper surface of each sub-pad 11 is provided with a pattern 110. When the user splices together multiple irregular sub-pads 11 to form the surface layer 1, the patterns 110 on each sub-pad 11 can form corresponding shapes (such as forming multiple five-pointed star patterns), which can improve the aesthetics of the surface layer 1 and increase the fun of use.
[0037] In one implementation, each sub-pad 11 is detachably connected to the bottom layer 2 so that the sub-pad 11 can be removed from the bottom layer 2, while preventing the sub-pad 11 from sliding relative to the bottom layer 2 after it is installed on the bottom layer 2.
[0038] like Figure 1 As shown, in one embodiment, the lower surface of each sub-pad 11 is provided with one of a textured layer 31 and a barbed layer 32, and the upper surface of the bottom layer 2 is provided with the other of the textured layer 31 and barbed layer 32. The textured layer 31 and the barbed layer 32 are detachably connected, thereby realizing a detachable connection between the sub-pad 11 and the bottom layer 2. In this embodiment, the lower surface of each sub-pad 11 is provided with a textured layer 31, and the textured layer 31 can be glued to the lower surface of the sub-pad 11; the upper surface of the bottom layer 2 is provided with a barbed layer 32, and the barbed layer 32 can be glued to the upper surface of the bottom layer 2. In other embodiments, the lower surface of each sub-pad 11 may be provided with a barbed layer 32, and the barbed layer 32 can be glued to the lower surface of the sub-pad 11; the upper surface of the bottom layer 2 may be provided with a textured layer 31, and the textured layer 31 can be glued to the upper surface of the bottom layer 2. Specifically, the loop layer 31 has fine and soft fibrous loops (Loop), and the barbed layer 32 has barbed hooks (Hook). The loop layer 31 and the barbed layer 32 form a Velcro assembly. The sub-pad 11 and the bottom layer 2 are detachably connected by the cooperation of the fibrous loops and the barbed hooks (the structure and working principle of Velcro can be found in the prior art, and will not be described in detail here).
[0039] like Figure 9As shown, in another embodiment, each sub-pad 11 has a first self-adhesive film layer 41 on its lower surface, which can be bonded to the lower surface of the sub-pad 11 with adhesive; the upper surface of the bottom layer 2 has a second self-adhesive film layer 42, which can be bonded to the upper surface of the bottom layer 2 with adhesive; the first self-adhesive film layer 41 and the second self-adhesive film layer 42 are detachably bonded, thereby realizing the detachable connection between the sub-pad 11 and the bottom layer 2. Specifically, the self-adhesive film is a thin film with its own adhesive surface, and the processing technology of the self-adhesive film is generally achieved by melt co-extrusion process (including co-extrusion casting and co-extrusion blow molding). The first self-adhesive layer 41 and the second self-adhesive layer 42 have suitable adhesiveness, making it difficult for them to detach or slip after bonding, thus ensuring the stability of the connection between the sub-pad 11 and the bottom layer 2. Simultaneously, because the adhesiveness of the first and second self-adhesive layers 41 and 42 is not strong, the sub-pad 11 and the bottom layer 2 can be separated without requiring significant force, making separation convenient. In one embodiment, both the first and second self-adhesive layers 41 and 42 are made of TPE or TPU, both of which have good self-adhesive properties. Of course, in other embodiments, the sub-pad 11 and the bottom layer 2 can also employ other detachable connection methods, such as a snap-fit connection.
[0040] In another implementation, each sub-pad 11 is placed only on the bottom layer 2 without forming a connection structure with the bottom layer 2; that is, each sub-pad 11 is not connected to the bottom layer 2. In this case, to increase the friction between the sub-pad 11 and the bottom layer 2 and to prevent the sub-pad 11 from sliding relative to the bottom layer 2, such as... Figure 10 As shown, in one embodiment, the upper surface of the bottom layer 2 is provided with a first anti-slip texture 21 to increase its friction, and the lower surface of the sub-pad 11 is in contact with the first anti-slip texture 21 on the bottom layer 2. By providing the first anti-slip texture 21 on the upper surface of the bottom layer 2, the first anti-slip texture 21 can increase the friction of the upper surface of the bottom layer 2; when the sub-pad 11 is placed on the bottom layer 2, the lower surface of the sub-pad 11 is in contact with the first anti-slip texture 21 on the upper surface of the bottom layer 2. Due to the anti-slip effect of the first anti-slip texture 21, no horizontal slippage will occur between the sub-pad 11 and the bottom layer 2 during use. In one embodiment, the first anti-slip texture 21 is an integral structure with the bottom layer 2. The first anti-slip texture 21 includes a plurality of first protruding ridges 211 and a plurality of first recesses 212. The first recesses 212 are formed by the downward recess of the upper surface of the bottom layer 2. The plurality of first recesses 212 are arranged in an array on the upper surface of the bottom layer 2 along the length direction L and the width direction W. The first protruding ridges 211 are formed between adjacent first recesses 212 (the structure of the first anti-slip texture 21 is similar to the structure of the second anti-slip texture 22 described below, and will not be repeated here).
[0041] like Figure 1 and Figure 2 As shown, in one embodiment, the sidewalls of each two adjacent sub-pads 11 are in contact with each other, and each two adjacent sub-pads 11 are not connected to each other (that is, only the sidewalls of two adjacent sub-pads 11 abut together).
[0042] In another implementation, each pair of adjacent sub-pads 11 is detachably connected, so that after assembly, each sub-pad 11 can form a single surface layer 1 (especially when the sub-pads 11 are not connected to the bottom layer 2, this single-structure surface layer 1 can prevent individual sub-pads 11 from slipping). Figure 7 and Figure 8 As shown, in one embodiment, in every two adjacent sub-pads 11, one sub-pad 11 has a protrusion 111 on its side, and the other sub-pad 11 has a groove 112 on its side. The protrusion 111 is engaged in the groove 112, thereby achieving a detachable connection between the two adjacent sub-pads 11. In another embodiment, in every two adjacent sub-pads 11, one sub-pad 11 has multiple protrusions 111 spaced apart on its side, and the other sub-pad 11 has multiple grooves 112 spaced apart on its side. The multiple protrusions 111 are respectively engaged in the multiple grooves 112. Of course, in other embodiments, other detachable connection methods can be used between adjacent sub-pads 11.
[0043] like Figure 1 and Figure 3 As shown, in one embodiment, the lower surface of the base layer 2 is provided with a second anti-slip texture 22 to increase its friction. By providing the second anti-slip texture 22 on the lower surface of the base layer 2, the second anti-slip texture 22 can provide a good anti-slip effect when the lower surface of the base layer 2 is in contact with the ground; when the mat is used in a wet environment (such as a bathroom), it also has a good anti-slip effect, preventing users from slipping and improving the safety of use. In one embodiment, the second anti-slip texture 22 is an integral structure with the base layer 2. The second anti-slip texture 22 includes a plurality of second protruding ridges 221 and a plurality of second recesses 222. The second recesses 222 are formed by the lower surface of the base layer 2 being recessed upwards. The plurality of second recesses 222 are arranged in an array on the lower surface of the base layer 2 along the length direction L and the width direction W. The second protruding ridges 221 are formed between adjacent second recesses 222.
[0044] In one embodiment, the surface layer 1 is a textile fabric, such as brushed fabric, knitted fabric, or fleece. Preferably, the surface layer 1 is made of brushed fabric, which not only has a good appearance but also a rough surface and high friction, giving the surface layer 1 good anti-slip properties. Of course, in other embodiments, the surface layer 1 can also be made of other flexible fabrics.
[0045] In one implementation, the bottom layer 2 can be made of plastic, silicone, rubber, etc., where the plastic can be PVC (polyvinyl chloride) or other materials, and the rubber can be SBR (styrene-butadiene rubber), TPR (thermoplastic rubber), or other materials. The bottom layer 2 has a certain degree of hardness, thus giving it good anti-slip properties and a long service life.
[0046] As one implementation method, this interlocking floor mat can be used as a doormat, bathroom mat, kitchen mat, living room mat, etc.
[0047] The above are merely specific embodiments of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. A type of interlocking floor mat, characterized in that, It includes a top layer (1) and a bottom layer (2) stacked from top to bottom. The bottom layer (2) is an integral sheet structure. The top layer (1) is composed of multiple sub-pads (11) spliced together. Each sub-pad (11) is detachable from the bottom layer (2).
2. The interlocking ground mat as described in claim 1, characterized in that, The multiple sub-pads (11) are all the same in shape and size; or, among the multiple sub-pads (11), at least some of the sub-pads (11) are different in shape and / or size.
3. The interlocking ground mat as described in claim 1, characterized in that, The splicing mat has a rectangular structure and has a length direction (L) and a width direction (W) that are perpendicular to each other; each of the sub-mat blocks (11) has a rectangular structure and the multiple sub-mat blocks (11) are arranged in an array along the length direction (L) and the width direction (W).
4. The interlocking ground mat as described in claim 1, characterized in that, Each of the sub-pads (11) is detachably connected to the bottom layer (2).
5. The interlocking ground mat as described in claim 4, characterized in that, Each of the sub-pads (11) has one of a textured surface layer (31) and a barbed surface layer (32) on its lower surface, and the other of the textured surface layer (31) and the barbed surface layer (32) is provided on the upper surface of the bottom layer (2). The textured surface layer (31) and the barbed surface layer (32) are detachably connected.
6. The interlocking ground mat as described in claim 4, characterized in that, Each of the sub-pads (11) has a first self-adhesive film layer (41) on its lower surface and a second self-adhesive film layer (42) on its upper surface. The first self-adhesive film layer (41) and the second self-adhesive film layer (42) are detachably bonded together.
7. The interlocking ground mat as described in claim 1, characterized in that, Each of the sub-pads (11) is not connected to the bottom layer (2); the upper surface of the bottom layer (2) is provided with a first anti-slip texture (21) to increase its friction, and the lower surface of the sub-pad (11) is in contact with the first anti-slip texture (21) on the bottom layer (2).
8. The interlocking ground mat as described in claim 1, characterized in that, Each pair of adjacent sub-pads (11) is detachably connected; Alternatively, the sidewalls of each two adjacent sub-pads (11) are in contact with each other, and each two adjacent sub-pads (11) are not connected to each other.
9. The interlocking ground mat as described in claim 8, characterized in that, In each pair of adjacent sub-pads (11), one of the sub-pads (11) has a protrusion (111) on its side and the other sub-pad (11) has a groove (112) on its side, and the protrusion (111) is engaged in the groove (112).
10. The interlocking ground mat as described in any one of claims 1-9, characterized in that, The lower surface of the bottom layer (2) is provided with a second anti-slip texture (22) to increase its friction.