Non-slip Mat and Its Connection Structure

Abstract

The present invention discloses a non-slip mat and its connection structure, a connection plate and at least two sets of anchor points. The anchor points are set in the connection plate, and are connected to at least two non-slip mat units of the non-slip mat. The non-slip mat unit is provided with the slot. The anchor point is connected to the slot fastener. Through the snap-in connection between the fixture block and the slot, the present invention can achieve the detachable connection between the connection structure and the non-slip mat unit, as well as the assembling of the non-slip mat, in order to realize the transportation of the single non-slip mat unit, and reduce the transportation difficulties and costs.

Claims

1. A non-slip mat connection structure, wherein it is composed of a connection plate and at least two sets of anchor points that are set on the connection plate, the anchor points are connected to at least two non-slip mat units of the non-slip mat, the non-slip mat unit is provided with slots, and the anchor points are connected to slot fasteners, wherein the connection plate is composed of a center plate and a retaining plate, the retaining plate is fixed in the center plate, and the anchor point is set on the retaining plate.

2. A non-slip mat, wherein it is composed of several non-slip mat units and the connection structure described in claim 1, several non-slip mat units are spliced together through the connection structure, and the non-slip mat unit has several connection block modules that are composed of connection blocks with slots.

3. The non-slip mat described in claim 2, wherein the connection block is integrated with the non-slip mat unit.

4. The non-slip mat described in claim 3, wherein the connection block module is distributed at intervals along the width and length directions of the non-slip mat unit.

5. The non-slip mat described in claim 3, wherein there is the ribbed plate between the connection block and the non-slip mat unit, and between the connection blocks.

6. The non-slip mat described in claim 3, wherein the non-slip mat unit is composed of the first end face and the second end face that are located on opposite sides, the first end face is set away from the ground, the second end face is opposite to the ground, the connection block module is fixed on the second end face, and the first end face has bristles.

7. The non-slip mat described in claim 3, wherein there is an inclined surface on one side of the non-slip mat unit, and the inclined surface is provided with serrations.

8. The non-slip mat described in claim 3, wherein the non-slip mat unit has several drainage cavities, and the bottom surface of the non-slip mat unit in contact with the ground is separated by several drainage grooves.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is the schematic diagram of the connection structure involved in the present invention.

[0016] FIG. 2 is the schematic diagram of the connection structure involved in the present invention.

[0017] FIG. 3 is the schematic diagram of another connection structure involved in the present invention.

[0018] FIG. 4 is the schematic diagram of another connection structure involved in the present invention.

[0019] FIG. 5 is the schematic diagram of another connection structure involved in the present invention.

[0020] FIG. 6 is the schematic diagram of the non-slip mat involved in the present invention.

[0021] FIG. 7 is the schematic diagram for magnification of A in FIG. 6.

[0022] FIG. 8 is the schematic diagram for different assembly of the non-slip mat involved in the present invention.

[0023] FIG. 9 is the schematic diagram for different assembly of the non-slip mat involved in the present invention.

[0024] FIG. 10 is the schematic diagram of the non-slip mat unit involved in the present invention.

[0025] FIG. 11 is the schematic diagram of the non-slip mat unit involved in the present invention.

[0026] Marks in the Figure: Connection Block 1, Anchor Point 2, Non-slip Mat Unit 3, Center Plate 11, Retaining Plate 12, Connection Block 31, Ribbed Plate 32, Slot 311, Inclined Surface 33, Rectangular Surface 34, First End Face 35, Second End Face 36, Drainage Cavity 37, Drainage Groove 38, and Coaming 39.

DETAILED DESCRIPTION

[0027] The embodiments of the present invention are described below by using the specific examples. The technicians in this field can easily understand other advantages and functions of the present invention according to the content disclosed in the specifications. The present invention can also be implemented or applied through other specific embodiments. The details in the specifications can be modified or altered based on different viewpoints and applications without deviating from the spirit of the present invention. It shall be noted that, in the absence of conflict, the following embodiments can be combined with the features in the embodiments.

[0028] It is important to point out that, the illustrations provided in the following embodiments only explain the basic conception of the present invention in a schematic manner, so they only show the components related to the present invention, and are not drawn according to the quantity, shape, and size of the components during the actual implementation. In practice, the shape, quantity, and proportion of the components can be changed at will, and the layout of the components may be more complicated.

[0029] In the embodiments of the present invention, all directional indications (including up, down, left, right, front, back, horizontal and vertical directions, etc.) are only used to explain the relative location and movement situation among components in a certain attitude. If the specific attitude has changes, the directional indications are modified accordingly.

[0030] Due to installation errors and other reasons, the parallel relationship involved in the embodiments of the present invention may actually be the approximate parallel relationship, and the vertical relationship may actually be the approximate vertical relationship.

Embodiment 1

[0031] As shown in FIG. 1 and FIG. 2, a non-slip connection structure is composed of a connection plate 1 and at least two sets of anchor points 2. The anchor points 2 are set on the connection plate 1, and they are connected to at least two non-slip mat units 3.

[0032] The connection plate 1 is composed of a center plate 11 and a retaining plate 12. The retaining plate 12 is fixed in the center plate 11. The anchor point 2 is fixed in the retaining plate 12. The one-to-one correspondent is achieved between the retaining plate 12 and the anchor point 2. In this embodiment, there are four sets of anchor points 2, and four retaining plates 12 are radially fixed in the center plate 11, so that the connection plate 1 constitutes the cross-shaped structure. However, in other embodiments, as shown in FIG. 4 and FIG. 5, the connection plate 1 can adopt the regular square structure or other shapes, or other irregular shapes.

[0033] The cavity (not shown in the figure) may be set in the central area of the center plate 11. The cavity is round, square, etc. As shown in FIG. 3, the center plate 11 may not be provided with the cavity, and this application does not put forward the requirements for this.

[0034] The anchor point 2 is used to connect the non-slip mat unit 3. In this embodiment, the anchor point 2 is used as the fixture block, the non-slip mat unit 3 has the slot, and the fixture block is inserted into the slot to achieve the detachable connection between the anchor point 2 and the non-slip mat unit 3. Compared with the existing adhesive connection method, the detachable connection operation between the fixture block and the slot is relatively simple, able to avoid destructive disassembly problems.

[0035] The fixture block adopts the cylindrical structure, made of hard materials; PP material is preferred. The slot is made of soft materials such as TPE and rubber, to facilitate the locking of the fixture block into the slot.

[0036] The snap-in connection operation between the fixture block and the slot is as follows:

[0037] The fixture block is made of hard materials; the slot is made of soft materials. The outer diameter of the fixture block is slightly larger than the inner diameter of the slot, to lock the fixture block into the slot. Under the application of force, the fixture block is removed from the slot to achieve the detachable connection between the connection structure and the non-slip mat unit 3, as well as the assembling of the non-slip mat, in order to realize the transportation of the single non-slip mat unit 3, and reduce the transportation difficulties and costs. During use, several non-slip mat units 3 are spliced into the non-slip mat through the connection structure, to adapt to different operation places, remove the limitation on use of non-slip mats, and effectively improve the use range of non-slip mats.

[0038] As shown in FIG. 6-FIG. 11, the present application also provides a non-slip mat composed of several non-slip mat units 3 and connection structure. Several non-slip mat units 3 are spliced through the connection structure.

[0039] For the convenience of directional positioning, this embodiment establishes the xoy coordinate system (as shown in FIG. 6), wherein the x direction is the width direction of the non-slip mat unit 3 and the y direction is the length direction of the non-slip mat unit 3.

[0040] In the width and length directions, the non-slip mat unit 3 is arranged with several spaced connection block modules. The connection block module is composed of several connection blocks 31. The connection block 31 is integrated with the non-slip mat unit 3, and it has the slot 311. The anchor point 2 of the connection structure is connected to the fastener of the slot 311.

[0041] There is the ribbed plate 32 between the connection block 31 and the non-slip mat unit 3, and between the connection blocks 31. The ribbed plate 32 is used to enhance the strength of the connection block 31, to avoid that the deformation of the connection block 31 due to external force cannot achieve the connection between the anchor point 2 of the connection structure and the fastener of the slot 311.

[0042] In this embodiment, the connection block module on different positions is connected to the connection structure in different ways. The splicing method of the non-slip mat unit 3 is different. The connection between the connection block module and the connection structure is achieved in different ways. The specific information is as follows.

[0043] As shown in FIG. 6, there are four non-slip mat units 3. In the length and width directions, four non-slip mat units 3 are spliced together in pairs; the four connection block modules on the junction position of four non-slip mat units 3 are connected through one connection structure, which is to say that, four anchor points 2 of one connection structure are respectively connected to the fasteners of the slots 311 on the connection blocks of four non-slip mat units 3; in the length and width directions, the connection block module of adjacent non-slip mat unit 3 is connected through one connection structure, which is to say that, four anchor points 2 of one connection structure are connected to the fasteners of the slots 311 on the connection block of adjacent non-slip mat unit 3 in pairs.

[0044] As shown in FIG. 8, there are two non-slip mat units 3 that are spliced together along the length direction. In the length direction, the connection block module of adjacent non-slip mat units 3 can achieve one-to-one correspondence. Two corresponding connection block modules are connected through one connection structure, which is to say that, two anchor points of one connection structure are connected to the slot fastener of one connection block module, while another two anchor points are connected to the slot fastener of another connection block module.

[0045] As shown in FIG. 9, there are two non-slip mat units 3 that are spliced together along the width direction. In the width direction, the connection block module of adjacent non-slip mat units 3 can achieve one-to-one correspondence. Two corresponding connection block modules are connected through one connection structure, which is to say that, two anchor points of one connection structure are connected to the slot fastener of one connection block module, while another two anchor points are connected to the slot fastener of another connection block module.

[0046] The non-slip mat unit 3 is composed of the first end face 35 and the second end face 36 that are located on opposite sides, wherein the first end face 35 is used for pedaling, the second end face 36 is opposite to the ground, and the connection block module is fixed on the second end face 36.

[0047] The first end face 35 of the non-slip mat unit 3 has bristles (not shown in the figure) that can effectively remove dirt from shoes, make feet feel soft, and improve comfort.

[0048] On both sides of the non-slip mat unit 3 along the width direction, there is the inclined surface 33 and the rectangular surface 34. The inclined surface 33 is connected to the first end face 35, and is set sway from the ground, able to prevent the toe from kicking the non-slip mat; it is connected to the ground to avoid falling. The rectangular surface 34 is used for bonding with another set of non-slip mat units 3, ensuring the fit between the two during installation.

[0049] The inclined surface 33 is provided with serrations that can achieve the non-slip effect and increase the aesthetic appeal of the non-slip mat unit 3.

[0050] The non-slip mat unit 3 has several drainage cavities 37 that can effectively achieve the sewage discharge of the non-slip mat unit 3 to keep the non-slip mat unit 3 clean.

[0051] The shape of the drainage cavity 37 can be set as required, such as rectangle and circle, which is not defined in this embodiment.

[0052] The bottom surface of the non-slip mat unit 3 in contact with the ground is separated by several drainage grooves 38, through which the sewage is discharged.

[0053] The second end face 36 of the non-slip mat unit 3 has the coaming 39 that is set around the drainage cavity 37 and is connected to the ground, to support the non-slip mat unit 3 and effectively avoid the deformation of the non-slip mat unit 3.

[0054] In this embodiment, several non-slip mat units 3 are spliced into the non-slip mat through the connection structure, in order to realize the transportation of the single non-slip mat unit 3, and reduce the transportation difficulties and costs. During use, several non-slip mat units 3 are spliced into the non-slip mat through the connection structure, to adapt to different operation places, remove the limitation on use of non-slip mats, and effectively improve the use range of non-slip mats.

[0055] Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by general technicians without creative labor shall fall within the protection scope of the present invention.