CN111759150A - Anti-skid buffer pad - Google Patents

Abstract

The present disclosure relates to an anti-slip bumper pad, which includes: a cushion dividing body having a quadrangular shape; a plurality of insertion ports provided on a bottom surface of the pad dividing body and made of a hard resin material; a buffer gel attached to bottom surfaces of the plurality of insertion ports; a plurality of main connecting grooves formed obliquely and concavely from corners of a bottom surface of the pad dividing body toward an inner side direction; and a main coupling groove fixing piece having a cross shape and fixed in the main coupling grooves of the four pad segments adjacently coupled based on respective corners of the pad segments by interference fit, the anti-slip buffer pad being used according to area combination and coupling of the floor and capable of preventing impact and slip at the same time.

Description

Anti-skid buffer pad

Technical Field

The present disclosure relates to a slip-resistant bumper pad. And more particularly, to an anti-slip buffer pad which is inserted into and formed with a hard insertion port at the bottom surface of a soft pad partition body, and can prevent slipping by a buffer gel attached to the bottom surface of the insertion port. Further, it relates to an anti-slip buffer pad which can easily lay an anti-slip buffer pad suitable for a desired area in a combined pad segment body by a coupling structure of fixing pieces fixed to coupling grooves of the pad segment bodies adjacent to each other.

Background

Various mats (mat) and mats (pad) are used in real life. In particular, since mats such as a kitchen mat, a sports mat, a game room mat, and the like pose a risk of serious injury to a user when slipping on the floor, an anti-slip function is an important requirement.

In addition, recently, in addition to various facilities related to children such as a nursery and a kindergarten, an elastic floor mat is also placed or wrapped in a general household having children or raising pets to prevent safety accidents due to slipping on the floor.

Therefore, mats and mats to be installed on floors or places where non-slip is required have been developed, and related technologies are korean laid-open utility model publication No. 20-2013-0000074 "combined non-slip mat", korean registered patent publication No. 10-1486556 "connection structure of safety mat for children installed on roof of building", korean registered patent publication No. 10-1239811 "ceramic coated rubber mat for preventing slipping of conveyor belt pulley and manufacturing method thereof".

The 'combined type anti-slip floor mat' has a quadrangular cross-sectional shape and includes a combination unit forming a clip hole at an inner portion, a soft body elastically inserted into the clip hole of the combination unit and having a combination protrusion, and an anti-slip unit formed with a hollow portion. The portions corresponding to the non-slip units are configured to form drainage channels in the form of relatively protruding crosses, and can be combined in various forms according to the installation field and smoothly drain water, although suitable for use in bathrooms or places where water is present, but the impact absorption function is limited.

The "coupling structure of a child safety mat to be installed on the roof of a building" is constructed in a method of combining a plurality of soundproof mats and a plurality of safety mats formed with concavo-convex shaped anti-slip units, which can be easily combined and installed by combining the soundproof mats and the safety mats, and some damaged mats can be easily replaced and repaired, but it is necessary to combine two kinds of mats to perform various functions, and there is a limitation in using an integrated type at a desired portion.

The "ceramic-coated rubber mat for preventing slipping of a conveyor belt pulley and a method of manufacturing the same" are composed of a rubber mat, anti-slip protrusion units, and tiles, which prevent the idle running of the conveyor belt pulley by increasing the static friction force between the conveyor belt and the rotating drum or the conveyor belt pulley, and can stably run even when subjected to external influences such as snow and rain, but there is a limit in the mat for coupling to the floor due to the fixing method and the surface condition, and there is a limit in the range where the mat is suitably combined and deformed to a desired extent.

Disclosure of Invention

In order to solve the above-described problems, the present disclosure provides an anti-skid buffer pad that improves an anti-skid function.

Further, by having a simple structure with a function higher than that of the conventional one, the manufacturing cost can be reduced and the manufacturing can be facilitated.

In addition, a connecting groove and a fixing piece are provided to improve the connection stability.

To achieve the above objects, the non-slip buffer pad of the present disclosure may include: a cushion dividing body having a quadrangular shape; a plurality of insertion ports provided on a bottom surface of the pad dividing body and made of a hard resin material; a buffer gel attached to a bottom surface of the insertion port; a main connecting groove formed obliquely and concavely from a corner of a bottom surface of the pad dividing body to an inner side direction; and a main connection groove fixing piece having a cross shape and fixed in the main connection grooves of the four pad segments adjacently connected based on respective corners of the pad segments in an interference fit; and is used according to the area combination and connection of the floor.

The N insertion holes form N x m rows and columns of the cushion segments and are arranged at intervals in the cushion segments, and the anti-slip and anti-slip cushion pad may further include connecting rods, which are arranged on the bottom surface of the cushion segments, are made of a hard resin material, and connect the insertion holes adjacent to each other in a straight line.

The cushion split body may be made of a soft resin material, and injection-molded or foam-molded with the insertion port and the tie bar as inserts.

The non-slip bumper pad may further include: a plurality of auxiliary coupling grooves concavely formed from a center point of each lateral line of a bottom surface of the pad partition body in an inward direction; and an auxiliary coupling groove fixing piece having a straight shape and fixed in an interference fit in the auxiliary coupling grooves of the two pad segments connected adjacent to each other based on the lateral lines of the pad segments.

The primary attachment slot securing tab may include: a cross-shaped post; and a main hanging end formed to be extended at a tip of the cross-shaped pole and composed of a roof-shaped isosceles trapezoid whose upper side is shorter than a lower side. Wherein, the auxiliary coupling groove fixing piece may include: a linear-shaped pole, and an auxiliary hanging end formed to be elongated at a distal end of the linear-shaped pole and composed of a roof-shaped isosceles trapezoid whose upper side is shorter than lower side.

The anti-slip buffer pad may further include a passage formed to open in a lateral direction of the set pattern at the bottom surface of the pad dividing body and performing a ventilation function.

In addition, in order to achieve the above object, the non-slip buffer pad of the present disclosure may include: a pad body having a single quadrangular shape; a plurality of insertion ports provided on a bottom surface of the pad main body and made of a hard resin material; and a buffer gel attached to a bottom surface of the insertion port.

The non-slip buffer pad may further include a passage opened in a side direction of the set pattern at the bottom surface of the pad body and performing a ventilation function.

Drawings

Fig. 1 is a view showing a pattern of combining the anti-skid crash pad according to the present disclosure.

Fig. 2 is a view showing a bottom surface of a non-slip cushion segment body in combination according to the present disclosure.

Fig. 3 is a view showing the bottom surface of the non-slip cushion segmented body according to the present disclosure.

Fig. 4 is a view showing an inner cross section of a non-slip cushion segmented body according to the present disclosure.

Fig. 5 is a view illustrating a path formed at the bottom surface of the non-slip buffer segmented body according to the present disclosure.

Fig. 6 is a view illustrating a path formed at the inner surfaces of the non-slip cushion segmented body and the main body according to the present disclosure.

Fig. 7 is a view illustrating a main coupling groove fixing piece of the non-slip cushion segmented body according to the present disclosure.

Fig. 8 is a view illustrating an auxiliary coupling groove fixing piece of the non-slip buffer segmentation body according to the present disclosure.

Fig. 9 is a view showing patterns before and after inserting a main coupling groove fixing piece according to an embodiment of the present disclosure.

Fig. 10 is a view showing patterns before and after inserting an auxiliary coupling groove fixing piece according to an embodiment of the present disclosure.

Fig. 11 is a diagram illustrating a bottom surface of a pad body according to an embodiment of the present disclosure.

Detailed Description

Hereinafter, the present disclosure will be described with reference to the accompanying drawings. In the following description of the present disclosure, when it is judged that a detailed description of a related art or structure is judged that it may unnecessarily obscure the gist of the present disclosure, the detailed description thereof will be omitted.

The terms used below are terms defined in consideration of functions of the present disclosure, which may vary according to intentions or customs of users and operators, and thus, the definitions of the terms should be based on descriptions throughout the specification describing the present disclosure.

The non-slip bumper pad according to the embodiment of the present disclosure may be used in combination as shown in fig. 1 and 2. Referring to fig. 3 to 7, the anti-slip buffer pad according to the embodiment of the present disclosure may include a pad dividing body 100, an insertion port 200, a cushion gel 210, a main coupling groove 300, and a main coupling groove fixing piece 400.

In an embodiment of the present disclosure, the pad dividing body 100 may have a quadrangular shape. A plurality of the mat division bodies 100 may be appropriately combined and connected according to the installation space to be used. The cushion divided body 100 includes a soft resin material, and may be manufactured using various materials other than a porous material, such as a sponge material, urethane, and synthetic resin, which can easily absorb impact.

The insertion port 200 may be formed in a plurality of (N) on the bottom surface of the pad dividing body 100 and provided in an N x m structure. The insertion port 200 includes a hard resin material, and a hard thermosetting plastic such as a phenol resin, an epoxy resin, and a polyester resin can be used, and further, various hard materials can be used for manufacturing.

The cushion gel 210 is attached to the bottom surface of the insertion port 200, and various materials having non-stick viscosity such as rubber or gel may be used to function as a slip prevention.

The main connection grooves 300 are formed at corners of the bottom surface of the pad partition 100 to be inclined inward, and are respectively located at upper, lower, left and right apexes of the pad partition 100 and have a plurality of apexes, which serve as a foundation to which the pad partition 100 can be combined and connected.

Referring to fig. 3, the non-slip buffer pad according to the embodiment of the present disclosure may further include an auxiliary coupling groove 310. The auxiliary coupling groove 310 is concavely formed in an inner side direction at a center point of each lateral line of the bottom surface of the pad compartment body 100, and serves as a foundation to which the pad compartment body 100 can be combined and coupled together with the main coupling groove 300.

In the embodiment of the present disclosure, as shown in fig. 7 and 9, the main coupling groove fixing piece 400 is formed in an interference fit cross in the main coupling grooves 300 of the four pad segments 100 adjacently coupled based on the corners of the pad segments 100, and is composed of a cross-shaped post 401 and a main hanging end 402.

The cross-shaped post 401 has a cross-shaped post and is inserted and fixed in the main coupling groove 300 without interference.

In the embodiment of the present disclosure, as shown in fig. 7 and 9, a main hanging end 402 is formed to be elongated at the tip of the cross-shaped pole 401 and is constituted by a roof-shaped isosceles trapezoid whose upper side is shorter than lower side, and the main hanging end 402 is inserted and fixed into the main connecting groove 300 near the lower side of the interference fit.

Referring to fig. 8 and 10, the anti-slip buffer pad according to the embodiment of the present disclosure may further include an auxiliary coupling groove fixing piece 410. The auxiliary coupling groove fixing piece 410 is fixed in an interference fit and formed in a straight line in the auxiliary coupling groove 310 of two pad segments 100 that are connected adjacent to each other based on the lateral line of the pad segment 100, and is composed of a straight-line-shaped pole 411 and an auxiliary hanging end 412.

The in-line shaped pole 411 has an in-line shaped pole and is inserted and fixed in the auxiliary coupling groove 310 without interference.

In the embodiment of the present disclosure, as shown in fig. 8 and 10, the auxiliary hanging end 412 is formed in a straight shape, as shown in fig. 7, at the end of the cross-shaped pole 411, and is formed of a roof-shaped isosceles trapezoid whose upper side is shorter than lower side, and the vicinity of the lower side is pressed into the auxiliary connecting groove 310 so that the auxiliary hanging end 412 is inserted and fixed.

Referring to fig. 8 and 10, the anti-skid buffer pad according to the embodiment of the present disclosure may further include a connection rod 500. The connection rods 500 are connected between eight insertion ports 200 provided at the edges of the pad dividing body 100, and are linearly formed to have a width smaller than the shape of the insertion ports 200.

The connecting rod 500 may or may not be included in the non-slip bumper.

Referring to fig. 5 and 6, the non-slip bumper pad according to an embodiment of the present disclosure may further include a channel 600. The via 600 is formed to be opened in a side direction of a set pattern at the bottommost surface in the process of manufacturing the pad dividing body 100. The passage 600 forms a moving path of air and moisture between the floor where the mat dividing body 100 is located and the mat dividing body 100 to prevent the propagation of fungi or microorganisms and bacteria due to the moisture.

On the one hand, as shown in fig. 11, the non-slip buffer pad according to the embodiment of the present disclosure is composed of an insertion port 200 and a buffer gel 210, and is formed as a single pad body 110 having a large size. One pad body 110 thus constructed may be provided to cover the floor surface, and may or may not include the connecting rod 500. The non-slip bumper according to embodiments of the present disclosure may further include a channel 600. As shown in fig. 5 and 6, the via 600 is formed to be opened in a side direction of a set pattern at the bottommost surface in the process of manufacturing the pad main body 110. The pathway 600 forms a moving path of air and moisture between the floor on which the pad body 110 is located and the pad body 110 to prevent the propagation of fungi or microorganisms and bacteria due to the moisture.

In the embodiment of the present disclosure, as shown in fig. 4, the insert port 200 and the connecting rod 500 are inserted into a mold as an insert, and the cushion split body 100 made of a material capable of absorbing impact is inserted and fixed around the insert by using an insert injection molding method or an insert foam molding method, so that the anti-slip and cushioning pad can wrap the insert.

In the embodiment of the present disclosure, as shown in fig. 3, the anti-slip buffer pad is formed in an insert injection method, and is insert injected by placing mold cores for manufacturing the main coupling groove 300 and the coupling groove 310 and respectively having appropriate sizes and shapes at corresponding positions to enable the formation of the groove.

The following effects can be obtained according to the non-slip bumper pad of the present disclosure.

First, the present disclosure can use an anti-skid buffer pad that improves the above-mentioned prior art problems and enhances the anti-skid function.

Second, compared to the lift function, it has a simple structure, making manufacturing easy and making it possible to reduce manufacturing costs.

Third, having the coupling groove and the fixing piece makes it possible to improve coupling stability, and having the passage makes it possible to reduce propagation of fungi or bacteria and microorganisms.

The drawings show an embodiment embodying the present invention to describe the present invention described above, and various combinations are possible in order to achieve the gist of the present invention as shown in the drawings.

Therefore, the present invention is intended to cover the technical scope of the present invention as long as various modifications can be made to those skilled in the art without departing from the above-described embodiments.

Claims (8)

1. A non-slip bumper pad, comprising:

a cushion dividing body having a quadrangular shape;

a plurality of insertion ports provided on a bottom surface of the pad dividing body and made of a hard resin material;

a buffer gel attached to bottom surfaces of the plurality of insertion ports;

a plurality of main connecting grooves formed obliquely and concavely from corners of a bottom surface of the pad dividing body toward an inner side direction; and

a main connection groove fixing piece having a cross shape and fixed in interference fit in main connection grooves of four pad segments adjacently connected based on respective corners of the pad segments.

2. The non-slip bumper pad of claim 1,

the N insertion opening pad dividing bodies form N x m rows and columns and are arranged on the pad dividing bodies at intervals,

the anti-slip cushion further includes a coupling rod provided to the bottom surface of the cushion dividing body, made of a hard resin material, and linearly coupling the insertion ports adjacent to each other.

3. The anti-slip bumper pad of claim 2,

the cushion split body is made of a soft resin material, and is injection-molded or foam-molded with the insertion port and the tie bar as inserts.

4. The non-slip bumper pad of claim 1, further comprising:

a plurality of auxiliary coupling grooves concavely formed from a center point of each lateral line of a bottom surface of the pad partition body in an inward direction; and

and an auxiliary coupling groove fixing piece having a straight shape and fixed in an interference fit in the auxiliary coupling grooves of the two pad segments connected adjacent to each other based on the lateral lines of the pad segments.

5. The non-slip bumper pad of claim 4,

the main connecting groove fixing piece comprises:

a cross-shaped post; and

a main hanging end formed to be extended at a tip of the cross-shaped pole and composed of a roof-shaped isosceles trapezoid whose upper side is shorter than lower side,

wherein, supplementary spread groove stationary blade includes:

a linear post; and

and an auxiliary hanging end formed to be extended at a distal end of the in-line shaped pole and composed of a roof-shaped isosceles trapezoid whose upper side is shorter than lower side.

6. The non-slip cushioning pad of any one of claims 1 to 5, comprising:

and a passage formed in the bottom surface of the pad dividing body in a lateral direction of the set pattern and performing a ventilation function.

7. A non-slip bumper pad, comprising:

a pad body having a single quadrangular shape;

a plurality of insertion ports provided on a bottom surface of the pad main body and made of a hard resin material; and

a buffer gel attached to a bottom surface of the insertion port.

8. The anti-skid bumper pad of claim 7, comprising:

a passage formed in the bottom surface of the pad body in a lateral direction of the set pattern and performing a ventilation function is opened.

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