CN211775432U - Hollow riveting network floor convenient for wiring - Google Patents

Abstract

The utility model provides a cavity riveting network floor convenient to wiring, include: the square floor board is characterized in that a gap is reserved between two adjacent square floor boards; the wiring groove is formed between two adjacent square floors; the wiring groove comprises an upper groove body and a lower groove body; the upper tank body comprises a first long base plate, and two long sides of the first long base plate respectively extend downwards to form a first wall plate; a plurality of observation holes are formed in the first long substrate; the lower groove body comprises a second long base plate, and two long sides of the second long base plate respectively extend upwards to form a second wall plate; the wire slot cover plate is positioned above the upper slot body; and second wing plates respectively extend out of two sides of the wire slot cover plate, and are supported by the square floor. The hollow riveting network floor convenient for wiring can lay cables in the wiring groove, restrains the trend of the cables, and avoids messy arrangement of the cables.

Description

Hollow riveting network floor convenient for wiring

Technical Field

The utility model relates to a network floor technical field especially relates to a cavity riveting network floor convenient to wiring.

Background

The network floor is specially designed for adapting to modern office and facilitating network wiring. The network floor is overhead to the ground through a support, and the space between the floor and the ground is used for wiring. The cable among the prior art directly arranges between floor and ground, and the trend of line lacks the restraint, and the pencil is mixed and disorderly, is not convenient for the wiring.

Therefore, there is a need for improvements in the prior art.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problem that the cables in the prior art are directly arranged between the floor and the ground, the trend of the cables is lack of constraint, the wire harness is messy, and the cables are inconvenient to wire. The utility model provides a cavity riveting network floor solves above-mentioned problem convenient to wiring.

The utility model provides a technical scheme that its technical problem adopted is: a hollow riveted network floor to facilitate wiring, comprising:

the square floor board is characterized in that a gap is reserved between two adjacent square floor boards;

the wiring groove is formed between two adjacent square floors; the wiring groove comprises an upper groove body and a lower groove body;

the upper tank body comprises a first long base plate, and two long sides of the first long base plate respectively extend downwards to form a first wall plate; a plurality of observation holes are formed in the first long substrate;

the lower groove body comprises a second long base plate, and two long sides of the second long base plate respectively extend upwards to form a second wall plate;

the two first wall plates correspond to the two second wall plates one by one, the bottom end faces of the first wall plates are recessed with slots suitable for the second wall plates to be inserted, and the second wall plates can be slidably inserted into the slots;

two long sides of the first long substrate respectively extend out of a first wing plate, and the first wing plates are respectively supported by the square floor;

the wire slot cover plate is positioned above the upper slot body; and second wing plates respectively extend out of two sides of the wire slot cover plate, and are supported by the square floor.

Preferably, a third wing plate extends out of four long side faces of the square floor respectively, and the length direction of the third wing plate is parallel to the length direction of the long side face where the third wing plate is located; a first convex strip and a second convex strip are protruded on the top surface of the third wing plate, and the length directions of the first convex strip and the second convex strip are parallel to the length direction of the third wing plate; the second convex strip is farther away from the long side face relative to the first convex strip;

the height of the top surface of the square floor is higher than that of the top surface of the first raised line, and the height of the top surface of the first raised line is higher than that of the top surface of the second raised line;

the top surface of the second convex strip bears and supports the first wing plate; the top surface of the first convex strip bears and supports the second wing plate.

Preferably, the first protruding strip is integrally connected with the long side surface;

the first convex strip, the second convex strip and the third wing plate form a first groove together;

a third convex strip is also protruded on the bottom surface of the first wing plate and extends into the first groove;

the bottom surface of the first groove is also provided with a plurality of water leakage holes.

Preferably, the first groove comprises a first section, a second section and a third section;

the first end of the first section is connected with the first end of the second section, and the first end of the third section is fixedly connected with the second end of the second section;

the bottom surface of the first section gradually rises from the first end to the second end thereof, and the bottom surface of the third section gradually rises from the first end to the second end thereof;

the length of the second section accounts for 1/4-1/3 of the total length of the first groove; the water leakage holes are formed in the second section, and the water leakage holes are distributed along the length direction of the second section.

Preferably, four square floors are laid in a structure like a Chinese character 'tian';

the central cover plate is arranged above a gap in the center of the square floor in a shape like a Chinese character 'tian';

the central cover plate is supported by the trunking cover plate and the square floor together; the central cover plate is provided with a mounting through hole, and the top surface of the square floor is provided with a threaded blind hole;

a screw penetrates through the mounting through hole and extends into the threaded blind hole to be in threaded fit with the threaded blind hole;

a water blocking block extends downwards from the bottom surface of the central cover plate, the water blocking block is in a regular quadrangular prism shape, a rubber sleeve is sleeved on the water blocking block, and the rubber sleeve abuts against the end part of the first groove;

the rubber ring surrounds the water retaining block, abuts against the bottom surface of the central cover plate, and also abuts against the top surface of the wire slot cover plate and the top surface of the square floor; the screw is positioned outside the rubber ring.

Preferably, the floor mat also comprises a ground pad and a bracket;

the lower groove body is placed on the floor tile, the lower end of the support is fixedly connected with the floor tile, and the upper end of the support is fixedly connected with the square floor.

The beneficial effects of the utility model are that, the cable can be laid in the wiring groove of this kind of cavity riveting network floor convenient to wiring, and the trend of restraint cable avoids the cable to arrange in a jumble.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic diagram of a state of a preferred embodiment of a hollow riveted network floor for facilitating wiring according to the present invention.

Fig. 2 is a schematic structural view of another state of the preferred embodiment of a hollow rivet network floor for facilitating wiring according to the present invention.

Fig. 3 is an enlarged view of a in fig. 2.

Fig. 4 is a schematic view of a partial structure of a preferred embodiment of the hollow riveting network floor for facilitating wiring according to the present invention.

Fig. 5 is an exploded view of the partial structure of a preferred embodiment of a hollow rivet network floor for facilitating wiring according to the present invention.

Fig. 6 is an enlarged view of B in fig. 5.

Fig. 7 is a schematic view of a partial structure of a preferred embodiment of the hollow riveted network floor for facilitating wiring according to the present invention.

Fig. 8 is an enlarged view of C in fig. 7.

Fig. 9 is an enlarged view of D in fig. 7.

In the figure, 1, a square floor, 101, a long side face, 102, a third wing plate, 1021, a first convex strip, 1022, a second convex strip, 1023, a first groove, 1024, a water leakage hole, 103, a threaded blind hole, 2, an upper groove body, 201, a first long base plate, 2011, a first wing plate, 2012, a third convex strip, 2016, an observation hole, 202, a first wall plate, 2021, a slot, 3, a lower groove body, 301, a second long base plate, 302, a second wall plate, 4, a wire groove cover plate, 401, a second wing plate, 5, a central cover plate, 501, an installation through hole, 502, a water blocking block, 503, a rubber sleeve, 504, a rubber ring, 6 and a ground-attaching gasket are adopted.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing and simplifying the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1-9, the utility model provides a cavity riveting network floor convenient to wiring, include:

the square floor board 1, a clearance is left between two adjacent square floor boards 1.

The wiring groove is equipped with the wiring groove between two adjacent square floor 1, and the wiring groove includes cell body 2 and lower cell body 3.

The upper tank body 2 comprises a first long base plate 201, and two long sides of the first long base plate 201 are respectively extended with a first wall plate 202 downwards. The first elongated substrate 201 has a plurality of observation holes 2016.

The lower tank 3 includes a second long base plate 301, and two long sides of the second long base plate 301 respectively extend upward to form a second wall plate 302.

The two first wall plates 202 correspond to the two second wall plates 302 one by one, the bottom end surfaces of the first wall plates 202 are recessed with slots 2021 suitable for the second wall plates 302 to be inserted, and the second wall plates 302 are slidably inserted into the slots 2021.

The four long side surfaces 101 of the square floor 1 are respectively extended with a third wing plate 102, and the length direction of the third wing plate 102 is parallel to the length direction of the long side surface 101 where the third wing plate is located. The top surface of the third wing plate 102 is protruded with a first convex strip 1021 and a second convex strip 1022, and the length direction of the first convex strip 1021 and the second convex strip 1022 is parallel to the length direction of the third wing plate 102. The second protrusion 1022 is farther from the elongated side 101 than the first protrusion 1021.

The height of the top surface of the square floor 1 is higher than that of the top surface of the first convex strip 1021, and the height of the top surface of the first convex strip 1021 is higher than that of the top surface of the second convex strip 1022.

The two long sides of the first long substrate 201 also respectively extend to form a first wing 2011. And the wire casing cover plate 4 is positioned above the upper groove body 2. Second wing plates 401 respectively extend from two sides of the trunking cover plate 4.

The top surface of the second rib 1022 supports the first wing 2011. The top surface of the first protrusion 1021 supports the second panel 401.

Also included are a ground pad 6 and a bracket (not shown). The floor pasting mat piece 6 is placed on the ground, the lower groove body 3 is placed on the floor pasting mat piece 6, the lower end of the support is fixedly connected with the floor pasting mat piece 6, and the upper end of the support is fixedly connected with the square floor 1.

This kind of cavity riveting network floor convenient to wiring is when the installation, places pad piece 6 on ground earlier, then installing support and square floor 1, will place cell body 3 down on pad piece 6 afterwards, can lay the cable in the cell body 3 down this moment, and cell body 3 can retrain the trend of cable down, avoids the cable to arrange in a jumble. After the wiring is completed, the slot 2021 of the upper trough body 2 is aligned with the second wall plate 302, and the first wing 2011 of the upper trough body 2 is erected on the top surface of the second rib 1022. The arrangement of the cables in the wiring groove can still be checked through the observation hole 2016.

Because the upper trough body 2 is erected on the square floor 1 and the upper trough body 2 and the lower trough body 3 can slide, the higher the floor is erected, the larger the space in the wiring trough for laying the cables is. This enables the space to be fully utilized.

After the cable is laid and the cable is confirmed to be correct, the second wing plate 401 of the slot cover plate 4 is erected on the top surface of the first convex strip 1021 to complete installation.

According to another embodiment, the first convex strip 1021 is integrally connected with the elongated side 101.

The first protrusion 1021, the second protrusion 1022, and the third wing 102 collectively form a first groove 1023.

A third protruding strip 2012 protrudes from the bottom surface of the first wing 2011, and the third protruding strip 2012 extends into the first groove 1023. When the top surface of the second protruding strip 1022 holds the first wing plate 2011, the third protruding strip 2012 extends into the first groove 1023, and the second protruding strip 1022 blocks the third protruding strip 2012, so that the third protruding strip 2012 cannot slide out of the first groove 1023, and further the upper trough body 2 is ensured not to fall below the square floor 1.

The bottom surface of the first recess 1023 is further opened with a plurality of water leakage holes 1024, and the water leakage holes 1024 penetrate from the bottom surface of the first recess 1023 to the bottom surface of the square floor 1.

The first groove 1023 includes a first section, a second section, and a third section. The first end of the first section is connected with the first end of the second section, and the first end of the third section is fixedly connected with the second end of the second section. The bottom surface of the first section gradually rises from the first end portion to the second end portion thereof, and the bottom surface of the third section gradually rises from the first end portion to the second end portion thereof.

The length of the second segment is 1/3 of the total length of the first groove 1023. The water leakage holes 1024 are formed in the second section, and the plurality of water leakage holes 1024 are arranged along the length direction of the second section.

In the network floor in the prior art, after water is splashed onto the floor, the water flows onto the cable along the gap of the floor, so that potential safety hazards are brought.

In this embodiment, this kind of cavity riveting network floor convenient to wiring lays the back that finishes, and the in-process of using is inevitable to have water to pour on the floor (if under the condition such as user's cup falls down), and after water pours on the floor, water flows to first recess 1023 along the clearance between wire casing apron 4 and the square floor 1, and the water in first recess 1023 flows out from water leakage hole 1024 after the effect of gravity flows to the second section, avoids falling on the cable.

According to a further embodiment, four square floors 1 are laid in a "grid" configuration. The central cover plate 5 is arranged above the gap of the center of the square floor 1 which is laid in the structure of the Chinese character 'tian' and is provided with four square floor boards 1.

The central cover plate 5 is supported by the trunking cover plate 4 and the square floor 1 together. The central cover plate 5 is provided with a mounting through hole 501, and the top surface of the square floor 1 is provided with a threaded blind hole 103.

And the screw penetrates through the mounting through hole 501 and extends into the threaded blind hole 103 to be in threaded fit with the threaded blind hole 103, so that the central cover plate 5 is fixed with the square floor 1.

The bottom surface of the central cover plate 5 extends downwards to form a water blocking block 502, the water blocking block 502 is in a regular quadrangular prism shape, a rubber sleeve 503 is sleeved on the water blocking block 502, the rubber sleeve 503 abuts against the end part of the first groove 1023, and water flowing into the first groove 1023 is prevented from flowing out of the end part of the first groove 1023 and falling onto a cable.

The rubber ring 504, the water blocking piece 502 is encircleed to the rubber ring 504, and the rubber ring 504 supports the bottom surface in central shroud 5, and the rubber ring 504 still supports the top surface in wire casing apron 4 and the top surface on square floor 1. The screws are located outside the rubber ring 504.

In the present embodiment, when water is splashed on the central cover 5, the rubber ring 504 can prevent the water from flowing between the central cover 5 and the trunking cover 4 or between the central cover 5 and the square floor 1 and then falling onto the cable below the square floor 1.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, a schematic representation of the term does not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. A hollow riveted network floor convenient for wiring, comprising:

the square floor board is characterized in that a gap is reserved between two adjacent square floor boards;

the wiring groove is formed between two adjacent square floors; the wiring groove comprises an upper groove body and a lower groove body;

the upper tank body comprises a first long base plate, and two long sides of the first long base plate respectively extend downwards to form a first wall plate; a plurality of observation holes are formed in the first long substrate;

the lower groove body comprises a second long base plate, and two long sides of the second long base plate respectively extend upwards to form a second wall plate;

the two first wall plates correspond to the two second wall plates one by one, the bottom end faces of the first wall plates are recessed with slots suitable for the second wall plates to be inserted, and the second wall plates can be slidably inserted into the slots;

two long sides of the first long substrate respectively extend out of a first wing plate, and the first wing plates are respectively supported by the square floor;

the wire slot cover plate is positioned above the upper slot body; and second wing plates respectively extend out of two sides of the wire slot cover plate, and are supported by the square floor.

2. A hollow riveted network floor of claim 1, wherein:

a third wing plate extends out of four long side faces of the square floor respectively, and the length direction of the third wing plate is parallel to the length direction of the long side face where the third wing plate is located; a first convex strip and a second convex strip are protruded on the top surface of the third wing plate, and the length directions of the first convex strip and the second convex strip are parallel to the length direction of the third wing plate; the second convex strip is farther away from the long side face relative to the first convex strip;

the height of the top surface of the square floor is higher than that of the top surface of the first raised line, and the height of the top surface of the first raised line is higher than that of the top surface of the second raised line;

the top surface of the second convex strip bears and supports the first wing plate; the top surface of the first convex strip bears and supports the second wing plate.

3. A hollow riveted network floor of claim 2, wherein:

the first convex strip is integrally connected with the long side face;

the first convex strip, the second convex strip and the third wing plate form a first groove together;

a third convex strip is also protruded on the bottom surface of the first wing plate and extends into the first groove;

the bottom surface of the first groove is also provided with a plurality of water leakage holes.

4. A hollow riveted network floor of claim 3, wherein:

the first groove comprises a first section, a second section and a third section;

the first end of the first section is connected with the first end of the second section, and the first end of the third section is fixedly connected with the second end of the second section;

the bottom surface of the first section gradually rises from the first end to the second end thereof, and the bottom surface of the third section gradually rises from the first end to the second end thereof;

the length of the second section accounts for 1/4-1/3 of the total length of the first groove; the water leakage holes are formed in the second section, and the water leakage holes are distributed along the length direction of the second section.

5. A hollow riveted network floor of claim 4, wherein:

four square floors are laid in a 'Chinese character' shape;

the central cover plate is arranged above a gap in the center of the square floor in a shape like a Chinese character 'tian';

the central cover plate is supported by the trunking cover plate and the square floor together; the central cover plate is provided with a mounting through hole, and the top surface of the square floor is provided with a threaded blind hole;

a screw penetrates through the mounting through hole and extends into the threaded blind hole to be in threaded fit with the threaded blind hole;

a water blocking block extends downwards from the bottom surface of the central cover plate, the water blocking block is in a regular quadrangular prism shape, a rubber sleeve is sleeved on the water blocking block, and the rubber sleeve abuts against the end part of the first groove;

the rubber ring surrounds the water retaining block, abuts against the bottom surface of the central cover plate, and also abuts against the top surface of the wire slot cover plate and the top surface of the square floor; the screw is positioned outside the rubber ring.

6. A hollow riveted network floor of claim 5, wherein:

the floor-mounted mat also comprises a floor-mounted pad and a bracket;

the lower groove body is placed on the floor tile, the lower end of the support is fixedly connected with the floor tile, and the upper end of the support is fixedly connected with the square floor.

Images