CN113756543A

CN113756543A - Anti-static rubber floor

Info

Publication number: CN113756543A
Application number: CN202110963987.7A
Authority: CN
Inventors: 曹万虎
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-21
Filing date: 2021-08-21
Publication date: 2021-12-07

Abstract

The invention belongs to the technical field of rubber floors, in particular to an anti-static rubber floor, which aims at solving the problem that the rubber floor in the prior art cannot be durable in static electricity removal. When the floor is used, the metal wires between two adjacent floor bodies are butted, and then when static electricity is generated at the local position of the upper surface of the floor body, the static electricity is transmitted to the metal wires inside through the metal net piece and the spiral conducting wires, and then the static electricity is transmitted to the ground.

Description

Anti-static rubber floor

Technical Field

The invention relates to the technical field of rubber floors, in particular to an anti-static rubber floor.

Background

Nowadays, the common ground decoration materials on the market are wood floors, ceramic tiles, plastic floors, rubber floors, etc., and the rubber floors are suitable for some places, such as workshops of electronic factories, large-area offices, some public places such as schools, airports, and transportation vehicles such as airplanes, trains, etc. In addition, in these places, for example, in workshops where electronic products are produced and assembled, a large amount of static electricity is often generated in offices where a plurality of computers and other electronic office equipment such as printers, copiers, and the like are used. If these static electricity are not eliminated, the health of people or the quality of products are adversely affected.

In order to solve the problems of noise and static electricity, some companies lay antistatic carpets for offices, but although the carpets have good silencing effect, the antistatic performance is not durable, especially after many times of washing. The cleaning of the carpet can not leave daily chemical products, and the static accumulation effect is aggravated after long-term accumulation. In addition, for large area offices, significant maintenance costs are also paid for cleaning carpets. Therefore, most of the existing rubber floors in the places usually adopt rubber floors, and the materials of the existing rubber floors are doped with static-removing ions, so that the static-preventing effect is greatly reduced once the static ions on the ground surface plane are rubbed off, and therefore a novel durable static-preventing rubber floor is needed.

Disclosure of Invention

The invention provides an anti-static rubber floor, aiming at overcoming the problem that the rubber floor in the prior art cannot be durable in static electricity removal.

In order to achieve the purpose, the invention adopts the following technical scheme: an anti-static rubber floor comprises a floor body made of rubber materials, wherein the whole floor body is of a flat cuboid structure, mounting through holes which are distributed at equal intervals and are parallel to each other are formed in the side face of the floor body, hidden grooves which are parallel to the axial lead of the mounting through holes are formed in one side of each mounting through hole, a plurality of wire holes which are communicated with the mounting through holes are formed in the upper surface of the floor body, a metal frame is embedded in an opening at the top end of each mounting through hole, a metal net sheet is fixed in the middle of the metal frame, spiral wires are fixed below the metal net sheet, metal wires are inserted in the mounting through holes, ventilation hidden channels which are distributed at equal intervals are formed in the inner wall of the bottom of each hidden groove, a spring clamping frame which is of a barrel-shaped structure and is opened downwards is fixed at the opening of each hidden channel in the inner wall of the bottom of each hidden groove, compression springs are sleeved on the outer circumferential walls of the spring clamping frames, and metal plates are fixed at the top ends of the compression springs, the upper surface of metal sheet pastes on the top inner wall of camera obscura both ends of camera obscura all be fixed with sealed lid, it has the anion injection pipe to peg graft in the middle of sealed lid, thereby can be when using with the metal wire butt joint in the middle of two adjacent floor body can, later when the local position of the upper surface of floor body produces static, static can be through metal mesh and spiral conductor with static transmission to inside metal wire, and then conduct it to ground, secondly only need to dock the tip of two adjacent floor bodies together, it can to provide an anion generator, later can compress the space in the camera obscura when the user steps on the upper surface of floor body, and then the air that the compression contains the anion passes through the ventilation dark way and then comes into contact the metal mesh and then carries out the getting rid of static from the line hole blowout again.

As a preferable scheme in the invention, the middle part of the lower surface of the spring clamp frame is provided with the air hole, the lower surface of the spring clamp frame close to the edge is provided with the fixing hole, and the fixing hole and the lower surface of the air hole are plugged with the same rubber plug plate, so that when the air-flow-plug device is used, the air flow passing through the air hole can only realize a one-way flowing state, and further the air flow with negative ions can be continuously sprayed out by continuously treading the lower part of the metal mesh.

In a preferred embodiment of the present invention, the inner wall of the mounting through hole is provided with a spiral groove, and a gap is left between the outer wall of the metal wire and the inner wall of the mounting through hole, so that it is ensured that the air flow is not blocked by the metal wire.

According to the preferable scheme of the invention, the end part of the floor body is reserved with the lugs distributed at equal intervals, the upper surfaces of the lugs are respectively provided with the hexagonal sinking grooves, and the hexagonal nuts are respectively embedded in the hexagonal sinking grooves.

As a preferable scheme in the invention, one end of the floor body, which is far away from the convex block, is provided with a slot matched with the size of the outer wall of the convex block, stepped counter bores communicated with the slot are formed in the upper surface of the floor body, which is positioned above the slot, and fastening bolts are inserted in the stepped counter bores, so that when the floor body is in butt joint in use, one end of the floor body, which is provided with the convex block, is only required to be plugged into the slot at the end part of the upper floor body, and the floor body can be fixed by bolts and glue.

According to the preferable scheme of the invention, a vertically-arranged groove-shaped upright post is further embedded in the slot, an arched rod is fixed in the middle of an opening of the groove-shaped upright post, and a sleeve is sleeved in the middle of a horizontal rod of the arched rod.

As a preferable scheme in the invention, an extension belt with a flat structure is further fixed at one end of the floor body, which is far away from the slot, and a ferrule is reserved at one end of the upper surface of the extension belt, which is far away from the floor body, a slider is sleeved inside the ferrule, and the slider and the inner wall of the groove-shaped upright post form sliding connection, so that when two floor bodies need to be spliced in use, pulling on the next floor body can be formed by screwing a fastening bolt, and a pulling tension is ensured to be always kept between the two floor bodies after installation, thereby improving the installation tightness.

As the preferable scheme in the invention, the four corners of one side of the slider close to the inner wall of the bottom of the groove-shaped upright post are embedded with the balls, so that the slider can move up and down more smoothly.

As the preferable scheme in the invention, the lower surface of the floor body is provided with the inclined grooves distributed at equal intervals, so that the roughness and the bonding effect of the lower surface of the floor body are improved.

To sum up, the beneficial effect in this scheme is:

1. an anti-static rubber floor is provided with metal wires penetrating through the interior of a floor body, wire holes communicated with mounting through holes, and a metal frame and a metal mesh sheet embedded at the top ends of the wire holes, so that the metal wires in the middle of two adjacent floor bodies can be butted when the anti-static rubber floor is used, and then when static electricity is generated at the local position of the upper surface of the floor body, the static electricity can be transmitted to the metal wires in the floor body through the metal mesh sheet and spiral leads and then is transmitted to the ground;

2. an anti-static rubber floor board is characterized in that a hidden groove arranged in a floor board body and an ion jet pipe inserted in the middle of a sealing cover in a matched mode through a compression spring are arranged, when a user steps on the upper surface of the floor board body, the space in the hidden groove is compressed, and then air containing negative ions is compressed to pass through a ventilation hidden channel and then is jetted out from a wire hole to contact with a metal mesh to remove static electricity;

3. the utility model provides an anti-static rubber floor, through the extension belt that sets up, flute profile stand and slot combination, can be when using need splice two floor bodies, can form drawing of next floor body through revolving of fastening bolt soon, ensure to have one between two floor bodies after the installation to pull the pulling force all the time to the compactness of installation has been improved.

Drawings

FIG. 1 is a schematic front oblique view of an anti-static rubber floor according to the present invention;

FIG. 2 is a schematic structural view of an anti-static rubber floor spring clip frame according to the present invention;

FIG. 3 is a schematic rear oblique view of an anti-static rubber floor according to the present invention;

fig. 4 is a schematic cross-sectional view of an anti-static rubber floor according to a second embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of a joint of an anti-static rubber floor according to a second embodiment of the present invention;

fig. 6 is a schematic perspective view of a groove-shaped pillar of an anti-static rubber plate according to a second embodiment of the present invention.

In the figure: the floor comprises a floor body 1, a ventilation blind channel 2, a spiral groove 3, a metal wire 4, a raised head 401, a mounting through hole 5, a slant groove 6, a fastening bolt 7, a sleeve 8, a bow rod 9, a groove-shaped upright post 10, a slot 11, a stepped counter bore 12, a plug 13, a line hole 14, a spiral wire 15, a metal mesh 16, a metal frame 17, a blind groove 18, a metal plate 19, a compression spring 20, a spring clamping frame 21, a fixing hole 2101, a rubber plug plate 2102, a vent hole 2103, an extension belt 22, a slider 23, a ferrule 24, a ball 25, a bump 26, a hexagonal counter sink 27, a hexagonal nut 28, a sealing cover 29 and an ion injection pipe 30.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In this example

Referring to fig. 1-6, an antistatic rubber floor comprises a floor body 1 made of rubber material, the whole floor body 1 is a flat cuboid structure, the side surface of the floor body 1 is provided with mounting through holes 5 which are distributed at equal intervals and are parallel to each other, one side of the mounting through hole 5 is provided with a hidden groove 18 which is parallel to the axial lead of the mounting through hole 5, the antistatic rubber floor is characterized in that the upper surface of the floor body 1 is provided with a plurality of line holes 14 which are communicated with the mounting through hole 5, the top opening of the mounting through hole 5 is embedded with a metal frame 17, the middle of the metal frame 17 is fixed with a metal net sheet 16, a spiral lead 15 is fixed below the metal net sheet 16, the mounting through holes 5 are all inserted with metal wires 4, the bottom inner wall of the hidden groove 18 is provided with ventilation hidden channels 2 which are distributed at equal intervals, and a spring clamping frame 21 which is fixed at the bottom inner wall of the hidden groove 18 and is positioned at the opening of the hidden channel 2 and has a barrel-shaped structure with an opening downward, the outer wall of the circumference of the spring clamp frame 21 is sleeved with a compression spring 20, the top end of the compression spring 20 is fixed with a metal plate 19, the upper surface of the metal plate 19 is attached to the inner wall of the top of the hidden groove 18, two ends of the hidden groove 18 are both fixed with a sealing cover 29, the middle of the sealing cover 29 at the edge is inserted with an ion injection pipe 30, the middle of the sealing cover 29 is inserted with a negative ion injection pipe, so that when in use, the metal wire 4 between two adjacent floor bodies 1 can be butted, then when the local position of the upper surface of the floor body 1 generates static electricity, the static electricity can be transmitted to the metal wire 4 inside through the metal mesh 16 and the spiral wire 15, and then the static electricity is transmitted to the ground, secondly, only the end parts of two adjacent floor bodies 1 are needed to be butted together, a negative ion generator is provided, then when a user steps on the upper surface of the floor body 1, the space in the hidden groove 18 can be compressed, the air containing negative ions is compressed, passes through the air duct 2, and is ejected from the wire holes 14 to contact the metal mesh sheet 16, thereby removing static electricity.

In the invention, the middle part of the lower surface of the spring clamp frame 21 is provided with the air vent 2103, the edge of the lower surface of the spring clamp frame 21, which is close to the edge, is provided with the fixed hole 2101, and the lower surfaces of the fixed hole 2101 and the air vent 2103 are plugged with the same rubber plug plate 2102, so that when the device is used, the air flow passing through the air vent 2103 can only realize a one-way flowing state, and further the continuous air flow with negative ions can be sprayed out by continuously stepping below the metal mesh 16.

Wherein, the inner wall of the installation through hole 5 is provided with the spiral groove 3, and a gap is reserved between the outer wall of the metal wire 4 and the inner wall of the installation through hole 5, so that the air flow can be ensured not to be blocked by the metal wire 4.

The end of the floor body 1 is reserved with lugs 26 distributed at equal intervals, the upper surfaces of the lugs 26 are provided with hexagonal grooves 27, and hexagonal nuts 28 are embedded in the hexagonal grooves 27.

Wherein, the one end of floor body 1 that keeps away from lug 26 is opened has the slot 11 with lug 26 outer wall size looks adaptation, and the upper surface of floor body 1 is located the top of slot 11 and all opens the ladder counter bore 12 that has a perfect understanding each other with slot 11, has pegged graft fastening bolt 7 in the ladder counter bore 12 to when can dock when using, only need to fill in the slot 11 of the 1 tip in last floor body with the one end of floor body 1 that has lug 26, both can fix with the bolt and can fix with glue.

Wherein, the inside of slot 11 still inlays the vertical flute profile stand 10 of placing, and is fixed with bow-shaped pole 9 in the middle of the opening part of flute profile stand 10, and the sleeve pipe 8 has been cup jointed in the middle of the horizontal pole of bow-shaped pole 9.

Wherein, the one end of keeping away from slot 11 of floor body 1 still is fixed with the extension belt 22 of platykurtic structure, and the one end that floor body 1 was kept away from to the upper surface of extension belt 22 reserves lasso 24, slider 23 has been cup jointed to the inside of lasso 24, slider 23 forms sliding connection with the inner wall of flute profile stand 10, thereby can need when splicing two floor bodies 1 when using, can form drawing of next floor body 1 through revolving of fastening bolt 7 and drag, ensure that there is a pulling force between two floor bodies 1 after the installation all the time, thereby the compactness of installation has been improved.

Wherein, the four corners of one side of the slider 23 near the inner wall of the bottom of the groove-shaped upright post 10 are all embedded with balls 25, so that the slider 23 can move up and down more smoothly.

Wherein, the lower surface of the floor body 1 is provided with the inclined grooves 6 which are distributed at equal intervals, so that the roughness and the bonding effect of the lower surface of the floor body 1 are improved.

The working principle is as follows: when the floor is used, the metal wires 4 in the middle of the two adjacent floor bodies 1 are butted, then when static electricity is generated at the local position of the upper surface of the floor body 1, the static electricity can be transmitted to the metal wires 4 inside through the metal mesh 16 and the spiral conducting wire 15 and then is conducted to the ground, then only the end parts of the two adjacent floor bodies 1 are butted together, a negative ion generator is provided, the output end of the negative ion generator is butted with the ion spraying pipe inserted in the middle of the sealing cover 29, then when a user steps on the upper surface of the floor body 1, the space in the blind groove 18 can be compressed, and then air containing negative ions is compressed to pass through the ventilation blind channel 2 and then is sprayed out from the wire holes 14 to contact with the metal mesh 16 to remove the static electricity.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An anti-static rubber floor comprises a floor body (1) made of rubber materials, the whole floor body (1) is of a flat cuboid structure, mounting through holes (5) which are distributed at equal intervals and are parallel to each other are formed in the side face of the floor body (1), a hidden groove (18) which is parallel to the axial lead of the mounting through holes (5) is formed in one side of each mounting through hole (5), the anti-static rubber floor is characterized in that a plurality of line holes (14) which are communicated with the mounting through holes (5) are formed in the upper surface of the floor body (1), a metal frame (17) is embedded in an opening at the top end of each mounting through hole (5), a metal mesh sheet (16) is fixed in the middle of each metal frame (17), spiral leads (15) are fixed below the metal mesh sheet (16), metal wires (4) are inserted in the mounting through holes (5), and ventilation hidden channels (2) which are distributed at equal intervals are formed in the inner wall of the bottom of the hidden groove (18), and the bottom inner wall of the blind groove (18) is positioned at the opening of the blind passage (2) and is fixed with a spring clamp frame (21) with a downward opening in a barrel-shaped structure, the circumferential outer wall of the spring clamp frame (21) is sleeved with a compression spring (20), the top end of the compression spring (20) is fixed with a metal plate (19), the upper surface of the metal plate (19) is attached to the top inner wall of the blind groove (18), two ends of the blind groove (18) are both fixed with sealed covers (29), and the middle of each sealed cover (29) is inserted with a negative ion injection pipe.

2. The antistatic rubber floor as claimed in claim 1, wherein the middle of the lower surface of the spring clip frame (21) is provided with a vent hole (2103), the lower surface of the spring clip frame (21) near the edge is provided with a fixing hole (2101), and the lower surfaces of the fixing hole (2101) and the vent hole (2103) are plugged with the same rubber plug plate (2102).

3. The antistatic rubber floor as claimed in claim 1, wherein the inner wall of the installation through hole (5) is provided with the spiral groove (3), and a gap is left between the outer wall of the metal wire (4) and the inner wall of the installation through hole (5), thereby ensuring that the air flow is not blocked by the metal wire (4).

4. The anti-static rubber floor as claimed in claim 1, wherein the end of the floor body (1) is reserved with lugs (26) distributed at equal intervals, the upper surfaces of the lugs (26) are provided with hexagonal grooves (27), and hexagonal nuts (28) are embedded in the hexagonal grooves (27).

5. The anti-static rubber floor as claimed in claim 4, wherein the end of the floor body (1) away from the bump (26) is provided with a slot (11) matched with the size of the outer wall of the bump (26), the upper surface of the floor body (1) above the slot (11) is provided with a stepped counter bore (12) communicated with the slot (11), and the fastening bolt (7) is inserted into the stepped counter bore (12).

6. The anti-static rubber floor as claimed in claim 1, wherein a vertically arranged groove-shaped upright (10) is further embedded in the slot (11), an arch bar (9) is fixed in the middle of an opening of the groove-shaped upright (10), and a sleeve (8) is sleeved in the middle of a horizontal bar of the arch bar (9).

7. The anti-static rubber floor as claimed in claim 6, wherein an extension belt (22) with a flat structure is further fixed at one end of the floor body (1) far away from the slot (11), a ferrule (24) is reserved at one end of the upper surface of the extension belt (22) far away from the floor body (1), a slider (23) is sleeved inside the ferrule (24), and the slider (23) and the inner wall of the groove-shaped upright post (10) form a sliding connection.

8. The antistatic rubber floor as claimed in claim 7, wherein the four corners of one side of the slider (23) close to the inner wall of the bottom of the groove-shaped upright post (10) are embedded with balls (25).

9. The antistatic rubber floor as claimed in claim 1, wherein the lower surface of the floor body (1) is provided with inclined grooves (6) distributed at equal intervals, which increases the roughness and bonding effect of the lower surface of the floor body 1.