CN205955101U - Anti -electrostatic floor - Google Patents
Anti -electrostatic floor Download PDFInfo
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- CN205955101U CN205955101U CN201620856833.2U CN201620856833U CN205955101U CN 205955101 U CN205955101 U CN 205955101U CN 201620856833 U CN201620856833 U CN 201620856833U CN 205955101 U CN205955101 U CN 205955101U
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Abstract
The utility model discloses an anti -electrostatic floor, include the primary coat conducting layer as the basic unit, electrical conductivity fiber mortar layer and electrically conductive surface course have been laid in proper order to the top of primary coat conducting layer, the primary coat conducting layer includes the electrically conductive under coat of epoxy on the coating primer layer and the upper portion of bottom, coating primer layer divide into first coating primer layer and second coating primer layer, and the thickness on first coating primer layer is 3~5mm, and the thickness on second coating primer layer is 1~3mm, the top on second coating primer layer is the electrically conductive under coat of epoxy, the thickness of the electrically conductive under coat of epoxy is 2~3mm, electrical conductivity fiber mortar in situ is provided with electrical conductivity fiber, and electrical conductivity fiber is 3~6gcm3 in the closeness on electrical conductivity fiber mortar layer, and wherein, the thickness on electrically conductive mortar layer is 15~20mm, the thickness of electrically conductive surface course is 4~7mm. Electrical conductivity fiber replaces copper foil, the cost is reduced.
Description
Technical field
The utility model is related to terrace technical field, especially a kind of antistatic floor.
Background technology
Terrace is the part that bottom room is contacted with soil layer, and it bears the load in bottom room it is desirable to have certain
Strength and stiffness, and there is protection against the tide, waterproof, warming, wear-resisting performance.There is close relationship in stratum and outdoor buildings place,
Terrace to be handled well and platform, step and building, along the relation in side place, make Building And Grounds join clearly, overall and
Humorous.
Terrace project refers to subsequently adapt to the extraordinary ground construction engineering of multiple use demand as civil engineering.Terrace according to
It is simplest that way species divides, and this classification is from " purposes demand ", main inclusion:
1st, the HI high impact required for adaptation driveway, parking lot, logistics warehouse etc., the requirement of high abrasion;
2nd, such as engineering shop ground oil-seepage requires;
3rd, the requirement of Chemical Manufacture chemicals-resistant dielectric corrosion;
4th, computer controls room, Flour production dust, textile industry fiber dust, fuel oil, inflammable and explosive dangerous goods storage vault
Ground prevents the requirement of electrostatic accumulation;
5th, Electronic Components Manufacturing, operating room, food, medicine, the clean floor of precision optical machinery production assembly area require
Deng.
Produce assembly area in above-mentioned Electronic Components Manufacturing, operating room, food, medicine, precision optical machinery cleanly
Face typically requires antistatic, and traditional antistatic floor comprises primary coat conductive layer, middle painting putty layer, in middle painting putty layer laying
Copper Foil, then arranges again and applies in one layer of conduction and conductive surface layer.As Authorization Notice No. is:" CN203867145U " patent name
For:" epoxy resin antistatic floor ", technical scheme is:Terrace from bottom to top sets gradually concrete base layer, antistatic priming paint
Layer, conductive copper layers of foil, antistatic floating coat, antistatic putty layer and self-leveling antistatic top coat layer, described conductive copper layers of foil by
Copper Foil is formed by intersecting parallels laying and does grounding to conductive copper layers of foil, and described antistatic floating coat is at least by twice antistatic
Middle apply uniform trowel and apply form, described antistatic putty layer is formed by 3~4 road antistatic putty roller coating, described self-leveling antistatic
Top coat layer is at least applied by one self-leveling antistatic finish paint trowel and forms.
The complicated construction technique of this terrace, production cost is very high.
Utility model content
In view of this, main purpose of the present utility model is to provide a kind of antistatic floor.
For reaching above-mentioned purpose, the technical solution of the utility model is as follows:
A kind of antistatic floor, including the primary coat conductive layer as basic unit, the top of primary coat conductive layer is equipped with successively leads
Electric fibre mortar layer and conductive surface layer,
Described primary coat conductive layer includes the coating primer layer of bottom and the epoxy resin conduction priming coat on top, described coating
Primer layer is divided into the first coating primer layer and the second coating primer layer, and the thickness of the first coating primer layer is 3~5mm, the second painting
The thickness of cloth primer layer is 1~3mm;
The top of the second coating primer layer is epoxy resin conduction priming coat, the thickness of described epoxy resin conduction priming coat
For 2~3mm;
Described conductive fiber screed be interior be provided with conductive fiber, conductive fiber in the closeness of conductive fiber screed is
3~6g/cm3, wherein, the thickness of conductive fiber screed is 15~20mm;
The thickness of described conduction surface layer is 4~7mm.
Preferably, described conductive fiber screed is 0.3~0.5mm rubble from particle diameter and particle diameter 0.15~0.25mm is thin
The volume ratio 1 of the mixture of sand, rubble and fine sand:2~1:4.
Preferably, described conducting surface layer choosing antistatic polyurethane cement.
Preferably, described conductive fiber is metallic fiber.
The beneficial effects of the utility model are:
1st, the moisture of basic unit and firm and upper strata bonding can effectively be separated using double-deck coating primer layer
Layer is bondd it is ensured that the steadiness of basic unit.
2nd, conductive fiber substitute Copper Foil, reduce cost, meanwhile, fiber can stir together with mortar laying it is not necessary to
New program, working procedure greatly reduces, and reduces the difficulty of construction.
Brief description
Fig. 1 is structural representation of the present utility model;
Wherein, the title of all parts and mark are as follows:
First coating primer layer 1, the second coating primer layer 2, epoxy resin conduction priming coat 3, conductive fiber screed 4,
Wire fiber 5 and conductive surface layer 6.
Specific embodiment
To describe the utility model below in conjunction with accompanying drawing and specific embodiment in detail, here signal of the present utility model
Property embodiment and explanation be used for explaining the utility model, but be not intended as to restriction of the present utility model.
With reference to Fig. 1, the utility model provides a kind of antistatic floor, and including the primary coat conductive layer as basic unit, primary coat is led
The top of electric layer is equipped with conductive fiber screed 5 and conductive surface layer 6 successively,
Described primary coat conductive layer includes the coating primer layer of bottom and the epoxy resin conduction priming coat 3 on top, described painting
Cloth primer layer is divided into the first coating primer layer 1 and the second coating primer layer 2, and the thickness of the first coating primer layer 1 is 3~5mm, the
The thickness of two coating primer layers 2 is 1~3mm;
The top of the second coating primer layer 2 is epoxy resin conduction priming coat 3, described epoxy resin conduction priming coat 3
Thickness is 2~3mm;
It is provided with conductive fiber 4, conductive fiber 4 is intensive conductive fiber screed 5 in described conductive fiber screed 5
Spend for 3~6g/cm3, wherein, the thickness of conductive fiber screed 5 is 15~20mm;
The thickness of described conduction surface layer 6 is 4~7mm.
Preferably, described conductive fiber screed 5 selects particle diameter is 0.3~0.5mm rubble and particle diameter 0.15~0.25mm
The volume ratio 1 of fine sand, rubble and fine sand:2~1:4.
Preferably, described conduction surface layer 6 selects antistatic polyurethane cement.
Preferably, described conductive fiber 4 is metallic fiber.
When being laid, using following steps:
Step 1) by basal plane machinery compacting or polish, its recess cement or rubble are filled and led up, then brushing the
One coating primer layer 1, thickness is 4mm, its objective is to separate basic unit's moisture, prevents waterproof coating from playing drum and comes off, reinforces basic unit, carry
High film and the adhesion strength of basic unit, do not make film peeling off phenomenon, prevent film layer from the defects such as pinprick, pore.
Step 2) brushing the second coating primer layer 2 on the first coating primer layer 1, thickness is 1mm, in brushing second coating
Before primer layer 2, first by the first coating, primer layer 1 is static dries 4~5 hours;
Step 3) one layer of epoxy resin conduction priming coat 3 of brushing on the second coating primer layer 2, thickness is 2mm, in epoxy
Particle diameter is selected to be 0.5mm rubble and particle diameter 0.15mm fine sand volume ratio 1 before resin bottom coating layer 3 is not dry:2~1:4 one layer of brushings
Conductive fiber screed 5, thickness is 15mm;
Step 4) step 3) dry after, then the antistatic polyurethane cement brushing 5mm.
In step 3) in, from metallic fiber and rubble with fine sand mechanical mixture so that metallic fiber is in conductive fiber sand
The closeness of pulp layer 5 is 3~6g/cm3, this mode only needs to directly to be stirred to metallic fiber inside mortar it is not necessary to weight
New laying copper-foil conducting electricity, the antistatic mechanism of conductive fiber is to make to produce corona discharge between conductive fiber.Corona discharge is one
Plant the discharge type of very mitigation, after electrostatic pressure reaches certain numerical value, that is, producing nonarcing corona discharge makes static elimination.
The technical scheme above the utility model embodiment being provided is described in detail, used herein specifically
Embodiment is set forth to the principle of the utility model embodiment and embodiment, and the explanation of above example is only applicable to
Help understand the principle of the utility model embodiment;Simultaneously for one of ordinary skill in the art, real according to the utility model
Apply example, specific embodiment and range of application all will change, in sum, this specification content should not be understood
It is to restriction of the present utility model.
Claims (2)
1. a kind of antistatic floor is it is characterised in that include the primary coat conductive layer as basic unit, the top of primary coat conductive layer is successively
It is equipped with conductive fiber screed and conductive surface layer,
Described primary coat conductive layer includes the coating primer layer of bottom and the epoxy resin conduction priming coat on top, described coating primer
Layer is divided into the first coating primer layer and the second coating primer layer, and the thickness of the first coating primer layer is 3~5mm, the second coating bottom
The thickness of glue-line is 1~3mm;
The top of the second coating primer layer is epoxy resin conduction priming coat, and the thickness of described epoxy resin conduction priming coat is 2
~3mm;
The thickness of described conductive fiber screed is 15~20mm;
The thickness of described conduction surface layer is 4~7mm.
2. antistatic floor according to claim 1 is it is characterised in that described conducting surface layer choosing antistatic polyurethane sand
Slurry.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620856833.2U CN205955101U (en) | 2016-08-09 | 2016-08-09 | Anti -electrostatic floor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620856833.2U CN205955101U (en) | 2016-08-09 | 2016-08-09 | Anti -electrostatic floor |
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CN205955101U true CN205955101U (en) | 2017-02-15 |
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CN201620856833.2U Active CN205955101U (en) | 2016-08-09 | 2016-08-09 | Anti -electrostatic floor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106930503A (en) * | 2017-03-16 | 2017-07-07 | 杭州电盾装饰材料有限公司 | Anti-static non-ignition ground and preparation method thereof |
-
2016
- 2016-08-09 CN CN201620856833.2U patent/CN205955101U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106930503A (en) * | 2017-03-16 | 2017-07-07 | 杭州电盾装饰材料有限公司 | Anti-static non-ignition ground and preparation method thereof |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: An anti-static floor Effective date of registration: 20230224 Granted publication date: 20170215 Pledgee: Shizhong Branch of Qilu Bank Co.,Ltd. Pledgor: JINAN DAYU ENVIRONMENTAL PROTECTION TECHNOLOGY Co.,Ltd. Registration number: Y2023980033458 |