CN109779200B - Convenient-to-mount anti-static floor - Google Patents

Abstract

The invention belongs to the technical field of static prevention, and particularly relates to an anti-static floor convenient to mount, which comprises an anti-static floor body, a supporting bottom plate, an adjusting base, a dust removal module, a static removing module, a fixing module and a controller, wherein the supporting bottom plate is arranged on the supporting bottom plate; the adjusting bases are arranged in a plurality and are arranged on the ground in a rectangular array; the support base plate is arranged on the adjusting base, the anti-static floor body is arranged at the top of the support base plate, and the buffer module is arranged between the support base plate and the anti-static floor body; the controller is arranged at the bottom of the supporting base plate, the top of the adjusting base is fixedly connected with the static eliminating module, the top of the static eliminating module is provided with the fixing module, and the inner side of the static eliminating module is provided with the dust removing module. The invention can generate ionized gas, utilizes the ionized gas to perform static electricity removing operation, effectively improves the efficiency of static electricity removing, and utilizes the hairbrush at the inner side of the plastic spring to remove dust of the discharge needle, thereby being beneficial to improving the dust removing efficiency.

Description

Convenient-to-mount anti-static floor

Technical Field

The invention belongs to the technical field of static prevention, and particularly relates to an anti-static floor convenient to install.

Background

Faults caused by static electricity in a data center machine room are often random faults and have poor repeatability, and therefore the fault reasons are generally difficult to find. Along with the rapid development of computer communication technology, the core components such as servers and switches in a certain range of communication range are intensively arranged in a machine room, so that subsequent management and maintenance are facilitated, decoration of the machine room is subject to the standards of dust prevention, electromagnetic interference resistance, convenience in wiring and the like, and damage caused by static electricity is reflected in interference on electronic products, so that normal use of the machine room is influenced, and therefore the machine room is required to be protected against static electricity.

Some technical solutions of the anti-static floor have appeared in the prior art, and for example, a chinese patent with application number 201710139079X discloses an anti-static floor, which includes a plate structure and a supporting structure for supporting and positioning the plate structure, an indication sign capable of indicating the alignment direction between adjacent plate structures is provided on the upper plate surface of the plate structure, and the upper end surface of the indication sign does not protrude from the upper plate surface of the plate structure. According to the anti-static floor provided by the invention, the indicating signs with indicating property are arranged on the plate body structures, so that the positions of the plate body structures and the edges of the adjacent plate body structures are aligned with each other can be clearly displayed, and further, when the sealing cover is restored, the alignment installation can be accurately carried out, the gap between the plate body structures after being sealed is ensured to be as flat and level as that during pre-paving, and further, the sealed ground is flat and beautiful.

Although the technical scheme can seal gaps among the plate body structures after the cover is covered, the gaps are as flat as those in the pre-paving process, and further the covered ground is flat and beautiful. However, when the anti-static floor is used, static electricity on the floor can only be eliminated, and static electricity in the air cannot be eliminated, so that the efficiency of removing the static electricity is low, and the static electricity easily causes damage to a computer in a computer room and loss.

Disclosure of Invention

In order to make up for the defects of the prior art, the anti-static floor convenient to mount provided by the invention can utilize the discharge needles and the fan to cooperate to generate ionized gas, and the ionized gas is utilized to carry out static electricity removing operation on the floor and other articles in a machine room, so that the probability of static electricity generation is effectively reduced, the anti-static efficiency of the floor is improved, and meanwhile, the brushes on the inner sides of the plastic springs are utilized to remove dust for the discharge needles, and the dust removing efficiency is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention discloses an anti-static floor convenient to mount, which comprises an anti-static floor body, a supporting bottom plate, an adjusting base, a dust removal module, a static elimination module, a fixing module and a controller, wherein the supporting bottom plate is arranged on the bottom plate; the adjusting bases are arranged in a plurality and are arranged on the ground in a rectangular array; the support base plate is arranged on the adjusting base, the anti-static floor body is arranged at the top of the support base plate, and the buffer module is arranged between the support base plate and the anti-static floor body; the controller is arranged at the bottom of the supporting base plate, the top of the adjusting base is fixedly connected with the static eliminating module, the top of the static eliminating module is provided with the fixing module, and the inner side of the static eliminating module is provided with the dust removing module; the fixing module is used for automatically disconnecting the two adjacent supporting bottom plates after the anti-static floor body is taken down; wherein the content of the first and second substances,

the static electricity removing module comprises a supporting box, a top plate, a discharge needle and a fan, and is used for generating ionized gas; the support box is fixedly connected with the top of the adjusting base through a connecting block, the bottom of the inner side of the support box is fixedly connected with a ventilation plate, the top and the bottom of the ventilation plate are respectively provided with a discharge needle and a fan, the top of the support box is fixedly connected with a top plate, and one side of the support box is provided with a first guide pipe; the discharge needles are arranged in a plurality and are electrically connected through conducting wires; the first guide pipe is used for guiding the ionized gas out of the upper part of the anti-static floor body;

the dust removal module comprises a plastic spring, a cylinder, a rotating disc and a dust removal box; the air cylinder is arranged at the bottom of the top plate, spiral grains are arranged at the output end of the air cylinder, the output end of the air cylinder is spirally connected with the rotating disc, and the air cylinder is communicated with the buffer module through a second guide pipe; the rotating disc is arranged above the inner side of the supporting box, the bottom of the rotating disc is fixedly connected with a plastic spring, the plastic spring is arranged on the outer side of the discharge needle, and the top of the inner side of the plastic spring is provided with a hairbrush; the dust removing box is arranged on the inner side of the supporting bottom plate; electromagnetic valves are arranged on the first guide pipe, the bottom of the supporting box and the top of the cylinder; the controller is used for controlling the opening and closing of the electromagnetic valve.

When the anti-static floor board works, the support bottom board and the anti-static floor board body are provided with the air guide holes, the positions of the air guide holes correspond to the first guide pipe, ionized gas in the first guide pipe is discharged by the air guide holes to carry out static electricity removing operation, the adjusting base is connected with the ground, the plurality of support bottom boards are placed at the top of the adjusting base, then the plurality of anti-static floor board bodies are spliced into a whole and are arranged above the support bottom boards, when the bottom of the anti-static floor board body is contacted with the fixing modules, the fixing modules enable the two adjacent support bottom boards to be tightly connected, when people trample the anti-static floor board body, the anti-static floor board body extrudes the buffer modules, gas in the buffer air bags is guided into the inside of the air cylinder through the second guide pipe, the output end of the air cylinder moves downwards, so that the rotating disc rotates, and drives the plastic spring to rotate along, the dust adsorbed on the discharge needle is cleaned by the brush, the cleaned dust is guided into the dust collection box through the third guide pipe for dust collection, the pressure sensor is arranged at the position of the buffer module and electrically connected with the controller, the controller is used for controlling the electromagnetic valve on the cylinder to be opened, the electromagnetic valve on the cylinder is opened through the controller, so that the air in the cylinder is discharged, the output end of the cylinder is reset, when the anti-static floor body is reset, the buffer module enables the output end of the cylinder to move upwards, so that the rotating disc is restored to the original position, the discharge needle and the fan are powered through the external power supply, so that the ionized gas after dust collection is guided into a machine room through the first guide pipe and the air guide hole, the static electricity on the article is eliminated, the probability of static electricity generation is effectively reduced, the anti-static efficiency of the floor is improved, and the computer in the machine room is prevented, the service life of the computer is prolonged.

Preferably, the buffer module comprises a first extrusion air bag and a second extrusion air bag; the first extrusion air bag and the second extrusion air bag are both arranged at the top of the supporting base plate and are communicated with each other, a one-way valve is arranged at the connecting position of the first extrusion air bag and the second extrusion air bag, and a one-way valve is also arranged between the second extrusion air bag and the dust removal box; the first extrusion air bag is communicated with the second conduit; the second extrusion air bag is communicated with the dust removal box, and the dust removal box is communicated with the support box through a third guide pipe.

When the anti-static floor body extrudes the first extrusion air bag and the second extrusion air bag, air in the inner cavities of the first extrusion air bag and the second extrusion air bag is guided into the interior of the air cylinder through the second guide pipe, the first extrusion air bag and the second extrusion air bag supply air to the air cylinder simultaneously, the downward moving distance of the output end of the air cylinder is favorably improved, the rotating number of turns of the rotating disc is improved, the cleaning efficiency of the hairbrush is improved, when the first extrusion air bag and the second extrusion air bag recover to the original shape, the electromagnetic valve on the air cylinder is controlled to be opened by the controller, one part of gas in the air cylinder firstly flows back to the inner cavity of the first extrusion air bag, then the other part of gas is discharged into the inner side of the supporting box through the electromagnetic valve and then is discharged through the round hole on the rotating disc, the falling of dust on the hairbrush is accelerated, then the dust-doped air in the supporting box is pumped to the interior, clean air after the dust removal can be collected to the inboard dust of support box in the leading-in inner chamber of No. two extrusion gasbags of clean air, avoids the inside of the leading-in computer lab of a large amount of dust, improves the clean degree of computer lab, reduces the probability that static produced like this.

Preferably, one side of the plastic spring is fixedly connected with an extension spring, and the bottom end of the extension spring is fixedly connected with the rubber balancing weight.

The during operation, when the plastics spring rotated, the rubber balancing weight removed to the direction of keeping away from the plastics spring under the effect of centrifugal force to the middle part of pulling plastics spring one side removes to the direction of keeping away from the discharge needle, and at this moment, the opposite side at plastics spring middle part contacted with the outside of discharge needle, made the plastics spring be the arc and swung the cloth, increased the area of contact of the inboard brush of plastics spring and discharge needle, thereby improved the cleaning efficiency of plastics spring.

Preferably, the fixing module comprises an embedded column, a hinge rod, an elastic clamp, a clamping hook and a clamping unit; the clamping unit is arranged at the top of the top plate, and an embedded column is arranged on the inner side of the clamping unit; the top of the outer cylindrical surface of the embedded column is provided with two hooks, and the outer cylindrical surface of the embedded column is also provided with two pull rings below the two hooks; the quantity of elastic clamp is two, and two elastic clamps are installed respectively at two adjacent supporting baseplate's both ends, and just the top of two elastic clamps all links firmly with the bottom of the adjacent one end of two articulated arms respectively through the stay cord, and two elastic clamps cup joint with two pull rings respectively.

The during operation, when taking off the back as preventing static floor body, the clamping unit makes the embedding post shift up one end distance, when the embedding post shifts up, make the one end of hinge bar upwards rotate through the buckle, the hinge bar makes the top of two elastic clamps open through the stay cord, at this moment, pull ring and elastic clamp separation, two adjacent supporting baseplate separation, can be in preventing static floor body and taking off the back like this, two adjacent supporting baseplate autosegregation, supporting baseplate's dismouting efficiency has been improved, be convenient for carry out periodic cleaning to the dust removal case, the clean degree of ionized gas is improved, the particulate matter content in the air in the computer lab has been reduced, be favorable to people's healthy.

Preferably, the clamping unit comprises a U-shaped groove, an elastic air bag and an ellipsoidal air bag; the U-shaped groove is fixedly connected with the top plate, the bottom of the inner side of the U-shaped groove is provided with an elastic air bag, and the elastic air bag is communicated with the ellipsoidal air bag; the number of the ellipsoidal air bags is two, the two ellipsoidal air bags are fixedly connected with the two sides of the bottom of the embedded column respectively, and the ellipsoidal air bags are used for enabling the embedded column to be placed stably.

The during operation, when the bottom of embedding post and U type groove contact, the embedding post extrudees the elasticity gasbag, and the volume of elasticity gasbag inner chamber reduces, and the inside of two ellipsoid form gasbags of the air introduction in the elasticity gasbag inner chamber for the volume increase of two ellipsoid form gasbags carries out the centre gripping to the bottom of embedding post, has improved the stability of embedding post.

Preferably, the anti-static floor body is of a Z-shaped structure, a clamping groove is formed in the inner side of one end of the anti-static floor body, a clamping block is arranged on the inner side of the clamping groove, a rubber strip is arranged at the bottom of the clamping block, a connecting column is fixedly connected to the bottom of the other end of the anti-static floor body, and a groove used for being embedded into the clamping block is formed in the connecting column; the rubber strip is used for driving the clamping block to slide towards the direction close to the connecting column, when the rubber strip is located at the initial position, the rubber strip is located on the inner side of the clamping groove, and the length of the rubber strip is larger than that of the clamping block.

When the anti-static floor board is in operation, when a plurality of anti-static floor board bodies are not spliced with each other, the fixture block and a part of the rubber strip are placed in the placing groove formed in one side of the clamping groove, when the anti-static floor board bodies are spliced with each other, one connecting column on the anti-static floor board body is connected with the adjacent clamping groove embedded in the anti-static floor board body, when the connecting column moves downwards in the inner side of the clamping groove, one end of the rubber strip is pushed by the bottom end of the connecting column to move downwards, the rubber strip pulls the fixture block to move towards the direction close to the groove in the connecting column, until the fixture block is connected with the groove, the connection strength of the two adjacent anti-static floor board bodies can be improved, the size of the fixture block is smaller than the size of the inner side of the groove, when the anti-static floor board body is required to.

The invention has the following beneficial effects:

1. the invention utilizes the discharge needle and the fan to generate ionized gas in a matched manner, and utilizes the ionized gas to perform static electricity removal operation on the floor and other articles in the machine room, thereby effectively reducing the probability of static electricity generation and improving the static electricity prevention efficiency of the floor.

2. According to the invention, the middle part of one side of the plastic spring is pulled by the rubber balancing weight to move towards the direction far away from the discharge needle by using centrifugal force, so that the plastic spring is arranged in an arc shape, the contact area between the hairbrush at the inner side of the plastic spring and the discharge needle is increased, and the cleaning efficiency of the plastic spring is improved; the clamping hook is driven to move upwards when the embedded column moves upwards, and the elastic clamp is opened through the pull rope after the clamping hook is contacted with the hinge rod, so that two adjacent supporting bottom plates are automatically disconnected, and the dismounting efficiency of the supporting bottom plates is improved.

3. The elastic air bag is extruded by the embedded column, so that the two ellipsoidal air bags clamp and fix the embedded column, and the stability of the embedded column is improved; the clamping blocks are connected with the clamping grooves in an embedded mode, so that the adjacent two anti-static floor bodies are connected, the multiple anti-static floor bodies are connected tightly, the size of each clamping block is smaller than that of the inner side of each groove, the adjacent two anti-static floor bodies are convenient to separate, and the disassembly and assembly efficiency of the anti-static floor bodies is improved.

Drawings

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

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged partial schematic view at B of FIG. 1;

FIG. 4 is an enlarged partial schematic view at C of FIG. 1;

in the figure: the anti-static floor comprises an anti-static floor body 1, a connecting column 11, a clamping block 12, a clamping groove 13, a supporting base plate 2, an adjusting base 21, a dust removal module 3, a plastic spring 31, an air cylinder 32, a rotating disc 33, a dust removal box 34, a rubber balancing weight 35, a static removal module 4, a supporting box 41, a top plate 42, a discharge needle 43, a fan 44, a first guide pipe 45, a fixed module 5, an embedded column 51, a hinge rod 52, an elastic clamp 53, a clamping hook 54, a clamping unit 55, a U-shaped groove 551, an elastic air bag 552, an ellipsoidal air bag 553, a buffer module 6, a first extrusion air bag 61, a second extrusion air bag 62, a second guide pipe 63 and a third guide pipe 64.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, an anti-static floor convenient to mount comprises an anti-static floor body 1, a supporting base plate 2, an adjusting base 21, a dust removal module 3, a static electricity removal module 4, a fixing module 5 and a controller; the number of the adjusting bases 21 is multiple, and the adjusting bases 21 are arranged on the ground in a rectangular array; the support base plate 2 is arranged on the adjusting base 21, the anti-static floor body 1 is arranged at the top of the support base plate 2, and the buffer module 6 is arranged between the support base plate 2 and the anti-static floor body 1; the controller is arranged at the bottom of the supporting base plate 2, the top of the adjusting base 21 is fixedly connected with the static eliminating module 4, the top of the static eliminating module 4 is provided with the fixing module 5, and the inner side of the static eliminating module 4 is provided with the dust removing module 3; the fixing module 5 is used for automatically disconnecting the two adjacent supporting bottom plates 2 after the anti-static floor body 1 is taken down; wherein the content of the first and second substances,

the static electricity removing module 4 comprises a supporting box 41, a top plate 42, a discharge needle 43 and a fan 44, and the static electricity removing module 4 is used for generating ionized gas; the supporting box 41 is fixedly connected with the top of the adjusting base 21 through a connecting block, the bottom of the inner side of the supporting box 41 is fixedly connected with a ventilating plate, the top and the bottom of the ventilating plate are respectively provided with a discharge needle 43 and a fan 44, the top of the supporting box 41 is fixedly connected with a top plate 42, and one side of the supporting box 41 is provided with a first guide pipe 45; the discharge needles 43 are provided in plurality, and the discharge needles 43 are electrically connected through a conducting wire; the first conduit 45 is used for guiding ionized gas out of the upper part of the anti-static floor body 1;

the dust removal module 3 comprises a plastic spring 31, a cylinder 32, a rotating disc 33 and a dust removal box 34; the air cylinder 32 is arranged at the bottom of the top plate 42, spiral threads are arranged at the output end of the air cylinder 32, the output end of the air cylinder 32 is in spiral connection with the rotating disc 33, and the air cylinder 32 is communicated with the buffer module 6 through a second conduit 63; the rotating disc 33 is arranged above the inner side of the supporting box 41, the bottom of the rotating disc 33 is fixedly connected with the plastic spring 31, the plastic spring 31 is arranged on the outer side of the discharge needle 43, and the top of the inner side of the plastic spring 31 is provided with a hairbrush; the dust removing box 34 is arranged on the inner side of the supporting bottom plate 2; electromagnetic valves are arranged on the first guide pipe 45, the bottom of the supporting box 41 and the top of the air cylinder 32; the controller is used for controlling the opening and closing of the electromagnetic valve.

When the anti-static floor works, the support base plate 2 and the anti-static floor body 1 can be provided with air guide holes, the positions of the air guide holes correspond to the first guide pipe 45, ionized gas in the first guide pipe 45 is discharged by utilizing the air guide holes to carry out static electricity removing operation, the adjusting base 21 is connected with the ground, the plurality of support base plates 2 are placed at the top of the adjusting base 21, then the plurality of anti-static floor bodies 1 are spliced into a whole and are arranged above the support base plates 2, when the bottom of the anti-static floor body 1 is contacted with the fixing module 5, the fixing module 5 enables the adjacent two support base plates 2 to be tightly connected, when people trample the anti-static floor body 1, the anti-static floor body 1 extrudes the buffer module 6, gas in the buffer module 6 is led into the inside of the cylinder 32 through the second guide pipe 63, the output end of the cylinder 32 moves downwards, so that the rotating disc 33 rotates, when the rotating disc 33 rotates, the plastic spring 31 is driven to rotate along with the rotating disc, the dust adsorbed on the discharge needles 43 is cleaned by using a brush, the cleaned dust is guided into the dust removal box 34 for dust removal through the third guide pipe 64, a pressure sensor can be arranged at the position of the buffer module 6 and is electrically connected with the controller, the electromagnetic valve on the air cylinder 32 is controlled to be opened by using the controller, the electromagnetic valve on the air cylinder 32 is opened by using the controller, so that the air in the air cylinder 32 is discharged, the output end of the air cylinder 32 is reset, when the anti-static floor body 1 is reset, the buffer module 6 enables the output end of the air cylinder 32 to move upwards, so that the rotating disc 33 is restored to the original position, the discharge needles 43 and the fan 44 are powered by using an external power supply, so that the ionized gas after dust removal is guided into a machine room through the first guide pipe 45 and the air, therefore, the probability of static electricity generation is effectively reduced, the anti-static efficiency of the floor is favorably improved, the computer in a machine room is prevented from being damaged by static electricity, and the service life of the computer is prolonged.

The buffer module 6 comprises a first squeezing air bag 61 and a second squeezing air bag 62; the first extrusion air bag 61 and the second extrusion air bag 62 are both arranged at the top of the support base plate 2, the first extrusion air bag 61 and the second extrusion air bag 62 are communicated with each other, a one-way valve is arranged at the connecting position of the first extrusion air bag 61 and the second extrusion air bag 62, and a one-way valve is also arranged between the second extrusion air bag 62 and the dust removal box 34; the first extrusion air bag 61 is communicated with a second conduit 63; the second pressing air bag 62 is communicated with the dust removal box 34, and the dust removal box 34 is communicated with the support box 41 through a third guide pipe 64.

When the anti-static floor board body 1 extrudes the first extrusion air bag 61 and the second extrusion air bag 62, air in the inner cavities of the first extrusion air bag 61 and the second extrusion air bag 62 is guided into the cylinder 32 through the second guide pipe 63, the first extrusion air bag 61 and the second extrusion air bag 62 simultaneously supply air to the cylinder 32, the downward moving distance of the output end of the cylinder 32 is favorably improved, the number of rotating circles of the rotating disc 33 is improved, the cleaning efficiency of the brush is improved, when the first extrusion air bag 61 and the second extrusion air bag 62 are restored, the electromagnetic valves on the cylinder 32 are controlled to be opened by the controller, one part of gas in the cylinder 32 firstly flows back to the inner cavity of the first extrusion air bag 61, the other part of gas is discharged into the inner side of the supporting box 41 through the electromagnetic valves and then is discharged through the round hole on the rotating disc 33, the falling of dust on the brush is accelerated, and then the inner cavity of the second extrusion air bag 62 is increased, the inside of taking out the inside dust removal case 34 of air that will support the inside doping dust of box 41 through No. two pipes 63 removes dust, and the leading-in inner chamber of No. two extrusion gasbags 62 of clean air after the dust removal can be collected the inboard dust of support box 41 like this, avoids the inside of the leading-in computer lab of a large amount of dust, improves the clean degree of computer lab, reduces the probability that static produced.

One side of the plastic spring 31 is fixedly connected with an extension spring, and the bottom end of the extension spring is fixedly connected with a rubber balancing weight 35.

The during operation, when plastic spring 31 rotates, rubber balancing weight 35 removes to the direction of keeping away from plastic spring 31 under the effect of centrifugal force to the middle part of pulling plastic spring 31 one side removes to the direction of keeping away from discharge needle 43, and at this moment, the opposite side at plastic spring 31 middle part contacts with the outside of discharge needle 43, makes plastic spring 31 be the arc and swings cloth, has increased the area of contact of the inboard brush of plastic spring 31 and discharge needle 43, thereby improves plastic spring 31's cleaning efficiency.

The fixing module 5 comprises an embedded column 51, a hinge rod 52, an elastic clamp 53, a hook 54 and a clamping unit 55; the clamping unit 55 is arranged on the top of the top plate 42, and the inner side of the clamping unit 55 is provided with an embedded column 51; the top of the outer cylindrical surface of the embedded column 51 is provided with two hooks 54, and the outer cylindrical surface of the embedded column 51 is provided with two pull rings below the two hooks 54; the quantity of elastic clamp 53 is two, and two elastic clamps 53 are installed respectively at the both ends of two adjacent supporting baseplate 2, and the top of two elastic clamps 53 all links firmly with the bottom of the adjacent one end of two articulated arms 52 respectively through the stay cord, and two elastic clamps 53 cup joint with two pull rings respectively.

During operation, when taking off the back as antistatic floor body 1, clamping unit 55 makes embedding post 51 move up one end distance, when embedding post 51 moves up, make the one end of hinge bar 52 upwards rotate through the buckle, hinge bar 52 makes the top of two elastic clamps 53 open through the stay cord, at this moment, pull ring and elastic clamp 53 separate, two adjacent supporting baseplate 2 separate, can be in the back of taking off antistatic floor body 1 like this, two adjacent supporting baseplate 2 autosegregations, the dismouting efficiency of supporting baseplate 2 has been improved, be convenient for regularly clear up dust removal case 34, the clean degree of ionized gas is improved, the particulate matter content in the air in the computer lab has been reduced, be favorable to people's health.

The clamping unit 55 comprises a U-shaped groove 551, an elastic air bag 552 and an ellipsoidal air bag 553; the U-shaped groove 551 is fixedly connected with the top plate 42, an elastic air bag 552 is arranged at the bottom of the inner side of the U-shaped groove 551, and the elastic air bag 552 is communicated with the ellipsoidal air bag 553; the number of the ellipsoidal air bags 553 is two, the two ellipsoidal air bags 553 are respectively and fixedly connected with two sides of the bottom of the embedded column 51, and the ellipsoidal air bags 553 are used for enabling the embedded column 51 to be placed stably.

In operation, when the bottom end of the embedded column 51 contacts with the U-shaped groove 551, the embedded column 51 extrudes the elastic airbag 552, the volume of the inner cavity of the elastic airbag 552 is reduced, and air in the inner cavity of the elastic airbag 552 is guided into the two ellipsoidal airbags 553, so that the volumes of the two ellipsoidal airbags 553 are increased, the bottom of the embedded column 51 is clamped, and the stability of the embedded column 51 is improved.

The anti-static floor body 1 is of a Z-shaped structure, a clamping groove 13 is formed in the inner side of one end of the anti-static floor body 1, a clamping block 12 is arranged on the inner side of the clamping groove 13, a rubber strip is arranged at the bottom of the clamping block 12, a connecting column 11 is fixedly connected to the bottom of the other end of the anti-static floor body 1, and a groove used for being embedded into and connected with the clamping block 12 is formed in the connecting column 11; the rubber strip is used for driving the clamping block 12 to slide towards the direction close to the connecting column 11, when the rubber strip is located at the initial position, the rubber strip is located on the inner side of the clamping groove 13, and the length of the rubber strip is larger than that of the clamping block 12.

When in work, when a plurality of anti-static floor bodies 1 are not spliced with each other, the clamping block 12 and a part of the rubber strip are both placed in the placing groove arranged at one side of the clamping groove 13, when a plurality of anti-static floor bodies 1 are spliced with each other, the connecting column 11 on one anti-static floor body 1 is embedded and connected with the clamping groove 13 on the adjacent anti-static floor body 1, when the connecting column 11 moves downwards at the inner side of the clamping groove 13, the bottom end of the connecting column 11 pushes one end of the rubber strip to move downwards, the rubber strip pulls the fixture block 12 to move towards the direction close to the groove on the connecting column 11 until the fixture block 12 is connected with the groove, so that the connection strength of two adjacent anti-static floor bodies 1 can be improved, and the size of the latch 12 is smaller than the size of the inner side of the groove, so when the anti-static floor body 1 needs to be taken down, the anti-static floor body 1 can be pulled forcefully, so that the disassembly and assembly efficiency of the anti-static floor body 1 is improved.

When the anti-static floor works, the support base plate 2 and the anti-static floor body 1 can be provided with air guide holes, the positions of the air guide holes correspond to the first guide pipe 45, ionized gas in the first guide pipe 45 is discharged by utilizing the air guide holes to carry out static electricity removing operation, the adjusting base 21 is connected with the ground, the plurality of support base plates 2 are placed at the top of the adjusting base 21, then the plurality of anti-static floor bodies 1 are spliced into a whole and are arranged above the support base plates 2, when the bottom of the anti-static floor body 1 is contacted with the fixing module 5, the fixing module 5 enables the adjacent two support base plates 2 to be tightly connected, when people trample the anti-static floor body 1, the anti-static floor body 1 extrudes the buffer module 6, gas in the buffer module 6 is led into the inside of the cylinder 32 through the second guide pipe 63, the output end of the cylinder 32 moves downwards, so that the rotating disc 33 rotates, when the rotating disc 33 rotates, the plastic spring 31 is driven to rotate along with the rotating disc, the dust adsorbed on the discharge needles 43 is cleaned by using a brush, the cleaned dust is guided into the dust removal box 34 for dust removal through the third guide pipe 64, a pressure sensor can be arranged at the position of the buffer module 6 and is electrically connected with the controller, the electromagnetic valve on the air cylinder 32 is controlled to be opened by using the controller, the electromagnetic valve on the air cylinder 32 is opened by using the controller, so that the air in the air cylinder 32 is discharged, the output end of the air cylinder 32 is reset, when the anti-static floor body 1 is reset, the buffer module 6 enables the output end of the air cylinder 32 to move upwards, so that the rotating disc 33 is restored to the original position, the discharge needles 43 and the fan 44 are powered by using an external power supply, so that the ionized gas after dust removal is guided into a machine room through the first guide pipe 45 and the air, therefore, the probability of static electricity generation is effectively reduced, the anti-static efficiency of the floor is favorably improved, the computer in a machine room is prevented from being damaged by static electricity, and the service life of the computer is prolonged.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An anti-static floor convenient to install comprises an anti-static floor body (1), a supporting bottom plate (2), an adjusting base (21), a dust removal module (3), a static removing module (4), a fixing module (5) and a controller; the adjusting bases (21) are arranged in a plurality, and the adjusting bases (21) are arranged on the ground in a rectangular array; the support base plate (2) is arranged on the adjusting base (21), the anti-static floor body (1) is arranged at the top of the support base plate (2), and the buffer module (6) is arranged between the support base plate (2) and the anti-static floor body (1); the controller is arranged at the bottom of the supporting bottom plate (2), and is characterized in that: the top of the adjusting base (21) is fixedly connected with the static eliminating module (4), the top of the static eliminating module (4) is provided with the fixing module (5), and the inner side of the static eliminating module (4) is provided with the dust removing module (3); the fixing module (5) is used for automatically disconnecting the two adjacent supporting bottom plates (2) after the anti-static floor body (1) is taken down; the static electricity removing module (4) comprises a supporting box (41), a top plate (42), a discharge needle (43) and a fan (44), and the static electricity removing module (4) is used for generating ionized gas; the support box (41) is fixedly connected with the top of the adjusting base (21) through a connecting block, the bottom of the inner side of the support box (41) is fixedly connected with a ventilating plate, the top and the bottom of the ventilating plate are respectively provided with a discharge needle (43) and a fan (44), the top of the support box (41) is fixedly connected with a top plate (42), and one side of the support box (41) is provided with a first guide pipe (45); the discharge needles (43) are arranged in plurality, and the discharge needles (43) are electrically connected through conducting wires; air guide holes are formed in the supporting bottom plate (2) and the anti-static floor body (1), and the positions of the air guide holes correspond to the first guide pipe (45); the first guide pipe (45) is matched with the air guide hole to guide the ionized gas to the upper part of the anti-static floor body (1); the dust removal module (3) comprises a plastic spring (31), a cylinder (32), a rotating disc (33) and a dust removal box (34); the air cylinder (32) is installed at the bottom of the top plate (42), spiral threads are formed in the output end of the air cylinder (32), the output end of the air cylinder (32) is in spiral connection with the rotating disc (33), and the air cylinder (32) is communicated with the buffer module (6) through a second guide pipe (63); the rotating disc (33) is arranged above the inner side of the supporting box (41), the bottom of the rotating disc (33) is fixedly connected with the plastic spring (31), the plastic spring (31) is arranged on the outer side of the discharge needle (43), and a hairbrush is arranged at the top of the inner side of the plastic spring (31); the dust removal box (34) is arranged on the inner side of the support bottom plate (2); electromagnetic valves are arranged on the first guide pipe (45), the bottom of the supporting box (41) and the top of the air cylinder (32); the controller is used for controlling the opening and closing of the electromagnetic valve.

2. The easy-to-install antistatic floor as claimed in claim 1, wherein: the buffer module (6) comprises a first extrusion air bag (61) and a second extrusion air bag (62); the first extrusion air bag (61) and the second extrusion air bag (62) are both arranged at the top of the supporting base plate (2), the first extrusion air bag (61) and the second extrusion air bag (62) are communicated with each other, a one-way valve is arranged at the connecting position of the first extrusion air bag (61) and the second extrusion air bag (62), and a one-way valve is also arranged between the second extrusion air bag (62) and the dust removal box (34); the first extrusion air bag (61) is communicated with the second conduit (63); the second extrusion air bag (62) is communicated with the dust removal box (34), and the dust removal box (34) is communicated with the support box (41) through a third guide pipe (64).

3. The easy-to-install antistatic floor as claimed in claim 1, wherein: one side of the plastic spring (31) is fixedly connected with an extension spring, and the bottom end of the extension spring is fixedly connected with a rubber balancing weight (35).

4. The easy-to-install antistatic floor as claimed in claim 1, wherein: the fixing module (5) comprises an embedded column (51), a hinge rod (52), an elastic clamp (53), a clamping hook (54) and a clamping unit (55); the clamping unit (55) is arranged at the top of the top plate (42), and an embedded column (51) is arranged on the inner side of the clamping unit (55); the top of the outer cylindrical surface of the embedded column (51) is provided with two hooks (54), and the outer cylindrical surface of the embedded column (51) is provided with two pull rings below the two hooks (54); the quantity of elastic clamp (53) is two, and two elastic clamp (53) are installed respectively at the both ends of two adjacent supporting baseplate (2), and the top of two elastic clamp (53) all links firmly with the bottom of the adjacent one end of two articulated mast (52) respectively through the stay cord, and two elastic clamp (53) cup joint with two pull rings respectively.

5. The easy-to-install antistatic floor as claimed in claim 4, wherein: the clamping unit (55) comprises a U-shaped groove (551), an elastic air bag (552) and an ellipsoidal air bag (553); the U-shaped groove (551) is fixedly connected with the top plate (42), an elastic air bag (552) is arranged at the bottom of the inner side of the U-shaped groove (551), and the elastic air bag (552) is communicated with the ellipsoidal air bag (553); the number of the ellipsoidal air bags (553) is two, the two ellipsoidal air bags (553) are fixedly connected with two sides of the bottom of the embedded column (51) respectively, and the ellipsoidal air bags (553) are used for enabling the embedded column (51) to be placed stably.

6. The easy-to-install antistatic floor as claimed in claim 1, wherein: the anti-static floor body (1) is of a Z-shaped structure, a clamping groove (13) is formed in the inner side of one end of the anti-static floor body (1), a clamping block (12) is arranged on the inner side of the clamping groove (13), a rubber strip is arranged at the bottom of the clamping block (12), a connecting column (11) is fixedly connected to the bottom of the other end of the anti-static floor body (1), and a groove which is embedded and connected with the clamping block (12) for use is formed in the connecting column (11); the rubber strip is used for driving the clamping block (12) to slide towards the direction close to the connecting column (11), when the rubber strip is located at the initial position, the rubber strip is located on the inner side of the clamping groove (13), and the length of the rubber strip is larger than that of the clamping block (12).

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