CN111042476B - Anti-static movable floor capable of storing charges - Google Patents

Abstract

The invention discloses an anti-static movable floor capable of storing charges, which belongs to the field of building materials and comprises an anti-static plate, the anti-static plate comprises an upper conductive plate, a middle insulating layer and a lower conductive plate, an upper capacitor plate is arranged between the upper conductive plate and the middle insulating layer, a lower capacitor plate is arranged between the lower conductive plate and the middle insulating layer, an upper capacitor terminal is arranged on the upper capacitor plate, the lower capacitor plate is provided with a lower capacitor terminal, the upper capacitor plate, the middle insulating layer and the lower capacitor plate form a capacitor capable of accumulating charges, when electrostatic charges are generated, they are not directly introduced into the ground, but are accumulated on the upper capacitor plate, thereby form the potential difference between last capacitor terminal and lower capacitor terminal to for providing the electric energy with electrical apparatus, solved prior art, the electrostatic charge that produces can't be utilized, cause the extravagant problem of energy.

Description

Anti-static movable floor capable of storing charges

Technical Field

The invention relates to a building material, in particular to an anti-static movable floor capable of storing charges.

Background

When people walk in a computer room, static electricity is generated due to friction between the people and air, a floor and the like, and problems caused by the static electricity are difficult to find out by hardware personnel and can also be mistaken by software personnel as software faults sometimes, so that the work is disordered; in addition, when static electricity discharges to a computer or other equipment through a human body, when energy reaches a certain degree, the feeling of electric shock is also given to people; when the generated electrostatic charge is large, a spark may even be generated, causing a fire.

The antistatic floor guides the electrostatic charges generated in the machine room into the ground through the conductive floor material, so that the machine room is protected; the existing anti-static floor can not reasonably utilize the generated static charges, thereby causing certain energy waste.

For example, the "anti-static raised floor" disclosed in the chinese patent document, which is disclosed as CN201620429056.3 and includes an upper steel plate, a lower steel plate and a filler, has disadvantages that, when static electricity is generated due to friction between a human body and air, a floor, etc., the generated static electricity cannot be collected and used, resulting in waste of energy.

Disclosure of Invention

The invention provides an anti-static movable floor capable of storing charges, which aims to solve the problem that the anti-static floor can only guide the generated static charges into the ground and can not collect and utilize the static charges in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention discloses an anti-static movable floor capable of storing charges, which comprises an anti-static plate, wherein the anti-static plate comprises an upper conductive plate, a middle insulating layer and a lower conductive plate, an upper capacitor plate is arranged between the upper conductive plate and the middle insulating layer, a lower capacitor plate is arranged between the lower conductive plate and the middle insulating layer, an upper capacitor terminal is arranged on the upper capacitor plate, and a lower capacitor terminal is arranged on the lower capacitor plate.

The upper capacitor plate, the middle insulating layer and the lower capacitor plate form a capacitor capable of accumulating charges, and when electrostatic charges are generated, the electrostatic charges are not directly introduced into the ground but accumulated on the upper capacitor plate, so that a potential difference is formed between the upper capacitor terminal and the lower capacitor terminal, and electric energy is supplied to an electric appliance.

Preferably, a rechargeable battery is electrically connected between the upper capacitor terminal and the lower capacitor terminal through a lead, when electrostatic charges are generated on the surface of the anti-static plate, the charges are accumulated on the upper capacitor plate, and when the charges are accumulated to a certain amount, the rechargeable battery is charged, so that electric energy in the electrostatic charges is transferred to the rechargeable battery.

Preferably, a battery jar is arranged in the upper conductive plate, the rechargeable battery is installed in the battery jar, a jar cover is arranged at the position of the battery jar notch, and after the rechargeable battery is charged, the rechargeable battery can be taken out of the battery jar and put into the battery to be charged for continuous charging.

Preferably, the upper capacitor terminal and the lower capacitor terminal are electrically connected with an electrostatic alarm assembly through a lead, wherein the electrostatic alarm assembly can give an alarm when a large charge is generated on the anti-static plate, when the electrostatic charge generated on the anti-static plate in a short time is large, the electrostatic alarm assembly can be connected with the upper capacitor terminal and the lower capacitor terminal to give an alarm, so that the problem caused by excessive electrostatic charge in a machine room is prevented, the electrostatic alarm assembly does not need to additionally provide a power supply, and the reasonable utilization of the electrostatic charge is realized.

Preferably, the static alarm component comprises an LED lamp arranged on the surface of the static-proof plate, the LED lamp is connected with the upper capacitor terminal through a lead, and a switch which can be switched on when large charges are generated on the static-proof plate is arranged between the LED lamp and the lower capacitor terminal; when the static charge generated on the anti-static plate in a short time is large, the switch is closed, and the LED lamp is turned on, so that a manager of a machine room is prompted, and the safety is improved.

Preferably, the wire is wrapped by an insulating layer to prevent the charges in the anti-static plate from directly entering the wire and influencing the charge transmission.

Preferably, the upper conductive plate and the lower conductive plate are made of PVC plates containing conductive fibers, and have the advantages of no reflection, no slipping, corrosion resistance, no dust generation, no dust absorption and easy cleaning under the condition of certain conductive performance.

Preferably, a sealant is filled between the adjacent anti-static plates, and the sealant can prevent dust and liquid from entering the anti-static plates and causing short circuit and other problems inside the anti-static plates.

Therefore, the invention has the following beneficial effects: (1) the electrostatic charge generated on the surface of the anti-static plate can be collected and utilized; (2) when the static charge generated on the surface of the anti-static plate is more, an alarm can be given; (3) the antistatic plate has good sealing performance and safety.

Drawings

Fig. 1 is a cross-sectional view of a first embodiment of the present invention.

Fig. 2 is a top view of a first embodiment of the present invention.

Fig. 3 is a partial sectional view of an electrostatic warning assembly according to a second embodiment of the present invention.

Fig. 4 is a sectional view of a second embodiment of the present invention.

In the figure: 1. the anti-static electricity alarm device comprises an anti-static electricity plate 11, an upper conducting plate 12, a middle insulating layer 13, a lower conducting plate 14, an upper capacitor plate 141, an upper capacitor terminal 15, a lower capacitor plate 151, a lower capacitor terminal 2, a rechargeable battery 3, a battery jar 31, a jar cover 4, an electrostatic alarm assembly 41, an alarm element 42, an alarm switch 421, an inductance coil 422, a magnetic ball 43, an upper potential plate 44, a lower potential plate 5, a sealant 6, a rolling groove 7, a conducting terminal 71, an upper conducting terminal 72, a lower conducting terminal 8, a reset assembly 81, a reset spring 82, a baffle 83, a compression spring 84 and a button.

Detailed Description

The invention is further described with reference to the following detailed description and accompanying drawings.

The invention discloses an anti-static movable floor capable of storing charges, which comprises an anti-static plate 1, wherein the anti-static plate comprises an upper conductive plate 11, a middle insulating layer 12 and a lower conductive plate 13, an upper capacitor plate 14 is arranged between the upper conductive plate and the middle insulating layer, a lower capacitor plate 15 is arranged between the lower conductive plate and the middle insulating layer, an upper capacitor terminal 141 is arranged on the upper capacitor plate, and a lower capacitor terminal 151 is arranged on the lower capacitor plate; the upper capacitor terminal and the lower capacitor terminal are electrically connected with a rechargeable battery 2 through a lead; a battery jar 3 is arranged in the upper conductive plate, the rechargeable battery is arranged in the battery jar, and a jar cover 31 is arranged at the position of a notch of the battery jar; an electrostatic alarm component 4 which can give an alarm when a large charge is generated on the anti-static plate is electrically connected between the upper capacitor terminal and the lower capacitor terminal through a lead; the static alarm assembly comprises an LED lamp arranged on the surface of the static-proof plate, the LED lamp is connected with the upper capacitor terminal through a lead, and a switch which can be switched on when large charges are generated on the static-proof plate is arranged between the LED lamp and the lower capacitor terminal; the conducting wire is wrapped with an insulating layer; the upper conductive plate and the lower conductive plate are made of PVC plates containing conductive fibers; and a sealant 5 is filled between the adjacent anti-static plates.

The first embodiment is as follows: as shown in fig. 1 and 2, an anti-static movable floor capable of storing charges includes an anti-static plate 1, where the anti-static plate includes an upper conductive plate 11, a middle insulating layer 12, and a lower conductive plate 13, an upper capacitor plate 14 is installed between the upper conductive plate and the middle insulating layer, a lower capacitor plate 15 is installed between the lower conductive plate and the middle insulating layer, an upper capacitor terminal 141 is disposed on the upper capacitor plate, a lower capacitor terminal 151 is disposed on the lower capacitor plate, and the upper capacitor plate and the lower capacitor plate are two rectangular conductive plates facing each other; a rechargeable battery 2 is electrically connected between the upper capacitor terminal and the lower capacitor terminal through a lead, and the rechargeable battery is a lithium battery; the battery box is characterized in that a battery box 3 is arranged in the upper conductive plate, the rechargeable battery is installed in the battery box, a slot cover 31 is arranged at the position of a slot opening of the battery box, the slot cover can be opened and closed in a sliding mode, a handle which can be conveniently stirred by hands is arranged on the upper side of the slot cover, sliding grooves are formed in two sides of the slot cover, a battery positive terminal connected with an upper capacitor terminal through a wire is arranged on the left side of the battery box, a battery negative terminal connected with a lower capacitor terminal through a wire is arranged on the right side of the battery box, and when the rechargeable battery is placed into the battery box, the positive electrode of.

When the surface of the anti-static plate generates charges, the charges can be accumulated on the upper capacitor plate, the battery groove can be opened through the sliding groove cover, after a battery to be charged is placed in the battery groove, a circuit is formed among the upper capacitor plate, the battery and the lower capacitor plate, the battery is charged by the capacitor, after a period of time, the charging is completed, and the battery is taken out.

Example two: as shown in fig. 3 and 4, an anti-static movable floor capable of storing charges comprises an anti-static plate 1, wherein the anti-static plate comprises an upper conductive plate 11, a middle insulating layer 12 and a lower conductive plate 13, an upper capacitor plate 14 is installed between the upper conductive plate and the middle insulating layer, a lower capacitor plate 15 is installed between the lower conductive plate and the middle insulating layer, an upper capacitor terminal 141 is arranged on the upper capacitor plate, a lower capacitor terminal 151 is arranged on the lower capacitor plate, the upper capacitor plate and the lower capacitor plate are two opposite annular conductive plates, an electrostatic alarm assembly 4 capable of giving an alarm when a large charge is generated on the anti-static plate is electrically connected between the upper capacitor terminal and the lower capacitor terminal through a lead, the electrostatic alarm assembly is located in the middle of the anti-static plate, and the position of the electrostatic alarm assembly avoids the opposite part of the annular conductive plates.

The static alarm component comprises an alarm element 41 and an alarm switch 42 for controlling the alarm of the alarm element, the alarm switch comprises an inductance coil 421 which can generate an induction magnetic field when current flows, one end of the inductance coil is connected with the upper part of the anti-static plate, the other end of the inductance coil is connected with the lower part of the anti-static plate, one side of the inductance coil is provided with a magnetic small ball 422 which can move by the magnetic force in the induction magnetic field, and the opening and closing of the alarm switch are determined by the position of the magnetic small ball; the inductance coil is a spiral lead with an insulating layer wrapped outside, the axial direction of the inductance coil is the horizontal direction, a conductive upper potential plate 43 is arranged at the joint of the inductance coil and the upper part of the anti-static plate, and a conductive lower potential plate 44 is arranged at the joint of the inductance coil and the lower part of the anti-static plate; a rolling groove 6 is arranged in the anti-static board, the direction of the rolling groove is the same as the direction of the magnetic force line of the induction magnetic field, the magnetic small ball can roll in the rolling groove, one end of the rolling groove, which is close to the inductance coil, is provided with a conductive terminal 7 which can be conducted with the magnetic small ball, and the conductive terminal comprises a first conductive terminal 71 which is connected with the alarm element through a lead and a second conductive terminal 72 which is connected with a power supply through a lead; the alarm element is an LED lamp arranged on the upper side surface of the anti-static plate, and as an alternative scheme, the alarm element can also be a buzzer arranged on the anti-static plate, or a combination of the buzzer and the LED lamp.

A reset component 8 for controlling the reset of the magnetic small balls is arranged in the rolling groove, and the reset component has the reset function and also has the function of keeping the alarm state after the generation of the electrostatic charges; the reset assembly comprises a reset spring 81 and a baffle 82, wherein the reset spring 81 can reset the magnetic small ball which moves to one end close to the inductance coil, the baffle 82 can prevent the magnetic small ball from resetting, one end of the baffle is connected with a compression spring 83, the compression spring can push the baffle to extend into the rolling groove to block the magnetic small ball which is positioned at one end close to the inductance coil, the other end of the baffle is connected with a button 84 which is arranged on the upper side surface of the anti-static plate, and the middle part of the baffle is hinged in the anti-static plate to form a lever; the anti-static plate is characterized in that a button groove is formed in the upper side face of the anti-static plate, a button cover capable of being opened and closed is arranged in the button groove, the upper end of the button is located in the button groove, the lower end of the button is in contact with the left end of the baffle, when the button is pressed down, the left end of the baffle descends, the right end of the baffle rises, and the baffle retracts from the rolling groove.

The conducting wire is wrapped with an insulating layer; the upper conductive plate and the lower conductive plate are made of PVC plates containing conductive fibers, and the resistance value of each anti-static plate is about sixty-square ohm; and a sealant 5 is filled between the adjacent anti-static plates, and the sealant is filled after all the anti-static plates are arranged on the support plate.

When large charges are generated on the anti-static plate in a short time, electric potential can be generated on the upper potential plate, because the lower side of the anti-static plate is grounded, electric potential difference can be generated between the upper potential plate and the lower potential plate, so that current is generated in the inductance coil, when the current passes through the inductance coil, an induction magnetic field can be generated in the axial direction of the inductance coil, and the induction magnetic field can provide magnetic force for the magnetic small ball in the rolling groove, so that the magnetic small ball moves towards the direction close to the inductance coil; the time for generating the electric charge on the anti-static plate is short, the current in the inductance coil can be quickly reduced, and the reduced induction magnetic field can form an induction current in the inductance coil, so that the time for the existence of the induction magnetic field is prolonged, and the magnetic ball is prevented from moving to a position which is not in contact with the conductive terminal because the stress is too small; when the magnetic small ball rolls towards the direction of the inductance coil, the baffle plate is pressed upwards to be retracted from the rolling groove, when the magnetic small ball moves to a position contacting with the conductive terminal, the magnetic small ball leaves the baffle plate, and the baffle plate is popped out under the force of the compression spring and is propped against the left side of the magnetic small ball to prevent the magnetic small ball from resetting; after the magnetic small balls are contacted with the conductive terminals, the upper capacitor plate, the LED lamp, the magnetic small balls and the lower capacitor plate are communicated to form an electric loop, and the upper capacitor plate and the lower capacitor plate discharge electricity to enable the LED lamp to be lighted; after seeing that the LED lamp is lighted, a manager of the machine room needs to actively remove factors generating large static charges in the machine room, such as people walking in the machine room by wearing sports shoes with large friction; when the factors generating larger electrostatic charges in the machine room are eliminated, the button cover is opened and the button is pressed, the right end of the baffle plate moves upwards, the baffle plate retracts from the rolling groove, and the magnetic ball is reset under the force of the reset spring; if the factors generating larger electrostatic charges are not eliminated, the induced magnetic field still exists, and the magnetic ball cannot be reset.

When the anti-static plate continuously generates static charges, the static charges are accumulated on the upper capacitor plate, so that the capacitor formed by the upper capacitor plate, the middle insulating layer and the lower capacitor plate is continuously charged, and when the alarm switch is closed, the capacitor discharges to provide electric energy for the alarm element.

Claims (6)

1. An anti-static movable floor capable of storing charges comprises an anti-static plate (1) and is characterized in that the anti-static plate comprises an upper conductive plate (11), a middle insulating layer (12) and a lower conductive plate (13), an upper capacitor plate (14) is installed between the upper conductive plate and the middle insulating layer, a lower capacitor plate (15) is installed between the lower conductive plate and the middle insulating layer, an upper capacitor terminal (141) is arranged on the upper capacitor plate, a lower capacitor terminal (151) is arranged on the lower capacitor plate, an electrostatic alarm assembly (4) capable of giving an alarm when large charges are generated on the anti-static plate is electrically connected between the upper capacitor terminal and the lower capacitor terminal through a lead, the electrostatic alarm assembly comprises an LED lamp installed on the surface of the anti-static plate, the LED lamp is connected with the upper capacitor terminal through a lead, a switch capable of being connected when large charges are generated on the anti-static plate is arranged between the LED lamp and the, the static alarm assembly comprises an alarm element (41) and an alarm switch (42) for controlling the alarm element to alarm, the alarm switch comprises an inductance coil (421) which can generate an induction magnetic field when current flows, one end of the inductance coil is connected with the upper part of an anti-static plate, the other end of the inductance coil is connected with the lower part of the anti-static plate, one side of the inductance coil is provided with a magnetic small ball (422) which can move under the action of the magnetic force in the induction magnetic field, the opening and closing of the alarm switch are determined by the position of the magnetic small ball, a rolling groove (6) is arranged in the anti-static plate, and a reset assembly (8) for controlling the magnetic small ball to reset is arranged in the rolling groove.

2. The anti-static movable floor capable of storing electric charge as claimed in claim 1, wherein the upper capacitor terminal and the lower capacitor terminal are electrically connected with a rechargeable battery (2) through a lead.

3. The antistatic access floor capable of storing electric charge of claim 2, characterized in that a battery groove (3) is arranged in the upper conductive plate, the rechargeable battery is installed in the battery groove, and a groove cover (31) is arranged at the opening of the battery groove.

4. The anti-static raised floor capable of storing electric charge as claimed in claim 2, wherein said conductive wires are covered with an insulating layer.

5. The anti-static raised floor capable of storing electric charge as claimed in any one of claims 1 to 3, wherein the material of said upper conductive plate and said lower conductive plate is PVC plate containing conductive fiber.

6. An antistatic access floor capable of storing electric charge according to any one of claims 1-3 wherein the adjacent antistatic boards are filled with sealant (5).

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