CN113565288A

CN113565288A - Anti-mildew environment-friendly SPC lock floor structure and preparation process thereof

Info

Publication number: CN113565288A
Application number: CN202110949760.7A
Authority: CN
Inventors: 陶纯鑫; 单永根; 梁星宇; 孙国龙; 石红星; 吴士彬; 吕云青; 罗锦
Original assignee: Zhejiang Changxing Senda Bamboo & Wood Products Co ltd
Current assignee: Zhejiang Changxing Senda Bamboo & Wood Products Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2021-10-29

Abstract

The invention discloses an anti-mould environment-friendly SPC lock catch floor structure and a preparation process thereof, and aims to provide an anti-mould environment-friendly SPC lock catch floor structure which is firm in splicing and free from loosening and a preparation process thereof. It includes the floor body, be equipped with connecting block and spread groove on the relative both sides wall of floor body respectively, connecting block and spread groove are matchd each other, be equipped with the lockhole on the connecting block, be equipped with the position assorted locking piece spout with the lockhole on the lateral wall of spread groove, install in the locking piece spout with lockhole assorted locking piece, locking piece and locking piece spout sliding connection, install in the spread groove with the position assorted dog of locking piece spout, dog and spread groove sliding connection. The invention has the beneficial effects that: the splicing is firm and tight, and the two floor bodies cannot be loosened; good waterproof effect, difficult occurrence of mould breeding, environmental protection and no peculiar smell.

Description

Anti-mildew environment-friendly SPC lock floor structure and preparation process thereof

Technical Field

The invention relates to the technical field of floors, in particular to an anti-mildew environment-friendly SPC lock floor structure and a preparation process thereof.

Background

The SPC floor is a novel stone plastic floor, and is divided into a substrate layer, a printing layer, a wear-resistant layer and a UV layer, wherein each layer of connection is formed through hot compress and rolling once, glue adhesion is completely reversed, and the floor has the advantages of water resistance, skid resistance, environmental protection and the like. Therefore, the hard SPC indoor floor is a perfect presentation for household decoration. The SPC floor is a 100% formaldehyde-free environment-friendly floor, is nontoxic and tasteless, and is waterproof, fire-resistant and damp-resistant; the SPC floor is superior to a strengthened floor in scratch resistance, resource use and skid resistance. The surface of the SPC floor has no holes and cannot seep water; after the stain is stained, the cleaning cloth is used for lightly wiping the stain, so that the stain can be easily cleaned, marks which are difficult to remove can not be left, and the special maintenance product is not needed for maintenance.

At present, the defect that prior art exists is that the concatenation between the SPC floor is not firm, and after long-time use, can appear becoming flexible between two adjacent floors, forms great gap, and inside water flowed into the floor from the gap very easily, and the condition such as mould breed and corroded can appear in the long time owing to inside weing on the floor, greatly reduced the life on floor.

Disclosure of Invention

The invention provides an anti-mould environment-friendly SPC lock floor structure which is firm in splicing and free of loosening and a preparation process thereof, aiming at overcoming the defects that the splicing among SPC floors is not firm and the loosening can occur in the prior art.

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

the utility model provides an antimycotic environment-friendly SPC hasp floor structure and preparation technology thereof, includes the floor body, be equipped with connecting block and spread groove on the relative both sides wall of floor body respectively, connecting block and spread groove are matchd each other, be equipped with the lockhole on the connecting block, be equipped with the position assorted locking piece spout with the lockhole on the lateral wall of spread groove, install in the locking piece spout with lockhole assorted locking piece, locking piece and locking piece spout sliding connection, install in the spread groove with the position assorted dog of locking piece spout, dog and spread groove sliding connection.

Under the natural state, the stop dog is located the opening part of locking piece spout, blocks the locking piece. When the connecting block of one floor body is inserted into the connecting groove of the other floor body for assembly, the stop block can be pushed away from the opening of the locking block sliding groove by the connecting block; and when the connecting block inserted the spread groove completely, lockhole on the connecting block also just was in the open position department of locking piece spout, and the lockhole on the connecting block can be locked into automatically to the locking piece in the locking piece spout this moment, with the connecting block locking in the spread groove, improved the fastness of two floor body concatenations greatly, the not hard up condition can not appear. The installation is simple and convenient, and the concatenation is firm, can not appear becoming flexible and form the gap, and water-proof effects is good, is difficult to appear the condition that mould bred, and the floor body is inside needn't add chemicals such as antiseptic and mould inhibitor, environmental protection free from extraneous odour.

Preferably, the end of the connecting block and the opening of the connecting groove are respectively provided with a first round angle and a second round angle. Through the matching design of the first round angle and the second round angle, the smoothness of the connecting block on one floor body in the process of inserting the connecting groove on the other floor body is improved, so that the floor is simple and convenient to operate, and time and labor are saved.

Preferably, the side wall of the connecting groove is provided with a baffle sliding groove, the locking block sliding groove is located on the bottom surface of the baffle sliding groove, the stop block comprises a sliding body in sliding connection with the connecting groove, a baffle matched with the baffle sliding groove is fixed on the sliding body, and the baffle is arranged in the baffle sliding groove and in sliding connection with the baffle sliding groove. Wherein the baffle plays the effect of keeping off the locking piece under natural state, through the design of baffle spout, makes things convenient for the baffle to install on the lateral wall of spread groove and rather than sliding connection.

Preferably, the end face of one end of the lock block is connected with the bottom face of the lock block sliding groove through a first spring, a first inclined face is arranged at the other end of the lock block and on one side close to the bottom face of the connecting groove, the first inclined face inclines towards the opening of the connecting groove from one end of the lock block to the other end of the lock block, and a second inclined face matched with the first inclined face is arranged on the inner side wall of the lock hole on one side close to the bottom face of the connecting groove. Wherein an acute angle formed between the first inclined surface and the bottom surface of the connecting groove is less than 45 degrees. When the lockhole on the connecting block just moved the position of locking piece spout opening part, the locking piece can be impressed automatically under the spring action of spring one in the lockhole, with the connecting block locking in the spread groove, the fastness of two blocks of floor body concatenations has been improved greatly, the not hard up condition can not appear, in this moment, the pressure of inclined plane two on the inclined plane a pair of lockhole lateral walls on the locking piece can partly trun into the thrust to the connecting block, push the connecting block towards the direction of connecting groove bottom, reach the inseparable purpose of two blocks of floor body concatenations, further improve water-proof effects.

Preferably, a fixing column is further fixed on the bottom surface of the baffle sliding groove, a gear is sleeved on the outer side of the fixing column and is in threaded connection with the fixing column, a through groove parallel to the baffle sliding groove is formed in the baffle, the width of the through groove is smaller than that of the locking block, the gear is arranged in the through groove, a first rack is arranged on the side wall of the through groove, and the gear is meshed with the first rack. The connecting block is promoting the slider and the in-process that the baffle on it moved, and the rack on the baffle drives the gear for a moment and takes place to rotate, and here simultaneously, under the drive effect of screw thread for gear revolve still be close to towards the direction of connecting block in the time, when the connecting block inserted the spread groove completely, the gear of this moment just in time compressed tightly the connecting block, has further improved the fixed effect of connecting block in the spread groove through such design.

Preferably, a rotating plate mounting groove is formed in the side wall of the connecting block, a rotating plate and a torsion spring seat are arranged in the rotating plate mounting groove, one side edge of the rotating plate is mounted on the torsion spring seat and is rotatably connected with the rotating plate mounting groove through the torsion spring seat, a side groove matched with the rotating plate in position is formed in the side wall of the connecting groove, a second rack is mounted on the side wall, close to one side of the opening of the connecting groove, of the side groove, and the other side edge of the rotating plate is arc-shaped and provided with a latch matched with the second rack. The rotating plate can rotate 180 degrees in the rotating plate mounting groove; the width and the depth of the side groove are both larger than the length of the rotating plate. Before assembling, the staff inserts the connecting block in the spread groove again after turning 180 with the rotor plate in the rotor plate mounting groove (twist reverse the spring holder and have the pretightning force this moment), when the rotor plate moved the position in side recess, the pretightning force that twists reverse on the spring holder can drive the rotor plate and turn round automatically (turn round an obtuse angle), make the rotor plate turn over to in the side recess and make the latch on its side beat and block on rack two, played further locking effect to the connecting block through such design, the fastness of concatenation has further been promoted.

Preferably, a movable plate sliding groove is formed in the side wall, close to the connecting groove opening, of the side groove, a movable plate is connected in the movable plate sliding groove in a sliding mode, the second rack is fixed to the side edge of the movable plate, and the movable plate is connected with the side wall, close to the connecting groove, of the movable plate sliding groove through a second spring. Under the natural state, the movable plate is pressed on the upper side wall of the movable plate sliding groove under the elastic action of the second spring. When the people stepped on the floor body, the downward pressure of two racks on the fly leaf and the fly leaf can be given to the foot, and through the transmission of rotor plate this moment, this pressure can partly trun into the thrust to the connecting block, pushes away the connecting block toward the direction of connecting groove bottom, makes two floor bodies splice inseparabler, further improves water-proof effects.

Preferably, an electric heating block and a circuit board are fixed in the floor body, piezoelectric ceramics are fixed on the side face of the sliding body, which faces the opening side of the connecting groove, the other side of the sliding body is in three-phase connection with the bottom face of the connecting groove through a spring, the piezoelectric ceramics are electrically connected with the circuit board, and the circuit board is electrically connected with the electric heating block. When stepping on the floor body at every turn, the connecting block all can produce a thrust, presses down piezoceramics on the sliding body, and two relative surperficial positive and negative charges that can produce of piezoceramics this moment can supply power to the electric heat piece after the circuit board conversion, and control electric heat piece generates heat, heats the drying to the floor body, and the effectual condition that has prevented the floor body and has appeared mould and breed because of weing.

Preferably, the circuit board is provided with a battery, a humidity sensor and a single chip microcomputer, the piezoelectric ceramic is electrically connected with the battery, the battery is electrically connected with the electric heating block, the humidity sensor is electrically connected with the single chip microcomputer, and the single chip microcomputer is electrically connected with the battery. The positive and negative charges generated on the piezoelectric ceramic are used for charging the battery. The humidity sensor is used for detecting the humidity of the floor in real time, when the humidity of the floor body is higher than a normal value, the humidity sensor sends a signal to the single chip microcomputer, and the single chip microcomputer controls the battery to supply power to the electric heating block immediately after receiving the signal, so that the electric heating block generates heat, the humidity of the floor body is reduced, and the floor body is prevented from being damped.

As preferred, the surface of floor body is equipped with sealing strip one and seal groove one, sealing strip one, seal groove one, connecting block all are located floor body's same lateral wall, the outside of connecting block and all be located floor body's lateral wall edge all around are all arranged in to sealing strip one and seal groove one, floor body's surface still be equipped with sealing strip one assorted seal groove two and with seal groove one assorted sealing strip two, seal groove two, sealing strip two, spread groove all are located floor body's same lateral wall. When the two floor bodies are spliced, the first sealing strip and the second sealing strip can be clamped into the second sealing groove and the first sealing groove respectively, the edge sealing of the contact surfaces of the two floors is realized, and the waterproof effect is further improved.

The invention has the beneficial effects that: the splicing is firm and tight, and the two floor bodies cannot be loosened; the waterproof effect is good, the situation of mildew breeding is not easy to occur, and chemical substances such as an antibacterial agent, a mildew preventive and the like are not required to be added into the floor body, so that the floor is environment-friendly and free of peculiar smell; the operation is simple and convenient, and time and labor are saved; the humidity of the floor body is reduced, and the floor body is prevented from being damped.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is an enlarged view at B in FIG. 1;

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

FIG. 5 is a schematic structural view of two floor boards when being spliced;

fig. 6 is a schematic view of the structure of the connection block.

In the figure: 1. the second round corner comprises a second round corner, 2 parts of a floor body, 3 parts of a connecting groove, 4 parts of a connecting block, 5 parts of an electric heating block, 6 parts of a circuit board, 7 parts of a side groove, 8 parts of a movable plate sliding groove, 9 parts of a movable plate, 10 parts of a second spring, 11 parts of a locking hole, 12 parts of a locking block, 13 parts of a second inclined surface, 14 parts of a first inclined surface, 15 parts of a first round corner, 16 parts of piezoelectric ceramics, 17 parts of a sliding body, 18 parts of a third spring, 19 parts of a baffle sliding groove, 20 parts of a baffle, 21 parts of a through groove, 22 parts of a first rack, 23 parts of a fixed column, 24 parts of a gear, 25 parts of a first spring, 26 parts of a locking block sliding groove, 27 parts of a rotating plate mounting groove, 28 parts of a torsion spring seat, 29 parts of a rotating plate, 30 parts of clamping teeth, 31 parts of a second rack, 32 parts of a first sealing groove, 33 parts of a second sealing strip, 34 parts of a first sealing strip and 35 parts of a second sealing strip.

Detailed Description

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

In the embodiment shown in fig. 1, an antimycotic environment-friendly SPC lock catch floor structure and a preparation process thereof include a floor body 2, two opposite side walls of the floor body 2 are respectively provided with a connecting block 4 and a connecting groove 3, the connecting block 4 and the connecting groove 3 are matched with each other, as shown in fig. 2, the connecting block 4 is provided with a lock hole 11, a lock block sliding groove 26 matched with the position of the lock hole 11 is arranged on the side wall of the connecting groove 3, a lock block 12 matched with the lock hole 11 is arranged in the lock block sliding groove 26, the lock block 12 is slidably connected with the lock block sliding groove 26, a stop block matched with the position of the lock block sliding groove 26 is arranged in the connecting groove 3, and the stop block is slidably connected with the connecting groove 3.

As shown in fig. 1 and 2, the end of the connection block 4 and the opening of the connection groove 3 are provided with a round corner one 15 and a round corner two 1, respectively.

As shown in fig. 2, a baffle sliding groove 19 is disposed on a side wall of the connecting groove 3, the locking piece sliding groove 26 is located on a bottom surface of the baffle sliding groove 19, the stopper includes a sliding body 17 slidably connected to the connecting groove 3, a baffle 20 matched with the baffle sliding groove 19 is fixed on the sliding body 17, and the baffle 20 is disposed in the baffle sliding groove 19 and slidably connected thereto.

As shown in fig. 2, the end face of one end of the lock block 12 is connected with the bottom surface of the lock block sliding groove 26 through a first spring 25, a first inclined surface 14 is arranged at the other end of the lock block 12 and on the side close to the bottom surface of the connecting groove 3, the first inclined surface 14 inclines from one end of the lock block 12 to the other end of the lock block 12 towards the opening of the connecting groove 3, and a second inclined surface 13 matched with the first inclined surface 14 is arranged on the inner side wall of the lock hole 11 on the side close to the bottom surface of the connecting groove 3.

As shown in fig. 2, a fixing column 23 is further fixed on the bottom surface of the baffle sliding chute 19, a gear 24 is sleeved on the outer side of the fixing column 23, the gear 24 is in threaded connection with the fixing column 23, a through groove 21 parallel to the baffle sliding chute 19 is formed in the baffle 20, the width of the through groove 21 is smaller than that of the locking block 12, the gear 24 is arranged in the through groove 21, a first rack 22 is arranged on the side wall of the through groove 21, and the gear 24 is meshed with the first rack 22.

As shown in fig. 1, 3 and 6, a rotating plate mounting groove 27 is formed in the side wall of the connecting block 4, a rotating plate 29 and a torsion spring seat 28 are arranged in the rotating plate mounting groove 27, one side edge of the rotating plate 29 is mounted on the torsion spring seat 28 and is connected with the rotating plate mounting groove 27 in a rotating manner, a side groove 7 matched with the rotating plate 29 is formed in the side wall of the connecting groove 3, a second rack 31 is mounted on the side wall of the side groove 7 close to the opening side of the connecting groove 3, and the other side edge of the rotating plate 29 is arc-shaped and is provided with a latch 30 matched with the second rack 31.

As shown in fig. 3, a movable plate chute 8 is arranged on a side wall of the side groove 7 close to the opening side of the connecting groove 3, a movable plate 9 is slidably connected to the movable plate chute 8, a second rack 31 is fixed on a side edge of the movable plate 9, and the movable plate 9 and the side wall of the movable plate chute 8 close to the connecting groove 3 are connected through a second spring 10.

As shown in figure 1, an electric heating block 5 and a circuit board 6 are fixed in the floor body 2, as shown in figure 2, piezoelectric ceramics 16 are fixed on the side surface of the sliding body 17 opposite to the opening side of the connecting groove 3, the other side of the sliding body 17 is connected with the bottom surface of the connecting groove 3 through a spring III 18, the piezoelectric ceramics 16 is electrically connected with the circuit board 6, and the circuit board 6 is electrically connected with the electric heating block 5.

The circuit board 6 is provided with a battery, a humidity sensor and a single chip microcomputer, the piezoelectric ceramic 16 is electrically connected with the battery, the battery is electrically connected with the electric heating block 5, the humidity sensor is electrically connected with the single chip microcomputer, and the single chip microcomputer is electrically connected with the battery.

As shown in fig. 4, the surface of the floor body 2 is provided with a first sealing strip 34 and a first sealing groove 32, the first sealing strip 34, the first sealing groove 32 and the connecting block 4 are all located on the same side wall of the floor body 2, the first sealing strip 34 and the first sealing groove 32 are all arranged on the outer side of the connecting block 4 and are all located on the peripheral edge of the side wall of the floor body 2, the surface of the floor body 2 is further provided with a second sealing groove 35 matched with the first sealing strip 34 and a second sealing strip 33 matched with the first sealing groove 32, and the second sealing groove 35, the second sealing strip 33 and the connecting groove 3 are all located on the same side wall of the floor body 2.

Splicing principle:

as shown in fig. 5, before splicing the floor body 2, the worker turns the rotating plate 29 180 ° in the rotating plate installation groove 27 and then inserts the connecting block 4 into the connecting groove 3 (at this time, the torsion spring seat 28 has a pre-tightening force).

When the connecting block 4 of one of the floor bodies 2 is inserted into the connecting groove 3 of the other floor body 2 for assembly: on one hand, the connecting block 4 pushes the sliding body 17 and the baffle 20 thereon away from the opening of the locking block sliding groove 26, and when the connecting block 4 is completely inserted into the connecting groove 3, the locking hole 11 on the connecting block 4 just moves to the position of the opening of the locking block sliding groove 26, the locking block 12 can be automatically pressed into the locking hole 11 under the action of the elastic force of the first spring 25, so as to lock the connecting block 4 in the connecting groove 3, which greatly improves the splicing firmness of the two floor bodies 2, and avoids the loosening, meanwhile, the pressure of the first inclined surface 14 on the locking block 12 on the second inclined surface 13 on the side wall of the locking hole 11 can be converted into the pushing force on the connecting block 4, the connecting block 4 is pushed towards the bottom of the connecting groove 3, so as to achieve the purpose of tightly splicing the two floor bodies 2, in addition, in the process of pushing the sliding body 17 and the baffle 20 thereon by the connecting block 4, the rack one 22 on the baffle 20 can also drive the gear 24 to rotate, meanwhile, under the transmission action of the threads, the gear 24 is enabled to rotate and approach towards the connecting block 4, when the connecting block 4 is completely inserted into the connecting groove 3, the gear 24 at the moment is also just pressed on the connecting block 4, and the fixing effect of the connecting block 4 in the connecting groove 3 is further improved; on the other hand, when the rotating plate 29 moves to the position of the side groove 7, the pre-tightening force on the torsion spring seat 28 can drive the rotating plate 29 to automatically rotate (rotate by an obtuse angle), so that the rotating plate 29 rotates into the side groove 7 and the clamping teeth 30 on the side edge of the rotating plate are pressed on the second rack 31 to be clamped, a further locking effect is achieved on the connecting block 4 through the design, the splicing firmness is further improved, in addition, when a person steps on the floor body 2, downward pressure can be given to the movable plate 9 and the second rack 31 on the movable plate, at the moment, through transmission of the rotating plate 29, the pressure can also be converted into thrust on the connecting block 4, the connecting block 4 is pushed towards the bottom of the connecting groove 3, the two floor bodies 2 are spliced more tightly, and the waterproof effect is further improved.

The heating principle is as follows: when a person steps on the floor body 2 each time, the connecting block 4 can generate a thrust to press the piezoelectric ceramics 16 on the sliding body 17, and positive and negative charges can be generated on two opposite surfaces of the piezoelectric ceramics 16 at the moment, and the piezoelectric ceramics can be used for charging batteries after being converted by the circuit board 6. When humidity sensor detected that floor body 2's humidity is higher than normal value, then send signal to the singlechip, the singlechip received control battery after the signal and supplies power to electric heat piece 5 at once, makes it generate heat, carries out the heating and drying to floor body 2, reduces floor body 2's humidity, avoids floor body 2 to wet.

Claims

1. The utility model provides an antimycotic environment-friendly SPC hasp floor structure and preparation technology thereof, characterized by, including floor body (2), be equipped with connecting block (4) and spread groove (3) on the both sides wall that floor body (2) is relative respectively, connecting block (4) and spread groove (3) match each other, be equipped with lockhole (11) on connecting block (4), be equipped with on the lateral wall of spread groove (3) with position assorted locking piece spout (26) of lockhole (11), install in locking piece spout (26) with lockhole (11) assorted locking piece (12), locking piece (12) and locking piece spout (26) sliding connection, install in spread groove (3) with the position assorted dog of locking piece spout (26), dog and spread groove (3) sliding connection.

2. The anti-mold environment-friendly SPC lock floor structure and the preparation process thereof according to claim 1, wherein the end of the connecting block (4) and the opening of the connecting groove (3) are respectively provided with a first rounded corner (15) and a second rounded corner (1).

3. The anti-mold environment-friendly SPC lock catch floor structure and the preparation process thereof according to claim 1, wherein a baffle sliding groove (19) is arranged on the side wall of the connecting groove (3), the locking block sliding groove (26) is positioned on the bottom surface of the baffle sliding groove (19), the stop block comprises a sliding body (17) in sliding connection with the connecting groove (3), a baffle plate (20) matched with the baffle sliding groove (19) is fixed on the sliding body (17), and the baffle plate (20) is arranged in the baffle sliding groove (19) and is in sliding connection with the baffle sliding groove.

4. The anti-mold environment-friendly SPC lock catch floor structure and the preparation process thereof as claimed in claim 3, wherein the end surface of one end of the lock block (12) is connected with the bottom surface of the lock block sliding groove (26) through a first spring (25), a first inclined surface (14) is arranged at the other end of the lock block (12) and at one side close to the bottom surface of the connecting groove (3), the first inclined surface (14) inclines from one end of the lock block (12) to the other end of the lock block (12) towards the opening direction of the connecting groove (3), and a second inclined surface (13) matched with the first inclined surface (14) is arranged on the inner side wall of the lock hole (11) at one side close to the bottom surface of the connecting groove (3).

5. The anti-mould environment-friendly SPC lock floor structure and the preparation process thereof according to claim 3, characterized in that a fixing column (23) is further fixed on the bottom surface of the baffle sliding groove (19), a gear (24) is sleeved on the outer side of the fixing column (23), the gear (24) is in threaded connection with the fixing column (23), a through groove (21) parallel to the baffle sliding groove (19) is formed in the baffle (20), the width of the through groove (21) is smaller than that of the lock block (12), the gear (24) is placed in the through groove (21), a first rack (22) is arranged on the side wall of the through groove (21), and the gear (24) is meshed with the first rack (22).

6. The anti-mold environment-friendly SPC lock floor structure and the manufacturing process thereof as claimed in claim 1, it is characterized in that the side wall of the connecting block (4) is provided with a rotating plate mounting groove (27), a rotating plate (29) and a torsion spring seat (28) are arranged in the rotating plate mounting groove (27), one side edge of the rotating plate (29) is arranged on the torsion spring seat (28) and is connected with the rotating plate mounting groove (27) in a rotating way through the torsion spring seat (28), the side wall of the connecting groove (3) is provided with a side groove (7) matched with the position of the rotating plate (29), a second rack (31) is arranged on the side wall of the side groove (7) close to the opening side of the connecting groove (3), the other side edge of the rotating plate (29) is arc-shaped and is provided with a latch (30) matched with the second rack (31).

7. The anti-mold environment-friendly SPC lock floor structure and the manufacturing process thereof as claimed in claim 6, wherein the side wall of the side groove (7) near the side of the opening of the connecting groove (3) is provided with a movable plate chute (8), the movable plate chute (8) is connected with a movable plate (9) in a sliding manner, the second rack (31) is fixed on the side edge of the movable plate (9), and the movable plate (9) and the side wall of the movable plate chute (8) near the side of the connecting groove (3) are connected through a second spring (10).

8. The anti-mould environment-friendly SPC lock floor structure and the preparation process thereof according to claim 3, characterized in that an electric heating block (5) and a circuit board (6) are fixed in the floor body (2), the side of the sliding body (17) opposite to the opening side of the connecting groove (3) is fixed with piezoelectric ceramics (16), the other side of the sliding body (17) is connected with the bottom surface of the connecting groove (3) through a spring III (18), the piezoelectric ceramics (16) is electrically connected with the circuit board (6), and the circuit board (6) is electrically connected with the electric heating block (5).

9. The anti-mold environment-friendly SPC lock floor structure and the preparation process thereof as claimed in claim 8, wherein the circuit board (6) is provided with a battery, a humidity sensor and a single chip microcomputer, the piezoelectric ceramic (16) is electrically connected with the battery, the battery is electrically connected with the electric heating block (5), the humidity sensor is electrically connected with the single chip microcomputer, and the single chip microcomputer is electrically connected with the battery.

10. The anti-mold environment-friendly SPC lock floor structure and the manufacturing process thereof as claimed in claim 1, is characterized in that a first sealing strip (34) and a first sealing groove (32) are arranged on the surface of the floor body (2), the first sealing strip (34), the first sealing groove (32) and the connecting block (4) are all positioned on the same side wall of the floor body (2), the first sealing strip (34) and the first sealing groove (32) are arranged on the outer side of the connecting block (4) and are positioned on the peripheral edges of the side wall of the floor body (2), the surface of the floor body (2) is also provided with a second sealing groove (35) matched with the first sealing strip (34) and a second sealing strip (33) matched with the first sealing groove (32), and the second sealing groove (35), the second sealing strip (33) and the connecting groove (3) are all located on the same side wall of the floor body (2).