CN111998807A - Floor tile detection equipment and use method thereof - Google Patents

Abstract

The application relates to a floor tile detection device, which comprises a detection device, wherein the detection device comprises a pushing assembly, a moving block, a roller, an illuminating mechanism and a marking mechanism, the roller is rotatably connected to the moving block, and the pushing assembly is arranged on the moving block; a reaction zone is formed in the motion block; the illuminating mechanism is arranged on one side of the motion block, which is far away from the reaction area; the marking mechanism is arranged on the motion block. This application has the effect that improves detection efficiency.

Description

Floor tile detection equipment and use method thereof

Technical Field

The application relates to the technical field of floor tile detection, in particular to floor tile detection equipment and a using method thereof.

Background

The floor tiles are laid in the room, so that the floor tile detection equipment is used for detecting whether the laid floor tiles are flat or not.

At present, the floor tile detection operation is that an operator squats, then holds a straight rod by hand, and places the straight rod on at least two complete floor tiles; when a gap exists between the straight rod and the floor tile, the unevenness of the floor tile and the adjacent floor tile is explained.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: whether the gap exists between the observation straight-bar that operating personnel can be good and the ceramic tile, operating personnel will squat and remove, but in order to guarantee the detection effect, operating personnel will guarantee the stability of straight-bar, and the operative hand of handheld straight-bar just can not move, therefore the operation is very inconvenient, leads to the time of whole check-out time cost will be than longer to efficiency has been reduced.

Disclosure of Invention

In order to improve detection efficiency, the application provides a ground brick check out test set.

In a first aspect, the present application provides a floor tile detection apparatus, which adopts the following technical scheme:

the detection equipment comprises a pushing assembly, a moving block, a roller, an illuminating mechanism and a marking mechanism, wherein the roller is rotatably connected to the moving block, and the pushing assembly is arranged on the moving block; a reaction zone is formed in the motion block; the illuminating mechanism is arranged on one side of the motion block, which is far away from the reaction area; the marking mechanism is arranged on the motion block.

By adopting the technical scheme, the motion block is placed on the floor tile and covers at least two complete floor tiles; an operator operates the pushing assembly, the pushing assembly drives the moving block to move, and the roller on the moving block rotates; when an uneven part exists between two adjacent complete floor tiles, a gap exists between the motion block and the floor tiles, light emitted by the lighting mechanism can react to generate obvious light in the reaction area through the gap, and the marking mechanism can mark the two floor tiles; and finishing the detection of all the floor tiles according to the operation, and finally enabling the motion block to completely cover one floor tile with the mark and an adjacent floor tile without the mark, wherein the floor tile is a problem floor tile if the floor tile with the mark is marked again. The detection equipment is simple to operate, and therefore detection efficiency is improved.

Preferably, the marking mechanism comprises a first adjusting block, a second adjusting block, a marking pen, a light sensor, a first adjusting assembly and a second adjusting assembly, a first sliding groove is formed in the moving block, the first adjusting block is connected in the first sliding groove in a sliding manner, a second sliding groove is formed in the first adjusting block, the second adjusting block is connected in the second sliding groove in a sliding manner, and the marking pen is arranged on the second adjusting block; the first adjusting assembly comprises a first motor and a first screw rod, and the first screw rod is rotatably connected in the first sliding groove and connected with the first adjusting block; the first motor is arranged on the motion block and is connected with the first screw rod; the second adjusting assembly comprises a first gear, a second motor, a first rotating shaft and a telescopic rod, the second motor is arranged on the first adjusting block, and the first gear is in key connection with an output shaft of the second motor; the first rotating shaft is rotationally connected to the first adjusting block, and the second gear is in keyed connection with the first rotating shaft and is meshed with the first gear; one end of the telescopic rod is connected with the first rotating shaft, and the other end of the telescopic rod is hinged with the second adjusting block; the light sensor is arranged on the motion block, and the first motor and the second motor are electrically connected with the light sensor.

By adopting the technical scheme, when the light sensor senses that the reaction area is bright, the light sensor can control the first motor and the second motor to start, the output shaft of the first motor drives the first screw rod to rotate, and the first screw rod drives the first adjusting block to move in the first sliding groove; the second motor drives the first gear to rotate, the second gear meshed with the first gear drives the first rotating shaft to rotate, and the telescopic rod on the first rotating shaft drives the second adjusting block to slide in the second sliding groove towards the direction of the floor tile, so that the marking pen can leave marks on the floor tile; the structure of the arranged marking mechanism is simple and convenient to operate.

Preferably, the second adjusting block is provided with a fixing mechanism connected with the marking pen, the fixing mechanism comprises a first fixing plate and a positioning assembly, the first fixing plate is provided with a first threaded hole, the marking pen is provided with an external thread in threaded connection with the first threaded hole, the second adjusting block is provided with a placing groove for placing the first fixing plate, and the second adjusting block is provided with a positioning hole; the positioning assembly comprises a positioning rod, a limiting plate and a spring, a first through hole communicated with the placing groove is formed in the second adjusting block, and a first cavity communicated with the first through hole is formed in the second adjusting block; the positioning rod is connected in the first through hole in a sliding mode and can be clamped with the positioning hole; the limiting plate is arranged on the positioning rod and is positioned in the first cavity; the spring is sleeved on the positioning rod, one end of the spring is connected to the limiting plate, and the other end of the spring is connected with the side wall of the first cavity.

By adopting the technical scheme, the first threaded hole in the first fixing plate is in threaded connection with the external thread on the marking pen, then the positioning rod is pulled to move towards the direction far away from the second adjusting block, the limiting plate slides in the first cavity, and the spring is compressed; then, the first fixing plate is placed in the placing groove, the positioning hole is overlapped with the axis of the first through hole, the positioning rod is loosened, the spring can recover to deform under the action of the elastic force of the spring, and the positioning rod can move towards the direction close to the first fixing plate and is clamped with the positioning hole; the arranged fixing mechanism can be used for replacing the marking pen conveniently.

Preferably, the moving block is provided with a protection mechanism, the protection mechanism comprises a first protection block, a second rotating shaft, a third adjusting assembly and a fourth adjusting assembly, the moving block is provided with a third sliding groove, the first protection block is connected in the third sliding groove in a sliding manner, the second rotating shaft is rotatably connected to the first protection block, and the second protection block is arranged on the second rotating shaft; the first protection block, the second protection block and the motion block form a protection space, and the marking mechanism can be positioned in the protection space; the third adjusting assembly comprises a third motor and a second screw rod, and the second screw rod is rotatably connected in the third sliding groove and penetrates through the first protection block; the third motor is arranged on the motion block and is connected with the second screw rod; the fourth adjusting assembly comprises a third gear, a fourth gear and a fourth motor, the fourth motor is arranged on the first protection block, and the third gear is connected to the fourth motor in a key mode; the fourth gear is connected to the second rotating shaft in a keyed mode and meshed with the third gear.

By adopting the technical scheme, when the floor tile needs to be repaired after detection is finished, the third motor and the fourth motor are started, the output shaft of the third motor drives the second screw rod to rotate, and the second screw rod drives the first protection block to move; the output shaft of the fourth motor drives the third gear to rotate, the fourth gear meshed with the third gear rotates, the fourth gear drives the second rotating shaft to rotate, the second rotating shaft drives the second protection block to move, the first protection block, the second protection block and the movement block form a protection space, and the marking mechanism can be located in the protection space, so that the marking mechanism is protected.

Preferably, the moving block comprises a first fixed block, a second fixed block and a third fixed block, and the second fixed block is arranged at both ends of the first fixed block; the third fixed block is connected with the two second fixed blocks and abuts against the first fixed block; the first fixed block, the second fixed block and the third fixed block form the reaction zone, the marking mechanism is arranged on one side of the first fixed block close to the reaction zone, and the illuminating mechanism is arranged on one side of the first fixed block far away from the reaction zone; the pushing assembly is arranged on one side, far away from the first fixing block, of the second fixing block, and the roller is arranged on the second fixing block.

By adopting the technical scheme, the pushing assembly drives the second fixing block to move, and the first fixing block on the second fixing block moves; when a gap exists between the first fixed block and the floor tile, the light emitted by the illuminating mechanism can react to generate obvious light in the reaction area through the gap, and the marking mechanism can mark the floor tile; thereby completing the detection of the problem floor tile.

Preferably, the second fixing block is provided with a first fixing assembly connected with the first fixing block, the first fixing assembly comprises a connecting block, a first fixing rod and a fifth adjusting assembly, the first fixing block is provided with a second through hole, and the side wall of the second through hole is provided with a first fixing groove; the connecting block is arranged on the second fixing block and is clamped with the second through hole; a third through hole is formed in the connecting block; the first fixing rod is connected in the third through hole in a sliding mode and is clamped with the first fixing groove; the fifth adjusting assembly comprises an adjusting shaft, a fifth gear and a rack, the adjusting shaft is rotatably connected to the connecting block, the fifth gear is in key connection with the adjusting shaft, and the fifth gear is located in the third through hole; the rack is arranged on the first fixing rod and meshed with the fifth gear; the third fixing block is provided with a second fixing assembly connected with the second fixing block, the second fixing assembly comprises a fixture block, a second fixing plate and a first bolt, the fixture block is arranged on the second fixing block, and the third fixing block is provided with a clamping groove clamped with the fixture block; the second fixing plate is arranged on the third fixing block and abutted against the second fixing block, a fourth through hole is formed in the second fixing plate, a second threaded hole is formed in the second fixing block, and the first bolt penetrates through the fourth through hole and is in threaded connection with the second threaded hole.

Through adopting above-mentioned technical scheme, connect the second through-hole joint on connecting block on the second fixed block and the first fixed block earlier, then rotate the regulating spindle and rotate, the regulating spindle drives fifth gear revolve, and the rack motion is driven to the fifth gear, and the rack will drive first dead lever motion, makes first dead lever and first fixed slot joint, realizes connecting the second fixed block on first fixed block. Then with the draw-in groove on the third fixed block and the fixture block joint on the second fixed block, make one side of third fixed block support tightly first fixed block, two second fixed blocks of two conflict respectively, then rotatory first bolt makes first bolt pass fourth through-hole and second screw hole threaded connection, realizes two second fixed plates and two fixed block's fixed. The detachable moving block is arranged to facilitate transportation.

Preferably, the illuminating mechanism comprises an illuminating lamp, a placing frame and a clamping assembly, the illuminating lamp is arranged on the placing frame, and a second fixing groove is formed in the placing frame; the clamping assembly comprises a fourth fixing block, a second fixing rod, a fifth motor and a bidirectional screw rod, a fourth sliding groove is formed in the moving block, the fourth fixing block is connected to two ends of the fourth sliding groove in a sliding mode, and the second fixing rod is arranged on the fourth fixing block and clamped with the second fixing groove; the bidirectional screw rod is rotatably connected in the fourth sliding groove and penetrates through the two fourth fixing blocks, and the fifth motor is arranged on the motion block and connected with the bidirectional screw rod.

By adopting the technical scheme, the placing frame with the illuminating lamp is placed between the two fourth fixing blocks, then the fifth motor is started, the output shaft of the fifth motor drives the two-way screw to rotate, the two-way screw drives the two fourth fixing blocks to move oppositely, the second fixing rods on the two fourth fixing blocks are clamped with the second fixing grooves on the placing frame, and the two fourth fixing blocks abut against the placing frame tightly; thereby defining the placement frame on the motion block.

Preferably, a groove is formed in the motion block, an adjusting mechanism is arranged on the motion block, the adjusting mechanism comprises a third rotating shaft, a third adjusting block and a sixth adjusting assembly, the third rotating shaft is rotatably connected to the motion block, the third adjusting block is arranged on the third rotating shaft, and the third adjusting block can be located in the groove; the fourth sliding groove is formed in the third adjusting block, and the placing frame abuts against the third adjusting block; the fifth motor is arranged on the third adjusting block; the sixth adjusting assembly comprises a first sliding block, a connecting rod, a third screw and a sixth motor, a fifth sliding groove is formed in the side wall of the groove, the first sliding block is connected in the fifth sliding groove in a sliding mode, one end of the connecting rod is hinged to the first sliding block, and the other end of the connecting rod is hinged to the third adjusting block; the third screw rod is rotatably connected in the fifth sliding groove and penetrates through the first sliding block; the sixth motor is arranged on the motion block and connected with the third screw rod.

Through adopting above-mentioned technical scheme, start the sixth motor, the output shaft of sixth motor drives the third screw rod and rotates, and the third screw rod drives first slider and slides in the fifth spout, and the connecting rod on the first slider will drive the motion of third regulating block, makes the position change of third regulating block, and the third regulating block will drive the position change of placing the frame to make the illuminating effect of light better some.

Preferably, the pushing assembly comprises a push rod, a handle, a connecting plate and a third bolt, the connecting plate is arranged at one end of the push rod, a sixth through hole is formed in the connecting plate, a fourth threaded hole is formed in the moving block, and the third bolt penetrates through the sixth through hole and is in threaded connection with the fourth threaded hole; the handle is provided with a slot, and one end of the push rod, which is far away from the connecting plate, is clamped with the slot.

By adopting the technical scheme, the connecting plate is tightly abutted against one end, far away from the first fixing block, of the second fixing block, and then the third bolt penetrates through the sixth through hole to be in threaded connection with the fourth threaded hole; finally, the slot on the grip is clamped with the push rod; the push assembly is convenient to connect with the motion block, so that the transfer of the detection equipment is facilitated.

In a second aspect, the application method of the detection device provided by the present application adopts the following technical scheme:

a use method of the floor tile detection device comprises the following steps: the first step is as follows: placing the motion block on the floor tile, and enabling the motion block to cover at least two complete floor tiles; the second step is that: the operator drives the pushing component to drive the moving block to move, and the roller on the moving block rotates; when the two adjacent complete floor tiles are uneven, the illuminating mechanism can react to generate obvious brightness in the reaction area, and the marking mechanism can mark the two floor tiles; the third step: repeating the first step and the second step until the floor tiles in the room are completely detected; the fourth step: the motion block completely covers one of the floor tiles with the marks and the adjacent floor tiles, and the second step is repeated; if the tile with the mark is marked again, the tile is a problem tile.

By adopting the technical scheme, the motion block is placed on the floor tile and covers at least two complete floor tiles; the operator drives the pushing component to drive the moving block to move, and the roller on the moving block rotates; when an uneven part exists between two adjacent complete floor tiles, a gap exists between the motion block and the floor tiles, light emitted by the lighting mechanism can react to generate obvious light in the reaction area through the gap, and the marking mechanism can mark the two floor tiles; and finishing the detection of all the floor tiles according to the operation, finally enabling the motion block to completely cover one of the floor tiles with the marks and the adjacent floor tiles, detecting whether the floor tile is the problem floor tile or not, and if the floor tile with the marks is marked again, determining that the floor tile is the problem floor tile.

To sum up, the beneficial technical effect of this application does:

1. the set detection equipment is simple to operate, so that the detection efficiency is improved;

2. the arranged protection mechanism has a protection effect on the marking mechanism;

3. the detachable moving block is arranged to facilitate transportation.

Drawings

FIG. 1 is a schematic view of a floor tile inspection apparatus according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a first fixing groove in the embodiment of the present application;

FIG. 3 is a schematic structural diagram of a fifth adjustment assembly in an embodiment of the present application;

FIG. 4 is a schematic structural view of a reinforcement assembly in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a marking mechanism in an embodiment of the present application;

FIG. 6 is a cross-sectional view of a second conditioning block embodying features of a positioning assembly in an embodiment of the present application;

fig. 7 is a schematic structural diagram of a guard mechanism in an embodiment of the present application.

Reference numerals: 1. a pushing assembly; 11. a push rod; 12. a grip; 13. a connecting plate; 14. a third bolt; 21. a first fixed block; 211. a first chute; 212. a third chute; 213. a second through hole; 214. a first fixing groove; 215. a groove; 216. a fifth chute; 22. a second fixed block; 221. a second threaded hole; 222. a fourth threaded hole; 23. a third fixed block; 241. connecting blocks; 242. a first fixing lever; 243. a fifth adjustment assembly; 2431. an adjustment shaft; 2432. a fifth gear; 2433. a rack; 2434. an adjusting disk; 25. a second fixed component; 251. a clamping block; 252. a second fixing plate; 253. a first bolt; 26. a reinforcement assembly; 261. a reinforcing plate; 262. a reinforcing rod; 263. a second bolt; 3. a marking mechanism; 31. a first regulating block; 311. a second chute; 32. a second regulating block; 321. a first cavity; 33. a marking pen; 34. a first adjustment assembly; 341. a first motor; 342. a first screw; 35. a second adjustment assembly; 351. a first gear; 352. a second gear; 353. a second motor; 354. a telescopic rod; 4. a fixing mechanism; 41. a first fixing plate; 411. positioning holes; 42. a positioning assembly; 421. positioning a rod; 422. a limiting plate; 423. a spring; 5. a protection mechanism; 51. a first guard block; 52. a second guard block; 53. a third adjustment assembly; 531. a third motor; 532. a second screw; 54. a fourth adjustment assembly; 541. a third gear; 542. a fourth gear; 543. a fourth motor; 55. a second rotating shaft; 56. a second slider; 61. an illuminating lamp; 62. placing the frame; 621. a second fixing groove; 63. a clamping assembly; 631. a fourth fixed block; 632. a second fixing bar; 633. a fifth motor; 634. a bidirectional screw; 7. an adjustment mechanism; 71. a third regulating block; 711. a fourth chute; 72. a sixth adjustment assembly; 721. a first slider; 722. a connecting rod; 723. a third screw; 724. a sixth motor; 8. and a roller.

Detailed Description

Referring to fig. 1, for this application embodiment, a floor tile detection device is disclosed, which includes a detection device, the detection device includes a pushing assembly 1, a moving block, a roller 8, an illumination mechanism and an adjustment mechanism 7, the roller 8 is rotatably connected to the moving block, the pushing assembly 1 and the adjustment mechanism 7 are both disposed on the moving block, and the illumination mechanism is disposed on the adjustment mechanism 7.

Referring to fig. 1 and 2, the motion block includes a first fixing block 21, and second through holes 213 are opened at both ends of the first fixing block 21; a first fixing groove 214 is formed on a sidewall of the second through hole 213.

Referring to fig. 1 and 3, the second fixing blocks 22 are disposed at both ends of the first fixing block 21, and the roller 8 is rotatably connected to one side of the second fixing blocks 22.

The second fixing block 22 is provided with a first fixing component, the first fixing component comprises a connecting block 241 fixedly connected to the second fixing block 22, and the connecting block 241 can be clamped with the second through hole 213; a second cavity is formed in the connecting block 241, two third through holes communicated with the second cavity are formed in the connecting block 241, and a first fixing rod 242 clamped with the first fixing groove 214 is connected in the two third through holes in a sliding mode. A fifth adjusting component 243 is arranged on the connecting block 241, the fifth adjusting component 243 comprises an adjusting shaft 2431 which is rotatably connected to the connecting block 241, one end of the adjusting shaft 2431 is positioned outside the connecting block 241, and an adjusting disc 2434 is fixedly connected to the adjusting shaft 2431 which is positioned outside the connecting block 241; one end of the adjusting shaft 2431, which is far away from the adjusting disc 2434, is positioned in the second cavity, and a fifth gear 2432 is keyed on the adjusting shaft 2431 positioned in the second cavity; two racks 2433 are keyed on both the first fixing rods 242, the two racks 2433 are located on both sides of the fifth gear 2432, and both the two racks 2433 are engaged with the fifth gear 2432.

Referring to fig. 1 and 4, a reinforcing assembly 26 is arranged at one end of each of the two second fixing blocks 22 far away from the first fixing block 21, the reinforcing assembly 26 includes a reinforcing rod 262, reinforcing plates 261 are fixedly connected to both ends of the reinforcing rod 262, the two reinforcing plates 261 can respectively abut against the two second fixing blocks 22, fifth through holes are formed in the two reinforcing plates 261, third threaded holes are formed in the two second fixing blocks 22, and second bolts 263 penetrating through the fifth through holes and in threaded connection with the third threaded holes are arranged on the reinforcing plates 261.

A third fixed block 23 is arranged on one side of the two second fixed blocks 22 far away from the roller 8, and one side of the third fixed block 23 is abutted against the first fixed block 21; the first fixing block 21, the second fixing block 22 and the third fixing block 23 form a reaction zone. A second fixing assembly 25 is arranged on the third fixing block 23, the second fixing assembly 25 comprises a fixture block 251 fixedly connected to the second fixing block 22, and a clamping groove clamped with the fixture block 251 is formed in the third fixing block 23; the two ends of the third fixing block 23 are fixedly connected with second fixing plates 252, the two second fixing plates 252 respectively abut against the two second fixing blocks 22, fourth through holes are formed in the two second fixing plates 252, second threaded holes 221 are formed in the two second fixing blocks 22, and first bolts 253 penetrating through the fourth through holes and in threaded connection with the second threaded holes 221 are arranged on the second fixing plates 252.

The pushing assembly 1 comprises a push rod 11, one end of the push rod 11 is fixedly connected with a connecting plate 13, a sixth through hole is formed in the connecting plate 13, a fourth threaded hole 222 is formed in one end, far away from the first fixed block 21, of the second fixed block 22 and located on one side, far away from the roller 8, of the second fixed block, and a third bolt 14 penetrating through the sixth through hole and in threaded connection with the fourth threaded hole 222 is arranged on the connecting plate 13; a handle 12 is arranged at one end of the push rod 11 far away from the connecting plate 13, and a slot is formed in the handle 12; an end of the push rod 11 far away from the connecting plate 13 is integrally provided with an inserting block clamped with the slot.

Referring to fig. 4 and 5, a first sliding groove 211 is formed in one side of the first fixing block 21 close to the reaction zone along the length direction of the first fixing block, a marking mechanism 3 is arranged on the first fixing block 21, the marking mechanism 3 includes a light sensor fixedly connected to the first fixing block 21, and the light sensor is located between the first sliding groove 211 and the third fixing block 23. A first adjusting block 31 is connected in the first sliding groove 211 in a sliding manner; the first fixed block 21 is provided with a first adjusting component 34, the first adjusting component 34 comprises a first screw 342 which is rotatably connected in the first sliding groove 211, and the first screw 342 passes through the first adjusting block 31 and is in threaded connection with the first adjusting block 31; the first fixed block 21 is fixedly connected with a first motor 341 connected with the first screw 342, and the first motor 341 is electrically connected with the light sensor.

A second sliding groove 311 is formed in the first adjusting block 31, the axis of the second sliding groove 311 is perpendicular to the axis of the first sliding groove 211, and a second adjusting block 32 is connected in the second sliding groove 311 in a sliding manner; a second adjusting component 35 is arranged on the first adjusting block 31, the second adjusting component 35 comprises a supporting block fixedly connected to the first adjusting block 31, a second motor 353 is fixedly connected to the supporting block, and a first gear 351 is keyed on an output shaft of the second motor 353; a first rotating shaft is rotatably connected to the first adjusting block 31, and a second gear 352 meshed with the first gear 351 is keyed on the first rotating shaft; one end of the first rotating shaft, which is far away from the first adjusting block 31, is fixedly connected with an expansion link 354 which is hinged with the second adjusting block 32; the second motor 353 is electrically connected to the light sensor.

Referring to fig. 5 and 6, a placing groove is formed on the second adjusting block 32, a first through hole communicated with the placing groove is formed on the second adjusting block 32, and a first cavity 321 communicated with the first through hole is formed on the second adjusting block 32. A marking pen 33 is arranged on the second adjusting block 32, a fixing mechanism 4 connected with the marking pen 33 is arranged on the second adjusting block 32, the fixing mechanism 4 comprises a first fixing plate 41 which can be clamped in the placing groove, a first threaded hole is formed in one end of the first fixing plate 41, and an external thread in threaded connection with the first threaded hole is arranged on the marking pen 33; a plurality of positioning holes 411 are formed on the first fixing plate 41; a positioning assembly 42 is arranged on the second adjusting block 32, the positioning assembly 42 comprises a positioning rod 421 which is connected in the first through hole in a sliding manner and can be clamped with the positioning hole 411, a limiting plate 422 is fixedly connected to the positioning rod 421, and the limiting plate 422 slides in the first cavity 321; the positioning rod 421 is sleeved with a spring 423, one end of the spring 423 is connected to the limiting plate 422, and the other end of the spring 423 is connected to the side wall of the first cavity 321.

Referring to fig. 4 and 7, the first fixing block 21 is provided with a protection mechanism 5, one side of the light sensor, which is away from the first sliding groove 211, is provided with a third sliding groove 212, and an axis of the third sliding groove 212 is perpendicular to an axis of the first sliding groove 211; the protection mechanism 5 comprises a second slide block 56 connected in a sliding way in the third sliding groove 212; the first fixed block 21 is provided with a fourth adjusting component 54, the fourth adjusting component 54 comprises a second screw 532 which is rotatably connected in the third sliding chute 212, and the second screw 532 passes through the second sliding block 56 and is in threaded connection with the second sliding block 56; a third motor 531 connected to the second screw 532 is fixedly connected to the first fixing block 21.

First protection piece 51 of fixedly connected with on the second slider 56, first protection piece 51's cross-section is L shape, first protection piece 51 is kept away from the one end of second slider 56 and is rotated and be connected with second pivot 55, fixedly connected with second protection piece 52 on the second pivot 55, first protection piece 51, second protection piece 52, first fixed block 21 and second fixed block 22 form the protection space, optical line sensors, first regulating block 31, second regulating block 32 and marker pen 33 all can be located the protection space. A fourth adjusting assembly 54 is arranged on the first protective block 51, the fourth adjusting assembly 54 comprises a fourth motor 543 fixedly connected to the first protective block 51, and a third gear 541 is keyed on an output shaft of the fourth motor 543; a fourth gear 542 engaged with the third gear 541 is keyed on the second rotating shaft 55.

Referring to fig. 1 and 2, a groove 215 is formed on a side of the first fixing block 21 away from the second fixing block 22, and a fifth sliding groove 216 is formed on a bottom wall of the groove 215; the adjusting mechanism 7 comprises a third rotating shaft rotatably connected to the first fixing block 21, a third adjusting block 71 is fixedly connected to the third rotating shaft, and the third adjusting block 71 can be located in the groove 215. A sixth adjusting component 72 is arranged on the first fixed block 21, the sixth adjusting component 72 comprises a first sliding block 721 connected in the fifth sliding groove 216 in a sliding manner, and a connecting rod 722 hinged with the third adjusting block 71 is hinged on the first sliding block 721; a third screw 723 is rotatably connected in the fifth chute 216, and the third screw 723 passes through the first sliding block 721 and is in threaded connection with the first sliding block 721; the first fixing block 21 is provided with a sixth motor 724 connected with a third screw 723.

The lighting mechanism comprises a placing frame 62, a lighting lamp 61 is placed in the placing frame 62, and second fixing grooves 621 are formed in two ends of the placing frame 62. The third adjusting block 71 is provided with a clamping assembly 63, the third adjusting block 71 is provided with a fourth sliding groove 711, the clamping assembly 63 comprises a fourth fixing block 631, both ends of the fourth sliding groove 711 are connected with the fourth fixing block 631 in a sliding manner, opposite ends of the two fourth fixing blocks 631 are fixedly connected with second fixing rods 632, and the two second fixing rods 632 are respectively clamped with the second fixing grooves 621 at both ends of the placing frame 62; a bidirectional screw 634 is rotatably connected in the fourth sliding groove 711, the directions of the threads at the two ends of the bidirectional screw 634 are opposite, the two ends of the bidirectional screw 634 respectively penetrate through the two fourth fixing blocks 631, and the two fourth fixing blocks 631 are respectively in threaded connection with the two ends of the bidirectional screw 634; a fifth motor 633 connected with a bidirectional screw 634 is fixedly connected to the third adjusting block 71.

The motors in this embodiment are all three-phase asynchronous motors.

The implementation principle of the floor tile detection equipment in the embodiment of the application is as follows: firstly, the connecting block 241 on the second fixing block 22 is clamped with the second through hole 213 on the first fixing block 21, then the adjusting disc 2434 is rotated, the adjusting disc 2434 drives the adjusting shaft 2431 to rotate, the adjusting shaft 2431 drives the fifth gear 2432 to rotate, the fifth gear 2432 drives the two racks 2433 to move backwards, the two racks 2433 drive the two first fixing rods 242 to move backwards, and the first fixing rods 242 are clamped with the first fixing grooves 214.

Then, the fourth motor 543 is started first, the output shaft of the fourth motor 543 drives the third gear 541 to rotate, the fourth gear 542 meshed with the third gear 541 rotates, the fourth gear 542 drives the second rotating shaft 55 to rotate, and the second rotating shaft 55 drives the second protection block 52 to move; then the third motor 531 is started, the output shaft of the third motor 531 drives the second screw rod 532 to rotate, the second screw rod 532 drives the second sliding block 56 to move in the third sliding groove 212 towards the direction far away from the first sliding groove 211, and the second sliding block 56 drives the first protection block 51 to move, so that the first adjusting block 31 and the second adjusting block are no longer limited in the protection space.

The first threaded hole on the first fixing plate 41 is in threaded connection with the external thread on the marking pen 33, then the positioning rod 421 is pulled to enable the positioning rod 421 to move towards the direction away from the second adjusting block 32, the limiting plate 422 slides in the first cavity 321, and the spring 423 is compressed; then place first fixed plate 41 in the standing groove, make one of them locating hole 411 and the axis coincidence of first through-hole, loosen locating lever 421, spring 423 can resume deformation under the effect of spring 423 elasticity, and locating lever 421 can be towards the direction motion that is close to on the first fixed plate 41 and with locating hole 411 joint.

The placement frame 62 with the illuminating lamp 61 is placed between the two fourth fixing blocks 631, then the fifth motor 633 is started, the output shaft of the fifth motor 633 drives the two-way screw 634 to rotate, the two-way screw 634 drives the two fourth fixing blocks 631 to move in opposite directions, the second fixing rods 632 on the two fourth fixing blocks 631 are clamped with the second fixing grooves 621 at the two ends of the placement frame 62, and the two fourth fixing blocks 631 abut against the placement frame 62.

Then, the two reinforcing plates 261 are respectively abutted against the two second fixing blocks 22, and then the second bolts 263 pass through the fifth through holes to be connected with the third threaded holes, so that the two reinforcing plates 261 are connected with the two second fixing blocks 22.

And then, the clamping groove on the third fixing block 23 is clamped with the clamping block 251 on the second fixing block 22, so that one side of the third fixing block 23 abuts against the first fixing block 21, the two second fixing plates 252 abut against the two second fixing blocks 22 respectively, and then the first bolt 253 is rotated to enable the first bolt 253 to penetrate through the fourth through hole to be in threaded connection with the second threaded hole 221, so that the two second fixing plates 252 are fixed with the two second fixing blocks 22.

Then, the connecting plate 13 is abutted against one end, far away from the first fixing block 21, of the second fixing block 22, and then the third bolt 14 penetrates through the sixth through hole to be in threaded connection with the fourth threaded hole 222; finally, the slot on the handle 12 is clamped with the inserted rod on the push rod 11.

The embodiment of the application also discloses a using method of the floor tile detection equipment, which comprises the following steps:

the first step is as follows: the motion block is placed where it is needed and then allowed to cover the two complete tiles.

The second step is that: an operator holds the grip 12, the push rod 11 on the grip 12 drives the connecting plate 13 to move, and the connecting plate 13 drives the second fixing block 22 to move. When an uneven part exists between two adjacent complete floor tiles, a gap exists between the first fixed block 21 and the floor tile, light emitted by the illuminating lamp 61 enters the reaction area through the gap between the first fixed block 21 and the floor tile, the light sensor on the first fixed block 21 senses the light, the light sensor controls the first motor 341 and the second motor 353 to start, the output shaft of the first motor 341 drives the first screw 342 to rotate, and the first screw 342 drives the first adjusting block 31 to move in the first chute 211; the second motor 353 drives the first gear 351 to rotate, the second gear 352 meshed with the first gear 351 drives the first rotating shaft to rotate, and the telescopic rod 354 on the first rotating shaft drives the second adjusting block 32 to slide in the second sliding groove 311 towards the direction close to the floor tiles, so that the marking pen 33 can leave marks on the two complete floor tiles.

The third step: and repeating the first step and the second step until the floor tiles in the room are completely detected.

The fourth step: the motion block completely covers one of the floor tiles with the marks and the adjacent floor tiles, and the second step is repeated; if the tile with the mark is marked again, the tile is a problem tile.

The application principle of the using method of the floor tile detection equipment in the embodiment of the application is as follows: the motion block is placed at a place needing to be used, then the motion block can cover two complete floor tiles, then the sixth motor 724 is started, an output shaft of the sixth motor 724 drives the third screw 723 to rotate, the third screw 723 drives the first sliding block 721 to slide in the fifth sliding groove 216, the connecting rod 722 on the first sliding block 721 drives the third adjusting block 71 to move, the position of the third adjusting block 71 is changed, and even if the position of the illuminating lamp 61 is changed.

Then, the operator holds the grip 12, the push rod 11 on the grip 12 drives the connecting plate 13 to move, and the connecting plate 13 drives the second fixing block 22 to move. When an uneven part exists between two adjacent complete floor tiles, a gap exists between the first fixed block 21 and the floor tile, light emitted by the illuminating lamp 61 enters the reaction area through the gap between the first fixed block 21 and the floor tile, the light sensor on the first fixed block 21 senses the light, the light sensor controls the first motor 341 and the second motor 353 to start, the output shaft of the first motor 341 drives the first screw 342 to rotate, and the first screw 342 drives the first adjusting block 31 to move in the first chute 211; the second motor 353 drives the first gear 351 to rotate, the second gear 352 meshed with the first gear 351 drives the first rotating shaft to rotate, and the telescopic rod 354 on the first rotating shaft drives the second adjusting block 32 to slide in the second sliding groove 311 towards the direction of the floor tile, so that the marking pen 33 can leave marks on the two complete floor tiles. And finishing the detection of all the floor tiles needing to be detected.

The motion block completely covers one of the floor tiles with the marks and the adjacent floor tiles, and whether the floor tile with the marks is a problem floor tile is checked; if the tile with the mark is marked again, the tile is a problem tile.

When the floor tile needs to be repaired after detection is finished, the third motor 531 and the fourth motor 543 are started, the output shaft of the third motor 531 drives the second screw rod 532 to rotate, the second screw rod 532 drives the second sliding block 56 to move in the third sliding groove 212 towards the direction close to the first sliding groove 211, and the second sliding block 56 drives the first protection block 51 to move; an output shaft of the fourth motor 543 drives the third gear 541 to rotate, a fourth gear 542 meshed with the third gear 541 rotates, the fourth gear 542 drives the second rotating shaft 55 to rotate, the second rotating shaft 55 drives the second protection block 52 to move, so that the first protection block 51, the second protection block 52, the first fixing block 21 and the second fixing block 22 form a protection space, and the light sensor, the first adjusting block 31, the second adjusting block 32 and the marker pen 33 can be located in the protection space.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The floor tile detection equipment is characterized by comprising detection equipment, wherein the detection equipment comprises a pushing assembly (1), a moving block, a roller (8), an illuminating mechanism and a marking mechanism (3), the roller (8) is rotatably connected to the moving block, and the pushing assembly (1) is arranged on the moving block; a reaction zone is formed in the motion block; the illuminating mechanism is arranged on one side of the motion block, which is far away from the reaction area; the marking mechanism (3) is arranged on the motion block.

2. A floor tile detecting device according to claim 1, wherein the marking mechanism (3) comprises a first adjusting block (31), a second adjusting block (32), a marking pen (33), a light sensor, a first adjusting component (34) and a second adjusting component (35), the moving block is provided with a first sliding groove (211), the first adjusting block (31) is connected in the first sliding groove (211) in a sliding manner, the first adjusting block (31) is provided with a second sliding groove (311), the second adjusting block (32) is connected in the second sliding groove (311) in a sliding manner, and the marking pen (33) is arranged on the second adjusting block (32);

the first adjusting assembly (34) comprises a first motor (341) and a first screw rod (342), and the first screw rod (342) is rotatably connected in the first sliding groove (211) and connected with the first adjusting block (31); the first motor (341) is arranged on the moving block and is connected with the first screw rod (342);

the second adjusting assembly (35) comprises a first gear (351), a second gear (352), a second motor (353), a first rotating shaft and an expansion rod (354), the second motor (353) is arranged on the first adjusting block (31), and the first gear (351) is connected to an output shaft of the second motor (353) in a key mode; the first rotating shaft is rotationally connected to the first adjusting block (31), and the second gear (352) is in key connection with the first rotating shaft and is meshed with the first gear (351); one end of the telescopic rod (354) is connected with the first rotating shaft, and the other end of the telescopic rod is hinged with the second adjusting block (32);

the light sensor is arranged on the motion block, and the first motor (341) and the second motor (353) are electrically connected with the light sensor.

3. The floor tile detection device according to claim 2, wherein the second adjusting block (32) is provided with a fixing mechanism (4) connected with the marking pen (33), the fixing mechanism (4) comprises a first fixing plate (41) and a positioning component (42), the first fixing plate (41) is provided with a first threaded hole, the marking pen (33) is provided with an external thread in threaded connection with the first threaded hole, the second adjusting block (32) is provided with a placing groove for placing the first fixing plate (41), and the second adjusting block (32) is provided with a positioning hole (411);

the positioning assembly (42) comprises a positioning rod (421), a limiting plate (422) and a spring (423), a first through hole communicated with the placing groove is formed in the second adjusting block (32), and a first cavity (321) communicated with the first through hole is formed in the second adjusting block (32); the positioning rod (421) is connected in the first through hole in a sliding manner and can be clamped with the positioning hole (411); the limiting plate (422) is arranged on the positioning rod (421) and is positioned in the first cavity (321); the spring (423) is sleeved on the positioning rod (421), one end of the spring (423) is connected to the limiting plate (422), and the other end of the spring is connected with the side wall of the first cavity (321).

4. A floor tile detecting device according to claim 1, characterized in that a protecting mechanism (5) is arranged on the moving block, the protecting mechanism (5) comprises a first protecting block (51), a second protecting block (52), a second rotating shaft (55), a third adjusting component (53) and a fourth adjusting component (54), a third sliding groove (212) is arranged on the moving block, the first protecting block (51) is connected in the third sliding groove (212) in a sliding manner, the second rotating shaft (55) is connected to the first protecting block (51) in a rotating manner, and the second protecting block (52) is arranged on the second rotating shaft (55); the first guard block (51), the second guard block (52) and the motion block form a guard space in which the marking mechanism (3) can be located;

the third adjusting assembly (53) comprises a third motor (531) and a second screw rod (532), and the second screw rod (532) is rotatably connected in the third sliding chute (212) and penetrates through the first protective block (51); the third motor (531) is arranged on the motion block and is connected with the second screw rod (532);

the fourth adjusting assembly (54) comprises a third gear (541), a fourth gear (542) and a fourth motor (543), the fourth motor (543) is arranged on the first protection block (51), and the third gear (541) is connected with the fourth motor (543) in a key mode; the fourth gear (542) is keyed on the second shaft (55) and meshes with the third gear (541).

5. A floor tile detecting device according to claim 1, characterized in that said moving block comprises a first fixed block (21), a second fixed block (22) and a third fixed block (23), said second fixed block (22) being arranged at both ends of said first fixed block (21); the third fixing block (23) is connected with the two second fixing blocks (22) and abuts against the first fixing block (21); the first fixing block (21), the second fixing block (22) and the third fixing block (23) form the reaction area, the marking mechanism (3) is arranged on one side, close to the reaction area, of the first fixing block (21), and the illuminating mechanism is arranged on one side, far away from the reaction area, of the first fixing block (21); the pushing assembly (1) is arranged on one side, far away from the first fixing block (21), of the second fixing block (22), and the roller (8) is arranged on the second fixing block (22).

6. A floor tile detecting device as claimed in claim 5, wherein said second fixing block (22) is provided with a first fixing component connected to said first fixing block (21), said first fixing component comprises a connecting block (241), a first fixing rod (242) and a fifth adjusting component (243), said first fixing block (21) is provided with a second through hole (213), and a side wall of said second through hole (213) is provided with a first fixing groove (214); the connecting block (241) is arranged on the second fixing block (22), and the connecting block (241) is clamped with the second through hole (213); a third through hole is formed in the connecting block (241); the first fixing rod (242) is connected in the third through hole in a sliding mode and is clamped with the first fixing groove (214);

the fifth adjusting assembly (243) comprises an adjusting shaft (2431), a fifth gear (2432) and a rack (2433), the adjusting shaft (2431) is rotatably connected to the connecting block (241), the fifth gear (2432) is keyed on the adjusting shaft (2431) and the fifth gear (2432) is located in the third through hole; the rack (2433) is disposed on the first fixing lever (242) and engaged with the fifth gear (2432);

a second fixing assembly (25) connected with the second fixing block (22) is arranged on the third fixing block (23), the second fixing assembly (25) comprises a clamping block (251), a second fixing plate (252) and a first bolt (253), the clamping block (251) is arranged on the second fixing block (22), and a clamping groove clamped with the clamping block (251) is formed in the third fixing block (23); the second fixing plate (252) is arranged on the third fixing block (23) and abuts against the second fixing block (22), a fourth through hole is formed in the second fixing plate (252), a second threaded hole (221) is formed in the second fixing block (22), and the first bolt (253) penetrates through the fourth through hole and is in threaded connection with the second threaded hole (221).

7. A floor tile detecting device according to claim 1, characterized in that said lighting mechanism comprises a lighting lamp (61), a placing frame (62) and a clamping component (63), said lighting lamp (61) is disposed on said placing frame (62), said placing frame (62) is opened with a second fixing groove (621);

the clamping assembly (63) comprises a fourth fixing block (631), a second fixing rod (632), a fifth motor (633) and a bidirectional screw (634), a fourth sliding groove (711) is formed in the moving block, the two ends of the fourth sliding groove (711) are connected with the fourth fixing block (631) in a sliding mode, and the second fixing rod (632) is arranged on the fourth fixing block (631) and clamped with the second fixing groove (621); the bidirectional screw (634) is rotatably connected in the fourth sliding groove (711) and penetrates through the two fourth fixed blocks (631), and the fifth motor (633) is arranged on the moving block and connected with the bidirectional screw (634).

8. A floor tile detecting device according to claim 7, characterized in that the moving block is provided with a groove (215), the moving block is provided with an adjusting mechanism (7), the adjusting mechanism (7) comprises a third rotating shaft, a third adjusting block (71) and a sixth adjusting component (72), the third rotating shaft is rotatably connected to the moving block, the third adjusting block (71) is arranged on the third rotating shaft, and the third adjusting block (71) can be located in the groove (215); the fourth sliding groove (711) is formed in the third adjusting block (71), and the placing frame (62) abuts against the third adjusting block (71); the fifth motor (633) is arranged on the third adjusting block (71);

the sixth adjusting assembly (72) comprises a first sliding block (721), a connecting rod (722), a third screw (723) and a sixth motor (724), a fifth sliding groove (216) is formed in the side wall of the groove (215), the first sliding block (721) is connected in the fifth sliding groove (216) in a sliding mode, one end of the connecting rod (722) is hinged to the first sliding block (721), and the other end of the connecting rod (722) is hinged to the third adjusting block (71); the third screw (723) is rotatably connected in the fifth sliding groove (216) and penetrates through the first sliding block (721); the sixth motor (724) is arranged on the moving block and connected with the third screw rod (723).

9. The floor tile detecting device according to claim 1, wherein the pushing assembly (1) comprises a push rod (11), a handle (12), a connecting plate (13) and a third bolt (14), the connecting plate (13) is arranged at one end of the push rod (11), a sixth through hole is formed in the connecting plate (13), a fourth threaded hole (222) is formed in the moving block, and the third bolt (14) penetrates through the sixth through hole to be in threaded connection with the fourth threaded hole (222); the handle (12) is provided with a slot, and one end of the push rod (11) far away from the connecting plate (13) is clamped with the slot.

10. A method of using a test device, comprising the steps of:

the first step is as follows: placing the motion block on the floor tile, and enabling the motion block to cover at least two complete floor tiles;

the second step is that: an operator drives the pushing assembly (1) to drive the moving block to move, and the roller (8) on the moving block rotates; when the two adjacent complete floor tiles are uneven, the lighting mechanism can react to generate obvious brightness in the reaction area, and the marking mechanism (3) can mark the two floor tiles;

the third step: repeating the first step and the second step until the floor tiles in the room are completely detected;

the fourth step: the motion block completely covers one of the floor tiles with the marks and the adjacent floor tiles, and the second step is repeated; if the tile with the mark is marked again, the tile is a problem tile.

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