CN213868816U - Ceramic tile installation auxiliary structure for decoration engineering construction - Google Patents

Abstract

The utility model relates to a decorate ceramic tile installation auxiliary structure for engineering construction relates to the field of decorating engineering construction equipment, decorates ceramic tile installation auxiliary structure for engineering construction and includes pole setting and lift upset subassembly, lift upset subassembly slidable mounting still includes diaphragm and splint in the pole setting, diaphragm and lift upset subassembly fixed connection, splint and diaphragm sliding connection, splint have two at least, sliding connection has the roll adjustment piece on the diaphragm, sliding connection has the piece of increaseing on the splint, piece and roll adjustment piece fixed connection of increaseing. The ceramic tile of multiple form can be fixed to this application, is favorable to decorating the engineering operation.

Description

Ceramic tile installation auxiliary structure for decoration engineering construction

Technical Field

The application relates to the field of decoration engineering construction equipment, in particular to a ceramic tile installation auxiliary structure for decoration engineering construction.

Background

The decoration engineering is a general name for decorating and decorating indoor and outdoor buildings by using building materials and products thereof or decorative artworks such as sculptures, paintings and the like, and the pasting of ceramic tiles on wall surfaces or ground surfaces is a part of the decoration engineering. Before the tile is pasted, a worker needs to firstly smear concrete on the tile and then paste the tile on the ground, the worker usually needs to squat on the ground for a long time to carry out plastering and tile pasting operations, and the physical health of the worker is easily damaged; therefore, there is a need to provide a tile installation assistance device for a worker that facilitates the worker's standing work.

Chinese patent with publication number CN211257731U in the related art discloses an auxiliary structure for mounting decorative engineering ceramic tiles, which comprises a base, wherein the middle part of the top end of the base is fixedly provided with an upright post, the front surface of the upright post is provided with a chute, the inside of the chute is clamped with a slide block, the front surface of the slide block is fixedly provided with a moving block, and the left side of the moving block is movably sleeved with a turnover shaft penetrating to the right side of the moving block; above-mentioned decorate engineering ceramic tile installation auxiliary structure promotes push rod to pin department, stirs the pin and blocks the push rod, makes the movable block fixed, adsorbs the ceramic tile on the sucking disc, stirs the pin, promotes the push rod and shifts up, goes up the upset pole extrusion and shifts frame top right side, and the upset plectrum overturns, promotes the movable block and moves down, and the upset plectrum extrusion shifts the piece left side, makes the frame that shifts right, and ceramic tile contact ground simultaneously.

In view of the above-mentioned related art, the inventors consider that the suction cup is suitable for fixing a tile having a smooth surface, but is easily and insecurely fixed to a tile having an uneven surface.

SUMMERY OF THE UTILITY MODEL

In order to more stably fix various forms of tiles, the present application provides a tile installation auxiliary structure for decoration engineering construction.

The application provides a pair of decorate ceramic tile installation auxiliary structure for engineering construction adopts following technical scheme:

the utility model provides a decorate ceramic tile installation auxiliary structure for engineering construction, includes pole setting and lift upset subassembly, lift upset subassembly slidable mounting still includes diaphragm and splint in the pole setting, diaphragm and lift upset subassembly fixed connection, splint and diaphragm sliding connection, splint have two at least, sliding connection has the roll adjustment piece on the diaphragm, sliding connection has the piece of increaseing on the splint, piece and roll adjustment piece fixed connection of increaseing.

By adopting the technical scheme, the distance between the opposite clamping plates can be adjusted by adjusting the distance adjusting piece, so that the clamping plates can clamp the ceramic tile, and the ceramic tile with a smooth or uneven surface can be clamped by the clamping plates; the height of the top end of the clamping plate relative to the transverse plate can be adjusted by adjusting the height adjusting piece, so that the clamping plate can adapt to ceramic tiles with different thicknesses; therefore, the ceramic tile of multiple form can be fixed to this application, is favorable to carrying out the decoration engineering operation.

Optionally, the distance adjusting part comprises at least two clamping plates and positioning bolts, the clamping plates are fixedly connected with the height adjusting part, the transverse plates are located between the clamping plates, the clamping plates are in sliding butt joint with the transverse plates, the clamping plates are provided with positioning through grooves, the positioning bolts are in threaded connection with hole walls of the positioning through grooves, and the positioning bolts are in butt joint with the transverse plates.

By adopting the technical scheme, when the clamping plate is pushed to slide along the transverse plate, the clamping plate synchronously slides along the clamping plate, the positioning bolt is screwed, one end of the positioning bolt is abutted against the transverse plate, so that the friction force between the positioning bolt and the transverse plate is increased, the clamping plate and the transverse plate are positioned in a friction mode, and the clamping plate and the transverse plate are relatively fixed; thus, the spacer facilitates a more stable clamping of the tile by the clamping plate.

Optionally, the heightening part comprises a heightening sliding block and a screw rod, a heightening sliding groove is formed in the clamping plate, the heightening sliding block is connected to the groove wall of the heightening sliding groove in a sliding mode, a through hole is formed in the end wall of the clamping plate, a screw hole is formed in the heightening sliding block, the screw rod penetrates through the through hole, the screw hole and the heightening sliding groove, the screw rod is connected with the hole wall of the screw hole in a threaded mode, and the screw rod is connected with the groove wall of the heightening sliding groove in.

Through adopting above-mentioned technical scheme, rotate the screw rod, the screw rod with increase and take place the screw thread between the slider and feed, increase the slider and can slide along increasing the spout to realized that splint slide for the diaphragm, can adapt to the ceramic tile of different thickness.

Optionally, one end of the clamping plate is provided with a pressing plate, the pressing plate is connected with a detachable piece, the detachable piece is detachably connected with the clamping plate, and the pressing plate is close to one end of the transverse plate and is fixedly connected with the supporting plate.

By adopting the technical scheme, the pressing plate moves synchronously along with the clamping plate, the pressing plate is abutted against the ceramic tile, the detachable part is operated, and the pressing plates in different shapes can be replaced, so that the pressing plate can adapt to the ceramic tiles in different shapes, and the supporting plate is abutted against the bottom surface of the ceramic tile to support the ceramic tile; therefore, the present application can more stably fix tiles of various shapes.

Optionally, the detachable part includes inserted block, fixture block and spring, be equipped with the slot on the splint, be equipped with the shrinkage pool on the cell wall of slot, the fixture block slides and connects on the cell wall of shrinkage pool, the one end and the fixture block fixed connection of spring, the other end of spring and the end wall fixed connection of shrinkage pool, be equipped with the guide way on the splint, the one end of guide way extends to the cell wall of shrinkage pool, fixedly connected with guide block on the fixture block, the butt that slides of guide block and guide way's cell wall, be equipped with the draw-in groove on the inserted block, the butt that slides of inserted block and slot's cell wall, the butt that slides of fixture block and draw-in groove's cell wall.

By adopting the technical scheme, the guide block is stirred, the clamping block slides in the shrinkage groove, the clamping block slides into the shrinkage groove, the inserting block can be inserted into the slot, then the guide block is loosened, and the spring can automatically slide the clamping block into the clamping groove, so that the inserting block is fixed with the clamping plate, namely the pressing plate is relatively fixed with the clamping plate; then the clamping block slides into the shrinkage groove, and the inserting block can be pulled out; consequently, this application has realized that the clamp plate can be dismantled with splint and be connected.

Optionally, be equipped with floating assembly in the pole setting, floating assembly includes swinging arms, cylinder, drives and changes piece and sliding part, sliding part slides with the pole setting and is connected, the one end and the sliding part of swinging arms rotate to be connected, the swinging arms wears to locate in the cylinder, the cylinder rotates with the swinging arms to be connected, drive and change piece and swinging arms fixed connection.

By adopting the technical scheme, when the clamping plate clamps the ceramic tile, the roller is abutted against the upper surface of the ceramic tile, the rotating driving piece can drive the swinging rod to rotate, and the roller can roll on the upper surface of the ceramic tile, so that the concrete on the upper surface of the ceramic tile is leveled; the sliding piece can adjust the height of the swing rod, so that the swing rod and the roller are adaptive to the height of the clamping plate; therefore, this application can be automatic floating the concrete of ceramic tile upper surface, is favorable to improving work efficiency.

Optionally, the sliding part includes installation slider, rack, gear and first motor, be equipped with the groove of sliding in the pole setting, the installation slider is with the cell wall sliding connection in groove of sliding, the lateral wall fixed connection of rack and installation slider, the length direction of rack is the same with the direction of sliding of installation slider, first motor fixed mounting is in the pole setting, gear and first motor fixed connection, gear and rack toothing, the swinging arms rotates with the installation slider to be connected.

Through adopting above-mentioned technical scheme, first motor drive gear rotates, and gear drive rack and installation slider synchronous sliding, and the swinging arms slides with the installation slider synchronous sliding, consequently, this application can automatic drive swinging arms slide, has the effect of adjusting the swinging arms height.

Optionally, it includes pivot and second motor to drive the commentaries on classics piece, be equipped with the swing groove on the lateral wall that the installation slider deviates from the pole setting, be equipped with the through hole on the lateral wall of installation slider, the one end of through hole extends to the cell wall of swing groove, the pivot is worn to locate in the through hole, the butt that slides of the one end of swinging arms and the cell wall of swing groove, pivot and swinging arms fixed connection, second motor fixed mounting is on the installation slider, second motor and pivot fixed connection.

Through adopting above-mentioned technical scheme, the second motor can drive pivot and swinging arms synchronous rotation, and the cell wall of swinging grooves can restrict the swing angle of swinging arms, reduces because of the too big condition emergence of swinging arms swing angle to damage other parts.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the ceramic tile fixing device is provided with the transverse plate, the clamping plates, the distance adjusting parts and the height adjusting parts, the distance between the opposite clamping plates can be adjusted through the distance adjusting parts, and the height of the clamping plates relative to the transverse plate can be adjusted through the height adjusting parts, so that ceramic tiles in various forms can be fixed more stably;

2. the ceramic tile fixing device is provided with the pressing plate and the detachable piece, so that the pressing plates in different shapes can be replaced, and ceramic tiles in various shapes can be stably fixed;

3. this application sets up floating assembly, can automatic floating tile upper surface's concrete, is favorable to improving work efficiency.

Drawings

Fig. 1 is a front view of a tile installation assistance structure for use in construction of a decoration project according to an embodiment of the present application.

Fig. 2 is a right side view of the tile installation assistance structure for decoration engineering construction according to the embodiment of the present application.

Fig. 3 is a view from direction a in fig. 2.

Fig. 4 is a sectional view taken along line B-B in fig. 2.

Fig. 5 is a view in the direction of C in fig. 4.

Fig. 6 is a plan view of the tile installation assistance structure for use in the construction of a decoration work according to the embodiment of the present application.

Fig. 7 is a view from direction D in fig. 6.

Fig. 8 is a view from direction E of fig. 6.

Fig. 9 is an exploded view of a troweling assembly of an embodiment of the present application.

Description of reference numerals: 1. erecting a rod; 11. a sliding groove; 111. a straight groove; 12. a base plate; 13. a vertical slot; 2. a lifting and overturning component; 21. a lifting block; 211. rotating the through groove; 22. a shifting shaft; 23. a poking arm; 24. a fixed block; 25. a limit spring; 26. fixing the stud; 3. a transverse plate; 31. a distance adjusting part; 311. clamping a plate; 3111. positioning the through groove; 312. positioning the bolt; 32. a transverse groove; 4. a splint; 41. a height adjusting piece; 411. a height-adjusting sliding block; 4111. a screw hole; 412. a screw; 4121. a handle; 42. heightening the chute; 43. a through hole; 44. pressing the plate tightly; 441. a support plate; 45. a detachable member; 451. inserting a block; 4511. a card slot; 452. a clamping block; 4521. a guide block; 453. a spring; 46. a slot; 461. a contraction groove; 47. a guide groove; 5. a troweling assembly; 51. a swing lever; 52. a drum; 53. a drive member; 531. a rotating shaft; 532. a second motor; 54. a sliding member; 541. installing a sliding block; 5411. a swing groove; 5412. a through hole; 542. a rack; 543. a gear; 544. a first motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses decorate engineering construction and use ceramic tile installation auxiliary structure.

Referring to fig. 1 and 2, the auxiliary tile installation structure for decoration engineering construction comprises an upright rod 1, a lifting and overturning assembly 2, a transverse plate 3, a clamping plate 4, a distance adjusting member 31, a height adjusting member 41 and a floating assembly 5; bottom an organic whole of pole setting 1 is connected with bottom plate 12, 2 sliding connection of lift upset subassembly are on the lateral wall of pole setting 1, diaphragm 3 and 2 fixed connection of lift upset subassembly, 3 levels of diaphragm set up, splint 4 slides with diaphragm 3 and is connected, splint 4 is perpendicular with diaphragm 3, splint 4 has two, two splint 4 are relative, roll adjustment piece 31 slides with diaphragm 3 and is connected, it slides with splint 4 and is connected to increase 41, roll adjustment piece 31 slides with increase 41 fixed connection, floating subassembly 5 slides with pole setting 1 and is connected.

Operation lift upset subassembly 2, diaphragm 3 slides along the length direction of pole setting 1, and operation roll adjustment piece 31, splint 4 slide along the length direction of diaphragm 3, and the piece 41 is increaseed in the operation, and splint 4 slides along the length direction of pole setting 1, operates floating subassembly 5, and floating subassembly 5 is the swing at two splint 4 promptly.

Referring to fig. 1 and 2, the lifting and overturning assembly 2 includes a lifting block 21, a shifting shaft 22, a shifting arm 23, a fixing block 24, a limiting spring 25 and a fixing stud 26, a vertical groove 13 is formed on a side wall of the vertical rod 1, the length direction of the vertical groove 13 is the same as that of the vertical rod 1, the lifting block 21 is slidably connected to the groove wall of the vertical groove 13, the fixing block 24 is integrally connected with the bottom wall of the lifting block 21, the fixing stud 26 penetrates through the fixing block 24, the fixing stud 26 is in threaded connection with the fixing block 24, and the fixing stud 26 is abutted against the side wall of the vertical rod 1.

Referring to fig. 1 and 2, a rotating through groove 211 is formed in the lifting block 21, the shifting shaft 22 penetrates through the rotating through groove 211, the axial direction of the shifting shaft 22 is perpendicular to the length direction of the vertical rod 1, one end of the shifting shaft 22 is welded to the shifting arm 23, the other end of the shifting shaft 22 is welded to the side wall of the transverse plate 3, one end of the limiting spring 25 is sleeved on the shifting arm 23, and the other end of the limiting spring 25 is sleeved on the fixing block 24.

The lifting block 21 is pushed to slide along the groove wall of the vertical groove 13, the transverse plate 3 synchronously slides along the lifting block 21, the fixing stud 26 is screwed, the fixing stud 26 and the side wall of the vertical rod 1 are positioned in a friction mode, and then the lifting block 21 and the vertical rod 1 are relatively fixed; the limiting spring 25 exerts a pulling force on the poking arm 23, so that the random rotation of the poking arm 23 is reduced; the dial arm 23 is rotated, and the dial shaft 22 and the cross plate 3 are rotated in synchronization.

Referring to fig. 2, the transverse plate 3 is provided with a transverse groove 32, the length direction of the transverse groove 32 is the same as that of the transverse plate 3, the clamping plate 4 penetrates through the transverse groove 32, and the clamping plate 4 is in sliding contact with the groove wall of the transverse groove 32; the side wall of the clamping plate 4 is provided with a heightening sliding groove 42, the length direction of the heightening sliding groove 42 is the same as that of the clamping plate 4, and the heightening part 41 is slidably mounted on the groove wall of the heightening sliding groove 42.

Referring to fig. 2, the height-adjusting member 41 includes a height-adjusting slider 411 and a screw 412, the height-adjusting slider 411 is slidably connected to a wall of the height-adjusting chute 42, and the distance-adjusting member 31 is fixedly connected to a side wall of the height-adjusting slider 411 away from the vertical rod 1;

referring to fig. 2 and 3, a screw hole 4111 is formed in the height-adjusting slider 411, a through hole 43 is formed in the bottom wall of the clamping plate 4, the through hole 43 is communicated with the height-adjusting sliding groove 42, the screw rod 412 penetrates through the through hole 43, the screw hole 4111 and the height-adjusting sliding groove 42, the screw rod 412 is in sliding abutting contact with the hole wall of the through hole 43, the screw rod 412 is in threaded connection with the hole wall of the screw hole 4111, and the top end of the screw rod 412 is rotatably connected with the groove wall of the height-adjusting sliding groove 42; a handle 4121 is welded to the bottom end of the screw 412.

When the handle 4121 is rotated, the screw 412 is rotated synchronously, the clamp plate 4 slides along the length direction of the heightening slide groove 42, and the clamp plate 4 can slide up and down.

Referring to fig. 3, the distance adjusting member 31 includes two clamping plates 311 and two positioning bolts 312, one clamping plate 311 is located above the transverse plate 3, the other clamping plate 311 is located below the transverse plate 3, both clamping plates 311 are slidably abutted to the transverse plate 3, and the clamping plates 311 are welded to the side wall of the height-adjusting slider 411 away from the vertical rod 1; be located and be equipped with two location logical grooves 3111 on the cardboard 311 of diaphragm 3 top, a positioning bolt 312 threaded connection is on the pore wall of a location logical groove 3111, and another positioning bolt 312 threaded connection is on the pore wall of another location logical groove 3111, and positioning bolt 312 stretches into the one end of location logical groove 3111 and the roof butt of diaphragm 3.

The clamp plate 4 slides along the groove wall of the transverse groove 32, the clamping plate 311 slides synchronously along the clamp plate 4, the positioning bolt 312 is screwed, the positioning bolt 312 is in friction positioning with the transverse plate 3, and the clamp plate 4 is relatively fixed with the transverse plate 3.

Referring to fig. 4 and 5, a detachable member 45 is disposed at the top end of the clamping plate 4, the detachable member 45 is fixedly connected with a pressing plate 44, the length direction of the pressing plate 44 is perpendicular to the length direction of the clamping plate 4, a supporting plate 441 is integrally connected to the bottom end of the pressing plate 44, and the supporting plate 441 is perpendicular to the pressing plate 44.

Referring to fig. 4 and 5, the detachable member 45 includes an insert 451, a latch 452 and a spring 453, one end of the insert 451 is welded to the clamping plate 44, one end of the insert 451 facing away from the clamping plate 44 faces the clamping plate 4, a slot 46 is formed in a top side wall of the clamping plate 4 of the slot 4511, a contracting slot 461 is formed in a slot wall at the bottom end of the slot 46, the spring 453 is located in the contracting slot 461, one end of the spring 453 is fixedly connected with an end wall of the contracting slot 461, the other end of the spring 453 is fixedly connected with a bottom end of the latch 452, the latch 452 slides and abuts against a slot wall of the contracting slot 461, the top end of the latch 452 is arc-shaped, and an arc-shaped surface of the latch 452 faces the insert 451.

Referring to fig. 6 and 7, a guide groove 47 is formed in one side wall of the clamping plate 4, the guide groove 47 is communicated with the contraction groove 461, a guide block 4521 is adhered to the fixture block 452, the guide block 4521 is inserted into the guide groove 47, and the guide block 4521 is in sliding contact with a groove wall of the guide groove 47.

When the inserting block 451 is inserted into the slot 46, the inserting block 451 automatically pushes the fixture block 452 to slide into the shrinkage groove 461, when the clamping groove 4511 is opposite to the shrinkage groove 461, the spring 453 automatically pushes the fixture block 452 to slide into the clamping groove 4511, and the inserting block 451 is fixed relative to the clamp plate 4; the guide block 4521 is pulled downwards, and the latch 452 slides into the retraction slot 461, so that the plug block 451 can be pulled out of the slot 46, and the pressing plate 44 with different shapes can be replaced.

Referring to fig. 8, the trowelling assembly 5 includes a swinging rod 51, a roller 52, a driving member 53 and a sliding member 54, a sliding groove 11 is provided on the side wall of the vertical rod 1 facing the transverse plate 3, the length direction of the sliding groove 11 is the same as the length direction of the vertical rod 1, and the sliding member 54 is connected to the groove wall of the sliding groove 11 in a sliding manner; one end of the swing rod 51 is rotatably connected with the sliding piece 54, the rotating axial direction of the swing rod 51 is the same as the sliding direction of the sliding piece 54, the other end of the swing rod 51 extends towards the direction close to the transverse plate 3, and the swing rod 51 is positioned above the transverse plate 3; the roller 52 is sleeved on the peripheral wall of the swing rod 51, the roller 52 is rotatably connected with the swing rod 51, the driving part 53 is rotatably connected on the sliding part 54, and the driving part 53 is fixedly connected with the swing rod 51.

When the slider 54 is operated, the swing lever 51 slides in the longitudinal direction of the slide groove 11, and the swing lever 51 rotates when the driver 53 is operated.

Referring to fig. 8 and 9, the slider 54 includes a mounting slider 541, a rack 542, a gear 543, and a first motor 544; the mounting slider 541 is in sliding abutting contact with a groove wall of the sliding groove 11, a swinging groove 5411 is arranged on a side wall of the mounting slider 541 departing from the vertical rod 1, one end of the swinging rod 51 is inserted into the swinging groove 5411, the swinging rod 51 is in sliding abutting contact with a groove wall of the swinging groove 5411, and the rotating driving piece 53 is mounted on the mounting slider 541.

Referring to fig. 8 and 9, a straight groove 111 is formed in one side wall of the sliding groove 11, the length direction of the straight groove 111 is the same as that of the sliding groove 11, a rack 542 is integrally connected to the side wall of the mounting slider 541, the rack 542 is located in the straight groove 111, and the length direction of the rack 542 is the same as that of the straight groove 111; the first motor 544 is riveted on the side wall of the vertical rod 1 facing the transverse plate 3, the output shaft of the first motor 544 penetrates through the side wall of the vertical rod 1 facing the transverse plate 3, the gear 543 is fixedly connected to the output shaft of the first motor 544, the gear 543 is located in the straight groove 111, and the gear 543 is meshed with the rack 542.

The first motor 544 drives the gear 543 to rotate, the gear 543 drives the rack 542 and the mounting slider 541 to slide along the longitudinal direction of the slide groove 11, and the swing lever 51 follows the mounting slider 541 to slide synchronously.

Referring to fig. 9, the rotation driving member 53 includes a rotating shaft 531 and a second motor 532, a through hole 5412 is provided on a top wall of the mounting slider 541, the through hole 5412 is communicated with the swing groove 5411, the rotating shaft 531 is inserted into the through hole 5412, the rotating shaft 531 abuts against a hole wall of the through hole 5412, the second motor 532 is riveted on the top wall of the mounting slider 541, an output shaft of the second motor 532 is fixedly connected with a top end of the rotating shaft 531, and an axial direction of the rotating shaft 531 is the same as a length direction of the sliding groove 11.

When the second motor 532 rotates the rotating shaft 531 to rotate the rotating shaft 531 synchronously with the swing lever 51, and the swing lever 51 abuts against the side wall of the swing groove 5411, the second motor 532 is started to rotate in the reverse direction, and the swing lever 51 swings in the reverse direction.

The embodiment of the application provides a decorate construction and do with ceramic tile installation auxiliary structure's implementation principle:

the lifting block 21 is pushed to slide along the groove wall of the vertical groove 13 to a proper height, and then the fixing stud 26 is screwed, so that the lifting block 21 is fixed relative to the vertical rod 1.

Firstly, the handle 4121 is rotated, the screw 412 synchronously rotates along with the handle 4121, the clamping plate 4 slides relative to the height-adjusting slider 411, and the pressing plate 44 synchronously slides along with the clamping plate 4; when the pressing plates 44 slide to a proper height, the screw 412 stops rotating, the ceramic tile is moved to the position above the transverse plate 3, the two clamping plates 4 are pushed to slide oppositely, the two pressing plates 44 clamp the ceramic tile, meanwhile, the bottom surface of the ceramic tile is abutted to the supporting plate 441, then the positioning bolts 312 are screwed, and the clamping plates 4 and the transverse plate 3 are fixed oppositely.

Then, concrete is poured on the upper surface of the tile, the first motor 544 is started again, the first motor 544 drives the gear 543 to rotate, the gear 543 drives the rack 542 and the mounting slider 541 to slide downwards, when the roller 52 abuts against the upper surface of the tile, the first motor 544 is closed, the second motor 532 is started again, the second motor 532 drives the rotating shaft 531 and the swinging rod 51 to rotate left and right, the roller 52 rolls back and forth on the upper surface of the tile, and the roller 52 screeds the concrete.

And then the fixed stud 26 is rotated reversely, the lifting block 21 slides downwards to a proper height, the shifting arm 23 is rotated, and the shifting shaft 22 and the transverse plate 3 synchronously rotate along with the shifting arm 23, so that the ceramic tile can be turned over and pasted.

When a ceramic tile with other shapes needs to be pasted, the guide block 4521 is pushed downwards, the clamping block 452 slides into the contraction groove 461, then the insertion block 451 is pulled out of the slot 46, and then the spring 453 automatically ejects the clamping block 452 out of the contraction groove 461; after the pressing plate 44 and the supporting plate 441 with the proper shapes are replaced, the inserting block 451 is inserted into the slot 46, the inserting block 451 automatically pushes the clamping block 452 to slide into the shrinkage groove 461, and when the clamping groove 4511 is opposite to the shrinkage groove 461, the spring 453 automatically pushes the clamping block 452 to slide into the clamping groove 4511, so that the replacement is completed.

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 (8)

1. The utility model provides a decorate ceramic tile installation auxiliary structure for engineering construction, includes pole setting (1) and lift upset subassembly (2), lift upset subassembly (2) slidable mounting is on pole setting (1), its characterized in that: still include diaphragm (3) and splint (4), diaphragm (3) and lift upset subassembly (2) fixed connection, splint (4) and diaphragm (3) sliding connection, splint (4) have two at least, sliding connection has roll adjustment piece (31) on diaphragm (3), sliding connection has height-adjusting piece (41) on splint (4), height-adjusting piece (41) and roll adjustment piece (31) fixed connection.

2. The tile installation auxiliary structure for decoration engineering construction according to claim 1, wherein: the distance adjusting piece (31) comprises clamping plates (311) and positioning bolts (312), the clamping plates (311) are at least two, the clamping plates (311) are fixedly connected with the height adjusting piece (41), the transverse plate (3) is located between the clamping plates (311) which are opposite, the clamping plates (311) are in sliding and abutting joint with the transverse plate (3), a positioning through groove (3111) is formed in the clamping plates (311), the positioning bolts (312) are in threaded connection with the hole wall of the positioning through groove (3111), and the positioning bolts (312) are in abutting joint with the transverse plate (3).

3. The tile installation auxiliary structure for decoration engineering construction according to claim 1, wherein: heightening piece (41) is including heightening slider (411) and screw rod (412), it heightens spout (42) to be equipped with on splint (4), heightening slider (411) slides and connects on the cell wall of heightening spout (42), be equipped with through-hole (43) on the end wall of splint (4), be equipped with screw (4111) on heightening slider (411), through-hole (43), screw (4111) and heightening spout (42) are worn to locate in screw rod (412), screw (412) and the pore wall threaded connection of screw (4111), screw rod (412) and the cell wall of heightening spout (42) rotate to be connected.

4. The tile installation auxiliary structure for decoration engineering construction according to claim 1, wherein: one end of splint (4) is equipped with and tightly presses board (44), tightly press board (44) are connected with removable piece (45), removable piece (45) can be dismantled with splint (4) and be connected, tightly press board (44) are close to one end fixedly connected with layer board (441) of diaphragm (3).

5. The tile installation auxiliary structure for decoration engineering construction according to claim 4, wherein: the detachable piece (45) comprises an inserting block (451), a clamping block (452) and a spring (453), the splint (4) is provided with a slot (46), the wall of the slot (46) is provided with a contraction groove (461), the clamping block (452) is connected on the groove wall of the contraction groove (461) in a sliding way, one end of the spring (453) is fixedly connected with the clamping block (452), the other end of the spring (453) is fixedly connected with the end wall of the contraction groove (461), a guide groove (47) is arranged on the clamping plate (4), one end of the guide groove (47) extends to the groove wall of the contraction groove (461), a guide block (4521) is fixedly connected to the clamping block (452), the guide block (4521) is in sliding contact with the groove wall of the guide groove (47), the plug-in block (451) is provided with a clamping groove (4511), the plug-in block (451) is in sliding butt joint with the groove wall of the slot (46), and the clamping block (452) is in sliding butt joint with the groove wall of the clamping groove (4511).

6. The tile installation auxiliary structure for decoration engineering construction according to claim 1, wherein: be equipped with floating subassembly (5) on pole setting (1), floating subassembly (5) include swinging arms (51), cylinder (52), drive and change piece (53) and slide (54), slide (54) and pole setting (1) slide and be connected, the one end and the slide (54) of swinging arms (51) rotate and are connected, swinging arms (51) are worn to locate in cylinder (52), cylinder (52) rotate with swinging arms (51) and are connected, drive and change piece (53) and swinging arms (51) fixed connection.

7. The tile installation auxiliary structure for decoration engineering construction according to claim 6, wherein: the sliding piece (54) comprises an installation slider (541), a rack (542), a gear (543) and a first motor (544), a sliding groove (11) is formed in the vertical rod (1), the installation slider (541) is in sliding connection with a groove wall of the sliding groove (11), the rack (542) is fixedly connected with a side wall of the installation slider (541), the length direction of the rack (542) is the same as the sliding direction of the installation slider (541), the first motor (544) is fixedly installed on the vertical rod (1), the gear (543) is fixedly connected with the first motor (544), the gear (543) is meshed with the rack (542), and the swing rod (51) is rotatably connected with the installation slider (541).

8. The tile installation auxiliary structure for decoration engineering construction according to claim 7, wherein: drive commentaries on classics piece (53) including pivot (531) and second motor (532), be equipped with swing groove (5411) on the lateral wall that installation slider (541) deviates from pole setting (1), be equipped with through hole (5412) on the lateral wall of installation slider (541), the one end of through hole (5412) extends to the cell wall of swing groove (5411), pivot (531) are worn to locate in through hole (5412), the one end of swinging arms (51) and the cell wall butt that slides of swing groove (5411), pivot (531) and swinging arms (51) fixed connection, second motor (532) fixed mounting is on installation slider (541), second motor (532) and pivot (531) fixed connection.

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