CN215442982U - Auxiliary tool for floor installation - Google Patents

Abstract

The utility model relates to an auxiliary fixtures is used in floor installation relates to the field of floor installation technique, it is including removing the frame, be located and remove the lift box on the frame, be located the elevating gear on the lift box, be located the unloading platform on removing the frame, be located strutting arrangement and the temporary storage case on the unloading platform, elevating gear includes the lift cylinder, the lifter plate and be located the material mechanism of inhaling on the lifter plate, the drive shaft of lift cylinder runs through the one end and the lifter plate of lifter box roof and is connected, inhale the material mechanism and be used for adsorbing the ceramic tile surface. This application utensil can adsorb the upper surface of ceramic tile through inhaling material mechanism, strengthens the connectivity between ceramic tile and the lifter plate, under the effect of lift cylinder, is convenient for remove the ceramic tile subaerially, and the installer of being convenient for installs the ceramic tile, simultaneously, can reduce installer intensity of labour, improves work efficiency.

Description

Auxiliary tool for floor installation

Technical Field

The application relates to the field of floor installation technology, in particular to an auxiliary tool for floor installation.

Background

With the development of urbanization and the improvement of living standard of people, families start to live on the building. In order to level and clean the interior of a house, people lay floors on the ground, and tiles are often laid on the household ground as one of the floors with strong practicability.

In the process of laying the ceramic tiles, an installer needs to move the ceramic tiles to a floor laying point, lay the ceramic tiles at a specified position, and then process and install the ceramic tiles. The floor is bulky and relatively heavy. Certain installation strength can be brought to installation personnel in the carrying process, and the damage of the ceramic tiles can be caused by carelessness, so that the loss is brought, and the harm can be brought to the health of the installation personnel.

In view of the above-mentioned related technologies, the inventor believes that the tiles are too large and heavy, and when an installer moves the tiles to a laying point on a floor, the work intensity of the installer is increased, which is inconvenient for installing the tiles.

SUMMERY OF THE UTILITY MODEL

For the convenience of installing the ceramic tile, reduce installer's construction strength, this application provides a floor installation is with auxiliary fixtures.

The application provides a floor installation uses auxiliary fixtures adopts following technical scheme:

the utility model provides an auxiliary fixtures is used in floor installation, is including removing the frame, being located lift box on the removal frame, being located elevating gear on the lift box, being located remove the unloading platform on the frame, being located strutting arrangement and temporary storage case on the unloading platform, elevating gear includes lift cylinder, lifter plate and is located inhale material mechanism on the lifter plate, the drive shaft of lift cylinder runs through the one end of lift roof with the lifter plate is connected, inhale material mechanism and be used for adsorbing the ceramic tile surface.

Through adopting above-mentioned technical scheme, with ceramic tile propelling movement to the unloading bench, adjust and inhale material mechanism, inhale the upper surface that material mechanism adsorbs the ceramic tile, then adjust strutting arrangement, strutting arrangement no longer supports the ceramic tile, then adjust the lift cylinder, the drive shaft of lift cylinder drives the lifter plate downstream, the lifter plate drives inhales material mechanism downstream, and then drives the ceramic tile downstream, places the ceramic tile on subaerial steadily. Then adjust and inhale the material mechanism, inhale the material mechanism and no longer adsorb the ceramic tile. Through inhaling material mechanism, can adsorb the upper surface of ceramic tile, strengthen the connectivity between ceramic tile and the lifter plate, under the effect of lift cylinder, be convenient for remove the ceramic tile subaerially, the installer of being convenient for installs the ceramic tile, simultaneously, can reduce installer intensity of labour, improvement work efficiency.

Optionally, the material sucking mechanism comprises a vacuum pump, at least one material sucking pipe and a sucker, the vacuum pump is arranged at the bottom of the lifting plate, one end of the material sucking pipe is connected with the vacuum pump, the other end of the material sucking pipe is connected with the sucker, and the sucker is used for adsorbing the surface of the ceramic tile.

Through adopting above-mentioned technical scheme, when adsorbing the ceramic tile, adjust the sucking disc, place the sucking disc on the surface of ceramic tile, then adjust the vacuum pump, the air that the vacuum pump will inhale in the feed pipe absorbs for inhale the pressure in the feed pipe and be less than the pressure in the air, and then make the sucking disc adsorb firmly on the ceramic tile. The vacuum pump that sets up can make the sucking disc adsorb firmly on the ceramic tile through inhaling the material pipe, increases the connection performance of sucking disc and ceramic tile, and then is convenient for adjust the motion of ceramic tile. The material mechanism of inhaling that sets up can make the sucking disc adsorb firmly on the ceramic tile, is convenient for remove assigned position department with the ceramic tile and installs, reduces installer's construction strength.

Optionally, the supporting device includes a driving mechanism, four supporting screws and a supporting block for supporting the ceramic tile, an opening for discharging the ceramic tile is provided on the discharging table, sliding grooves are provided on side walls of the opening, the supporting screws and the supporting block are located in the sliding grooves, the supporting screws penetrate through two ends of the supporting block and are rotatably connected with the discharging table, and the driving mechanism is used for driving the supporting screws to rotate.

Through adopting above-mentioned technical scheme, adjust actuating mechanism, actuating mechanism drives four screws and rotates, under the effect in groove that slides, can drive the supporting shoe along the length direction motion in groove that slides, and then no longer support the ceramic tile, and the ceramic tile of being convenient for falls from the opening, is convenient for remove the ceramic tile subaerially and installs and use. The strutting arrangement who sets up can carry out interim support to the ceramic tile, and the ceramic tile of being convenient for falls from the opening, and then places the ceramic tile and installs the use subaerially, simultaneously, can reduce installer's construction strength, improves the efficiency of construction.

Optionally, the driving mechanism includes a stepping motor and eight bevel gears, two bevel gears are coaxially arranged on the support screw, the support block is located between the bevel gears and is adjacent to the bevel gears in a meshed manner, and the stepping motor is used for driving the support screw to rotate.

Through adopting above-mentioned technical scheme, adjust step motor, step motor's drive shaft drives the support screw and rotates, and the support screw drives bevel gear and rotates, and under bevel gear's effect, and then drives whole support screw and rotate. The stepping motor is arranged, and power can be provided for rotation of the supporting screw rod. The bevel gears can drive all the supporting screws to rotate simultaneously. The driving mechanism who sets up can provide power for the rotation of supporting screw, can drive whole supporting screw simultaneously and rotate, and then reduces installer's working strength, improves work efficiency.

Optionally, a limiting ring for limiting the supporting block is coaxially arranged on the supporting screw rod.

Through adopting above-mentioned technical scheme, the spacing ring that sets up can carry on spacingly to the motion of supporting shoe, reduces the spacing ring and collides with bevel gear at the in-process of motion, prolongs the life of bevel gear and supporting shoe.

Optionally, the temporary storage box is provided with a reset device, the reset device includes a support plate and at least one reset spring, the support plate is used for supporting the ceramic tile, the bottom of the reset spring is connected with the bottom wall of the temporary storage box, the other end of the reset spring is connected with the support plate, and the support plate can slide along the temporary storage box.

Through adopting above-mentioned technical scheme, place the backup pad with the ceramic tile on, the ceramic tile receives gravity to influence, pushes down the backup pad, and reset spring, reset spring compression are pushed down to the backup pad. When taking off the ceramic tile, reset spring in order to resume deformation, with the ceramic tile propelling movement of bottom to the discharge gate department of case of keeping in, the installer of being convenient for uses the ceramic tile. The resetting means who sets up is convenient for the installer to take the ceramic tile, saves the labour, and then improves the efficiency of construction.

Optionally, a limiting block used for limiting the supporting plate is arranged at the discharge port of the temporary storage box.

Through adopting above-mentioned technical scheme, the stopper that sets up can carry on spacingly to the motion of backup pad, reduces the stopper motion.

Optionally, at least one guide slider is arranged on the support plate, and a guide sliding groove for the guide slider to slide is formed in the side wall of the temporary storage box.

Through adopting above-mentioned technical scheme, the spout that leads that sets up can supply to lead the slider and slide, plays certain guide effect to the motion of backup pad, improves the stability of backup pad motion, is convenient for carry out the propelling movement to the ceramic tile.

Optionally, the bottom of the moving frame is provided with at least three pulleys.

Through adopting above-mentioned technical scheme, the pulley of setting can reduce the area of contact who removes frame and ground, and the installer of being convenient for removes the usefulness to removing the frame, reduces physical power, and then improves the efficiency of construction.

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

1. the upper surface of the ceramic tile can be adsorbed through the material adsorption mechanism, the connection between the ceramic tile and the lifting plate is enhanced, the ceramic tile is convenient to move to the ground under the action of the lifting cylinder, an installer can conveniently install the ceramic tile, the labor intensity of the installer can be reduced, and the working efficiency is improved;

2. the arranged material sucking mechanism can enable the sucker to be firmly adsorbed on the ceramic tile, so that the ceramic tile can be conveniently moved to a specified position to be installed, and the construction strength of an installer is reduced;

3. the strutting arrangement who sets up can carry out interim support to the ceramic tile, and the ceramic tile of being convenient for falls from the opening, and then places the ceramic tile and installs the use subaerially, simultaneously, can reduce installer's construction strength, improves the efficiency of construction.

Drawings

Fig. 1 is a schematic overall structure diagram of an auxiliary tool for floor installation according to an embodiment of the present application.

Fig. 2 is a sectional view of an auxiliary tool for floor installation according to an embodiment of the present application.

Fig. 3 is a cross-sectional view of another perspective of the auxiliary tool for floor installation according to the embodiment of the present application.

Fig. 4 is an enlarged schematic view of a portion a of fig. 2.

Reference numerals: 1. a movable frame; 11. a pulley; 2. a lifting box; 3. a lifting device; 31. a lifting cylinder; 32. a lifting plate; 33. a material sucking mechanism; 331. a vacuum pump; 332. a material suction pipe; 333. a suction cup; 4. a blanking table; 41. an opening; 42. a sliding groove; 43. a support tab; 5. a support device; 51. a drive mechanism; 511. a stepping motor; 512. a bevel gear; 52. a support screw; 53. a support block; 54. a limiting ring; 6. a temporary storage box; 61. a limiting block; 62. a guide chute; 7. a resetting device; 71. a support plate; 72. a return spring; 73. and a guide slide block.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses floor installation is with auxiliary fixtures. Referring to fig. 1 and 2, the auxiliary tool for floor installation includes a movable frame 1, a lifting box 2 located on the movable frame 1, a lifting device 3 located on the lifting box 2, a blanking table 4 located on the movable frame 1, a supporting device 5 located on the blanking table 4, and a temporary storage box 6, wherein the bottom of the blanking table 4 is integrally connected with the movable frame 1, the bottom of the lifting box 2 is integrally connected with the blanking table 4, the temporary storage box 6 is integrally connected with the movable frame 1, and the bottom of the movable frame 1 is connected with four pulleys 11 through bolts, and the pulleys 11 are universal wheels.

Referring to fig. 2, in order to place the tiles on the ground, the lifting device 3 includes a lifting cylinder 31, a lifting plate 32, and a material sucking mechanism 33 disposed on the lifting plate 32, wherein a driving shaft of the lifting cylinder 31 penetrates through one end of the top wall of the lifting box 2 and is welded to the lifting plate 32. The material sucking mechanism 33 is used for sucking the surface of the ceramic tile, the material sucking mechanism 33 comprises a vacuum pump 331, four material sucking pipes 332 and a suction cup 333, the vacuum pump 331 is arranged at the bottom of the lifting plate 32, and the base of the vacuum pump 331 is connected to the lifting plate 32 through a bolt. One end of the material suction pipe 332 is connected with an output shaft of the vacuum pump 331, the other end is connected with the suction cup 333, and the suction cup 333 is used for adsorbing the surface of the ceramic tile.

Referring to fig. 2, fig. 3 and fig. 4, in order to support the ceramic tile, the supporting device 5 includes a driving mechanism 51, four supporting screws 52 and a supporting block 53 for supporting the ceramic tile, an opening 41 for discharging the ceramic tile is provided on the discharging table 4, a sliding groove 42 is provided on a side wall of the opening 41, the supporting screws 52 and the supporting block are located in the sliding groove 42, the supporting screws 52 are distributed along the length direction of the sliding groove 42, and one end of the supporting block 53 extending out of the sliding groove 42 can support the ceramic tile. Referring to fig. 4, the bottom wall of the sliding groove 42 is integrally connected with the supporting lug 43, the supporting screw 52 penetrates through two ends of the supporting block 53 and is connected with the supporting lug 43 through a bearing, an outer ring of the bearing is in interference fit with the supporting lug 43, an inner ring of the bearing is in interference fit with the supporting screw 52, and the bearing is not labeled in this embodiment. The driving mechanism 51 is used for driving the supporting screw 52 to rotate, the driving mechanism 51 comprises a stepping motor 511 and eight bevel gears 512, two bevel gears 512 are coaxially arranged on the supporting screw 52, the bevel gears 512 are respectively welded at two ends of the supporting screw 52, the supporting block 53 is arranged between the bevel gears 512, and the adjacent bevel gears 512 are meshed. The driving shaft of the stepping motor 511 is welded with the supporting screw 52, and the base of the stepping motor 511 is fixed on the blanking table 4 through bolts. By adjusting the stepping motor 511, the driving shaft of the stepping motor 511 can rotate the support screw 52. Under the action of the sliding groove 42, the supporting screw 52 can drive the supporting block 53 to move along one side of the supporting screw 52, so that the supporting block 53 no longer supports the tile. The supporting screw 52 is coaxially provided with a limiting ring 54, the limiting ring 54 is used for limiting the supporting block 53, and the limiting ring 54 is welded with the supporting screw 52.

Referring to fig. 3, in order to facilitate the transfer of the tiles, the temporary storage box 6 is provided with a reset device 7, the reset device 7 includes a support plate 71 and two reset springs 72 for supporting the tiles, the bottom of the reset spring 72 is welded to the bottom wall of the temporary storage box 6, the top of the reset spring 72 is welded to the support plate 71, and the support plate 71 can slide along the temporary storage box 6. The lateral wall an organic whole of the discharge gate of temporary storage case 6 is connected with two stopper 61, and stopper 61 is used for spacing backup pad 71. The support plate 71 is integrally connected with two guide sliders 73, and the side wall of the temporary storage box 6 is provided with a guide chute 62 for the guide sliders 73 to slide.

The implementation principle of an auxiliary tool for floor installation in the embodiment of the application is as follows: on unloading platform 4 with the ceramic tile propelling movement, place the ceramic tile on backup pad 71, the ceramic tile receives gravity to influence, pushes down backup pad 71, and backup pad 71 pushes down reset spring 72, and reset spring 72 compresses, places required ceramic tile on backup pad 71 in proper order, and the ceramic tile gets into temporary storage box 6. The movable frame 1 is adjusted, the movable frame 1 is moved to a designated position, tiles on the supporting plate 71 are pushed, the tiles are pushed to the blanking table 4, and the tiles are supported by the four supporting blocks 53. When the ceramic tile is moved away, the reset spring 72 pushes the ceramic tile at the bottom to the discharge port of the temporary storage box 6 for restoring the deformation, so that the installation personnel can adjust the ceramic tile for use.

And adjusting the suction cup 333, placing the suction cup 333 on the surface of the tile, then adjusting the vacuum pump 331, and absorbing the air in the material suction pipe 332 by the vacuum pump 331 to ensure that the pressure in the material suction pipe 332 is less than the pressure in the air, so that the suction cup 333 is firmly adsorbed on the tile. By adjusting the stepping motor 511, the driving shaft of the stepping motor 511 drives the supporting screw 52 to rotate, and the supporting screw 52 drives the bevel gear 512 to rotate, so as to drive all the supporting screws 52 to rotate under the action of the bevel gear 512. Under the effect of the sliding groove 42, the supporting block 53 can be driven to move along the length direction of the sliding groove 42, so that the supporting block 53 no longer supports the ceramic tile, then the lifting cylinder 31 is adjusted, the driving shaft of the lifting cylinder 31 drives the lifting plate 32 to move downwards, and the lifting plate 32 drives the vacuum pump 331 and the ceramic tile to move downwards until the ceramic tile is stably placed on the ground. Then adjust vacuum pump 331, make and inhale material pipe 332 no longer adsorb the ceramic tile, be convenient for the operation workman and carry out installation processing to the ceramic tile.

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 (9)

1. The utility model provides an auxiliary fixtures is used in floor installation which characterized in that: including removing frame (1), being located lift box (2) on removing frame (1), being located elevating gear (3) on lift box (2), being located remove unloading platform (4) on frame (1), being located strutting arrangement (5) and temporary storage case (6) on unloading platform (4), elevating gear (3) are including lift cylinder (31), lifter plate (32) and being located inhale material mechanism (33) on lifter plate (32), the drive shaft of lift cylinder (31) runs through the one end of lift box (2) roof with lifter plate (32) are connected, inhale material mechanism (33) and be used for adsorbing the ceramic tile surface.

2. The auxiliary tool for floor installation according to claim 1, wherein: inhale material mechanism (33) and include vacuum pump (331), at least one inhale material pipe (332) and sucking disc (333), vacuum pump (331) are located lifter plate (32) bottom, inhale the one end of material pipe (332) with vacuum pump (331) are connected, the other end with sucking disc (333) are connected, sucking disc (333) are used for adsorbing with the ceramic tile surface.

3. The auxiliary tool for floor installation according to claim 1, wherein: the ceramic tile feeding device is characterized in that the supporting device (5) comprises a driving mechanism (51), four supporting screws (52) and a supporting block (53) used for supporting a ceramic tile, an opening (41) used for enabling the ceramic tile to be fed is formed in the feeding table (4), sliding grooves (42) are formed in the side wall of the opening (41), the supporting screws (52) and the supporting block (53) are located in the sliding grooves (42), the supporting screws (52) penetrate through the two ends of the supporting block (53) and are rotatably connected with the feeding table (4), and the driving mechanism (51) is used for driving the supporting screws (52) to rotate.

4. The auxiliary tool for floor installation according to claim 3, wherein: the driving mechanism (51) comprises a stepping motor (511) and eight bevel gears (512), two bevel gears (512) are coaxially arranged on the supporting screw rod (52), the supporting block (53) is located between the bevel gears (512), the supporting block is adjacent to the bevel gears (512) and meshed with each other, and the stepping motor (511) is used for driving the supporting screw rod (52) to rotate.

5. The auxiliary tool for floor installation according to claim 3, wherein: and a limiting ring (54) used for limiting the supporting block (53) is coaxially arranged on the supporting screw rod (52).

6. The auxiliary tool for floor installation according to claim 1, wherein: the ceramic tile temporary storage device is characterized in that a reset device (7) is arranged on the temporary storage box (6), the reset device (7) comprises a supporting plate (71) and at least one reset spring (72), the supporting plate is used for supporting a ceramic tile, the bottom of the reset spring (72) is connected with the bottom wall of the temporary storage box (6), the other end of the reset spring is connected with the supporting plate (71), and the supporting plate (71) can slide along the temporary storage box (6).

7. The auxiliary tool for floor installation according to claim 6, wherein: and a limiting block (61) used for limiting the supporting plate (71) is arranged at the discharge port of the temporary storage box (6).

8. The auxiliary tool for floor installation according to claim 6, wherein: the supporting plate (71) is provided with at least one guide sliding block (73), and the side wall of the temporary storage box (6) is provided with a guide sliding groove (62) for the guide sliding block (73) to slide.

9. The auxiliary tool for floor installation according to claim 1, wherein: the bottom of the moving frame (1) is provided with at least three pulleys (11).

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