CN216660488U - Automatic hacking machine of ceramic tile finished product - Google Patents

Abstract

The utility model discloses an automatic stacking machine for finished ceramic tiles, which comprises a workbench, wherein a supporting base is arranged at the lower end of the workbench, and a plate-shaped structure fixing plate which is square is arranged on the supporting base; further comprising: the rotating shaft is mutually connected with the output end of the motor, and the rotating shaft and the fixed plate form a rotating mechanism through a bearing arranged on the fixed plate; a driving wheel mounted on the rotating shaft; the driven wheel is meshed with the driving wheel, and the diameters of the driving wheel and the driven wheel and the number of teeth of the driving wheel and the driven wheel are equal; and the rotating screw is arranged on the driven wheel. This automatic hacking machine of ceramic tile finished product places on placing the board through the ceramic tile after will processing, and drives the ceramic tile through the slurcam and remove to make the ceramic tile place on the sliding plate, thereby no longer need the manual work to carry and pile up neatly the ceramic tile, not only convenient and fast more, can also effectually avoid the in-process of transport, the condition that drops appears in the ceramic tile.

Description

Automatic hacking machine of ceramic tile finished product

Technical Field

The utility model relates to the technical field of ceramic tile processing, in particular to an automatic stacking machine for finished ceramic tiles.

Background

The ceramic tile is common building decoration material, can put up the ceramic tile to ground and wall to the realization is protected ground and wall, and common ceramic tile is formed by mixing such as clay, quartz sand through high temperature compression, therefore common ceramic tile has higher hardness, and is processing the back to the ceramic tile, need carry out the pile up neatly to the ceramic tile, thereby be convenient for follow-up packing in unison to the ceramic tile.

However, in-process to the ceramic tile pile up neatly adopts artifical transport to carry out the pile up neatly usually to the in-process ceramic tile of pile up neatly easily appears the many circumstances of collision each other, and need carry the ceramic tile to different heights at the in-process of pile up neatly, thereby very waste time and energy, and the condition that drops easily appears at the in-process of transport. Aiming at the problems, innovative design is urgently needed on the basis of the original ceramic tile finished product stacking device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic stacking machine for finished ceramic tiles, which aims to solve the problems that manual carrying for stacking is time-consuming and labor-consuming and is easy to fall off in the carrying process in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an automatic stacking machine for finished ceramic tiles comprises a workbench, wherein a supporting base is arranged at the lower end of the workbench, a fixing plate with a square plate-shaped structure is arranged on the supporting base, and a motor is arranged on the fixing plate;

further comprising:

the rotating shaft is mutually connected with the output end of the motor, and the rotating shaft and the fixed plate form a rotating mechanism through a bearing arranged on the fixed plate;

the driving wheel is arranged on the rotating shaft;

the driven wheel is meshed with the driving wheel, and the diameters of the driving wheel and the driven wheel and the number of teeth of the driving wheel and the driven wheel are equal;

the rotating screw is arranged on the driven wheel;

the supporting plate is connected with the rotating screw through a threaded hole formed in the upper end of the supporting plate;

the guide rod is arranged on the fixing plate and is in sliding connection with the supporting plate through a groove formed in the supporting plate;

the second electric telescopic rods are arranged on the workbench, and the number of the second electric telescopic rods is 2;

and the fixed sleeve is arranged on the workbench.

Preferably, the support plate is in sliding connection with the first sliding block through a groove formed in the upper end of the support plate, the first sliding block is T-shaped, the outer surface of the first sliding block is smooth, and through the structure, the friction force between the first sliding block and the support plate is reduced conveniently.

Preferably, the first sliding blocks are symmetrically distributed about the center of the sliding plate, universal wheels are mounted at the lower end of the sliding plate through bearings, and the number of the universal wheels is 4.

Preferably, the sliding plate is symmetrically provided with limiting plates, the limiting plates are attached to the supporting plate through grooves formed in the supporting plate, first electric telescopic rods are mounted on the supporting plate and are attached to the limiting plates through grooves formed in the limiting plates, and the limiting plates are fixed through the first electric telescopic rods.

Preferably, the second electric telescopic rod is provided with an n-shaped pushing plate, the pushing plate is in sliding connection with the workbench through a second sliding block arranged at the upper end of the pushing plate, and the movement range of the pushing plate is limited conveniently through the structure.

Preferably, the fixing sleeve is internally connected with the push rod through a damping spring, the upper end of the push rod is provided with the placing plate, the push rod is connected with the fixing sleeve in a sliding mode through the third sliding block, and the placing plate is convenient to damp through the structure, so that the ceramic tiles are convenient to place.

Compared with the prior art, the utility model has the beneficial effects that: according to the automatic stacking machine for finished ceramic tiles, the processed ceramic tiles are placed on the placing plate, and the ceramic tiles are driven to move by the pushing plate, so that the ceramic tiles are placed on the sliding plate, manual carrying and stacking of the ceramic tiles are not needed, convenience and rapidness are achieved, and the ceramic tiles can be effectively prevented from falling off in the carrying process;

1. the placing plate is damped through the damping spring and the pushing rod, so that the ceramic tile can be damped during placing, the ceramic tile is protected, the ceramic tile is pushed through the movement of the pushing plate, and the ceramic tile is not required to be manually carried at the moment, so that the ceramic tile is more convenient;

2. through the rotation from the driving wheel to drive and rotate the screw rod, just realize changing about the position of backup pad and sliding plate this moment, can realize carrying out the continuity pile up neatly to the ceramic tile, then through pulling the sliding plate, thereby can pack the ceramic tile that the pile up neatly was accomplished.

Drawings

FIG. 1 is a schematic sectional view of a workbench according to the present invention;

FIG. 2 is a schematic view of the bottom cross-section of the driving wheel of the present invention;

FIG. 3 is a side view, cross-sectional, schematic illustration of the placement board of the present invention;

FIG. 4 is a schematic top sectional view of the sliding plate of the present invention;

fig. 5 is a schematic front sectional view of the fixing sleeve according to the present invention.

In the figure: 1. a work table; 2. a support base; 3. a fixing plate; 4. an electric motor; 5. a rotating shaft; 6. a driving wheel; 7. a driven wheel; 8. rotating the screw; 9. a support plate; 10. a guide bar; 11. a first slider; 12. a sliding plate; 13. a universal wheel; 14. a limiting plate; 15. a first electric telescopic rod; 16. a second slider; 17. a push plate; 18. a second electric telescopic rod; 19. fixing the sleeve; 20. a damping spring; 21. a push rod; 22. placing the plate; 23. and a third slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an automatic stacking machine for finished ceramic tiles comprises a workbench 1, wherein a supporting base 2 is installed at the lower end of the workbench, a fixing plate 3 with a square plate-shaped structure is installed on the supporting base 2, and a motor 4 is placed on the fixing plate 3;

further comprising:

the rotating shaft 5 is mutually connected with the output end of the motor 4, and the rotating shaft 5 and the fixed plate 3 form a rotating mechanism through a bearing arranged on the fixed plate 3;

a driving wheel 6 mounted on the rotating shaft 5;

the driven wheel 7 is meshed with the driving wheel 6, and the diameters and the gear tooth numbers of the driving wheel 6 and the driven wheel 7 are equal;

a rotary screw 8 mounted on the driven wheel 7;

the supporting plate 9 is connected with the rotating screw 8 through a threaded hole formed in the upper end of the supporting plate;

the guide rod 10 is arranged on the fixed plate 3, and the guide rod 10 is in sliding connection with the support plate 9 through a groove formed in the support plate 9;

the second electric telescopic rods 18 are arranged on the workbench 1, and 2 second electric telescopic rods 18 are arranged;

a fixed sleeve 19 mounted on the table 1;

in this example, the supporting plate 9 is connected with the first sliding block 11 in a sliding manner through a groove formed in the upper end of the supporting plate, the first sliding block 11 is T-shaped, and the outer surface of the first sliding block 11 is smooth; the first sliding blocks 11 are symmetrically distributed about the center of the sliding plate 12, universal wheels 13 are mounted at the lower end of the sliding plate 12 through bearings, and 4 universal wheels 13 are arranged in total; limiting plates 14 are symmetrically arranged on the sliding plate 12, the limiting plates 14 are mutually attached to the supporting plate 9 through grooves formed in the supporting plate 9, a first electric telescopic rod 15 is mounted on the supporting plate 9, and meanwhile, the first electric telescopic rod 15 is mutually attached to the limiting plates 14 through grooves formed in the limiting plates 14;

when tiles are required to be continuously stacked, the motor 4 is enabled to work, because the output end of the motor 4 is provided with the rotating shaft 5, the rotating shaft 5 starts to rotate, because the rotating shaft 5 is provided with the driving wheel 6, the driving wheel 6 starts to rotate, because the driving wheel 6 is meshed with the driven wheel 7, the driven wheel 7 starts to rotate, because the driven wheel 7 is arranged on the rotating screw rod 8, the rotating screw rod 8 is mutually connected with the supporting plate 9 through the threaded hole formed in the supporting plate 9, the supporting plate 9 is in sliding connection with the guide rod 10 through the groove formed in the upper end of the supporting plate 9, at the moment, along with the rotation of the rotating screw rod 8, the supporting plate 9 moves up and down under the action of the guide rod 10, and therefore, along with the continuous stacking of the tiles, the sliding plate 12 continuously moves down until the universal wheel 13 is mutually connected with the ground, then, the first electric telescopic rod 15 starts to work, namely, the first electric telescopic rod 15 starts to move in the direction away from the limiting plate 14, and then the sliding plate 12 can be pulled, namely, the stacked ceramic tiles can be taken down and replaced by a new sliding plate 12;

a pushing plate 17 which is arranged in an n shape is arranged on the second electric telescopic rod 18, and the pushing plate 17 is in sliding connection with the workbench 1 through a second sliding block 16 arranged at the upper end of the pushing plate 17; the inside of the fixed sleeve 19 is connected with a pushing rod 21 through a damping spring 20, a placing plate 22 is installed at the upper end of the pushing rod 21, and the pushing rod 21 is in sliding connection with the fixed sleeve 19 through a third sliding block 23;

place the ceramic tile and place board 22, because place board 22 lower extreme installation catch bar 21, catch bar 21 just begins to move down this moment, damping spring 20 begins to be compressed deformation promptly, this moment alright realize carrying out the shock attenuation to the ceramic tile when placing, then make second electric telescopic handle 18 begin to work, because second electric telescopic handle 18 and catch plate 17 interconnect, and catch plate 17 constitutes sliding connection through second slider 16 and workstation 1, just drive catch plate 17 and remove this moment, along with the removal of catch plate 17 promptly, just begin to promote the ceramic tile, promote to sliding plate 12 until promoting the ceramic tile, thereby realize carrying out the pile up neatly to the ceramic tile.

The working principle is as follows: when needs use this device, place the ceramic tile on placing board 22, then make second electric telescopic handle 18 begin work, second electric telescopic handle 18 just begins to drive catch plate 17 and removes promptly, removal through catch plate 17 promptly, the realization promotes placing the ceramic tile on placing board 22, until promoting the ceramic tile to sliding plate 12 on, then make motor 4 drive axis of rotation 5 in proper order, action wheel 6, from the rotation of driving wheel 7 and rotation screw rod 8, along with the rotation of rotating screw rod 8, just drive backup pad 9 and move down, thereby the realization carries out the pile up neatly in succession to the ceramic tile, no longer need the manual work to carry the pile up neatly, this is exactly the theory of operation of this automatic hacking machine of ceramic tile finished product.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An automatic stacking machine for finished ceramic tiles comprises a workbench (1), wherein a supporting base (2) is installed at the lower end of the workbench, a fixing plate (3) which is of a square plate-shaped structure is installed on the supporting base (2), and a motor (4) is placed on the fixing plate (3);

it is characterized by also comprising:

the rotating shaft (5) is mutually connected with the output end of the motor (4), and the rotating shaft (5) and the fixed plate (3) form a rotating mechanism through a bearing arranged on the fixed plate (3);

the driving wheel (6) is arranged on the rotating shaft (5);

the driven wheel (7) is meshed with the driving wheel (6), and the diameters and the number of teeth of the driving wheel (6) and the driven wheel (7) are equal;

a rotary screw (8) mounted on the driven wheel (7);

the supporting plate (9) is connected with the rotating screw rod (8) through a threaded hole formed in the upper end of the supporting plate;

the guide rod (10) is arranged on the fixing plate (3), and the guide rod (10) is in sliding connection with the supporting plate (9) through a groove formed in the supporting plate (9);

the second electric telescopic rods (18) are arranged on the workbench (1), and 2 second electric telescopic rods (18) are arranged;

a fixed sleeve (19) mounted on the table (1).

2. An automatic stacker crane for finished ceramic tiles according to claim 1, characterized in that: the supporting plate (9) is in sliding connection with the first sliding block (11) through a groove formed in the upper end of the supporting plate, the first sliding block (11) is T-shaped, and the outer surface of the first sliding block (11) is smooth.

3. An automatic ceramic tile finished product stacker according to claim 2, wherein: the first sliding blocks (11) are symmetrically distributed relative to the center of the sliding plate (12), universal wheels (13) are mounted at the lower end of the sliding plate (12) through bearings, and the number of the universal wheels (13) is 4.

4. An automatic stacker crane for finished ceramic tiles according to claim 3, characterized in that: limiting plates (14) are symmetrically arranged on the sliding plate (12), the limiting plates (14) are attached to the supporting plate (9) through grooves formed in the supporting plate (9), first electric telescopic rods (15) are installed on the supporting plate (9), and meanwhile the first electric telescopic rods (15) are attached to the limiting plates (14) through grooves formed in the limiting plates (14).

5. An automatic stacker crane for finished ceramic tiles according to claim 1, characterized in that: the second electric telescopic rod (18) is provided with a pushing plate (17) which is arranged in an n shape, and the pushing plate (17) is in sliding connection with the workbench (1) through a second sliding block (16) arranged at the upper end of the pushing plate.

6. An automatic stacker crane for finished ceramic tiles according to claim 1, characterized in that: the interior of the fixed sleeve (19) is connected with a pushing rod (21) through a damping spring (20), a placing plate (22) is installed at the upper end of the pushing rod (21), and the pushing rod (21) is in sliding connection with the fixed sleeve (19) through a third sliding block (23).

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