CN213170376U - Automatic stacking device for ceramic tiles - Google Patents

Abstract

The utility model provides an automatic device that piles up of pottery tile, including conveyer belt subassembly and stack assembly, stack assembly sets up in conveyer belt subassembly end, stack assembly includes the shell body, shell body outer wall is fixed with a driving motor, be equipped with a elevating platform in the shell body, the elevating platform includes the lift curb plate of two vertical settings, and two lift curb plate inner wall below are equipped with two backup pads respectively, and a lift curb plate outer wall is equipped with a lifting rack, lifting rack and the lifting gear engagement of driving motor tip. The utility model relates to an automatic device that piles up of pottery tile's beneficial effect does: the stacking assembly of the device is arranged at the tail end of the conveyor belt assembly, a supporting plate is arranged in the stacking assembly, the supporting plate can support ceramic tiles conveyed out from the conveyor belt, and the supporting plate can descend under the driving of a driving motor, so that the ceramic tiles conveyed out from the conveyor belt are automatically stacked on the supporting plate.

Description

Automatic stacking device for ceramic tiles

Technical Field

The utility model relates to a ceramic manufacture field especially relates to an automatic device that piles up of pottery tile.

Background

Ceramic tiles are generally required to be stacked after being cooled and discharged from a furnace after being sintered so as to save storage space or facilitate packaging, and the existing stacking mode of the ceramic tiles is generally as follows: conveying the ceramic tiles to the end of a conveying belt or a conveying roller by adopting the conveying belt or the conveying roller, and then stacking the ceramic tiles together in a manual sorting and stacking manner; because the throughput of ceramic tiles is typically large and the weight of the ceramic tiles is heavy, manual stacking can be labor intensive and can be a significant burden on the health of workers stacking the ceramic tiles; for the efficiency of piling up that improves the ceramic tile, reduce the manpower that piles up the ceramic tile and consume, reduce the manufacturing cost of ceramic tile, the utility model provides a can pile up the device of ceramic tile automatically.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides an automatic stacking device for ceramic tiles, which comprises a conveyor belt component and a stacking component, wherein the stacking component is arranged at the tail end of the conveyor belt component and comprises an outer shell, the inner walls of the two side walls of the outer shell are respectively provided with a lifting chute, a driving motor is fixed on the outer wall of one side wall of the outer shell, an output shaft of the driving motor penetrates through the side wall of the outer shell and extends to the outside and the inside, the end part of the output shaft is connected with a lifting gear, a lifting platform is arranged in the outer shell and comprises two vertically arranged lifting side plates, a gap is arranged between the two lifting side plates, two supporting plates are respectively arranged below the inner walls of the two lifting side plates, the outer walls of the two lifting side plates are respectively provided with a lifting clamping strip, the outer wall of one lifting side plate is provided with a lifting rack, and the two lifting clamping strips are respectively, the lifting rack is meshed with the lifting gear; the conveyor belt assembly is used for conveying the ceramic tiles to the supporting plate, and the driving motor is used for driving the supporting plate to descend so as to stack the ceramic tiles on the supporting plate.

Furthermore, the conveyor belt assembly comprises a conveyor belt strip, strip-shaped limiting protrusions are arranged on two sides of the conveyor belt strip, and a conveying channel with the width larger than that of the ceramic tiles is formed between the two limiting protrusions.

Furthermore, a plurality of separating strips perpendicular to the limiting bulges are arranged on the conveying channel, the separating strips are fixed on the conveying belt strip, and the conveying channel is divided into a plurality of conveying grids with equal length by the separating strips.

Furthermore, a supporting block is arranged below each supporting plate, the supporting blocks are fixedly connected to the inner wall of the lifting side plate, and the supporting blocks are used for improving the supporting strength of the supporting plates.

Further, the bottom of the outer shell is provided with a plurality of universal wheels, and the universal wheels are used for supporting the outer shell and enabling the outer shell to move conveniently.

Furthermore, a lifting baffle is arranged between the two lifting side plates, and two sides of the lifting baffle are vertically connected to the inner walls of the two lifting side plates.

Furthermore, two the backup pad is located same height, and has clearance of keeping away between two backup pads.

Furthermore, the two supporting plates are respectively and vertically connected to the lifting side plate.

The utility model relates to an automatic device that piles up of pottery tile's beneficial effect does: the stacking assembly of the device is arranged at the tail end of the conveyor belt assembly, a supporting plate is arranged in the stacking assembly, the supporting plate can support the ceramic tiles conveyed out of the conveyor belt, and the supporting plate can descend under the driving of a driving motor, so that the ceramic tiles conveyed out of the conveyor belt are stacked on the supporting plate; the device's stack assembly's shell body bottom is equipped with the universal wheel, can make the good ceramic tile of piling up can be along with the convenient removal of shell body to be convenient for subsequent transportation or packing of ceramic tile.

Drawings

Fig. 1 is a top view of the automatic stacking device for ceramic tiles of the present invention.

Fig. 2 is a sectional view a-a of the stack assembly 2 of fig. 1.

In the figure: 1-conveyor belt component, 11-conveyor belt strip, 12-limiting lug, 13-separating strip, 14-conveying grid, 2-stacking component, 21-outer shell, 22-lifting side plate, 23-lifting baffle plate, 24-supporting plate, 25-lifting rack, 26-lifting clamping strip, 27-lifting chute, 28-supporting block, 29-universal wheel, 3-ceramic tile, 4-driving motor, 41-output shaft and 42-lifting gear.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be further described below with reference to the accompanying drawings.

Referring to fig. 1 to 2, an automatic stacking apparatus for ceramic tiles comprises a conveyor belt assembly 1 and a stacking assembly 2, wherein the conveyor belt assembly 1 comprises a conveyor belt 11, strip-shaped limiting protrusions 12 are arranged on two sides of the conveyor belt 11, a conveyor path with a width slightly larger than that of a ceramic tile 3 is formed between the two limiting protrusions 12, a plurality of separating strips 13 perpendicular to the limiting protrusions 12 are arranged on the conveyor path, the separating strips 13 are fixed on the conveyor belt 11, the conveyor path is uniformly divided into a plurality of conveying grids 14 with equal length by the separating strips 13, a ceramic tile 3 is supported in each conveying grid 14, the conveyor belt assembly 1 is used for conveying the ceramic tile 3 in the conveying grid 14 to the stacking assembly 2 at the tail end of the conveyor belt 11, and the spacing between the ceramic tile 3 and the adjacent ceramic tile 3 is kept approximately equal during the conveying process, while keeping the length direction of all the ceramic tiles 3 in line with the length direction of the conveyor belt 11 during transport.

The stacking assembly 2 is arranged at the tail end of the conveyor belt assembly 1, the stacking assembly 2 comprises an outer shell 21, the outer shell 21 is in a cuboid shape with an upper side and a pair of side edges being opened, one side opening of the outer shell 21 is just opposite to the conveyor belt strip 11, two side wall inner walls of the outer shell 21 are respectively provided with a lifting chute 27, the outer wall of one side wall of two side walls of the outer shell 21 is fixed with a driving motor 4, an output shaft 41 of the driving motor 4 penetrates through the side wall of the outer shell 21 and extends into the outer shell 21, the end part of the output shaft 41 is connected with a lifting gear 42, a lifting platform is arranged in the outer shell 21 and comprises two lifting side plates 22 and a lifting baffle plate 23, the two lifting side plates 22 are vertically arranged, a certain gap is formed between the two lifting side plates 22, and the width of the gap is slightly larger than the, the perpendicular setting of lifting baffle 23 is in two between the lift curb plate 22, and lift curb plate 22 both sides connect in two on the lift curb plate 22 inner wall, two lift curb plate 22 inner wall below are equipped with two backup pads 24 respectively, two backup pads 24 all perpendicular to on the lift curb plate 22, two backup pads 24 are located same height, and have between two backup pads 24 and keep away the empty clearance, two backup pad 24 is used for supporting the ceramic tile 3 that is conveyed out by the conveyer belt strip, it can be convenient for the ceramic tile 3 follow-up transportation of backup pad 24 to keep away the space clearance.

The outer walls of the two lifting side plates 22 are respectively provided with a lifting clamping strip 26, the outer wall of one lifting side plate 24 is provided with a lifting rack 25, the two lifting clamping strips 26 are respectively clamped in the two lifting sliding grooves 27, the lifting rack 25 is meshed with the lifting gear 42, and the driving motor 4 is used for driving the lifting gear 42 to rotate, so that the lifting table of the supporting plate 24 is driven to lift along the vertical direction.

Further, a plurality of triangular supporting blocks 28 are arranged below each supporting plate 24, the supporting blocks 28 are fixedly connected to the inner wall of the lifting side plate 24, and the supporting blocks 28 are used for improving the supporting strength of the supporting plates 24.

Further, a plurality of universal wheels 29 are arranged at the bottom of the outer shell 1, and the universal wheels 29 are used for supporting the outer shell 21 and enabling the outer shell to move conveniently.

The utility model relates to an automatic device that piles up of pottery tile's theory of operation and process do: the side opening of the outer shell 21 and the supporting plate 24 are opposite to the tail end of the conveyor belt strip 11, and the height of the supporting plate 24 is slightly lower than that of the upper surface of the conveyor belt strip 11; the conveyor belt 11 runs to convey the ceramic tiles 3 supported thereon between the two lifting side plates 22 and to support the ceramic tiles 3 on both sides on the two support plates 24; the conveyor belt 11 continues to transport the ceramic tiles 3 onto the two upper support plates 24 while the driving motor 4 drives the elevating table to descend so that the height of the upper surfaces of the ceramic tiles 3 on the support plates 24 continues to be maintained at a state slightly lower than the height of the upper surfaces of the conveyor belt 11, thereby stacking the ceramic tiles 3 continuously transported toward the support plates 24 one by one on the support plates 24, thereby completing the automatic stacking of the ceramic tiles 3. The stacked ceramic tiles 3 can be conveniently moved with the outer shell by means of universal wheels.

The utility model relates to an automatic device that piles up of pottery tile's beneficial effect does: the stacking assembly 2 of the device is arranged at the tail end of the conveyor belt assembly, a supporting plate 24 is arranged in the stacking assembly 2, the supporting plate 24 can support the ceramic tiles 3 conveyed from the conveyor belt, and the supporting plate 24 can descend under the driving of a driving motor, so that the ceramic tiles 3 conveyed from the conveyor belt are stacked on the supporting plate 24; the device's stack assembly 2's shell body 21 bottom is equipped with the universal wheel, can make the convenient removal of ceramic tile 3 that piles up along with shell body 21 to be convenient for subsequent transportation or packing of ceramic tile 3.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The features of the embodiments and embodiments described herein above may be combined with each other without conflict.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. The utility model provides an automatic device that piles up of ceramic tile which characterized in that: comprises a conveyor belt component and a stacking component, wherein the stacking component is arranged at the tail end of the conveyor belt component and comprises an outer shell, the inner walls of the two side walls of the outer shell are respectively provided with a lifting chute, and a driving motor is fixed on the outer wall of one side wall of the outer shell, an output shaft of the driving motor penetrates through the side wall of the outer shell and extends to the outside and the inside, and the end part of the output shaft is connected with a lifting gear, a lifting platform is arranged in the outer shell and comprises two vertically arranged lifting side plates, a gap is arranged between the two lifting side plates, two supporting plates are respectively arranged below the inner walls of the two lifting side plates, the outer walls of the two lifting side plates are respectively provided with a lifting clamping strip, a lifting rack is arranged on the outer wall of one lifting side plate, the two lifting clamping strips are respectively clamped in the two lifting sliding grooves, and the lifting rack is meshed with the lifting gear; the conveyor belt assembly is used for conveying the ceramic tiles to the supporting plate, and the driving motor is used for driving the supporting plate to descend so as to stack the ceramic tiles on the supporting plate.

2. The automatic ceramic tile stacking apparatus of claim 1, wherein: the conveying belt assembly comprises a conveying belt strip, strip-shaped limiting protrusions are arranged on two sides of the conveying belt strip, and a conveying channel with the width larger than that of the ceramic tiles is formed between the two limiting protrusions.

3. The automatic ceramic tile stacking apparatus of claim 2, wherein: the conveying channel is provided with a plurality of separating strips perpendicular to the limiting bulges, the separating strips are fixed on the conveying belt strip, and the conveying channel is divided into a plurality of conveying grids with equal length by the separating strips.

4. The automatic ceramic tile stacking apparatus of claim 1, wherein: each backup pad below is equipped with a plurality of supporting shoes, the supporting shoe all fixed connection in on the lift curb plate inner wall, the supporting shoe is used for improving the support intensity of backup pad.

5. The automatic ceramic tile stacking apparatus of claim 1, wherein: the bottom of the outer shell is provided with a plurality of universal wheels which are used for supporting the outer shell and enabling the outer shell to move conveniently.

6. The automatic ceramic tile stacking apparatus of claim 1, wherein: and a lifting baffle is also arranged between the two lifting side plates, and two sides of the lifting baffle are vertically connected to the inner walls of the two lifting side plates.

7. The automatic ceramic tile stacking apparatus of claim 1, wherein: two the backup pad is located same height, and has between two backup pads and keep away the empty clearance.

8. The automatic ceramic tile stacking apparatus of claim 1, wherein: the two supporting plates are respectively and vertically connected to the lifting side plate.

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