CN215664184U - High-speed centering shaping mechanism on ceramic tile packaging machine - Google Patents

Abstract

The utility model discloses a high-speed centering and shaping mechanism on a ceramic tile packaging machine, which comprises: the device comprises a rack, a brick feeding conveying device, a centering device, an aligning device and a jacking device. When the high-speed centering and shaping mechanism operates, stacked brick piles are conveyed to a centering and shaping station by the brick feeding conveying device, the brick piles are contacted with the second aligning component, then the first aligning component drives the first aligning component to be close to the brick piles in the front-rear direction, and meanwhile, the two lower-layer centering components are driven by the lower-layer centering driving component to be close to the brick piles, so that the centering and shaping of the brick piles are realized; and the brick pile after centering and shaping is clamped by the upper layer centering assembly after being lifted by the top plate, and the waiting gripper grabs the brick pile to the next packaging station. At the moment, the aligning device, the lower layer centering driving assembly and the jacking device all return to the initial state, and the subsequent brick piles to be aligned can continue to enter the centering and shaping station to repeat the actions, so that the high-speed centering and shaping of the brick feeding station are realized, and the brick feeding speed of the packaging machine is greatly increased.

Description

High-speed centering shaping mechanism on ceramic tile packaging machine

Technical Field

The utility model relates to the field of packaging equipment, in particular to a high-speed centering and shaping mechanism on a ceramic tile packaging machine.

Background

The rapid development of the ceramic industry, the production speed of the ceramic industry is continuously improved, higher requirements are provided for the speed of the existing ceramic tile packaging equipment, the brick pile is required to be tidy when the existing ceramic tile is packaged, a set of centering and shaping device is arranged at the brick feeding position of the existing ceramic tile packaging machine, after the brick pile is centered and shaped at the position, the brick pile is in a state of being jacked up by a jacking assembly to wait for being grabbed to the next position by a gripper, the position of the position is occupied by the brick pile due to the jacking assembly being in the jacking state, and the subsequent brick pile can not enter the centering and shaping position within the time before the brick pile is grabbed by the gripper at the next position, so that the speed of enabling the ceramic tile to enter the packaging machine is reduced, and the overall packaging speed of the packaging machine is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-speed centering and shaping mechanism on a tile packaging machine, which solves one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

The technical scheme adopted for solving the technical problems is as follows:

a high speed centering and shaping mechanism on a tile packaging machine, comprising: the device comprises a rack, a brick feeding conveying device, a centering device, an aligning device and a jacking device. The brick feeding conveying device is arranged on the rack and provided with a centering and shaping station; the centering device comprises two lower centering components, two upper centering components, an upper centering driving component and a lower centering driving component, wherein the two lower centering components are arranged in a bilateral symmetry mode relative to a centering and shaping station; the alignment device comprises a first alignment assembly, a second alignment assembly and a first alignment driving mechanism, wherein the first alignment assembly and the second alignment assembly are respectively arranged in the front and back direction of the centering and shaping station, and the first alignment driving mechanism drives the first alignment assembly to be close to or far away from the second alignment assembly in the front and back direction; jacking device sets up the below between two lower floor centering subassemblies, and jacking device includes roof and jacking drive assembly, and jacking drive assembly drives the roof and reciprocates.

The utility model has the beneficial effects that:

when the high-speed centering and shaping mechanism operates, stacked brick piles are conveyed to a centering and shaping station by the brick feeding conveying device, the brick piles are contacted with the second aligning component, then the first aligning component drives the first aligning component to be close to the brick piles in the front-rear direction, and meanwhile, the two lower-layer centering components are driven by the lower-layer centering driving component to be close to the brick piles, so that the centering and shaping of the brick piles are realized; and the brick pile after centering and shaping is clamped by the upper layer centering assembly after being lifted by the top plate, and the waiting gripper grabs the brick pile to the next packaging station. At the moment, the aligning device, the lower layer centering driving assembly and the jacking device all return to the initial state, the subsequent brick piles to be aligned can continue to enter the centering and shaping station to repeat the actions, high-speed centering and shaping of the brick feeding station are realized, the brick feeding speed of the packaging machine is greatly increased, and the overall packaging speed of the packaging machine is greatly improved.

As a further improvement of the technical scheme, the front side of the centering and shaping station is a feeding side, the second alignment assembly is arranged on the feeding side, and the alignment device further comprises a second alignment driving mechanism which is used for driving the second alignment assembly to move up and down.

When feeding the brick conveying device, the brick conveying device conveys the brick piles into the centering and shaping station, the second aligning driving mechanism moves the second aligning component to the same height with the first aligning component, and the first aligning component drives the first aligning component to be close to the brick piles in the front-back direction, so that the brick piles are centered and shaped.

As above-mentioned technical scheme's further improvement, advance brick conveyor and be provided with many transfer chains, the transfer chain sets up along the fore-and-aft direction, and interval setting about many transfer chains are, and second alignment subassembly, jacking device, first alignment subassembly set gradually between two adjacent transfer chains, make things convenient for the brick pillar feeding and bearing brick pillar is more steady.

As above-mentioned technical scheme's further improvement, the transfer chain includes belt conveying subassembly, belt conveying subassembly includes the belt, many cylinders and belt drive unit, many cylinders are the level and set up in the frame, the diaxon end of many cylinders is respectively about extending rotationally be fixed in the frame, the belt rotates the suit on the surface of many cylinders, belt drive unit sets up in the frame, belt drive unit is used for driving roll to rotate, convey the brick pillar to centering plastic station steadily, also conveniently control the transfer rate of brick pillar conveying.

As a further improvement of the technical scheme, the high-speed centering and shaping mechanism further comprises a width adjusting device, wherein the width adjusting device comprises a width adjusting driving assembly and two sliding installation seats, the two sliding installation seats are arranged in a bilateral symmetry mode relative to the centering and shaping station, the two sliding installation seats are arranged in a left-right sliding mode relative to the rack, and the width adjusting driving assembly is used for driving the two sliding installation seats to be far away from or close to each other in the left-right direction;

the upper-layer centering driving assembly comprises a first upper-layer driving unit and a second upper-layer driving unit, the first upper-layer driving unit and the second upper-layer driving unit are respectively arranged on the two sliding installation seats, the first upper-layer driving unit is in transmission connection with one upper-layer centering assembly, and the second upper-layer driving unit is in transmission connection with the other upper-layer centering assembly;

the lower layer centering driving assembly comprises a first lower layer driving unit and a second lower layer driving unit, the first lower layer driving unit and the second lower layer driving unit are respectively installed on the two sliding installation seats, the first lower layer driving unit is in transmission connection with one of the lower layer centering assemblies, and the second upper layer driving unit is in transmission connection with the other lower layer centering assembly.

The width adjusting device simultaneously adjusts the widths of the upper layer centering assembly and the lower layer centering assembly in the left-right direction, so that the centering device can be suitable for piled bricks with different widths.

As the further improvement of the technical scheme, the width adjusting device further comprises two linear guide rails, the linear guide rails extend left and right on the rack, the two linear guide rails are symmetrically arranged left and right relative to the centering and shaping station, the sliding installation seats are arranged on the linear guide rails in a sliding mode, the distance between the two sliding installation seats can be conveniently and accurately adjusted, and meanwhile the adjusting directions of the sliding installation seats do not deviate.

As a further improvement of the above technical solution, the width adjustment driving assembly includes the first adjustment driving unit and the second adjustment driving unit, and the two sliding installation bases are divided into a first sliding installation base and a second sliding installation base;

the first adjusting driving unit comprises a first adjusting screw rod, the first adjusting screw rod extends left and right and is rotatably fixed on the rack, and the first adjusting screw rod is in threaded transmission connection with the first sliding mounting seat;

the second adjusting driving unit comprises a second adjusting screw rod, the second adjusting screw rod extends left and right and is rotationally fixed on the rack, the second adjusting screw rod is in threaded transmission connection with the second sliding mounting seat, and the adjustment is simple and convenient.

As a further improvement of the technical scheme, hand wheels are arranged at the end parts of the first adjusting screw rod and the second adjusting screw rod, so that the second adjusting screw rod can be conveniently adjusted.

As a further improvement of the above technical solution, the upper centering assembly includes a first pushing plate and a brick supporting plate, and the brick supporting plate is disposed inside the first pushing plate; lower floor's centering subassembly includes that the second promotes the plate, and it is more steady to set up to hold in the palm the brick pillar bearing brick pillar, and upper centering subassembly need not press from both sides the too steady effect that plays the alignment with the brick pillar, also makes things convenient for the tongs of next station to snatch the brick pillar.

As a further improvement of the above technical solution, the upper centering assembly further comprises a plurality of first rollers, the first rollers are vertically extended and arranged on the first pushing plate, and the plurality of first rollers are arranged on the inner side of the first pushing plate side by side along the front-back direction; lower floor's centering subassembly still includes a plurality of second gyro wheels, and the second gyro wheel is and extends the setting from top to bottom on the second promotes the plate, and a plurality of second gyro wheels set up side by side in the inboard that the second promoted the plate along the fore-and-aft direction, reduce the friction between brick pillar and the first promotion plate, make things convenient for next station tongs to snatch the brick pillar along the fore-and-aft direction.

Drawings

The utility model is further described with reference to the accompanying drawings and examples;

FIG. 1 is a right side view of an embodiment of a high speed centering and reforming mechanism on a tile wrapping machine according to the present invention, wherein four arrows indicate forward, backward, upward and downward directions, respectively;

FIG. 2 is a top plan view of one embodiment of a high speed centering and shaping mechanism on a tile packaging machine, according to the present invention, wherein the four arrows indicate the forward direction, the backward direction, the left direction and the right direction, respectively;

fig. 3 is a schematic structural view of an embodiment of the high-speed centering and shaping mechanism on the tile packaging machine, wherein six arrows respectively show a forward direction, a backward direction, a left direction, a right direction, an upward direction and a downward direction.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 3, the high-speed centering and shaping mechanism of the tile packaging machine of the present invention comprises the following embodiments:

in this embodiment, a high speed centering and shaping mechanism on a tile packaging machine comprises: the device comprises a rack 100, a brick feeding and conveying device 200, a centering device, an aligning device, a jacking device 500 and a width adjusting device 600.

The brick feeding conveying device 200 is arranged on the rack 100, a centering and shaping station is arranged on the brick feeding conveying device 200, and brick piles are centered and shaped on the centering and shaping station. Advance brick conveyor 200 and be provided with two transfer chains 210, transfer chain 210 sets up along the fore-and-aft direction, and two transfer chains 210 are about the interval setting, make things convenient for the brick pillar feeding and the bearing brick pillar is more steady.

Further, transfer chain 210 includes belt conveyor assembly, belt conveyor assembly includes two belts 211, four cylinders 212 and belt drive unit, many cylinders 212 are the level and set up in frame 100, the two shaft ends of many cylinders 212 are left right extension respectively and rotationally are fixed in frame 100, one of them belt 211 rotates the suit on the surface of two of them cylinders 212, another belt 211 rotates the suit on the surface of two other cylinders 212, belt drive unit sets up on frame 100, belt drive unit is used for driving the cylinder 212 of centering plastic station rear side to rotate, convey the brick pillar to centering plastic station steadily, also conveniently control the transfer rate of brick pillar conveying. In other embodiments, a belt drive unit is used to drive the roller 212 in rotation in front of the centering and reforming station.

In other embodiments, the conveying line 210 may also adopt a conveying slide rail extending left and right on the frame, and a conveying slide plate slidably disposed on the conveying slide rail. During the use, place the brick pillar on carrying the slide, then manual, or other common drive arrangement will carry the slide to centering plastic station along carrying the slide rail on, drive arrangement motor, hydro-cylinder etc. drive.

Centering device includes two lower floor centering subassemblies 310, two upper strata centering subassemblies 320, upper centering drive assembly, lower floor centering drive assembly, two lower floor centering subassemblies 310 are bilateral symmetry setting about centering plastic work station, two upper centering subassemblies 320 set up the top at two lower floor centering subassemblies 310, two upper centering subassemblies 320 are bilateral symmetry setting about centering plastic work station, lower floor centering drive assembly is used for driving two lower floor centering subassemblies 310 and keeps away from each other or be close to each other in the left-right direction, upper centering drive assembly is used for driving two upper centering subassemblies 320 and keeps away from each other or be close to each other in the left-right direction. During operation, the lower centering driving assembly drives the two lower centering assemblies 310 to mutually approach to the brick pile on the middle shaping station in the left-right direction, so that the brick pile is aligned in the left-right direction, and after the brick pile is aligned, the lower centering driving assembly is used for driving the two lower centering assemblies 310 to mutually depart from each other in the left-right direction, so that the brick pile enters the next processing procedure. During operation, the upper centering driving assembly is used for driving the two upper centering assemblies 320 to be close to each other in the left-right direction, the centered and shaped brick piles are clamped tightly, meanwhile, the further shaping effect is achieved, the centered and shaped brick piles can conveniently leave the centering and shaping station in time, the centering and shaping station is not occupied, the brick piles can be grabbed by the gripper of the next station, and the centering device, the aligning device and the jacking device 500 can conveniently descend to prepare for centering and shaping the next brick pile.

The width adjusting device 600 comprises a width adjusting driving assembly and two sliding installation seats 610, wherein the two sliding installation seats 610 are arranged in a left-right symmetrical mode relative to the centering and shaping station, the two sliding installation seats 610 are respectively arranged in a left-right sliding mode relative to the rack 100, and the width adjusting driving assembly is used for driving the two sliding installation seats 610 to be far away from or close to each other in the left-right direction; the upper-layer centering driving assembly comprises a first upper-layer driving unit and a second upper-layer driving unit, the first upper-layer driving unit and the second upper-layer driving unit are respectively arranged on the two sliding installation seats 610, the first upper-layer driving unit is in transmission connection with one upper-layer centering assembly 320, and the second upper-layer driving unit is in transmission connection with the other upper-layer centering assembly 320; the lower layer centering driving assembly comprises a first lower layer driving unit and a second lower layer driving unit, the first lower layer driving unit and the second lower layer driving unit are respectively installed on the two sliding installation seats 610, the first lower layer driving unit is in transmission connection with one of the lower layer centering assemblies 310, and the second upper layer driving unit is in transmission connection with the other lower layer centering assembly 310. The width adjusting device 600 simultaneously adjusts the widths of the upper centering component 320 and the lower centering component 310 in the left-right direction, so that the centering device can be suitable for piled bricks with different widths.

Further, the width adjustment driving assembly includes the first adjustment driving unit and the second adjustment driving unit, and the two sliding mounts 610 are divided into a first sliding mount and a second sliding mount; the first adjusting driving unit comprises a first adjusting screw 630, the first adjusting screw is rotatably fixed on the frame 100 in a left-right extending manner, and the first adjusting screw 630 is in threaded transmission connection with the first sliding mounting seat; the second adjusting driving unit comprises a second adjusting screw rod, the second adjusting screw rod extends left and right and is rotationally fixed on the rack 100, the second adjusting screw rod is in threaded transmission connection with the second sliding mounting seat, and the adjustment is simple and convenient. During adjustment, the first adjusting screw 630 and the second adjusting screw are arranged, and the direction of the first adjusting screw 630 and the second adjusting screw are already fixed on the rack 100 and controlled, so that the direction of the sliding mounting seats 610 cannot deviate during adjustment, errors are reduced, the distance between the two sliding mounting seats 610 can be conveniently adjusted, and meanwhile, the first adjusting screw 630 and the second adjusting screw are adopted, so that the adjustment precision is improved.

Further, hand wheels 631 are arranged at the ends of the first adjusting screw 630 and the second adjusting screw, so that the second adjusting screw can be adjusted conveniently. In other embodiments, handles may be provided on the ends of the first and second adjustment screws 630, 630. The hand wheel 631 is held to adjust the first adjusting screw 630 or the second adjusting screw, so as to drive the sliding mounting seat 610 to move away from or close to each other in the left-right direction, and meanwhile, the upper centering component 320 and the lower centering component 310 arranged on the sliding mounting seat 610 move in the left-right direction along with the sliding mounting seat 610, so that the purpose of adjustment is achieved, and the centering device can be suitable for piled bricks with different widths.

For adjusting the width better, the width adjusting device 600 further comprises two linear guide rails 620, the linear guide rails 620 extend left and right on the rack 100, the two linear guide rails 620 are symmetrically arranged left and right about the centering and shaping station, the sliding installation seat 610 is slidably arranged on the linear guide rails 620, the distance between the two sliding installation seats 610 can be adjusted conveniently and accurately, and meanwhile the adjusting direction of the sliding installation seat 610 does not deviate.

The aligning device comprises a first aligning assembly 410, a second aligning assembly 420 and a first aligning driving mechanism, wherein the first aligning assembly 410 and the second aligning assembly 420 are respectively arranged in the front-back direction of the centering and shaping station, the first aligning assembly 410 and the second aligning assembly 420 are respectively provided with a baffle, the two baffles are oppositely arranged in the front-back direction, the first aligning driving mechanism drives the first aligning assembly 410 to be close to or far away from the second aligning assembly 420 in the front-back direction, the second aligning assembly 420, the jacking device 500 and the first aligning assembly 410 are sequentially arranged between two adjacent conveying lines 210, and therefore feeding of brick piles and supporting of the brick piles are facilitated to be more stable.

When the brick feeding conveying device 200 feeds materials, after the brick pile is conveyed to the centering and shaping station by the brick feeding conveying device 200, the second alignment driving mechanism moves the second alignment assembly 420 to the same height as the first alignment assembly 410, and then the first alignment assembly 410 drives the first alignment assembly 410 to be close to the brick pile in the front-back direction, so that the brick pile centering and shaping are realized.

In other embodiments, the second alignment assembly 420 may be positioned directly to the left of the centering and reforming station, and the brick pile may be fed by using other mechanical grippers to grasp the feed material or from the right of the centering and reforming station.

Jacking device 500 sets up the below between two lower floor centering components 310, and jacking device 500 includes roof 510 and jacking drive assembly, and jacking drive assembly drive roof 510 reciprocates.

In other embodiments, the positions of the centering device and the aligning device can be interchanged, and the brick feeding and conveying device 200 is kept unchanged, and other devices are changed correspondingly.

Further, the upper layer centering assembly 320 comprises a first pushing plate 321 and a brick supporting plate 322, the brick supporting plate 322 is arranged on the inner side of the first pushing plate 321, and the brick supporting plate 322 is horizontally arranged; the lower centering component 310 comprises a second pushing plate, a brick supporting plate 322 is arranged to support a brick pile more stably, the upper centering component 320 does not need to clamp the brick pile too stably to achieve the alignment effect, and the brick pile can be conveniently grabbed by the hand grab at the next station.

Further, the upper centering assembly 320 further includes a plurality of first rollers 323, the first rollers 323 extend up and down and are disposed on the first pushing plate 321, and the plurality of first rollers 323 are disposed inside the first pushing plate 321 side by side along the front-back direction; lower floor centering subassembly 310 still includes a plurality of second gyro wheels, and the second gyro wheel is and extends the setting from top to bottom on the second promotes the plate, and a plurality of second gyro wheels set up side by side in the inboard that the second promoted the plate along the fore-and-aft direction, reduce the friction between brick pillar and the first promotion plate 321, make things convenient for next station tongs to snatch the brick pillar along the fore-and-aft direction.

It should be noted that the driving assembly of each driving unit of the present invention is an air cylinder, and in other embodiments, the driving assembly may be a linear driving element such as an oil cylinder and an electric push rod.

When the high-speed centering and shaping mechanism operates, piled bricks are placed at the feeding end, the second alignment component 420 moves to the position below the horizontal plane of the upper surface of the belt at the moment, the bricks are conveyed to the centering and shaping station by the belt, the bricks are contacted with the first alignment component 410, at the moment, the second alignment component 420 is driven by the second alignment driving mechanism to ascend so that the two baffles are oppositely arranged in the front-back direction, then the first alignment component 410 drives the first alignment component 410 to be close to the bricks in the front-back direction, and meanwhile, the two lower-layer centering components 310 are driven by the lower-layer centering driving component to be close to the bricks, so that the centering and shaping of the bricks are realized; the centered and shaped brick pile is lifted by the top plate 510 and then clamped by the upper centering assembly 320, and a gripper is waited to grab the brick pile to the next packaging station. At this moment, the aligning device, the lower layer centering driving assembly and the jacking device 500 are all returned to the initial state, the subsequent brick piles to be aligned can continue to the centering and shaping station to repeat the actions, high-speed centering and shaping of the brick feeding station are realized, the brick feeding speed of the packaging machine is greatly increased, and the overall packaging speed of the packaging machine is greatly improved.

While the preferred embodiments of the present invention have been described in detail, it is to be understood that the utility model is not limited to the precise embodiments, and that various equivalent changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. A high-speed centering plastic mechanism on ceramic tile packagine machine, its characterized in that includes:

a frame (100);

the brick feeding conveying device (200) is arranged on the rack (100), and a centering and shaping station is arranged on the brick feeding conveying device (200);

the centering device comprises two lower centering components (310), two upper centering components (320), an upper centering driving component and a lower centering driving component, wherein the two lower centering components (310) are arranged in a bilateral symmetry mode relative to the centering and shaping station, the two upper centering components (320) are arranged above the two lower centering components (310), the two upper centering components (320) are arranged in a bilateral symmetry mode relative to the centering and shaping station, the lower centering driving component is used for driving the two lower centering components (310) to be far away from or close to each other in the left-right direction, and the upper centering driving component is used for driving the two upper centering components (320) to be far away from or close to each other in the left-right direction;

an alignment device including a first alignment assembly (410), a second alignment assembly (420), and a first alignment driving mechanism, the first alignment assembly (410) and the second alignment assembly (420) being respectively disposed in a front-rear direction of the centering and shaping station, the first alignment driving mechanism being configured to drive the first alignment assembly (410) to approach or separate from the second alignment assembly (420) in a front-rear direction;

jacking device (500), its setting is in two below between lower floor centering component (310), jacking device (500) include roof (510) and jacking drive assembly, jacking drive assembly drive roof (510) reciprocate.

2. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 1,

the method is characterized in that:

the front side of the centering and shaping station is a feeding side, the second alignment assembly (420) is arranged on the feeding side, the alignment device further comprises a second alignment driving mechanism, and the second alignment driving mechanism is used for driving the second alignment assembly (420) to move up and down.

3. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 1,

the method is characterized in that:

advance brick conveyor (200) and be provided with many transfer chain (210), transfer chain (210) set up along the fore-and-aft direction, many transfer chain (210) are left right side interval and set up, second alignment subassembly (420) jacking device (500) first alignment subassembly (410) sets gradually adjacent two between transfer chain (210).

4. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 3,

the method is characterized in that:

transfer chain (210) include belt conveyor assembly, belt conveyor assembly includes belt (211), many cylinder (212) and belt drive unit, and is many cylinder (212) are the level and set up on frame (100), many the extension is rotationally fixed in about the diaxon end of cylinder (212) is respectively on frame (100), belt (211) rotate the suit many on the surface of cylinder (212), belt drive unit sets up on frame (100), belt drive unit is used for the drive cylinder (212) rotate.

5. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 1,

the method is characterized in that:

the high-speed centering and shaping mechanism further comprises a width adjusting device (600), the width adjusting device (600) comprises a width adjusting driving assembly and two sliding installation seats (610), the two sliding installation seats (610) are arranged in a bilateral symmetry mode relative to the centering and shaping station, the two sliding installation seats (610) are arranged in a left-right sliding mode relative to the rack (100), and the width adjusting driving assembly is used for driving the two sliding installation seats (610) to be far away from or close to each other in the left-right direction;

the upper-layer centering driving assembly comprises a first upper-layer driving unit and a second upper-layer driving unit, the first upper-layer driving unit and the second upper-layer driving unit are respectively installed on the two sliding installation seats (610), the first upper-layer driving unit is in transmission connection with one upper-layer centering assembly (320), and the second upper-layer driving unit is in transmission connection with the other upper-layer centering assembly (320);

lower floor centering drive assembly includes first lower floor drive unit and second lower floor drive unit, first lower floor drive unit and second lower floor drive unit install respectively in two on sliding installation seat (610), first lower floor drive unit is connected with one of them lower floor centering subassembly (310) transmission, second upper drive unit is connected with another lower floor centering subassembly (310) transmission.

6. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 5,

the method is characterized in that:

width adjustment device (600) still includes two linear guide (620), linear guide (620) are and extend the setting about being in on frame (100), two linear guide (620) about centering plastic station is bilateral symmetry and sets up, slidable mounting seat (610) slides and sets up on linear guide (620).

7. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 5,

the method is characterized in that:

the width adjusting driving assembly comprises a first adjusting driving unit and a second adjusting driving unit, and the two sliding installation seats (610) are divided into a first sliding installation seat and a second sliding installation seat;

the first adjusting driving unit comprises a first adjusting screw rod (630), the first adjusting screw rod extends left and right and is rotatably fixed on the rack (100), and the first adjusting screw rod (630) is in threaded transmission connection with the first sliding mounting seat;

the second adjusting driving unit comprises a second adjusting screw rod, the second adjusting screw rod extends left and right and is rotationally fixed on the rack (100), and the second adjusting screw rod is in threaded transmission connection with the second sliding mounting seat.

8. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 7,

it is characterized by also comprising:

hand wheels (631) are arranged on the end portions of the first adjusting screw rod (630) and the second adjusting screw rod.

9. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 1,

the method is characterized in that:

the upper-layer centering assembly (320) comprises a first pushing plate (321) and a brick supporting plate (322), and the brick supporting plate (322) is arranged on the inner side of the first pushing plate (321); the lower centering assembly (310) includes a second push plate.

10. A high speed centering and shaping mechanism on a tile packing machine as claimed in claim 9,

the method is characterized in that:

the upper-layer centering assembly (320) further comprises a plurality of first rollers (323), the first rollers (323) extend vertically and are arranged on the first pushing plate (321), and the plurality of first rollers (323) are arranged on the inner side of the first pushing plate (321) side by side along the front-back direction; lower floor centering subassembly (310) still includes a plurality of second gyro wheels, the second gyro wheel is and extends the setting from top to bottom on the second promotes the plate, and is a plurality of the second gyro wheel sets up side by side along the fore-and-aft direction the inboard of second promotion plate.

Images