CN218113257U - Automatic bundling system - Google Patents

Abstract

The utility model discloses an automatic binding system, which comprises a supporting plate feeding mechanism, a transferring mechanism, a turning and supporting mechanism, a binding mechanism, a ceramic tile feeding mechanism, a supporting plate feeding mechanical arm and a ceramic tile feeding mechanical arm; the supporting plate feeding mechanism comprises a storage support frame, a supporting device, a top support seat and a support discharging device; the pocket supporting devices are arranged on two sides of the lower part of the storage and support rack, can be close to and far away from the storage and support cavity, and are used for supporting the supporting plate when the pocket supporting devices are close to the storage and support cavity; the discharging end of the tray discharging device protrudes out of the tray storage rack, and the conveying direction of the tray discharging device is parallel to the conveying direction of the transfer mechanism; the top bracket is arranged in the storage support cavity, the top bracket penetrates through the support discharging device, and the top of the top bracket can move along the extending direction of the storage support rack. The automatic bundling system provided by the scheme can efficiently realize stacking, bundling and automatic conveying of ceramic tiles, and improves stacking and transferring efficiency of ceramic tile packaging.

Description

Automatic bundling system

Technical Field

The utility model relates to a ceramic tile automatic packaging technical field especially relates to an automatic bundling system.

Background

At present, the industrial field develops towards intellectualization and automation, and ceramic enterprises in the traditional labor-intensive industry have the problems of high labor intensity, harsh working environment and the like. Under the large background that the population dividend of China gradually disappears and the recruitment difficulty is high, the labor cost of ceramic enterprises is sharply increased.

The packing of ceramic tile needs to consume a large amount of labours, as the last process in ceramic tile packing field, the efficiency that the sign indicating number package and transportation efficiency are directly influencing whole packing is influencing workman's intensity of labour and operating time. Although the bag stacking machine has made great progress in recent years, the intelligent integrated system has the defects that the bag stacking speed is low, the bag stacking form or specification is single, part of procedures are complex, automatic bag stacking cannot be realized, man-machine mixed operation is adopted, the risk of personnel safety accidents is brought, the structure of the bag stacking machine is complex, the occupied area is large, and the like, and the bag stacking and logistics storage integration cannot be realized.

Aiming at various problems in the whole ceramic industry, it is necessary to develop an automatic bundling system which has a compact structure and can efficiently complete the stacking and bundling of ceramic tiles with various specifications, automatic taking and delivering of supporting plates and logistics conveying.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic binding system, the ceramic tile carries out independent material loading with the layer board that is used for assisting the ceramic tile to carry, can high-efficient pile up neatly of realizing the ceramic tile, tie up and carry automatically, compact structure, the operation of being convenient for, intelligent degree is high, can effectively promote the sign indicating number package and the transportation efficiency of ceramic tile packing.

To achieve the purpose, the utility model adopts the following technical proposal:

an automatic bundling system comprises a supporting plate feeding mechanism, a transferring mechanism, a turning mechanism, a bundling mechanism, a ceramic tile feeding mechanism, a supporting plate feeding mechanical arm and a ceramic tile feeding mechanical arm; the supporting plate feeding mechanism and the transferring mechanism are positioned in the moving range of the supporting plate feeding mechanical arm, and the supporting plate feeding mechanical arm is used for transferring a supporting plate from the supporting plate feeding mechanism to the transferring mechanism; the tile turning mechanism and the tile feeding mechanism are positioned in the moving range of the tile feeding mechanical arm, and the tile feeding mechanical arm is used for transferring tiles from the tile feeding mechanism to the tile turning mechanism; the blanking end of the transferring mechanism is arranged close to the conveying front end of the supporting plate of the turning and supporting mechanism, the transferring mechanism is used for conveying the supporting plate to the turning and supporting mechanism, the turning and supporting mechanism is installed inside the working end of the bundling mechanism, and the bundling mechanism is used for bundling the ceramic tiles positioned in the turning and supporting mechanism;

the supporting plate feeding mechanism comprises a storage bracket rack, a pocket bracket device, a jacking seat and a support discharging device; a storage cavity for storing the supporting plate is reserved in the middle of the storage rack; the pocket supporting devices are arranged on two sides of the lower part of the storage and support rack, can be close to and far away from the storage and support cavity, and are used for supporting the supporting plate when the pocket supporting devices are close to the storage and support cavity; the tray discharging device is arranged at the bottom of the tray storage cavity, the discharging end of the tray discharging device protrudes out of the tray storage rack, the tray discharging device is used for conveying a supporting plate from the tray storage cavity to the outside of the tray storage rack, and the conveying direction of the tray discharging device is parallel to the conveying direction of the transfer mechanism; the top bracket is installed in store up and hold in the palm the chamber, just the top bracket run through in go out the support device, the top of top bracket can be followed the extending direction of storage support frame removes.

Preferably, the supporting device comprises a first driver, a transmission seat and a supporting strip, the first driver is fixedly installed on the lower portion of the storage supporting frame, the transmission seat is slidably installed on the lower portion of the storage supporting frame, the supporting strip is arranged in the transmission seat in a protruding mode and faces the side face of the storage supporting cavity, an output shaft of the first driver is connected with the transmission seat, and the first driver is used for driving the supporting strip to be close to and far away from the storage supporting cavity through the transmission seat.

Preferably, the supporting device further comprises a swinging assembly, the swinging assembly is installed between the transmission seat and the supporting strip, and the swinging assembly is used for realizing swinging of the supporting strip towards the storage and support cavity;

the swing assembly comprises an L-shaped mounting rod, a second driver and a rotating seat, the rotating seat comprises a first connecting column, a second connecting column and a connecting block, and the first connecting column and the second connecting column are parallel to each other and are fixedly connected with the connecting block respectively;

the L-shaped mounting rod comprises a long edge and a short edge which are perpendicular to each other, the short edge is positioned on the outer side of the long edge, the inner side of the long edge is fixedly connected with the transmission seat, the external connection end of the long edge is sleeved on the first connection column, and the first connection column is rotatably arranged inside the external connection end of the long edge; the outer connecting end of the short edge is hinged with the bottom of the second driver, so that the second driver can swing relative to the L-shaped mounting rod; the top end of the output shaft of the second driver is sleeved on the second connecting column, and the second connecting column is rotatably arranged inside the top end of the output shaft of the second driver; the support strip is fixedly connected with the connecting block, and the second driver is used for driving the support strip to swing towards the storage support cavity.

Preferably, the tray discharging device comprises a tray discharging conveying line, a tray discharging baffle and a centering assembly, the feeding end of the tray discharging conveying line is located at the bottom of the tray storage cavity, and the discharging end of the tray discharging conveying line protrudes out of the tray storage rack; the support outlet baffle is arranged at the discharging end of the support outlet conveying line in a protruding mode and used for blocking the conveying of the supporting plate; the centering subassembly is close to go out the unloading end setting that holds in the palm the transfer chain, just the centering subassembly is located the perpendicular to go out the both sides that hold in the palm the direction of delivery of transfer chain, the centering subassembly can be close to and keep away from go out and hold in the palm the transfer chain.

Preferably, the support turning mechanism comprises a first translation slide rail, a moving seat, a support turning frame, a support plate supporting device and a ceramic tile supporting device, the moving seat is slidably mounted at the top of the first translation slide rail, the support turning frame is mounted at the top of the moving seat in a turnable manner, the support turning frame comprises a support plate supporting surface and a ceramic tile supporting surface which are perpendicular to each other, the support plate supporting device is mounted on the support plate supporting surface, and the ceramic tile supporting device is mounted on the ceramic tile supporting surface;

the binding mechanism comprises a second translation sliding rail, a binding rack and a binding device, the binding rack is slidably erected at the top of the second translation sliding rail, the sliding direction of the binding rack is parallel to that of the moving seat, the binding device is fixedly installed on the binding rack, and the binding device is used for binding tiles positioned on the tile supporting device;

the supporting plate supporting device comprises a supporting plate conveying roller and a clamping assembly, the supporting plate conveying roller is rotatably arranged on the supporting plate supporting surface, the conveying direction of the supporting plate conveying roller is parallel to the conveying direction of the transfer mechanism, the clamping assembly is arranged on two sides perpendicular to the conveying direction of the supporting plate conveying roller, and the clamping assembly is used for clamping and loosening a supporting plate positioned at the top of the supporting plate conveying roller;

ceramic tile supporting device includes a plurality of protective bracket, and is a plurality of the protective bracket interval install in the top of ceramic tile bearing surface, protective bracket includes mutually perpendicular's support bar and protecting strip, just the extending direction of support bar with the slip direction mutually perpendicular who ties up the frame, protecting strip connect in the one end of support bar, the support bar is used for the bearing ceramic tile.

Preferably, the supporting plate supporting device further comprises a supporting roller and a blocking strip; the carrier roller is rotatably arranged on the side surface of the overturning rack, is arranged close to the front conveying end of the supporting plate conveying roller, and the extending direction of the carrier roller is parallel to the extending direction of the supporting plate conveying roller; the barrier strips are arranged at the conveying rear ends of the supporting plates of the supporting plate conveying rollers in a protruding mode and are used for blocking the supporting plates from being separated from the supporting plate conveying rollers.

Preferably, the tile supporting mechanism further comprises a plurality of supporting rods, the plurality of supporting rods are vertically connected to one end of the first translation slide rail in a spaced manner, and the supporting rods are used for supporting the bottom of the tile supporting frame, which is opposite to the tile supporting surface.

Preferably, the tile supporting device further comprises a fixed support and a movable support, the fixed support is fixedly installed at the top of the tile supporting surface, the movable support is movably installed at the top of the fixed support, the protection support is fixedly installed at the top of the movable support, the moving direction of the movable support is perpendicular to the extending direction of the supporting bar, and the movable support is used for enabling the protection support to be drawn close to and far away from the supporting plate conveying roller.

Preferably, the support overturning mechanism further comprises a buffering assembly, the buffering assembly comprises a buffering mounting strip and a buffering pad, the buffering mounting strip is arranged at two ends of the extending direction of the first translation sliding rail in a protruding mode, the buffering pad is arranged at the upper portion of the inner side of the buffering mounting strip in a protruding mode, and the buffering pad is used for abutting against the moving seat.

Preferably, the side surface of the moving seat is in the shape of an isosceles trapezoid, and the length of the bottom of the moving seat in the moving direction is greater than the length of the top of the moving seat in the moving direction.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

1. the work flow of the automatic bundling system is generally divided into three steps of supporting plate feeding, ceramic tile feeding and bundling and blanking. In the step of layer board material loading, utilize layer board feed mechanism to realize the material loading of layer board earlier, then utilize layer board feed mechanical arm to transport the layer board from layer board feed mechanism to the transport mechanism, reuse transport mechanism carries the layer board to turning over the support mechanism, accomplish the material loading of layer board. In the ceramic tile material loading step, utilize ceramic tile feed mechanism to realize the material loading of ceramic tile earlier, then utilize ceramic tile material loading arm to transport the ceramic tile from ceramic tile feed mechanism to turning over and holding in the palm the mechanism to make ceramic tile material loading arm repeat above-mentioned transportation action, accomplish the pile up neatly of ceramic tile in turning over and holding in the palm the mechanism. In the step of bundling and blanking, the ceramic tiles positioned in the overturning and supporting mechanism are bundled by using the bundling mechanism, and finally, the blanking of bundled products is realized by using the transfer mechanism, so that the whole working process of the automatic bundling system is completed. The automatic bundling system that this scheme provided can high-efficient pile up neatly, tie up and automatic transport that realizes the ceramic tile, compact structure, the operation of being convenient for, intelligent degree is high, has reduced the participation proportion of manpower at the in-process of tying up to be favorable to liberation labour, in addition, the ceramic tile carries out independent material loading with the layer board that is used for assisting the ceramic tile to carry, is convenient for effectively promote the sign indicating number package and the transport efficiency of ceramic tile packing.

2. The middle part of the storage support frame is provided with a storage support cavity for storing the support plate, so that the support plate in the automatic bundling system can be loaded in a support plate stacking mode formed by a plurality of horizontally placed support plates, and the storage support cavity is favorable for improving the convenience and the flexibility of the support plate loading.

3. Utilize the pocket to hold in the palm the motion of device for storing up the support chamber, realized the effect of separating the layer board from the layer board buttress, provide the feasibility for promoting the portability of layer board material loading. After the layer board is separated from the layer board buttress, under the effect of top bracket seat, can place the layer board after separating to the transport face that goes out the support device, and carry the layer board from storing up the support chamber to the outside that stores up the support frame by going out the support device, be convenient for utilize layer board loading arm to realize the transportation to the layer board, and the direction of delivery who goes out the support device is parallel to each other with transfer mechanism's direction of delivery, be favorable to making the structure of automatic bundling system compacter, thereby effectively shorten the transfer distance of layer board loading arm, promote the transfer efficiency of layer board loading process.

Drawings

Fig. 1 is a schematic structural diagram of an automatic bundling system according to the present invention.

Fig. 2 is a schematic view of a partial structure of an automatic binding system according to the present invention.

Fig. 3 is a schematic structural diagram of a viewing angle of a pallet feeding mechanism in the automatic binding system of the present invention.

Fig. 4 is a schematic structural diagram of another view angle of the pallet feeding mechanism in the automatic binding system according to the present invention.

Fig. 5 is an enlarged view of a point a in fig. 4.

Fig. 6 is a schematic structural diagram of the tray turning mechanism and the binding mechanism in the automatic binding system of the present invention.

Fig. 7 is a schematic structural view of a view angle of the supporting mechanism in the automatic binding system of the present invention.

Fig. 8 is a schematic view of the working state of the tray turning mechanism in the automatic bundling system of the present invention.

Fig. 9 is a schematic view of another perspective of the flipping mechanism of the automated strapping system of the present invention.

Wherein: layer board feed mechanism 1, transport mechanism 2, turn over support mechanism 3, tie up mechanism 4, ceramic tile feed mechanism 5, layer board material loading arm 6, ceramic tile material loading arm 7, layer board 8, ceramic tile 9.

The storage and support device comprises a storage and support frame 11, a storage and support cavity 111, a pocket support device 12, a first driver 121, a transmission seat 122, a support strip 123, a swing assembly 124, an L-shaped mounting rod 1241, a second driver 1242, a rotating seat 1243, a first connecting column 12431, a second connecting column 12432, a connecting block 12433, a top support seat 13, a support outlet device 14, a support outlet conveying line 141, a support outlet baffle 142 and a centering assembly 143.

The tile lifting device comprises a first translation sliding rail 31, a moving seat 32, a supporting wheel 321, a limiting seat 322, a turning support frame 33, a supporting plate 331, a limiting block 332, a supporting plate supporting device 34, a supporting plate conveying roller 341, a clamping assembly 342, a supporting roller 343, a blocking strip 344, a tile supporting device 35, a protective support 351, a supporting strip 3511, a protective strip 3512 fixing support 352, a movable support 353, a lifting driver 354, a supporting rod 36, a buffering assembly 37, a buffering mounting strip 371 and a buffering pad 372.

A second translation slide rail 41, a binding rack 42 and a binding device 43.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

The technical scheme provides an automatic bundling system which comprises a supporting plate feeding mechanism 1, a transferring mechanism 2, a turning and supporting mechanism 3, a bundling mechanism 4, a ceramic tile feeding mechanism 5, a supporting plate feeding mechanical arm 6 and a ceramic tile feeding mechanical arm 7; the pallet feeding mechanism 1 and the transfer mechanism 2 are located within the movement range of the pallet feeding mechanical arm 6, and the pallet feeding mechanical arm 6 is used for transferring a pallet 8 from the pallet feeding mechanism 1 to the transfer mechanism 2; the turning-over mechanism 3 and the ceramic tile feeding mechanism 5 are located in the moving range of the ceramic tile feeding mechanical arm 7, and the ceramic tile feeding mechanical arm 7 is used for transferring the ceramic tiles 9 from the ceramic tile feeding mechanism 5 to the turning-over mechanism 3; the blanking end of the transfer mechanism 2 is arranged close to the conveying front end of the supporting plate of the turning mechanism 3, the transfer mechanism 2 is used for conveying the supporting plate 8 to the turning mechanism 3, the turning mechanism 3 is installed inside the working end of the bundling mechanism 4, and the bundling mechanism 4 is used for bundling the ceramic tiles 9 positioned in the turning mechanism 3;

the supporting plate feeding mechanism 1 comprises a support storage rack 11, a support device 12, a top support seat 13 and a support discharging device 14; a storage cavity 111 for storing the supporting plate 8 is reserved in the middle of the storage rack 11; the pocket supporting devices 12 are arranged on two sides of the lower portion of the storage and support rack 11, the pocket supporting devices 12 can be close to and far away from the storage and support cavity 111, and when the pocket supporting devices 12 are close to the storage and support cavity 111, the pocket supporting devices 12 are used for supporting the supporting plate 8; the tray discharging device 14 is installed at the bottom of the tray storage cavity 111, a discharging end of the tray discharging device 14 protrudes out of the tray storage rack 11, the tray discharging device 14 is used for conveying the pallets 8 from the tray storage cavity 111 to the outside of the tray storage rack 11, and the conveying direction of the tray discharging device 14 is parallel to the conveying direction of the transfer mechanism 2; the top bracket 13 is installed in the storage cavity 111, and the top bracket 13 penetrates through the support-removing device 14, and the top of the top bracket 13 can move along the extending direction of the storage rack 11.

In order to realize the stacking, bundling and automatic conveying of ceramic tiles, the technical scheme provides an automatic bundling system which comprises a supporting plate feeding mechanism 1, a transferring mechanism 2, a turning and supporting mechanism 3, a bundling mechanism 4, a ceramic tile feeding mechanism 5, a supporting plate feeding mechanical arm 6 and a ceramic tile feeding mechanical arm 7, as shown in figures 1-9; the work flow of the automatic bundling system is generally divided into three steps of supporting plate feeding, ceramic tile feeding and bundling and blanking. In the layer board material loading step, utilize layer board feed mechanism 1 to realize the material loading of layer board 8 earlier, then utilize layer board feed mechanical arm 6 to transport layer board 8 from layer board feed mechanism 1 to transport mechanism 2, recycle transport mechanism 2 and carry layer board 8 to turning over support mechanism 3, accomplish the material loading of layer board 8. In the ceramic tile feeding step, the ceramic tile feeding mechanism 5 is firstly utilized to realize the feeding of the ceramic tile 9, then the ceramic tile feeding mechanical arm 7 is utilized to transfer the ceramic tile 9 from the ceramic tile feeding mechanism 5 to the turning and supporting mechanism 3, the ceramic tile feeding mechanical arm 7 is enabled to repeat the transferring action, and the stacking of the ceramic tile 9 is completed in the turning and supporting mechanism 3. In the binding and blanking step, the binding mechanism 4 is used for binding the ceramic tiles 9 positioned in the overturning and supporting mechanism 3, and finally, the transferring mechanism 2 is used for blanking bound products, so that the whole working process of the automatic binding system is completed. The automatic binding system that this scheme provided, the ceramic tile carries out independent material loading with the layer board that is used for assisting the ceramic tile to carry, can high-efficient pile up neatly of realizing the ceramic tile, tie up and carry automatically, compact structure, the operation of being convenient for, intelligent degree is high, has reduced the participation proportion of manpower at the bundling in-process to be favorable to liberation labour, be convenient for effectively promote the sign indicating number package and the transportation efficiency of ceramic tile packing.

It should be noted that, in this scheme, the transport mechanism 2, the tile feeding mechanism 5 and the support device 14 may be conventional transport lines in the tile packaging field, such as a transport belt, a transport chain or a transport roller, for realizing transport of corresponding materials, and the specific structures of the transport mechanism 2, the tile feeding mechanism 5 and the support device 14 are not described here. In addition, the support plate feeding mechanical arm 6 and the ceramic tile feeding mechanical arm 7 in the scheme are multi-degree-of-freedom mechanical arms with the grabbing function for realizing the support plate 8 and the ceramic tile 9, the multi-degree-of-freedom mechanical arms are composed of conventional multi-degree-of-freedom joint components in the field of mechanical arms and clamping components with the grabbing function such as clamps or suckers, and specific structures of the support plate feeding mechanical arm 6 and the ceramic tile feeding mechanical arm 7 are not described herein. The jacking seat 13 in the scheme is a conventional jacking seat in the field of ceramic tile packaging, the top of the jacking seat can move up and down, so that the lifting of materials borne by the jacking seat is realized, and the specific structure of the jacking seat 13 is not explained here.

Further, the supporting plate feeding mechanism 1 in the scheme comprises a supporting storage rack 11, a supporting device 12, a supporting seat 13 and a supporting discharging device 14; the middle part of the storage bracket rack 11 is provided with a storage bracket cavity 111 for storing the supporting plate 8, so that the supporting plate 8 in the automatic bundling system can be loaded in a supporting plate stacking mode formed by stacking a plurality of horizontally placed supporting plates 8 and can be stored in the storage bracket cavity 111, and the convenience and flexibility for loading the supporting plate 8 can be improved.

The bag supporting devices 12 are arranged on two sides of the lower portion of the storage supporting frame 11, the bag supporting devices 12 can be close to and far away from the storage supporting cavity 111, when the bag supporting devices 12 are close to the storage supporting cavity 111, the bag supporting devices 12 are used for supporting the supporting plates 8, the supporting plates 8 and the storage supporting frame 11 are relatively static, when the bag supporting devices 12 are far away from the storage supporting cavity 111, the supporting plates 8 are separated from the supporting of the bag supporting devices 12, and at the moment, the supporting plates 8 can freely move in the storage supporting cavity 111; this scheme utilization pocket holds in palm device 12 for storing up the motion that holds in the palm the chamber 111, has realized the effect of separating layer board 8 from the layer board buttress, provides the feasibility for promoting the portability of layer board 8 material loading.

Go out and hold in the palm device 14 and install in the bottom that stores up the support chamber 111, and the unloading end that goes out to hold in the palm device 14 is outstanding in the outside that stores up the support frame 11, after layer board 8 separates from the layer board buttress, under the effect of top saddle 13, can place the carriage face that goes out to hold in the palm device 14 with layer board 8 after separating, and carry layer board 8 to the outside that stores up the support frame 11 from storing up the support chamber 111 by going out to hold in the palm device 14, be convenient for utilize layer board loading arm 6 to realize the transportation to layer board 8, and the direction of delivery that goes out to hold in the palm device 14 is parallel to each other with the direction of delivery of transport mechanism 2, be favorable to making automatic bundling system's structure compacter, thereby effectively shorten the transfer distance of layer board loading arm 6, promote the transfer efficiency of layer board loading process.

More specifically, the carrying device 12 includes a first driver 121, a transmission seat 122 and a carrying bar 123, the first driver 121 is fixedly installed at the lower portion of the storage and support frame 11, the transmission seat 122 is slidably installed at the lower portion of the storage and support frame 11, the carrying bar 123 is protrudingly disposed at a side surface of the transmission seat 122 facing the storage and support cavity 111, an output shaft of the first driver 121 is connected to the transmission seat 122, and the first driver 121 is configured to drive the carrying bar 123 to approach to and be away from the storage and support cavity 111 through the transmission seat 122.

In one embodiment of the present invention, the tray device 12 includes a first driver 121, an actuator seat 122, and a tray strip 123 connected in sequence, as shown in fig. 5, such that the first driver 121 drives the tray strip 123 to approach and separate from the tray storage cavity 111 through the actuator seat 122. Because the supporting strip 123 is arranged in the transmission seat 122 in a protruding manner and faces the side face of the storage cavity 111, in addition, an avoiding gap is reserved at the bottom of the conventional supporting plate 8 in the field of ceramic tile packing, and the avoiding gap of the penultimate supporting plate 8 in the supporting plate stack is supported by the supporting strip 123, so that the penultimate supporting plate 8 in the supporting plate stack can move freely and move downwards to the top of the conveying surface of the supporting device 14 under the action of the supporting seat 13. The pocket support device 12 has simple structure and reliable performance, can effectively realize the separation of the supporting plate 8 from the supporting plate stack, and is convenient for realizing the quick and convenient feeding of the supporting plate 8.

More specifically, the supporting device 12 further includes a swing component 124, the swing component 124 is installed between the driving seat 122 and the supporting strip 123, and the swing component 124 is used for realizing the swing of the supporting strip 123 towards the storage cavity 111;

the swing assembly 124 comprises an L-shaped mounting rod 1241, a second driver 1242 and a rotary base 1243, the rotary base 1243 comprises a first connecting column 12431, a second connecting column 12432 and a connecting block 12433, and the first connecting column 12431 and the second connecting column 12432 are respectively fixedly connected with the connecting block 12433 in parallel;

the L-shaped mounting rod 1241 comprises a long side and a short side which are perpendicular to each other, the short side is located outside the long side, the inner side of the long side is fixedly connected with the transmission seat 122, the external connection end of the long side is sleeved on the first connection column 12431, and the first connection column 12431 is rotatably arranged inside the external connection end of the long side; the outer end of the short side is hinged with the bottom of the second driver 1242, so that the second driver 1242 can swing relative to the L-shaped mounting rod 1241; the top end of the output shaft of the second driver 1242 is sleeved on the second connecting column 12432, and the second connecting column 12432 is rotatably arranged inside the top end of the output shaft of the second driver 1242; the supporting bar 123 is fixedly connected with the connecting block 12433, and the second driver 1242 is used for driving the supporting bar 123 to swing towards the storage cavity 111.

In a preferred embodiment of the present invention, the pocket device 12 can swing about the first connecting post 12431 in addition to linear relative movement.

In order to improve the universality of the supporting device 12 and enable the supporting device 12 to simultaneously realize the supporting effect on supporting plates 8 with different sizes, the swing component 124 is additionally arranged to swing the supporting strip 123, so that the supporting device 12 can support the supporting plates 8 from the front end and the rear end of the conveying direction of the supporting device 14, the supporting device 12 can selectively support from any one or more of the four side surfaces of the supporting plates 8, and the effectiveness and the universality of the support are ensured.

Specifically, the swing assembly 124 in this embodiment includes an L-shaped mounting rod 1241, a second driver 1242 and a rotating base 1243, and the rotating base 1243 includes a first connecting rod 12431, a second connecting rod 12432 and a connecting block 12433. When the supporting bar 123 needs to swing and support, the first driver 121 can be used to drive the supporting bar 123 to approach the storage and support cavity 111 through the transmission seat 122, and then the output shaft of the second driver extends out towards the storage and support cavity 111, and under the connection between the second driver and the rotating seat 1243, the second driver slightly deflects towards the outer side of the L-shaped mounting rod 1241 due to the hinging action with the L-shaped mounting rod 1241, so as to ensure that the rotating seat 1243 rotates around the first connecting column 12321, and since the supporting bar 123 is connected with the connecting block 12433 of the rotating seat 1243, the supporting bar 123 can swing around the first connecting column 12431.

More specifically, the tray discharging device 14 includes a tray discharging line 141, a tray discharging baffle 142 and a centering component 143, a feeding end of the tray discharging line 141 is located at the bottom of the tray storage cavity 111, and a discharging end of the tray discharging line 141 protrudes out of the tray storage rack 11; the discharging baffle 142 is arranged at the discharging end of the discharging conveying line 141 in a protruding manner, and the discharging baffle 142 is used for stopping the conveying of the supporting plates 8; the centering assemblies 143 are arranged close to the blanking end of the discharging conveying line 141, the centering assemblies 143 are located on two sides perpendicular to the conveying direction of the discharging conveying line 141, and the centering assemblies 143 can be close to and far away from the discharging conveying line 141.

In a preferred embodiment of the present invention, the pop-out device 14 includes a pop-out conveying line 141, a pop-out baffle 142, and a centering assembly 143, as shown in fig. 4.

Wherein, go out to ask transfer chain 141 to be used for carrying the outside that holds in the palm frame 11 to storage from storage support chamber 111 with layer board 8, it should be said that, the transfer chain 141 that goes out to ask in this scheme can be a complete transfer chain, also can be formed by a plurality of transfer chains end to end. At the unloading end of the delivery conveyor line 141, a delivery baffle 142 for blocking the delivery of the supporting plate 8 is arranged, which is beneficial to preventing the supporting plate 8 from falling from the delivery conveyor line 141, thereby ensuring the smooth feeding process of the supporting plate 8. Centering subassembly 143 is used for finely tuning the unloading locating position of layer board 8, and the layer board loading arm of a tractor 6 of being convenient for snatchs and transports the accuracy of layer board 8, reduces automatic binding system's alignment and debugging number of times, promotes automatic binding system's transportation efficiency.

To explain further, the turning mechanism 3 includes a first translation slide rail 31, a moving seat 32, a turning frame 33, a support plate supporting device 34 and a tile supporting device 35, the moving seat 32 is slidably mounted on the top of the first translation slide rail 31, the turning frame 33 is mounted on the top of the moving seat 32 in a turnable manner, the turning frame 33 includes a support plate supporting surface and a tile supporting surface which are perpendicular to each other, the support plate supporting surface is provided with the support plate supporting device 34, and the tile supporting surface is provided with the tile supporting device 35;

the binding mechanism 4 comprises a second translation slide rail 41, a binding frame 42 and a binding device 43, the binding frame 42 is slidably arranged on the top of the second translation slide rail 41, the sliding direction of the binding frame 42 is parallel to the sliding direction of the moving seat 32, the binding device 43 is fixedly arranged on the binding frame 42, and the binding device 43 is used for binding the tiles 9 positioned on the tile supporting device 35;

the pallet retainer device 34 includes pallet conveying rollers 341 and clamping members 342, the pallet conveying rollers 341 are rotatably mounted on the pallet support surface, the conveying direction of the pallet conveying rollers 341 is parallel to the conveying direction of the transfer mechanism 2, the clamping members 342 are disposed at both sides perpendicular to the conveying direction of the pallet conveying rollers 341, and the clamping members 342 are used for clamping and releasing the pallet 8 on top of the pallet conveying rollers 341;

tile supporting means 35 includes a plurality of protective bracket 351, a plurality of protective bracket 152 interval install in the top of tile bearing surface, protective bracket 351 includes mutually perpendicular's support bar 3511 and protection strip 3512, just the extending direction of support bar 3511 with tie up the sliding direction mutually perpendicular of frame 42, protection strip 3512 connect in the one end of support bar 3511, support bar 3511 is used for bearing tile 9.

The bundling is a packaging operation of directly tying and fastening a single or a plurality of products with ropes and plastic steel tapes (PET plastic steel packaging tapes) for transportation, storage, loading and unloading, and stacking a plurality of products is called stacking. The packing back-end packing procedure in the field of ceramic building materials directly influences the efficiency of the whole packing, and the whole stack packing mode after packing directly relates to the links of delivery loading, logistics transportation and storage. At present, most of the stacking, bundling and supporting in the ceramic industry are manually packaged, so that the cost is high, the efficiency is low, and a large safety factor exists.

The automatic bundling system of this scheme because all convert the mode of artifical material loading, pile up neatly and tying up the unloading into automatic feeding, pile up neatly and tying up the mode of unloading, in order to ensure going on smoothly of above-mentioned process, this scheme has still improved the structure that turns over support mechanism 3 and tying up mechanism 4.

Specifically, as shown in fig. 6-9, the tray turning mechanism 3 and the binding mechanism 4 in the present embodiment are both movable structures, and the sliding direction of the binding rack 42 and the sliding direction of the movable seat 32 are parallel to each other; on one hand, the working end of the binding mechanism 4 and the working surface of the turning and supporting mechanism 3 can be arranged in a staggered mode, so that smooth feeding of the supporting plate 8 and the ceramic tiles 9 is favorably ensured, and when the binding mechanism 4 needs to be checked and maintained, the binding mechanism is not hindered by the turning and supporting mechanism 3; on the other hand, the arrangement positions of the turning mechanism 3 and the binding mechanism 4 can be adjusted according to the movement ranges of the pallet feeding mechanical arm 6 and the tile feeding mechanical arm 7, which is beneficial to further improving the universality of the automatic binding system.

Further, the layer board supporting device 34 of this scheme includes layer board conveying roller 341 and clamping component 342, layer board conveying roller 341 rotationally installs in layer board bearing surface, and the direction of delivery of layer board conveying roller 341 and transfer mechanism 2 is parallel to each other, the clamping component 342 that is used for pressing from both sides tightly and unclamping layer board 8 sets up in the both sides of the direction of delivery of perpendicular to layer board conveying roller 341, make layer board supporting device 34 can realize layer board 8 from transfer mechanism 2 to the material loading that turns over support mechanism 3, realize tying up the unloading of product from turning over support mechanism 3 to transfer mechanism 2 through layer board 8 simultaneously.

Further, the ceramic tile supporting device 35 of this scheme includes the protective bracket 351 of a plurality of intervals settings, thereby for the ceramic tile 9 provides the holding power in placing at ceramic tile bearing surface top, avoid collapsing of ceramic tile buttress, protective bracket 351 includes mutually perpendicular's support bar 3511 and protection strip 3512, and the extending direction of support bar 3511 and the sliding direction mutually perpendicular who ties up frame 42, when tying up frame 42 and removing the different binding positions to the ceramic tile 9 that the pile up neatly finishes, the setting of support bar 3511 does not all hinder binding apparatus 43 and beats the bundle operation, be convenient for ensure to beat the smooth going on of bundle.

The work flow of the support turning mechanism 3 and the bundling mechanism 4 in the scheme is as follows: (1) The support turning mechanism 3 is translated, the support turning mechanism 3 is arranged close to the transfer mechanism 2, the support turning mechanism 3 is turned, the supporting surface of the supporting plate in the support turning mechanism 3 is horizontally arranged, and finally the bundling mechanism 4 is translated to enable the working end of the bundling mechanism to be staggered with the supporting surface of the supporting plate; (2) Conveying the pallet 8 to the top of the pallet conveying roller 341 through the transfer mechanism 2, and driving the clamping assembly 342 so that the clamping assembly 342 clamps the pallet 8; (3) The overturning and supporting mechanism 3 is turned, the ceramic tile bearing surface in the overturning and supporting mechanism 3 is horizontally arranged, the overturning and supporting mechanism 3 and/or the binding mechanism 4 are/is translated, and the working end of the binding mechanism 4 is staggered with the ceramic tile bearing surface; (4) Transferring the ceramic tiles 9 from the ceramic tile feeding mechanism 5 to the turning and supporting mechanism 3 by using the ceramic tile feeding mechanical arm 7, repeating the transferring action by using the ceramic tile feeding mechanical arm 7, stacking the ceramic tiles 9 at the top of the ceramic tile bearing surface, then translating the bundling mechanism 4, aligning the working end of the bundling mechanism to the ceramic tile stack, and bundling by using the bundling device 43; (5) The turnover support mechanism 3 is turned over, the support surface of the support plate in the turnover support mechanism 3 is horizontally arranged, and the bundled tile piles are placed at the top of the support plate 8; (6) The working end of the binding mechanism 4 is displaced from the pallet bearing surface, and the bound tile stack is transported from the pallet transport roller 341 to the transfer mechanism 2 via the pallet 8 for blanking.

It should be noted that the clamping assembly 342 in the present embodiment is a structural member capable of achieving the material clamping function, and the specific structure of the clamping assembly 342 is not described herein; in addition, the binding device 43 in the present embodiment is a device commonly used in the field of tile packing to achieve the binding effect, and will not be described in detail here.

More specifically, the pallet retainer device 34 further comprises a supporting roller 343 and a blocking bar 344; the carrier roller 343 is rotatably mounted on a side surface of the turning frame 33, the carrier roller 343 is disposed near a pallet conveying front end of the pallet conveying roller 341, and an extending direction of the carrier roller 343 is parallel to an extending direction of the pallet conveying roller 341; the blocking bar 344 protrudes from the rear end of the pallet conveying roller 341, and the blocking bar 344 is used to block the pallet 8 from being separated from the pallet conveying roller 341.

In a preferred embodiment of the present invention, the pallet hold down 34 further comprises an idler 343 and a stop 344. Install in the bearing roller 343 that turns over and hold in the palm frame 33 side, can play the transition effect between layer board conveying roller 341 and transport mechanism 2, be convenient for catch better from transport mechanism 2 transport the layer board 2 of coming, it can also be in the ceramic tile buttress after beating a bundle from turning over the unloading in-process that holds in the palm mechanism 3 to transport mechanism 2, provides extra holding power for layer board 8 simultaneously. The barrier 344 protruded from the rear end of the pallet transport roller 341 can effectively prevent the pallet 8 from derailing.

More specifically, the turning mechanism 3 further includes a plurality of support rods 36, the plurality of support rods 36 are vertically connected to one end of the first translation slide rail 31 with a gap, and the support rods 36 are used for supporting the bottom of the turning frame 33 opposite to the tile supporting surface.

Because the required bearing force of the ceramic tile bearing surface of the support turning mechanism 3 is large, in order to avoid the damage of the support turning mechanism 3, the scheme is additionally provided with the supporting rod 36 for providing extra supporting force for the support turning mechanism 3, so that the support of the support turning mechanism 3 for the ceramic tile 9 plays an auxiliary role.

In a further description, the tile supporting device 35 further includes a fixed bracket 352 and a movable bracket 353, the fixed bracket 352 is fixedly mounted on the top of the tile supporting surface, the movable bracket 353 is movably mounted on the top of the fixed bracket 352, the protection bracket 351 is fixedly mounted on the top of the movable bracket 353, the moving direction of the movable bracket 353 is perpendicular to the extending direction of the supporting bars 3511, and the movable bracket 353 is used for drawing the protection bracket 351 close to or away from the pallet conveying roller 341.

In another preferred embodiment of this embodiment, the tile supporting device 35 further comprises a fixed frame 352 and a movable frame 353, wherein the movable frame 353 is movably mounted on the top of the fixed frame 352, and the moving direction of the movable frame 353 is perpendicular to the extending direction of the supporting bars 3511. When the ceramic tile 9 is piled up neatly and is beaten the bundle back at protective bracket 351 completion, usable movable support 353 draws close the distance between protective bracket 351 and the layer board conveying roller 341, utilizes movable support 353 to make the ceramic tile buttress after beating the bundle offset with layer board 8 on the layer board conveying roller 341 best, then can avoid ceramic tile buttress and layer board 8 to bump in the upset in-process, cause the ceramic tile to damage.

It should be noted that, in this embodiment, the movable support 353 can be moved by a driving motor or a driving cylinder, so as to improve the automation degree of the turnover mechanism 3.

Preferably, the tile supporting device 35 further comprises a lifting driver 354, the lifting driver 354 is installed on the top of the movable support 353, an output end of the lifting driver 354 is connected to the bottom of the supporting bar 3511, a connecting position between the output end of the lifting driver 354 and the bottom of the supporting bar 3511 is located at one end of the supporting bar 3511, which is far away from the protecting bar 3512, and the lifting driver 354 is used for realizing the inclined arrangement of the supporting bar 3511.

Further, ceramic tile supporting device 35 in this scheme still includes the lifting driver 354 that is used for realizing support bar 3511 slope setting, and support bar 3511 after the slope can make ceramic tile 9 offset with the protection strip 3512 in the protective bracket 351, can make the ceramic tile 9 after the pile up neatly align on the one hand, is convenient for beat the bundle, and on the other hand can improve the stability of ceramic tile buttress, is convenient for overturn.

It should be noted that the lift driver 354 in this embodiment may be a driving cylinder.

More specifically, the turning-over mechanism 3 further includes a buffering assembly 37, the buffering assembly 37 includes a buffering mounting strip 371 and a buffering pad 372, the buffering mounting strip 371 is protrudingly disposed at two ends of the extending direction of the first sliding rail 31, the buffering pad 372 is protrudingly disposed at an upper portion of an inner side of the buffering mounting strip 371, and the buffering pad 372 is configured to abut against the moving seat 32.

In a preferred embodiment of the present technical solution, the turning mechanism 3 further includes a buffering assembly 37, and the buffering assembly 37 includes buffering mounting bars 371 protruding from both ends of the extending direction of the first sliding rail 31 and buffering pads 372 protruding from the upper portion of the inner side of the buffering mounting bars 371, the setting of the buffering mounting bars 371 can limit the moving stroke of the moving seat 32, so as to avoid derailing, and the setting of the buffering pads 372 can effectively prevent the collision between the moving seat 32 and the buffering mounting bars 371, thereby playing a buffering role.

It should be noted that the cushion 372 in this embodiment may be made of a flexible material, such as rubber, silicone, etc.

More specifically, the side surface of the movable base 32 is shaped like an isosceles trapezoid, and the length of the bottom of the movable base 32 in the moving direction is greater than the length of the top of the movable base 32 in the moving direction.

In another preferred embodiment of the present technical solution, the side surface of the movable seat 32 is shaped as an isosceles trapezoid, and the length of the bottom of the movable seat 32 along the moving direction is greater than the length of the top of the movable seat 32 along the moving direction, which is beneficial to improving the moving stability of the turnover mechanism 3, and at the same time, can also effectively ensure the installation stability of the turnover frame 33.

Preferably, a supporting plate 331 is integrally formed at the bottom of the turning-over supporting frame 33, the outer contour of the supporting plate 331 is arc-shaped, a rotatable supporting wheel 321 is arranged at the top of the moving seat 32, a rotation shaft of the supporting wheel 321 is parallel to a turning shaft of the turning-over supporting frame 33, the supporting wheel 321 abuts against the supporting plate 331, and the supporting wheel 321 is used for providing supporting force for turning over the turning-over supporting frame 33.

The turnover frame 33 is rotatably mounted on the moving seat 32, the turnover frame 33 is integrally formed with a supporting plate 331 with an arc-shaped outer contour, the top of the moving seat 32 is rotatably connected with a supporting wheel 321 abutted against the supporting plate 331, the supporting wheel 321 can be kept in contact with the supporting plate 331 during the rotation of the turnover frame 33, and provides supporting force for the supporting plate 331 and the turnover frame 33, so that the turnover frame 33 can rotate on the moving seat 32.

Preferably, the flipping frame 33 further includes a limiting block 332, and the limiting block 332 protrudes from an outer side wall of the supporting plate 331; the top of the moving seat 32 is also provided with a limiting seat 322 in a protruding manner, and the limiting seat 322 is provided with a limiting groove for accommodating the limiting block 332.

Further, the outstanding stopper 332 that is provided with of backup pad 331 lateral wall of this scheme, the top of removing seat 32 still the outstanding spacing seat 322 that is provided with accessible spacing groove and holds stopper 332, spacing seat 322 and stopper 332's combined action can play limiting displacement to the rotation stroke of upset frame 33.

Preferably, at least two limit blocks 332 are provided, one of the limit blocks 332 is protrudingly provided in the supporting plate 331 near the outer side wall of the supporting plate holding device 34, and the other of the limit blocks 332 is protrudingly provided in the supporting plate 331 near the outer side wall of the tile holding device 35;

the limiting seat 322 is provided with at least two limiting grooves, and the two limiting grooves are respectively located on two sides of the limiting seat 322 along the moving direction of the moving seat 32.

Furthermore, stopper 332 in this scheme is provided with two at least, and a stopper 332 is outstanding to be set up in backup pad 331 and is close to the lateral wall of layer board supporting device 34, and another stopper 332 is outstanding to be set up in backup pad 331 and is close to the lateral wall of ceramic tile supporting device 35, and two stoppers 332 are installed with spacing seat 322's cooperation respectively, are convenient for guarantee that layer board bearing surface and ceramic tile bearing surface after the upset can be located the horizontal direction.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

Unless specifically stated otherwise, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

For ease of description, spatially relative terms such as "over 8230," "upper surface," "above," and the like may be used herein to describe the spatial positional relationship of one device or feature to other devices or features as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary terms "at 8230; \8230; 'above" may include both orientations "at 8230; \8230;' above 8230; 'at 8230;' below 8230;" above ". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and if not stated otherwise, the terms have no special meaning, and therefore, the scope of the present invention should not be construed as being limited.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the accompanying drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The technical principle of the present invention has been described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. An automated strapping system, characterized by: the ceramic tile binding machine comprises a supporting plate feeding mechanism, a transferring mechanism, a turning mechanism, a binding mechanism, a ceramic tile feeding mechanism, a supporting plate feeding mechanical arm and a ceramic tile feeding mechanical arm; the pallet feeding mechanism and the transfer mechanism are positioned in the moving range of the pallet feeding mechanical arm, and the pallet feeding mechanical arm is used for transferring the pallet from the pallet feeding mechanism to the transfer mechanism; the tile turning mechanism and the tile feeding mechanism are positioned in the moving range of the tile feeding mechanical arm, and the tile feeding mechanical arm is used for transferring tiles from the tile feeding mechanism to the tile turning mechanism; the blanking end of the transferring mechanism is arranged close to the conveying front end of the supporting plate of the turning and supporting mechanism, the transferring mechanism is used for conveying the supporting plate to the turning and supporting mechanism, the turning and supporting mechanism is installed inside the working end of the bundling mechanism, and the bundling mechanism is used for bundling the ceramic tiles positioned in the turning and supporting mechanism;

the supporting plate feeding mechanism comprises a storage bracket rack, a pocket bracket device, a jacking seat and a support discharging device; a storage cavity for storing the supporting plate is reserved in the middle of the storage rack; the supporting devices are arranged on two sides of the lower part of the supporting rack, can be close to and far away from the supporting cavity, and are used for supporting the supporting plate when the supporting devices are close to the supporting cavity; the tray discharging device is arranged at the bottom of the tray storage cavity, the discharging end of the tray discharging device protrudes out of the tray storage rack, the tray discharging device is used for conveying a supporting plate from the tray storage cavity to the outside of the tray storage rack, and the conveying direction of the tray discharging device is parallel to the conveying direction of the transfer mechanism; the top bracket is installed in the storage support cavity, just the top bracket runs through in go out the support device, the top of top bracket can be followed the extending direction of storage support frame removes.

2. An automated strapping system according to claim 1 wherein: the pocket holds in the palm the device and includes first driver, transmission seat and holds in the palm the strip, first driver fixed mounting in the lower part of storage support frame, transmission seat slidable install in the lower part of storage support frame, hold in the palm the strip protruding set up in the transmission seat towards the side in storage support chamber, the output shaft of first driver with the transmission seat links to each other, first driver is used for passing through the transmission seat drive hold in the palm the strip and be close to and keep away from the storage support chamber.

3. An automated strapping system according to claim 2, wherein: the supporting device further comprises a swinging assembly, the swinging assembly is installed between the transmission seat and the supporting strip, and the swinging assembly is used for realizing swinging of the supporting strip towards the storage supporting cavity;

the swing assembly comprises an L-shaped mounting rod, a second driver and a rotating seat, the rotating seat comprises a first connecting column, a second connecting column and a connecting block, and the first connecting column and the second connecting column are parallel to each other and are fixedly connected with the connecting block respectively;

the L-shaped mounting rod comprises a long edge and a short edge which are perpendicular to each other, the short edge is positioned on the outer side of the long edge, the inner side of the long edge is fixedly connected with the transmission seat, the external connection end of the long edge is sleeved on the first connection column, and the first connection column is rotatably arranged inside the external connection end of the long edge; the outer end of the short side is hinged with the bottom of the second driver, so that the second driver can swing relative to the L-shaped mounting rod; the top end of the output shaft of the second driver is sleeved on the second connecting column, and the second connecting column is rotatably arranged inside the top end of the output shaft of the second driver; the support strip is fixedly connected with the connecting block, and the second driver is used for driving the support strip to swing towards the storage support cavity.

4. An automated strapping system according to claim 1 wherein: the tray discharging device comprises a tray discharging conveying line, a tray discharging baffle and a centering assembly, wherein the feeding end of the tray discharging conveying line is positioned at the bottom of the tray storage cavity, and the discharging end of the tray discharging conveying line protrudes out of the tray storage rack; the support outlet baffle is arranged at the discharging end of the support outlet conveying line in a protruding mode and used for blocking the conveying of the supporting plate; the centering subassembly is close to go out the unloading end setting that holds in the palm the transfer chain, just the centering subassembly is located the perpendicular to go out the both sides that hold in the palm the direction of delivery of transfer chain, the centering subassembly can be close to and keep away from go out and hold in the palm the transfer chain.

5. An automated strapping system according to claim 1 wherein: the turning-over mechanism comprises a first translation sliding rail, a moving seat, a turning-over support frame, a supporting plate supporting device and a ceramic tile supporting device, the moving seat is slidably mounted at the top of the first translation sliding rail, the turning-over support frame is mounted at the top of the moving seat in a turning-over manner, the turning-over support frame comprises a supporting plate supporting surface and a ceramic tile supporting surface which are perpendicular to each other, the supporting plate supporting device is mounted on the supporting plate supporting surface, and the ceramic tile supporting device is mounted on the ceramic tile supporting surface;

the binding mechanism comprises a second translation sliding rail, a binding rack and a binding device, the binding rack is slidably erected at the top of the second translation sliding rail, the sliding direction of the binding rack is parallel to that of the moving seat, the binding device is fixedly installed on the binding rack, and the binding device is used for binding tiles positioned on the tile supporting device;

the supporting plate supporting device comprises a supporting plate conveying roller and a clamping assembly, the supporting plate conveying roller is rotatably arranged on the supporting plate supporting surface, the conveying direction of the supporting plate conveying roller is parallel to the conveying direction of the transfer mechanism, the clamping assembly is arranged on two sides perpendicular to the conveying direction of the supporting plate conveying roller, and the clamping assembly is used for clamping and loosening a supporting plate positioned at the top of the supporting plate conveying roller;

ceramic tile supporting device includes a plurality of protective bracket, and is a plurality of the protective bracket interval install in the top of ceramic tile bearing surface, protective bracket includes mutually perpendicular's support bar and protecting strip, just the extending direction of support bar with the slip direction mutually perpendicular who ties up the frame, protecting strip connect in the one end of support bar, the support bar is used for the bearing ceramic tile.

6. An automated strapping system according to claim 5 wherein: the supporting plate supporting device further comprises a supporting roller and a barrier strip; the carrier roller is rotatably arranged on the side surface of the overturning rack and is arranged close to the conveying front end of the supporting plate conveying roller, and the extending direction of the carrier roller is parallel to the extending direction of the supporting plate conveying roller; the barrier strips are arranged at the rear conveying ends of the supporting plates of the supporting plate conveying rollers in a protruding mode and used for blocking the supporting plates from being separated from the supporting plate conveying rollers.

7. An automated strapping system according to claim 5, wherein: the support turning mechanism further comprises a plurality of support rods, the support rods are vertically connected to one end of the first translation sliding rail in a clearance mode, and the support rods are used for supporting the bottom, opposite to the ceramic tile bearing surface, of the support turning rack.

8. An automated strapping system according to claim 5 wherein: the ceramic tile supporting device further comprises a fixed support and a movable support, the fixed support is fixedly installed at the top of the ceramic tile supporting surface, the movable support is movably installed at the top of the fixed support, the protection support is fixedly installed at the top of the movable support, the moving direction of the movable support is perpendicular to the extending direction of the supporting bar, and the movable support is used for drawing the protection support close to and keeping away from the supporting plate conveying roller.

9. An automated strapping system according to claim 5 wherein: the overturning mechanism further comprises a buffering assembly, the buffering assembly comprises a buffering mounting bar and a buffering pad, the buffering mounting bar is arranged at two ends of the extending direction of the first translation sliding rail in a protruding mode, the buffering pad is arranged on the upper portion of the inner side of the buffering mounting bar in a protruding mode, and the buffering pad is used for abutting against the moving seat.

10. An automated strapping system according to claim 5, wherein: the side shape of the movable seat is isosceles trapezoid, and the length of the bottom of the movable seat in the moving direction is larger than that of the top of the movable seat in the moving direction.

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