CN211309111U - Packing production line suitable for large plates of various specifications - Google Patents

Abstract

A packing production line suitable for large boards of various specifications comprises a rack, a conveying assembly arranged on the rack, a brick turning mechanism, a brick stacking mechanism, a paper pulling and placing mechanism with a centering and aligning mechanism, an upper wrap angle edge covering mechanism, a paper folding mechanism and a bundling mechanism which are sequentially arranged along the conveying assembly, and is characterized in that more than two sets of paper pulling and placing mechanisms with the centering and aligning mechanism are sequentially arranged along the conveying assembly. Compared with the prior art, the utility model, have the advantage that the time of adjustment time is short, the time that stops the packing process is short when the packing of the big board ceramic tile of multiple specification, conversion specification packing.

Description

Packing production line suitable for large plates of various specifications

Technical Field

The utility model relates to a ceramic tile packaging machine.

Background

The existing production line technology capable of adapting to the packaging of tiles with various specifications is realized by quickly adjusting the position of a related mechanism of each station, and although the technology can adapt to the packaging of tiles with various specifications, particularly nonstandard tiles, the technology needs accurate adjustment, so that the structure of a corresponding adjusting component is complex. Moreover, the size of the adjusting member cannot be simply enlarged to enhance the rigidity of the member so as to adapt to the tiles with large size and heavy weight, so that no effective technology is available at present for realizing the paper pulling and brick placing mechanism for the packaging production line which is suitable for large plates with various sizes. In addition, the prior art needs to stop the packaging process when adjusting the position of the relevant mechanism of each station according to the specification of the ceramic tile, and even if a quick adjustment technology is adopted, the time needed is long due to the adjustment of a plurality of stations and the replacement of packaging materials, thereby affecting the use efficiency of the production line.

Disclosure of Invention

The utility model aims to provide an invention can adapt to the packing of the big board ceramic tile of multiple specification, adjustment time is short when the conversion specification is packed, the time of stopping the packing process is short adapts to the big board packing production line of multiple specification.

The utility model discloses a realize like this, including frame, the conveying subassembly of setting in the frame, turn over brick mechanism, pile brick mechanism, the paper drawing skin that has the centering and clap neat mechanism of mechanism puts brick mechanism, upper wrap angle mechanism of borduring, paper folding mechanism, tying up the mechanism along conveying subassembly transmission direction setting in proper order, its special character lies in that the paper drawing skin that has the centering and claps neat mechanism puts brick mechanism and has more than two sets and set up according to the preface along conveying subassembly.

When the automatic tile pulling and aligning mechanism works, the positions of all components of more than two sets of paper pulling and aligning mechanisms with the centering and aligning mechanisms are adjusted in advance according to the specifications of different large-plate tiles, and carton boards with corresponding specifications can be placed in advance, so that when the specifications of the tiles are converted, the converted tiles can be packaged quickly by simply switching and starting. When the ceramic tiles are packed, the ceramic tile stack is conveyed to a paper sheet pulling and placing mechanism with a centering and aligning mechanism corresponding to the corresponding ceramic tile specification, the centering and aligning mechanism performs centering and aligning on the ceramic tile stack, then the ceramic tile stack is conveyed to a paper sheet pulling and placing mechanism corresponding to the ceramic tiles with the corresponding specification to place the paper box boards with the corresponding specification, and then the ceramic tile stack is conveyed to the next packing process to complete the packing of the ceramic tile stack. The present invention relates to a method for manufacturing a tile stack, and more particularly to a method for manufacturing a tile stack, which can improve the quality of the tile stack, reduce the size of the tile stack, improve the quality of the tile stack, and improve the quality of the tile stack.

The tile pulling and placing mechanism with more than two sets of centering and aligning mechanisms is adopted, and the specifications of the large-plate tile are generally 600 multiplied by 1200, 750 multiplied by 1500, 800 multiplied by 1600, 900 multiplied by 1800, 1000 multiplied by 2000 and the like, so that the positions of all components can be adjusted in advance according to more than two different standard specifications or tiles with common specifications, and corresponding carton boards are placed, so that the conversion of the specifications of the tiles can be completed in a short time.

Here, the upper corner wrapping and edge covering mechanisms are more than two sets and are sequentially arranged along the conveying assembly.

The upper wrap angle edge covering mechanism is provided with more than two sets of upper wrap angle edge covering mechanisms and is arranged along the conveying assembly according to the sequence, the positions of all components on the corresponding upper wrap angle edge covering mechanism can be adjusted in advance according to tiles of different specifications, and when the tiles of different specifications are required to be packaged, only simple switching needs to be carried out, so that the adjusting efficiency is improved, and in addition, the time for switching is accelerated by placing the wrap angle and the wrap angle of corresponding sizes in advance.

Here, more than two sets of paper folding mechanisms are arranged along the conveying assembly in sequence. The same technology that adopts the paper folding mechanism to have more than two sets and set up along the conveyor components according to the preface, accessible in advance correspond to different specification ceramic tiles the position of each component on the corresponding paper folding mechanism of adjustment, when needing the ceramic tile of packing different specifications, only need carry out simple switching just to, thereby, promoted adjustment efficiency for the time of switching.

When the automatic paper folding and aligning mechanism works, the positions of each component of more than two sets of paper pulling and placing mechanisms with the aligning and aligning mechanisms, the positions of each component of more than two sets of upper wrap angle and edge covering mechanisms and the positions of each component of more than two sets of paper folding mechanisms are adjusted in advance according to different specifications of large-plate bricks, and paper box plates, wrap angles and edge covering of corresponding specifications can be placed in advance, so that when the specifications of ceramic tiles are converted, the converted ceramic tiles can be packaged quickly by simple switching and starting. When the ceramic tiles are packed, the ceramic tiles are turned over at intervals by the tile turning mechanism, then the ceramic tiles are overlapped face to face and back to back by the tile stacking mechanism according to the set number, then the ceramic tiles are sent to the paper sheet pulling and placing mechanism with the centering and aligning mechanism corresponding to the specifications of the corresponding ceramic tiles, the ceramic tile stack is centered and aligned by the centering and aligning mechanism, then the ceramic tiles are sent to the paper sheet pulling and placing mechanism corresponding to the ceramic tiles with the corresponding specifications to place the paper box boards with the corresponding specifications, then the paper box boards are sent to the upper wrap angle wrapping mechanism corresponding to the ceramic tiles with the corresponding specifications to wrap edges and corners, then the paper box boards are sent to the paper folding mechanism corresponding to the ceramic tiles with the corresponding specifications to fold the paper box boards and wrap the ceramic tile stack, and then the paper box boards are sent to the binding mechanism to be bound, so that the packaging of the ceramic tile stack is completed.

Compared with the prior art, the utility model, have the advantage that the time of adjustment time is short, the time that stops the packing process is short when the packing of the big board ceramic tile of multiple specification, conversion specification packing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a part of a brick turning mechanism and a brick stacking mechanism;

FIG. 3 is a schematic structural diagram of a paper-drawing and brick-placing mechanism part;

FIG. 4 is a schematic structural view of an upper corner wrapping and edge covering mechanism part;

fig. 5 is a schematic view of a part of the binding mechanism.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings and examples:

as shown in figure 1, the utility model comprises a frame 1, a conveying component a arranged on the frame 1, a brick turning mechanism b, a brick stacking mechanism c, a paper drawing and brick placing mechanism e with a centering and aligning mechanism d, an upper wrap angle and edge covering mechanism f, a paper folding mechanism g, a bundling mechanism h and a robot automatic stacking mechanism j which are arranged along the conveying direction of the conveying component a in sequence, the centering and aligning mechanism d comprises a centering part and a transfer part for transferring the tile pile to the action range of the paper pulling and aligning mechanism e, and a sensing device for detecting the position of the tile pile, as shown in figures 1 and 3 (the position of the paper pulling and aligning mechanism e with the centering and aligning mechanism d is shown in figure 1, and in the position, up to eight sets of paper pulling and aligning mechanisms e with the centering and aligning mechanism d can be arranged), the paper-drawing and brick-placing mechanism is characterized in that more than two sets (8 sets in the embodiment) of paper-drawing and brick-placing mechanisms e with the centering and aligning mechanism d are arranged along the conveying assembly a in sequence.

As shown in fig. 1 and 2, the upper wrap angle edge covering mechanism f has more than two sets (8 sets in the embodiment) and is arranged along the conveying assembly a in sequence, and the paper folding mechanism g has more than two sets and is arranged along the conveying assembly a in sequence.

Here, there are three brick turning mechanisms b and three brick stacking mechanisms c, the front end of the conveying component a is provided with a transverse conveying component i, the transverse conveying component i comprises three transverse conveying component units i1, the transverse conveying component unit i1 comprises a transverse frame 2, a transverse transmission member 3 (comprising a motor 3a, two pairs of belt pulleys 3d driven by the motor 3a with a speed change mechanism through a chain wheel/chain transmission mechanism 3b and a rotating shaft 3c, and a belt 3e wound on the belt pulleys 3 d) arranged on the transverse frame 2, an up-down power driving device 4 (comprising four swing arms 4a arranged on four corners of a parallelogram on the transverse frame 2 in a swinging manner, a cylinder 4b driving one of the swing arms 4a to swing), a movable frame 5 driven by the up-down power driving device 4 (the other end of the swing arm 4b is hinged on the movable frame 5) to move up and down, A plurality of roller shafts 6 which are arranged on the movable frame 5 and are parallel to each other, wherein the rolling and rolling transmission direction of the roller shafts 6 is vertical to the transmission direction of the transverse transmission component 3, and the transmission direction of the tile pile A of the tile stacking mechanism c is opposite to the roller shafts 6. When the machine works, the tile turning mechanisms b are used for turning tiles at intervals, then the tiles are stacked by the tile stacking mechanism c, the stacked tile stack A is sent to the roller shaft 6 on the lifted movable frame 5, after the tile stack A completely enters the roller shaft 6, the roller shaft 6 on the middle transverse conveying assembly unit i1 directly sends the tile stack A into the conveying assembly a and enters the centering and aligning mechanism d for the next packaging process, the movable frames 5 on the transverse conveying assembly units i1 on the two sides are lowered, the tile stack A falls onto the belt of the transverse conveying assembly 3 and is sent to the roller shaft 6 below the belt of the transverse conveying assembly 3 on the middle transverse conveying assembly unit i1 by the conveying assembly 3, after the tile stack A is sent to the position, the movable frame 5 on the middle transverse conveying assembly unit i1 falls onto the roller shaft to lift the tile stack A6, and then the tile stack A is sent to the conveying assembly a by the roller shaft 6 on the middle transverse conveying assembly unit i1 and is shot and aligned to the conveying assembly A And the mechanism d carries out the next packing procedure.

Here, the conveying surface formed by the plurality of rollers 6 is inclined toward the conveying unit a, the stopper member 7 is provided forward in the conveying direction of the rollers 6 on the movable frame 5 on the lateral conveying unit i1 on both sides, and the stopper member 7 includes a plurality of rollers provided vertically. Thus, the tile pile a enters the roller shafts 6, and since the conveying surface constituted by the plurality of roller shafts 6 is inclined toward the conveying unit a, the tile pile a slides toward the stopper member 7 and is stopped by the stopper member 7 under the self-gravity of the tile pile a, and when the tile pile a is conveyed to the intermediate lateral conveying unit i1, the tile pile a slides toward the conveying unit a and is conveyed to the conveying unit a under the self-gravity of the tile pile a.

Because the time required by the brick turning and brick stacking process is much longer than that required by other processes, three sets of brick turning mechanisms b and three sets of brick stacking mechanisms c are adopted, the time required by the brick turning and brick stacking process is shortened in a stacking mode, and the brick turning and brick stacking process is matched with other processes, so that the packing efficiency is greatly improved.

Two pairs of short-edge tape beating machines 8, a 90-degree turning component 9 and three long-edge tape beating machines 10 are sequentially arranged on the bundling mechanism h along the conveying direction of the conveying assembly a, a detection device 11 for detecting a packaging tape is arranged at the packaging tape loading position of the front pair of short-edge tape beating machines 8, and a detection device 12 for detecting the packaging tape is arranged at the packaging tape loading position corresponding to the front long-edge tape beating machine 10 and the rear long-edge tape beating machine 10 in the three long-edge tape beating machines 10. Like this, in case the preceding pair of minor face tape strapping machine 8 has not beaten the packing area and is detected by detection device 11, through the corresponding minor face tape strapping machine 8 replenishment packing belting of the control device control back pair of minor face tape strapping machine 8 to guarantee effectively that two minor faces are beaten the packing area, and when the preceding, the long limit tape strapping machine 10 in the back did not beat the packing area to packing box B, through the supplementary packing belting of long limit tape strapping machine 10 in the middle of the control device control, thereby guarantee effectively that the long limit is beaten the packing area.

Claims (10)

1. A packing production line suitable for large boards of various specifications comprises a rack, a conveying assembly arranged on the rack, a brick turning mechanism, a brick stacking mechanism, a paper pulling and placing mechanism with a centering and aligning mechanism, an upper wrap angle edge covering mechanism, a paper folding mechanism and a bundling mechanism which are sequentially arranged along the conveying assembly, and is characterized in that more than two sets of paper pulling and placing mechanisms with the centering and aligning mechanism are sequentially arranged along the conveying assembly.

2. The large board packing production line suitable for various specifications as claimed in claim 1, wherein the upper corner wrapping and edge covering mechanisms are provided in more than two sets and are arranged along the conveying assembly in sequence.

3. The large board packaging production line suitable for various specifications according to claim 1 or 2, wherein the paper folding mechanisms are more than two sets and are arranged along the conveying assembly in sequence.

4. The large plate packing production line suitable for various specifications according to claim 1 or 2, which is characterized in that the brick turning mechanism and the brick stacking mechanism are provided with three sets, a transverse conveying assembly is arranged at the front end of the conveying assembly and comprises three sets of transverse conveying assembly units, each transverse conveying assembly unit comprises a transverse frame, a transverse conveying member arranged on the transverse frame, an upper power driving device and a lower power driving device arranged on the transverse frame, the upper power driving device and the lower power driving device drive a movable frame which moves up and down, a plurality of roller shafts arranged on the movable frame in parallel, the rolling and rolling conveying direction of the roller shafts is perpendicular to the conveying direction of the transverse conveying member, and the conveying direction of the brick pile of the brick stacking mechanism is opposite to the roller shafts.

5. The large plate packing production line suitable for various specifications according to claim 3, which is characterized in that the brick turning mechanism and the brick stacking mechanism are provided with three sets, a transverse conveying assembly is arranged at the front end of the conveying assembly and comprises three sets of transverse conveying assembly units, each transverse conveying assembly unit comprises a transverse frame, a transverse conveying component arranged on the transverse frame, an upper power driving device and a lower power driving device arranged on the transverse frame, the upper power driving device and the lower power driving device drive a movable frame which moves up and down, a plurality of roller shafts arranged on the movable frame in parallel, the rolling and rolling conveying direction of the roller shafts is perpendicular to the conveying direction of the transverse conveying component, and the conveying direction of the brick stack mechanism faces the roller shafts.

6. The multiple format large panel baling line of claim 5 wherein the roller feed outlet of the intermediate lateral transfer assembly unit is opposite the feed port of the transfer assembly tile stack.

7. The multiple format large panel baling line of claim 4 wherein the roller feed outlet of the intermediate lateral transfer assembly unit is opposite the feed port of the transfer assembly tile stack.

8. The large board baling line of claim 5, 6 or 7, wherein the conveying surface formed by the plurality of rollers is inclined toward the conveying assembly, and the stopping members are disposed in front of the conveying direction of the rollers on the movable frames of the lateral conveying assembly units at both sides, and the stopping members comprise a plurality of rollers disposed vertically.

9. The large board baling line for multiple sizes of boards as claimed in claim 4, wherein the conveying surface formed by the plurality of rollers is inclined toward the conveying assembly, and the stopping members are disposed in front of the conveying direction of the rollers on the movable frames of the lateral conveying assembly units at both sides, and the stopping members comprise a plurality of rollers vertically disposed.

10. The large board packing production line suitable for various specifications according to claim 1, 2, 5, 6 or 7, characterized in that two pairs of short edge belt beating machines, 90-degree turning members and three long edge belt beating machines are sequentially arranged in the binding mechanism along the conveying direction of the conveying assembly, a detection device for detecting the packing belt is arranged at the packing belt loading position of the front pair of short edge belt beating machines, and a detection device for detecting the packing belt is arranged at the packing belt loading position corresponding to the front long edge belt beating machine and the rear long edge belt beating machine in the three long edge belt beating machines.

Images