CN208616811U - A kind of turn-over rig applied on ceramic tile automatic assembly line - Google Patents

Abstract

The utility model relates to a kind of turn-over rigs applied on ceramic tile automatic assembly line, including rack, rollover stand, driving mechanism, upper conveyor belt component, lower conveyer belt component, positioning compression mechanism, wherein upper conveyor belt component and lower conveyer belt component are mounted on rollover stand in upper and lower arrangement, and keep upper conveyor belt component and the conveying direction of lower conveyer belt component in the same direction, shifting material gap is formed between the upper conveyor belt component, lower conveyer belt component；The positioning compression mechanism is arranged on rollover stand, and enables positioning compression mechanism active action in shifting material gap；The rollover stand is hingedly on the rack；The driving mechanism is arranged on the rack, and is drivingly connected rollover stand mutually with driving mechanism, rotates rollover stand around its hinged center line with the driving by driving mechanism.The utility model has many advantages, such as that simple structure, good reliability, turn-over are high-efficient.

Description

A kind of turn-over rig applied on ceramic tile automatic assembly line

Technical field

The utility model relates to production equipment for ceramic tiles field, especially a kind of turn-over rig.

Background technique

In the production process of ceramic tile, generally require to carry out turn-over processing to ceramic tile or piled bricks, to meet the processing of ceramic tile Or packaging needs.Existing turn-over processing is by being accomplished manually mostly, and the efficiency of turn-over is very low, greatly affected enterprise The production efficiency of industry, and the labor intensity that will cause worker increases.Although occurring the turn-over for carrying out turn-over processing at present Device, but existing turn-over rig the deficiencies of there is also structure is complicated, turn-over low efficiency.Such as: Chinese Patent Application No. is The patent document of CN201420789438.8, disclose it is a it is entitled " a kind of automatic adaptation different-thickness packing case The technical solution of turn-over rig ", the technical solution disclose following technical characteristic: it discloses a kind of for equipped with ceramic tile The turnover device that packing case is overturn；The turnover device includes variable fork-shaped pivoted arm, for driving the variable fork-shaped pivoted arm Motor, top plate, the cylinder for driving the movement of roof of rotation.In the turnover device use process, make equipped with ceramic tile Packing case enter variable fork-shaped pivoted arm, and positioned, swung then as variable fork-shaped pivoted arm, to realize turn-over behaviour by top plate Make.Variable fork-shaped pivoted arm complete turn-over movement after, it is also necessary to swing return, so as to next packing case equipped with ceramic tile into Row turn-over, that is, variable fork-shaped pivoted arm it is every complete a turn-over movement empty will swing it is primary, therefore its turn-over efficiency compared with It is low.

Utility model content

Utility model aims to solve the above problems and deficiency, provide a kind of apply on ceramic tile automatic assembly line Turn-over rig, which has many advantages, such as that structure simple, high reliablity, turn-over are high-efficient.

The technical solution of the utility model is achieved in that

A kind of turn-over rig applied on ceramic tile automatic assembly line, it is characterized in that including rack, rollover stand, driving machine Structure, upper conveyor belt component, lower conveyer belt component, positioning compression mechanism, wherein upper conveyor belt component is presented with lower conveyer belt component It is mounted on rollover stand to lower arrangement, and keeps upper conveyor belt component and the conveying direction of lower conveyer belt component in the same direction, it is described defeated It send and is formed with shifting material gap between band component, lower conveyer belt component；The positioning compression mechanism is arranged on rollover stand, and makes to determine Position hold-down mechanism can active action in move material gap in；The rollover stand is hingedly on the rack；The driving mechanism setting exists It in rack, and is drivingly connected rollover stand mutually with driving mechanism, makes rollover stand around its hinge with the driving by driving mechanism Connect center line rotation.

It is described for the drive mechanism for advanced optimizing upper conveyor belt component Yu lower conveyer belt component on the basis of above-mentioned Turn-over rig further includes interlocking chain, and the rollover stand is equipped with driving motor, and makes upper conveyor belt component and driving motor phase It is drivingly connected or is drivingly connected lower conveyer belt component mutually with driving motor, the gearing chain both ends are connected to conveying On band component and lower conveyer belt component, to make upper conveyor belt component mutually be sequentially connected with lower conveyer belt component by interlocking chain.

On the basis of above-mentioned, for the structure for advanced optimizing driving mechanism, the driving mechanism includes driving cylinder, passes Dynamic chain, fast pulley, the rollover stand are equipped with toothed wheel, and make toothed wheel center line and rollover stand hinged center line it is same Axis, the driving cylinder and fast pulley are respectively set on the rack, the transmission chain rotating around in toothed wheel and fast pulley, The piston rod of the driving cylinder is connected on transmission chain, drives transmission chain with the piston rod by driving cylinder.

On the basis of above-mentioned, for the stability for further increasing driving mechanism operation, the rack is equipped with guide rod, The guide rod be equipped with can along guide rod slide sliding shoe, and make sliding shoe respectively with driving cylinder piston rod, transmission Chain connects.

On the basis of above-mentioned, for the structure for advanced optimizing positioning compression mechanism, the positioning compression mechanism includes pressure Flitch, press cylinder, the press cylinder are arranged on rollover stand, and the pressure plate is arranged on the piston rod of press cylinder, To push pressure plate that its disengaging is made to move material gap by press cylinder.

On the basis of above-mentioned, for the reliability for further increasing rollover stand overturning, the rollover stand, which is equipped with to swing, to be determined Position arm, and enable to swing registration arm one end and swing disengaging and move to expect gap.

The utility model has the beneficial effects that the turn-over rig of the utility model can be to monolithic ceramic tile, piled bricks or equipped with ceramic tile The products such as packing case carry out turn-over processing, adaptation range is larger.In turn-over rig use process, monolithic ceramic tile, piled bricks Or the products such as packing case equipped with ceramic tile can be entered by lower conveyer belt component in shifting material gap；When product completely into when, Positioning compression mechanism can be made to be pressed on product, product to be limited on lower conveyer belt component by positioning compression mechanism； Alternatively, positioning compression mechanism is made to have jacked product, product is pressed on upper conveyor belt component, passes through positioning compression mechanism in this way Product can be effectively defined in shifting material gap.When making rollover stand realize rotary movement by driving mechanism, material gap is moved In product can do together rotary movement with rollover stand.After rollover stand degrees of rotation, so that it may product be made to realize turn-over；This Shi Shi positioning compression mechanism is slowly unclamped, and drops to product on upper conveyor belt component；Or it directly unclamps and is pressed in product The positioning compression mechanism of upper conveyor belt component.Product is on upper conveyor belt component in this way, this can pass through upper conveyor belt group Product is rapidly transferred out shifting material gap by part.Meanwhile next product can enter shifting material gap by upper conveyor belt component, And positioning is equally realized by positioning compression mechanism；In this way after the completion of one movement of turn-over rig, the case where resetting is not being had to Under, it can proceed with turn-over movement, the case where there is no any dry runs, this can greatly improve the turn-over efficiency of product.By In good pressuring action can be played to product by positioning compression mechanism, to prevent product from occurring during product turn-over The reliability of the case where landing, the turn-over rig are very high.And in the entire turn-over action process of the turn-over rig, it is not necessarily to work People participates in, and fully achieves automation, can be effectively reduced the labor intensity of worker, and improves the production efficiency of enterprise.Meanwhile The turn-over rig overall structure also very simple of the utility model.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model main view direction.

Fig. 2 is the structural schematic diagram of the utility model right view direction.

Fig. 3 is one of the structural schematic diagram of rollover stand in the utility model.

Fig. 4 is the second structural representation of rollover stand in the utility model.

Fig. 5 is the structural schematic diagram of driving mechanism in the utility model.

Fig. 6 is the structural schematic diagram of positioning compression mechanism in the utility model.

Fig. 7 is the utility model use state with reference to one of figure.

Fig. 8 is the utility model use state with reference to the two of figure.

Specific embodiment

As shown in figures 1 and 3, a kind of turn-over rig applied on ceramic tile automatic assembly line described in the utility model, Including rack 1, rollover stand 2, driving mechanism 3, upper conveyor belt component 4, lower conveyer belt component 5, positioning compression mechanism 6, wherein on Conveyer belt assembly 4 and lower conveyer belt component 5 are mounted on rollover stand 2 in upper and lower arrangement, and keep upper conveyor belt component 4 defeated under It send the conveying direction with component 5 in the same direction, shifting material gap 10 is formed between the upper conveyor belt component 4, lower conveyer belt component 5； The positioning compression mechanism 6 is arranged on rollover stand 2, and enables 6 active action of positioning compression mechanism in shifting material gap 10； The rollover stand 2 is hinged in rack 1；The driving mechanism 3 is arranged in rack 1, and makes rollover stand 2 and 3 phase of driving mechanism It is drivingly connected, rotates rollover stand 2 around its hinged center line with the driving by driving mechanism 3.The utility model turns over Face device can carry out turn-over processing to products such as monolithic ceramic tile, piled bricks 20 or packing cases equipped with ceramic tile, and adaptation range is larger. In turn-over rig use process, the products such as monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile can pass through lower conveyer belt group Part 5 enters in shifting material gap 10；When product completely into when, so that it may be pressed on positioning compression mechanism 6 on product, to pass through Product is limited on lower conveyer belt component 5 by positioning compression mechanism 6；Alternatively, positioning compression mechanism 6 is made to have jacked product, will produce Product are pressed on upper conveyor belt component 4, and product can be effectively defined in shifting material gap 10 by positioning compression mechanism 6 in this way In.When making rollover stand 2 realize rotary movement by driving mechanism 3, the product moved in material gap 10 can be with rollover stand 2 Rotary movement is done together.After rollover stand 2 rotates 180 degree, so that it may product be made to realize turn-over；At this moment make positioning compression mechanism 6 slow It is slow to unclamp, drop to product on upper conveyor belt component 4；Or it directly unclamps and product is pressed in determining for upper conveyor belt component 4 Position hold-down mechanism 6.Product is on upper conveyor belt component 4 in this way, this can by upper conveyor belt component 4 by product rapidly Transfer out shifting material gap 10.Meanwhile next product can enter shifting material gap 10 by upper conveyor belt component 4, and equally logical It crosses positioning compression mechanism 6 and realizes positioning；It, can be after in the case where not having to reset in this way after the completion of one movement of turn-over rig The case where continuous progress turn-over movement, there is no any dry runs, this can greatly improve the turn-over efficiency of product.Due to product During turn-over, good pressuring action can be played to product by positioning compression mechanism 6, to prevent product from occurring sliding The reliability of situation, the turn-over rig is very high.

And in the entire turn-over action process of the turn-over rig, is participated in without worker, fully achieve automation, can have Effect ground reduces the labor intensity of worker, and improves the production efficiency of enterprise.Meanwhile the turn-over rig overall structure of the utility model Also very simple.

On the basis of above-mentioned, for the drive mechanism for advanced optimizing upper conveyor belt component Yu lower conveyer belt component, such as Fig. 1 With shown in Fig. 3, the turn-over rig further includes interlocking chain 22, and the rollover stand 2 is equipped with driving motor 21, and makes conveying Band component 4 is drivingly connected with 21 phase of driving motor or makes lower conveyer belt component 5 and 21 phase of driving motor to be drivingly connected, described It interlocks 22 both ends of chain to be connected on upper conveyor belt component 4 and lower conveyer belt component 5, to make upper conveyor belt by interlocking chain 22 Component 4 is sequentially connected with 5 phase of lower conveyer belt component.It designs through this structure, upper conveyor belt component 4 or lower conveyer belt can be made Component 5 shares a motor, and to reduce turn-over rig manufacturing cost, the design is very ingenious, can be made by interlocking chain 22 Conveyer belt assembly 4 and lower conveyer belt component 5, which are realized, to be interlocked.And the setting by interlocking chain 22 can guarantee the accurate of operation Property, the case where avoiding the occurrence of skidding.As shown in Figure 2, Figure 4 shows, protection can be installed outside chain 22 additional interlocking to improve security performance Cover 23.

On the basis of above-mentioned, for the structure for advanced optimizing driving mechanism, as shown in figure 5, the driving mechanism 3 includes Drive cylinder 31, transmission chain 32, fast pulley 33, the rollover stand 2 is equipped with toothed wheel 24, and make the center line of toothed wheel 24 with The hinged center line of rollover stand 2 is coaxial, and the driving cylinder 31 is separately positioned in rack 1 with fast pulley 33, the transmission chain 32 rotating around in toothed wheel 24 and fast pulley 33, and the piston rod of the driving cylinder 31 is connected on transmission chain 32, with logical Overdrive cylinder 31 piston rod drive transmission chain 32.In the fabrication process, tensioning can be set in driving mechanism 3 as needed Wheel 34, and make transmission chain 32 around on tensioning wheel 34.When toothed wheel 24 is installed, make the hinge at toothed wheel 24 center and rollover stand 2 It is identical to connect center.In above structure, the setting of transmission chain 32 and toothed wheel 24, it is ensured that the reliability of drive mechanism prevents The case where having skidded.When manufacturing and designing, also rotation fortune can be swung or done by driving motor and chain-driving rollover stand 2 It is dynamic.

On the basis of above-mentioned, to further increase the stability that driving mechanism is run, as shown in figure 5, in the rack 1 Equipped with guide rod 35, the guide rod 35 be equipped with can along guide rod 35 slide sliding shoe 36, and make sliding shoe 36 respectively with Piston rod, the transmission chain 32 of driving cylinder 31 connect.It designs through this structure, cylinder 31 can be driven to drive transmission chain 32 The stability of rotation, this is conducive to the reliability for improving the rotation of rollover stand 2 or swinging.

On the basis of above-mentioned, for the structure for advanced optimizing positioning compression mechanism, as shown in fig. 6, the positioning compression Mechanism 6 includes pressure plate 61, press cylinder 62, and the press cylinder 62 is arranged on rollover stand 2, and the setting of pressure plate 61 exists On the piston rod of press cylinder 62, to push pressure plate 61 that its disengaging is made to move material gap 10 by press cylinder 62.It, can when manufacture Soft rubber cushion is arranged on the contact surface of pressure plate 61.Wherein, positioning compression mechanism 6 and list can be improved in the setting of pressure plate 61 The active area of block ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile prevents monolithic to guarantee to compress the reliability of positioning action There is the case where loose or dislocation, and the structure very simple in ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile.In manufacturing process In, activity-oriented column 63 can be set in positioning compression mechanism 6,63 end of activity-oriented column is connected in pressure plate 61, and Be set in activity-oriented column 63 can axially slidably on rollover stand 2 along it.

On the basis of above-mentioned, to further increase the reliability that rollover stand is overturn, as shown in figure 4, on the rollover stand 2 Equipped with swing registration arm 25, and enable to swing 25 one end of registration arm and swing disengaging and move to expect gap 10.When monolithic ceramic tile, piled bricks 20 or After packing case equipped with ceramic tile enters in shifting material gap 10, it can make to swing the swing of registration arm 25 and be resisted against monolithic ceramic tile, brick On pile 20 or packing case side wall equipped with ceramic tile, to improve the limit to monolithic ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile Effect further increases the reliability of turn-over rig overturning.The swing registration arm 25 can realize automatic swing, swing positioning The power of 25 automatic swing of arm can be provided by cylinder or motor.

As shown in Figure 7 and Figure 8, the turn-over rig of the utility model is applied on ceramic tile automatic assembly line, when installation, Turn-over rig is set between the identical conveyer belt 30 of two height, and lower conveyer belt component 5 is made to be in same with conveyer belt 30 Highly, sustained height is in conveyer belt 30 after turning down upper conveyor belt component 4.When turn-over rig carries out turn-over operation, Monolithic ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile can be moved into lower conveyer belt component by a wherein conveying of conveyer belt 30 On 5, then it can be entered by lower conveyer belt component 5 in shifting material gap 10；Then by positioning compression mechanism 6 to monolithic porcelain Brick, piled bricks 20 or the packing case equipped with ceramic tile are positioned；Then make monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile with Rollover stand 2 rotate together, stop when upper conveyor belt component 4 is in after sustained height with conveyer belt 30, this is just to monolithic Ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile realize turn-over.Followed by positioning compression mechanism 6 is unclamped, monolithic porcelain will be made Brick, piled bricks 20 or the packing case equipped with ceramic tile are on upper conveyor belt component 4, at this moment can will be single by upper conveyor belt component 4 Block ceramic tile, piled bricks 20 or the packing box transmission equipped with ceramic tile go out to move material gap 10, and product is transplanted on another conveyer belt 30, This is with regard to complete turn-over movement.When next product is inputted by conveyer belt 30, just guided by upper conveyor belt component 4 It enters in shifting material gap 10.In this way when not rotating or swinging rollover stand 2, it can directly make new monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile carry out turn-over.In aforesaid operations, no matter rollover stand 2 turn that position can be successfully Monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile are led into shifting material gap 10, and by monolithic ceramic tile, piled bricks 20 or Packing case equipped with ceramic tile smoothly transfers out shifting material gap 10, swings or the appearance of empty rotational case this effectively avoids empty, To be greatly improved the efficiency of product turn-over.30 end of conveyer belt can be arranged in turn-over rig in actual use, with Product is transferred to turn-over rig by the conveyer belt 30, while being transferred away the product that turn-over is completed by the conveyer belt 30.

When positioning compression mechanism 6 is located at lower conveyer belt 5 side of component, will just be conveyed by positioning compression mechanism 6 first Monolithic ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile come in, which are pressed against on the loading end of lower conveyer belt component 5 and realized, to be determined Position；After upper conveyor belt component 4 and lower conveyer belt component 5 exchange upper and lower position, unclamping positioning compression mechanism 6 can be by upper defeated It send and monolithic ceramic tile, piled bricks 20 or packing box transmission equipped with ceramic tile directly is gone out to move material gap 10 with component 4；When new monolithic porcelain When brick, piled bricks 20 or the packing case equipped with ceramic tile enter shifting material gap 10, just directly it will convey by positioning compression mechanism 6 Monolithic ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile be pressed on the loading end of upper conveyor belt component 4, complete next to turn over Unclamping positioning compression mechanism 6 after the movement of face makes monolithic ceramic tile, piled bricks 20 or the packing case equipped with ceramic tile fall in lower conveyer belt component 5 On, material gap 10 is moved to send out monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile by lower conveyer belt component 5.

Similarly, when positioning compression mechanism 6 is arranged at upper conveyor belt 4 side of component, first just by positioning compression mechanism 6 Monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile that conveying is come in are pressed on lower conveyer belt component 5 and realize positioning；When After upper conveyor belt component 4 and lower conveyer belt component 5 exchange upper and lower position, monolithic ceramic tile, brick can be made by unclamping positioning compression mechanism 6 Pile 20 or packing case equipped with ceramic tile are fallen on upper conveyor belt component 4, with by upper conveyor belt component 4 by monolithic ceramic tile, piled bricks 20 or the packing box transmission equipped with ceramic tile go out move material gap 10；Then directly by new monolithic ceramic tile, piled bricks 20 or equipped with ceramic tile Packing case by upper conveyor belt component 4 be input to shifting material gap 10 in, then by positioning compression mechanism 6 by monolithic ceramic tile, Piled bricks 20 or packing case equipped with ceramic tile press against on lower conveyer belt component 5, unclamp positioning after completing next turn-over movement Monolithic ceramic tile, piled bricks 20 or packing case equipped with ceramic tile can directly be sent out by lower conveyer belt component 5 and move material by hold-down mechanism 6 Gap 10.

Claims (6)

1. a kind of turn-over rig applied on ceramic tile automatic assembly line, it is characterised in that: including rack (1), rollover stand (2), Driving mechanism (3), upper conveyor belt component (4), lower conveyer belt component (5), positioning compression mechanism (6), wherein upper conveyor belt component (4) it is mounted on rollover stand (2) with lower conveyer belt component (5) in upper and lower arrangement, and makes upper conveyor belt component (4) and lower conveying Conveying direction with component (5) is in the same direction, and shifting material gap is formed between the upper conveyor belt component (4), lower conveyer belt component (5) (10)；The positioning compression mechanism (6) is arranged on rollover stand (2), and make positioning compression mechanism (6) can active action in shifting Expect in gap (10)；The rollover stand (2) is hinged on rack (1)；The driving mechanism (3) is arranged on rack (1), and makes Rollover stand (2) is mutually drivingly connected with driving mechanism (3), makes rollover stand (2) around its hinge with the driving by driving mechanism (3) Connect center line rotation.

2. applying the turn-over rig on ceramic tile automatic assembly line according to claim 1, it is characterised in that: further include interlocking Chain (22), the rollover stand (2) is equipped with driving motor (21), and makes upper conveyor belt component (4) and driving motor (21) phase It is drivingly connected or is drivingly connected lower conveyer belt component (5) mutually with driving motor (21), the gearing chain (22) both ends connect Connect on upper conveyor belt component (4) and lower conveyer belt component (5), with by interlock chain (22) make upper conveyor belt component (4) with Lower conveyer belt component (5) is mutually sequentially connected.

3. applying the turn-over rig on ceramic tile automatic assembly line according to claim 1, it is characterised in that: the driving machine Structure (3) includes driving cylinder (31), transmission chain (32), fast pulley (33), and the rollover stand (2) is equipped with toothed wheel (24), and Keep the center line of toothed wheel (24) and the hinged center line of rollover stand (2) coaxial, the driving cylinder (31) and fast pulley (33) It is separately positioned on rack (1), the transmission chain (32) is rotating around on toothed wheel (24) and fast pulley (33), the driving The piston rod of cylinder (31) is connected on transmission chain (32), to drive transmission chain (32) by the piston rod of driving cylinder (31).

4. applying the turn-over rig on ceramic tile automatic assembly line according to claim 3, it is characterised in that: the rack (1) guide rod (35) are equipped with, the guide rod (35) is equipped with the sliding shoe (36) that can be slided along guide rod (35), and makes to slide Motion block (36) connects with piston rod, the transmission chain (32) of driving cylinder (31) respectively.

5. applying the turn-over rig on ceramic tile automatic assembly line according to claim 1, it is characterised in that: the positioning pressure Tight mechanism (6) includes pressure plate (61), press cylinder (62), and the press cylinder (62) is arranged on rollover stand (2), the pressure Flitch (61) is arranged on the piston rod of press cylinder (62), to push pressure plate (61) to make its disengaging by press cylinder (62) Move material gap (10).

6. according to claim 1 or 5 turn-over rigs applied on ceramic tile automatic assembly line, it is characterised in that: described to turn over Pivoted frame (2), which is equipped with, swings registration arm (25), and so that swing registration arm (25) one end is swung disengaging and move material gap (10).